KR101421577B1 - Method for Recognizing Selective Touch by using Transparent Touch Area - Google Patents

Abstract

The present invention relates to a method for recognizing selective touch with a transparent touch area. The method for recognizing the selective touch with the transparent touch area executed in a wireless terminal having a touch screen which supports multi-touch comprises the steps of: setting the transparent touch area to selectively recognize predetermined number or more touches on a basic touch area displayed on the touch screen; confirming whether the predetermined number or more touches are recognized through the touch screen in a state that the transparent touch area is set; and processing predetermined number or less touches as the touch of the basic touch area when the predetermined number or less touches are recognized through the touch screen, and processing the predetermined number or more touches as the touch for the transparent touch area when the predetermined number or more touches are recognized through the touch screen.

Description

TECHNICAL FIELD [0001] The present invention relates to a selective touch recognition method using a transparent touch area,

The present invention is characterized in that after setting a transparent touch area for selectively recognizing a specified number of multi-touches over a basic touch area displayed on a touch screen of a wireless terminal, the transparent touch area is displayed on the touch screen, When a touch is recognized, a service corresponding to the basic touch area is provided by processing the touch of less than the designated number as a touch of the basic touch area, and when a predetermined number or more of multiple touches are recognized through the touch screen And a service corresponding to the specified number of touches or more is provided by processing the specified number or more of touches by touching the transparent touch region.

A touch service for providing various services by touching a paint type touch device to a touch screen of a wireless terminal will be disclosed. In order to provide such a touch service, a program for recognizing a touch by a touch device in the form of a paint must first be running in the wireless terminal.

On the other hand, a number of applications are already installed in a wireless terminal including a smart phone and a touch screen. Accordingly, when a user operates a program for recognizing a touch by a touch-type touch device in a wireless terminal in order to provide the touch service, a program for recognizing a touch device of a paint type among a large number of applications, It may cause inconvenience until it is driven.

In order to solve the above problems, an object of the present invention is to set a transparent touch area for selectively recognizing a touch of a specified number or more on a basic touch area displayed on a touch screen of a wireless terminal, Wherein the touch screen recognizes that a predetermined number or more of touches are recognized through the touch screen, and when less than a specified number of touches are recognized through the touch screen, And a transparent touch area for touching the predetermined number or more of touches with respect to the transparent touch area when a predetermined number or more of touches are recognized through the transparent touch area.

A method for selectively recognizing a touch using a transparent touch region according to the present invention is a method for selectively recognizing a touch using a transparent touch region executed in a wireless terminal having a touch screen supporting multi- A first step of setting a transparent touch area for selectively recognizing a touch of a specified number or more on the touch screen, a second step of checking whether a specified number of touches are recognized through the touch screen in a state where the transparent touch area is set, Processing a touch less than the specified number of touches by a touch of the basic touch region when a touch of less than a specified number is recognized through a screen, A third step of processing the transparent touch area by touching It should.

According to the present invention, the selective touch recognition method using the transparent touch area may further include identifying a basic touch area displayed on the touch screen.

According to the present invention, the selective touch recognition method using the transparent touch area may further include displaying the touch recognition interface including T (T? 1) touch recognition areas as a basic touch area on the touch screen have.

According to the present invention, the basic touch area may include T (T? 1) touch recognition areas capable of generating a specified touch event by recognizing one touch point to less than a specified number of touch points. Meanwhile, the transparent touch area may be a touch area that is set to recognize the touch of the predetermined number or more, but includes a transparent area, and the touch recognition area is not displayed on the touch screen. The transparent area may be an entire area of the touch screen Some areas may be transparent. The transparent touch region may include at least one of an entire region of the touch screen, and a region matched with the touch region in which the basic touch region is displayed.

According to the present invention, the designation number may be determined as a number exceeding the maximum number of touch points that can be processed in the basic touch area.

According to the present invention,

And a plurality of touches where a specified number or more of touch points are touched in accordance with one or more specified conditions.

According to the present invention, the touch processed by the touch with respect to the transparent touch area may include a simultaneous touch in which a specified number or more of touch points are simultaneously touched through the designated touch device. Meanwhile, the touch processed by the touch with respect to the transparent touch area may include a shape touch in which a touch surface of a specified shape is touched through a designated touch device.

According to the present invention, the selective touch recognition method using the transparent touch area further comprises setting data to be used for a service to be provided on the basis of the touch processed by the touch of the transparent touch area, And processing the set data to be used for the service when the touch is processed by the touch of the transparent touch area.

According to another aspect of the present invention, there is provided a method for selectively recognizing a touch using a transparent touch area, the method comprising: setting an operation function to be used for a service to be provided based on a touch processed by a touch of the transparent touch area; And processing the service so that the set operation function is performed when the touch through the transparent touch area is processed by the touch of the transparent touch area.

According to the present invention, the selective touch recognition method using the transparent touch area further comprises setting a specific program to be operated based on the touch processed by the touch of the transparent touch area, And processing the set specific program to operate when the touch of the transparent touch area is processed.

According to the present invention, the selective touch recognition method using the transparent touch area further includes setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area, And recognizing at least a specified number of simultaneous touches of the transparent touch region by reading the touch processed by the touch of the transparent touch region through the set simultaneous touch recognition condition when the touch is processed by the touch of the transparent touch region .

According to another aspect of the present invention, there is provided a method for selectively recognizing a touch using a transparent touch area, comprising: setting a simultaneous touch recognition condition for a touch to be processed by touching the transparent touch area; Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, Recognizing at least a specified number of simultaneous touches for the area, and processing the data set for the recognized simultaneous touch to be used.

According to the present invention, the selective touch recognition method using the transparent touch area comprises: setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area and performing an operation function Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, Recognizing at least a specified number of simultaneous touches with respect to the touch area, and processing to perform an operation function set for the recognized simultaneous touch.

According to another aspect of the present invention, there is provided a method for selectively recognizing a touch using a transparent touch area, comprising: setting a simultaneous touch recognition condition for a touch to be processed by touching the transparent touch area; The method of claim 1, further comprising the step of: if the touch through the touch screen is processed by the touch of the transparent touch area, reading the touch processed by the touch of the transparent touch area through the set simultaneous touch recognition condition, Recognizing at least a specified number of simultaneous touches to the transparent touch area, and processing the specific program set for the recognized simultaneous touch to operate.

According to another aspect of the present invention, there is provided a method for selectively recognizing a touch using a transparent touch area, the method comprising: setting a simultaneous touch authentication condition for a touch to be processed by touching the transparent touch area; The method further comprises the step of authenticating a touch of a specified number or more to the transparent touch area by reading the touch processed by the touch of the transparent touch area through the set simultaneous touch authentication condition .

According to another aspect of the present invention, there is provided an optional touch recognition method using the transparent touch area, comprising: setting a simultaneous touch authentication condition for a touch to be processed by touching the transparent touch area; Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch authentication condition, Authenticating at least a specified number of simultaneous touches for the area, and processing the data set for the authenticated simultaneous touch to be used.

According to the present invention, an optional touch recognition method using the transparent touch area includes: setting a simultaneous touch authentication condition for a touch to be processed by the touch of the transparent touch area and performing an operation function Wherein when the touch through the touch screen is processed by the touch of the transparent touch region, the touch processed by the touch of the transparent touch region is read through the set simultaneous touch authentication condition, Authenticating at least a specified number of simultaneous touches with respect to the touch area, and processing the operation function set to the authenticated simultaneous touch to be performed.

According to another aspect of the present invention, there is provided a method for selectively recognizing a touch using a transparent touch area, comprising: setting a simultaneous touch authentication condition for a touch to be processed by touching the transparent touch area; Wherein when the touch through the touch screen is processed by the touch of the transparent touch region, the touch processed by the touch of the transparent touch region is read through the set simultaneous touch authentication condition, Authenticating at least a specified number of simultaneous touches to the transparent touch area, and processing the specific program set for the authenticated simultaneous touch to operate.

According to the present invention, the selective touch recognition method using the transparent touch area further includes setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area, And recognizing at least a specified number of simultaneous touches of the transparent touch region by reading the touch processed by the touch of the transparent touch region through the set simultaneous touch recognition condition when the touch is processed by the touch of the transparent touch region .

According to the present invention, a user uses a wireless terminal having a touch screen on the basis of touch recognition as usual, and touches a screen-shaped touch device on the screen with the currently displayed interface regardless of what interface screen is displayed on the touch screen There is an advantage in that various touch services are provided by touching a touch device of a paint type in a currently displayed interface screen state without touching a separate program for recognizing the touch device of the paint type.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a functional block diagram of a wireless terminal and a program according to an embodiment of the present invention; FIG.
2A to 2M are diagrams showing a functional configuration of a program according to an embodiment of the present invention.
3 is a diagram illustrating a touch device according to an embodiment of the present invention.
4 is a diagram showing the configuration of an electronic module incorporated in the touch device of the present invention.
5 is a diagram showing a system configuration according to an embodiment of the present invention.
6 is a diagram illustrating a process of registering an authentication condition for a touch authentication service according to an embodiment of the present invention.
7 is a diagram illustrating a process of applying an authentication condition for a touch authentication service according to an embodiment of the present invention.
8 is a diagram illustrating a process of selectively recognizing a touch through a transparent touch area according to an embodiment of the present invention.
9 is a diagram illustrating a process of recognizing and authenticating a simultaneous touch point according to an embodiment of the present invention.
10 is a diagram illustrating a process of recognizing and authenticating a shape touch surface according to an embodiment of the present invention.
11 is a diagram illustrating a process of providing a service through selective touch recognition according to an embodiment of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention. For example, it is possible that a configuration provided on the server side is implemented on the terminal side, or conversely, a configuration portion provided on the terminal side is implemented on the server side.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs Only.

FIG. 1 is a diagram showing a functional configuration of a wireless terminal 100 and a program 120 according to an embodiment of the present invention.

1, a transparent touch area for selectively recognizing a plurality of touches of a specified number or more is set on the basic touch area displayed on the touch screen 105 of the wireless terminal 100, When a touch of less than a designated number is recognized through the touch screen 105, a service corresponding to the basic touch area is provided by processing the touch of less than the designated number as a touch of the basic touch area, A program (120) for processing a predetermined number or more of touches by touching the transparent touch area when a plurality of multi-touches of a specified number or more are recognized through the screen (105) And a configuration of the wireless terminal 100 that drives the wireless terminal 100, It will be understood by those skilled in the art that various changes and modifications may be made in the method of the present invention without departing from the spirit and scope of the invention. And the technical characteristics thereof are not limited only by the method shown in FIG.

1, the wireless terminal 100 includes a control unit 101, a memory unit 115, a screen output unit 103, a touch input unit 104, a key input unit 102, a sound output unit 106, A sound input unit 107, a camera unit 108, a wireless network communication unit 111, a short range wireless communication unit 110, a proximity wireless communication unit 112, a positioning unit 113, a USIM reader unit 114, And a battery 109 for power supply. The wireless terminal 100 of the present invention collectively refers to a wireless communication device capable of wireless communication and capable of touch input, and preferably includes at least one of a smart phone, a mobile phone, and a tablet PC.

The control unit 101 is a general term for controlling the operation of the wireless terminal 100. The control unit 101 includes at least one processor and an execution memory, BUS). According to the present invention, the control unit 101 loads at least one program code provided in the wireless terminal 100 into the execution memory through the processor, and outputs the result to the at least one constituent unit And controls the operation of the wireless terminal 100. Hereinafter, the configuration of the program 120 of the present invention, which is implemented in the form of program code for convenience, will be described in the control unit 101. FIG.

The memory unit 115 is a general term of a nonvolatile memory corresponding to a storage resource provided in the wireless terminal 100 and includes at least one program code executed through the control unit 101 and at least one program code One data set is stored and maintained. The memory unit 115 basically comprises a system program code and a system data set corresponding to the operating system of the wireless terminal 100, a communication program code and a communication data set for processing a wireless communication connection of the wireless terminal 100, The program code and data set corresponding to the program 120 of the present invention are also stored in the memory unit 115. In addition,

The screen output unit 103 is composed of a display (for example, a liquid crystal display (LCD)) corresponding to an output resource provided in the wireless terminal 100 and a driving module for driving the display, And outputs an operation result corresponding to the screen output among the various operation results of the control unit 101 to the display.

The touch input unit 104 is composed of a touch pad made of a transparent material corresponding to an input resource provided in the wireless terminal 100 and a driving module for driving the touch pad. The touch input unit 104 is connected to the control unit 101 via a bus, The control unit 101 receives the touch input value corresponding to the specific coordinate area mapped with the interface screen output through the touch screen input unit 103 and transmits the touch input value to the control unit 101. The control unit 101 matches the touch input value with the interface screen, And obtains the data necessary for the operation of the control unit 101. [ Preferably, the touch input unit 104 includes a capacitive touch pad supporting a capacitive touch. The touch input unit 104 is combined with the screen output unit 103 to implement a touch screen 105 provided in the wireless terminal 100. [

The electrostatic touch recognizes the touch by detecting the change of the charge due to the static electricity. When touching the electrostatic touch pad with a finger of a person, a charge change occurs in the electrostatic touch pad due to the static electricity in the human body, and the coordinates at which the change in charge is generated based on the coordinate system set in the electrostatic touch pad The touch point can be recognized. On the other hand, the coordinates at which the telephone change occurs due to such a touch are in the form of coordinate areas rather than as coordinate points on the coordinate system set in the corresponding electrostatic touch pad. That is, when the electrostatic touch pad is touched using a human finger, since a certain area is formed between the human finger and the touch pad, the change of the telephone is formed in the form of a coordinate area on the coordinate system set on the electrostatic touch pad . Preferably, the electrostatic touch can recognize the touch point by reading the scalar in the coordinate area. For example, the touch input unit 104 may recognize a center value of coordinate values in which a quantity of charge equal to or larger than a reference value designated by the electrostatic touch is changed as a touch point.

According to the embodiment of the present invention, the touch input unit 104 supports multi-touch that recognizes a plurality of touch points through the electrostatic touch pad. Here, the multi-touch means a touch having two or more touch points that can be recognized through the touch input unit 104. That is, the touch input unit 104 can recognize two or more coordinate areas where the charge changes on the electrostatic touch pad, and recognize them as respective touch points. On the other hand, it is apparent that the touch method of the touch input unit 104 is not limited to the electrostatic touch, and that various touch methods other than electrostatic touch can be applied to a touch method supporting multi-touch.

According to an embodiment of the present invention, the touch input unit 104 may be configured to distinguish two or more different touch points touched on the touch pad in order to support multi-touch, The distinction recognition distance can be set. That is, since the electrostatic touch recognizes the coordinate area in which the charge changes, it is difficult to determine the boundary between the coordinate area and the coordinate area when two or more coordinate areas are close to each other. In order to solve this problem, the touch input unit 104 may set a minimum distinction recognition distance for dividing each coordinate area into different coordinate areas so as to determine a boundary between the coordinate area and the coordinate area. The minimum distinction recognition distance may be set as a unit of length of a specified metric type, or may be set as a coordinate distance on a coordinate system set on the touch pad. For example, when the minimum distinction recognition distance is set to 1.5 cm or more, the touch input unit 104 may recognize two or more touch inputs at distances of less than 1.5 cm through the touch pad, It can be recognized as one touch point.

According to the method of the present invention, the touch input unit 104 sets M (M? 2) maximum number of multi-touches that can be recognized at most among a plurality of touch points touched on the touch pad to support multi-touch . That is, since the entire coordinate area of the touch pad is limited within the display size and the touch point is recognized based on the coordinate area, the number of recognizable touch points within the limited global coordinate area can be limited to a specific number. For example, when the maximum number of multi-touches of the touch input unit 104 is set to 11 or less, the touch input unit 104 can recognize up to eleven touch points through the touch pad, May not recognize.

According to the embodiment of the present invention, the touch input unit 104 can set a minimum touch recognition area recognizable as a valid touch input for one touch. That is, since the electrostatic touch recognizes the coordinate area in which the change of charge occurs, the minimum coordinate area area to be recognized as the effective touch is required according to the touch recognition sensitivity. The smaller the minimum touch recognition area is, the more the touch recognition sensitivity is improved. However, the area required for the touch recognition is decreased, and the probability of false recognition is also increased. On the other hand, as the minimum touch recognition area increases, the sensitivity of the touch recognition decreases. However, the area required for the touch recognition increases and the probability of false recognition increases. Preferably, the touch input unit 104 recognizes the touch input as an effective touch input when the area to be touched on the touch pad is equal to or greater than the minimum touch recognition area. Otherwise, the touch input unit 104 may not recognize the input as a valid touch input. The minimum touch recognition area may be set in an area unit of a specified metric type, or may be set as a coordinate area on a coordinate system set in the touch pad. For example, when the minimum touch recognition area is set to 0.5 cm 2 or more, the touch input unit 104 may not recognize a touch having an area touched through the touch pad of less than 0.5 cm 2.

According to the method of the present invention, the touch input unit 104 can set a maximum recognizable touch recognition area as a valid touch input for one touch. That is, since the electrostatic touch recognizes a coordinate area where a change in charge occurs, a charge change may be caused by an action of putting the touch pad on a ball of a person or touching or touching a palm on the touch pad. However, such a change in charge is not likely to be actually performed for touch input, but is likely to occur during other actions. Accordingly, even if a change in the charge occurs, the touch input unit 104 may set a maximum touch recognition area to handle an exception in the touch input.

According to another aspect of the present invention, the touch input unit 104 may support a shape touch that recognizes a touch surface shape of a specified geometry through an electrostatic touch pad. That is, the electrostatic touch recognizes a coordinate area where a change in charge occurs, and such a coordinate area can be interpreted by a pattern recognition algorithm. The touch input unit 104 may support the shape touch when interpreting the geometric structure of the coordinate area in which the phone change occurs through the pattern recognition algorithm. In this case, the touch recognition module 140 recognizes the touch surface of the specified geometry instead of the specified number of touch points, and the touch authentication module 145 recognizes the shape of the touch surface in place of the geometry structure formed by the specified number of touch points You can authenticate your geometry.

The key input unit 102 includes at least one of a key button, a key pad, and a keyboard corresponding to input resources provided in the wireless terminal 100 and a drive module for driving the constituent unit. The control unit 101 and the bus And inputs a command for commanding various operations of the control unit 101 or data necessary for the operation of the control unit 101. [

The sound output unit 106 is composed of a speaker corresponding to an output resource provided in the wireless terminal 100 and a driving module for driving the speaker and is connected to the control unit 101 through a bus, The operation result corresponding to the sound output is outputted through the speaker. The driving module decodes sound data to be outputted through the speaker and converts the sound data into a sound signal.

The sound input unit 107 includes a microphone corresponding to an input resource provided in the wireless terminal 100 and a drive module for driving the microphone, and transmits sound data input through the microphone to the control unit 101 do. The driving module encodes and encodes a sound signal input through the microphone.

The camera unit 108 includes an optical unit, a CCD (Charge Coupled Device) and a driving module for driving the CCD unit, and acquires bitmap data input to the CCD through the optical unit. The bitmap data may include both still image data and moving image data.

The wireless network communication unit 111 and the short range wireless communication unit 110 are communication resources provided in the wireless terminal 100. The wireless network communication unit 111 is connected to a wireless communication network through a base station, 110 are connected to a short range communication device or a wireless AP (Access Point) located at a short distance.

The wireless network communication unit 111 collectively refers to a communication configuration for connecting the wireless terminal 100 to the wireless communication. The wireless network communication unit 111 includes at least an antenna, an RF module, a baseband module, and a signal processing module for transmitting / receiving a radio frequency signal of a specific frequency band And is connected to the control unit 101 through a bus and transmits the calculation result corresponding to the radio communication among various calculation results of the control unit 101 through wireless communication or receives data through wireless communication To the control unit 101, and maintains connection, registration, communication, and hand-off procedures of the wireless communication. According to the present invention, the wireless network communication unit 111 can connect the wireless terminal 100 to a telephone communication network including a telephone communication channel and a data channel via the exchange, and in some cases, It is possible to connect to a data network that provides wireless network data communication based on packet communication.

According to an embodiment of the present invention, the wireless network communication unit 111 is a mobile communication unit that performs at least one of access to a mobile communication network, location registration, call processing, call connection, data communication, and handoff according to the CDMA / WCDMA / ≪ / RTI > However, the communication standard applied to the wireless network communication unit 111 may be variously modified according to the type of the wireless network to which the wireless terminal 100 accesses, and the present invention includes all the modifications. For example, the wireless network communication unit 111 may include a portable Internet communication structure for performing at least one of connection to the portable Internet, location registration, data communication, and handoff according to the IEEE 802.16 standard. As a result, it is clarified that the present invention is not limited by the type of the wireless network to which the wireless network communication unit 111 is connected and the wireless communication configuration for implementing the same.

The short-range wireless communication unit 110 is a communication module for connecting a communication session using a radio frequency signal as a communication medium within a predetermined distance, and may include at least one of Wi-Fi communication, Bluetooth communication, and public wireless communication . According to an embodiment of the present invention, the short-range wireless communication unit 110 may be integrated with the wireless network communication unit 111. [ According to the present invention, the short-distance wireless communication unit 110 connects the wireless terminal 100 to a data network providing packet-based short-range wireless data communication through a wireless access point (AP).

The proximity wireless communication unit 112 is a communication module that processes proximity wireless communication according to the NFC (Near Field Communication) standard. The proximity wireless communication unit 112 preferably uses a frequency band of 13.56 Mz, Communication. According to an embodiment of the present invention, the near field wireless communication unit 112 may be integrated with the near field wireless communication unit 110.

The positioning unit 113 includes a GPS positioning module for positioning a moving position of the wireless terminal 100. The positioning unit 113 receives a satellite signal transmitted from at least three GPS satellites orbiting the earth orbit, 100 are calculated. According to another embodiment of the present invention, the position locating unit 113 is connected to the wireless terminal 100 and the base station (or the connection point) in cooperation with a positioning apparatus on a communication network associated with at least two base stations (or connection points) And a terrestrial positioning module for positioning the position of the wireless terminal 100 in a terrestrial positioning system using the inter-frequency arrival time (or arrival angle).

The USIM reader 114 is a generic term of a configuration for exchanging at least one data set with a universal subscriber identity module that is mounted or detached from the wireless terminal 100 based on the ISO / IEC 7816 standard , And the data set is exchanged in a half duplex communication manner through an APDU (Application Protocol Data Unit).

The USIM is an SIM type card having an IC chip according to the ISO / IEC 7816 standard, and includes an input / output interface including at least one contact connected to the USIM reader 114, a program code for at least one IC chip (Or processing) the program code for the IC chip or extracting (or processing) the data set in accordance with at least one command transmitted from the wireless terminal 100 in connection with the input / output interface To the input / output interface.

The program 120 of the present invention is downloaded from a program providing server 120 (for example, an Apple App Store or the like) through a data network to which the communication resource can be connected, and is stored in the memory unit 115. The downloaded program 120 operates in conjunction with the designated operation server 500 and is manually operated by a user or after being confirmed by a user according to a specified procedure (e.g., message reception or NFC recognition) Or activated).

Referring to FIG. 1A, the program 120 of the wireless terminal 100 includes a membership module 125 that processes subscription or member authentication for a user, a program authentication module that authenticates the validity of the program 120 130), a transparent touch area for selectively recognizing a plurality of multi-touches over a basic touch area displayed on the touch screen 105 is set, and when a plurality of multi-touches of a specified number or more are recognized while the transparent touch area is set A touch control module (135) for controlling the touch of the specific number or more to be processed by touching the transparent touch area, a touch recognition module (140) for recognizing a touch processed by the touch of the transparent touch area, A touch authentication module 145 for authenticating validity, sound authentication combined with touch authentication using a resource provided in the wireless terminal 100, location authentication, A dynamic authentication module 150 for performing at least one or two or more dynamic authentication among a fingerprint authentication, a local communication authentication, and a proximity communication authentication, and a service for processing a specified service based on a touch processed by the touch of the transparent touch region And one or more program modules, among the modules 180, which are designated. Here, each of the program modules is named to describe the functional configuration of the program 120, and actually does not limit the implementation of the program 120 to the program modules described above. That is, even if the program 120 installed in the wireless terminal 100 is implemented in any form, it is determined that the functional scope corresponding to the program module described above is implemented, thereby infringing the scope of the present invention. It should be understood that some program modules of the program modules may be omitted or modified by those skilled in the art depending on the method of operation, and the present invention includes such omissions and modifications as well.

According to an embodiment of the present invention, the dynamic authentication module 150 includes a sound authentication module 155 for performing sound authentication combined with the touch authentication, a position authentication module 160 for performing position authentication combined with the touch authentication A camera authentication module 165 for performing camera authentication combined with the touch authentication, a short range communication authentication module 170 for performing short range communication authentication combined with the touch authentication, a proximity communication module 170 for performing proximity communication combined with the touch authentication , NFC, etc.) authentication of the proximity communication authentication module 175. The authentication module may include at least one authentication module or at least two authentication modules.

The touch recognition module 140 and the touch authentication module 145 identify a specific authentication object (for example, a specific merchant, a specific app, a specific card, etc.) matching with the designated touch device 300, The dynamic authentication module 150 may be defined as a program module for secondary authentication of the specific authentication object identified by the touch recognition module 140 and the touch authentication module 145 have. According to an embodiment of the present invention, the authentication of the present invention can be performed by only the identification of the specific authentication object using the touch recognition module 140 and the touch authentication module 145 and only the primary authentication, And the second authentication using the dynamic authentication module 150 may be highly combined.

FIG. 2a is a diagram showing a functional configuration of a membership module 125 of a program 120 according to an embodiment of the present invention.

Referring to FIG. 2A, a membership module 125 of the program 120 accesses a designated operation server 500 through a data network to which the communication resource is connectable, and joins the user of the wireless terminal 100 as a member And a member authentication procedure unit 204 for performing an authentication procedure for the user who has joined the membership. On the other hand, if the service can be provided without member authentication based on the program authentication using the program authentication module 130, the member module 125 can be omitted.

The membership subscription procedure unit 202 is a collective term for a component in the program 120 linked with a membership subscription procedure performed in the operation server 500 linked to the program 120, (E.g., name, resident registration number, IPIN information) for entering a user as a member and / or an interface for inputting a member account, and receives user information and / or a member account from the user through the interface.

According to an embodiment of the present invention, the program 120 includes communication connection macro information for accessing a designated operation server 500 through a data network to which the communication resource is connectable, And transmits the input user information and / or the member account through the data network based on the communication connection macro information, so that the membership process of the designated operating server 500 is performed. Preferably, the membership subscription procedure may be performed in association with a procedure for authenticating the validity of the program 120. [

The member authentication procedure unit 204 outputs an interface for inputting the user's member account when the user's membership is required according to a specified policy and transmits the interface to the designated operation server 500 through the data network And transmits the input member account so that the member authentication procedure of the designated operation server 500 is performed. Preferably, the member authentication procedure may be performed in association with a procedure for authenticating the validity of the program 120. [

2B is a functional block diagram of the program authentication module 130 of the program 120 according to an embodiment of the present invention.

Referring to FIG. 2b, the program authentication module 130 of the program 120 may include a program authentication procedure for performing a procedure for authenticating the validity of the program 120 through at least one communication network to which the communication resource is connectable The program authentication procedure unit 206 may be configured to perform a program authentication process performed by a specified operating server 500 through at least one of a data network and a telephone communication network to which the communication resource is connectable, Side process of the program 120 to authenticate the validity of the program 120 to the designated operating server 500. [ According to an embodiment of the present invention, the process of authenticating the program 120 is performed through an encryption / decryption communication process previously agreed upon between the program 120 and the operation server 500. For convenience, the encryption / A detailed description of the process will be omitted.

According to the first program authentication method of the present invention, the program 120 can be downloaded through the program providing server 120 in a state in which a unique value identifying the program operated by the specified operating server 500 is set have. In this case, the program authentication procedure unit 206 transmits the eigenvalue to the designated operation server 500 or performs a key exchange procedure according to the designated key exchange protocol with the specified operation server 500 based on the unique value So that the program 120 can be authenticated as a program operated by the designated operating server 500.

According to the second program authentication method of the present invention, the program 120 is downloaded through the providing server of the program 120, and the token value (for example, , A device token assigned by Apple's APNS, etc.). In this case, the program authentication procedure unit 206 may transmit the token value to the designated operation server 500 according to the designated path, thereby authenticating that the program 120 is a program operated by the designated operation server 500 have.

According to the third program authentication method of the present invention, the program 120 configures hash information by hashing at least one file corresponding to the program 120 according to a specified hash algorithm, (500), thereby authenticating that the program (120) is a valid program operated by the specified operating server (500). Meanwhile, the program authentication procedure unit 206 may construct the hash information by using the key value internally determined or exchanged with the designated operation server 500 in the process of constructing the hash information.

According to the fourth program authentication method of the present invention, the program 120 is downloaded through a program providing server 120 in a state in which a certificate for performing a specified authentication procedure is loaded or downloaded through a program providing server 120 The certificate can be mounted according to the specified certificate issue or roaming procedure. In this case, the program authentication processing unit 206 may selectively use the key exchange protocol and the encryption / decryption rule, the at least one key value set in the certificate according to the authentication procedure defined in the certificate, It is possible to authenticate that the program is operated by the operating server 500. The certificate may comprise at least one of a certificate of a designated operational server 500 or a certificate of a user using the program 120.

According to the fifth program authentication method of the present invention, when the authentication number sent from the operation server 500 is received through the message exchange protocol of the telephone network, the wireless terminal 100 receives the received authentication number, It is possible to authenticate that the program 120 is a program operated by the designated operation server 500 by transmitting the program to the designated operation server 500 through the data network.

According to the sixth program authentication method of the present invention, the program authentication procedure unit 206 receives the program from the designated operation server 500 through an authentication method selectively combining at least one of the first through fifth program authentication methods, It is possible to authenticate the validity of the authentication server 120, and thus the present invention is not limited thereto.

The program authentication procedure unit 206 may control the memory unit 115 or SE (Secure Element) of the wireless terminal 100 at any specified time before, during, or after the process of performing the first to sixth program authentication schemes, Stored in a secure storage area of at least one of a Universal Subscriber Identify Module (USIM), an Integrated Circuit (IC) chip, and an embedded chip of an external memory (eg, SD memory) mounted on or detached from the wireless terminal 100 , Or transmits the unique information allocated by the communication-side resource to the specified operating server (500) in the process of connecting or holding the wireless terminal (100) to the communication network specified through the wireless network communication unit (111) 120 may be a program operated by the designated operation server 500 and may simultaneously authenticate that the program 120 is running in the wireless terminal 100. [

2C is a diagram showing the functional configuration of the touch control module 135 of the program 120 according to the method of the present invention.

Referring to FIG. 2C, the touch control module 135 of the program 120 includes a basic touch area identifying unit 208 for identifying a basic touch area displayed on the touch screen 105, A basic touch area display part 210 for displaying a touch recognition interface including T (T? 1) touch recognition areas as a basic touch area on the touch screen 105 in the case of a touch area displayed through the program 120 .

The basic touch area identification unit 208 refers to the control unit 101 of the wireless terminal 100 and displays the basic touch area through the touch screen 105 at the time when the transparent touch area is set through the transparent touch area setting unit 212 described below Identifies the interface screen being displayed as the basic touch area. Preferably, the basic touch area includes T (T > = 1) touch recognition areas (e.g., an edit control, a check box control, a combo box, etc.) capable of recognizing one touch point to less than a specified number of touch points, Control, list control, icon, button, keyboard control, etc.).

According to the first embodiment of the present invention, the basic touch area may include a desktop screen or an idle screen of the wireless terminal 100, It is determined whether the wallpaper or idle screen of the wireless terminal 100 is being displayed on the touch screen 105 by referring to the touch screen 105 and the desktop screen or the idle screen displayed on the touch screen 105 is identified as a basic touch area .

According to the second embodiment of the present invention, the basic touch area may include an interface screen of a Launcher program provided in the wireless terminal 100, The control unit 101 of the controller 100 determines whether the designated launcher program is being displayed on the touch screen 105 and displays the interface screen of the launcher program displayed on the touch screen 105 as a basic touch Area. ≪ / RTI >

According to a third embodiment of the present invention, the basic touch area may include an interface screen of an application program installed in the wireless terminal 100, It is possible to identify whether the application program is being displayed on the touch screen 105 by referring to the control unit 101 and to identify the interface screen of the application program displayed on the touch screen 105 as the basic touch area displayed on the touch screen 105 have.

According to the fourth embodiment of the present invention, the basic touch area may be an interface screen displayed on the touch screen by the program 120. [ In this case, the basic touch area display unit 210 displays a touch recognition interface including T (T? 1) touch recognition areas on the touch screen 105, and the basic touch area identification unit 208 displays the basic touch The interface screen displayed through the area display unit 210 can be identified as the basic touch area displayed on the touch screen 105. [

Referring to FIG. 2C, the touch control module 135 of the program 120 may include a transparent touch area for setting a transparent touch area for selectively recognizing a predetermined number of touches over the basic touch area displayed on the touch screen 105, A touch recognition unit 214 for recognizing whether a touch of a predetermined number or more is recognized through the touch screen 105 in a state where the transparent touch area is set; When touches of less than the designated number are recognized, touches of the touches of the basic touch region are processed by the touches of the basic touch region, and when touches of more than a designated number are recognized through the touch screen (105) And a touch recognition control unit 216 for processing the transparent touch area with a touch.

The transparent touch area setting unit 212 overlaps the basic touch area displayed on the touch screen 105 to set a transparent touch area for selectively recognizing a predetermined number of touches. Preferably, the transparent touch area includes a touch area including a transparent area, and the touch recognition area is not displayed on the touch screen 105, although the transparent touch area is set to recognize the specified number or more of touches. The transparent region of the transparent touch region may include the entire region of the touch screen 105 as a transparent region or may include a portion of the touch screen 105 as a transparent region. The transparent state of the transparent region may include either completely transparent or translucent. When the transparent touch area is set to be completely transparent to the entire area of the touch screen 105, the user can visually recognize whether the transparent touch area is set on the touch screen 105 of the wireless terminal 100 none.

According to an embodiment of the present invention, the transparent touch region includes at least one of an entire region of the touch screen 105, and a region matching the basic touch region.

According to the method of the present invention, it is preferable that the designated number of touch points to be processed by the touch of the transparent touch area is determined to be a number exceeding the maximum number (= P) of touch points capable of being processed in the basic touch area . For example, if the number of touch points that can be processed in the basic touch area is two ("P = 2"), the designated number is preferably determined to be three or more. Meanwhile, when the touch processed by the touch of the transparent touch area is interlocked with the at least one dynamic authentication through the dynamic authentication module 150, the designated number of touch points to be processed by the touch of the transparent touch area is '1' The present invention is not limited thereto.

According to an embodiment of the present invention, it is preferable that the predetermined number or more touches processed by the touch of the transparent touch region include multiple touches in which a predetermined number or more of touch points are touched in accordance with one or more specified conditions. The touch recognition module 140 will be described in detail below with respect to the conditions for the above-specified number of touches and a preferable implementation for recognizing the same.

According to the embodiment of the present invention, the transparent touch region setting unit 212 may set the transparent touch region to be a touch event corresponding to the touch recognition input through the touch input unit 104, which implements the touch screen 105, To be transmitted to the touch recognition confirmation unit 214 first. For example, if the control unit 101 of the wireless terminal 100 is configured to transmit a touch event to the interface screen having the " z-order = 0 ", the transparent touch region setting unit 212 sets the transparent touch region Quot; z-order = 0 ". Even if a situation occurs in which "z-order = 0" is assigned to the basic touch area (or another application other than the program 120) by a certain user operation or a scheduler, the transparent touch area setting part 212 sets z quot; 0 " in the transparent touch region by interrupting the " -order " In order to control that the touch event corresponding to the touch recognition input through the touch input unit 104 is transmitted to the touch recognition confirmation unit 214 in advance, the program 120 may be a terminate and stay resident (TSR) Or at least one process constituting the program 120 may operate in a background form.

A touch recognition event touched through the touch screen 105 in a state where the transparent touch area is set by the transparent touch area setting unit 212 is transmitted to the program 120 through the control unit 101 of the wireless terminal 100, To the touch recognition confirmation unit 214 of FIG. The touch recognition confirmation unit 214 reads the delivered event and confirms whether a predetermined number or more of touches are recognized through the touch screen 105. According to the method, the touch reading more than the designated number can be performed through the touch recognition module 140. [

According to the embodiment of the present invention, the touch input unit 104 implementing the touch screen 105 recognizes the minimum distinction distinction distance between each touch point, the maximum number M of multiple touches, and the effective touch input At least one of a possible minimum touch recognition area and a maximum recognizable touch recognition area with a valid touch input may be set. The touch recognition confirmation unit 214 confirms the number of touch points touched on the touch screen 105 based on at least one of the minimum distinguishing recognition distance, the maximum multiple touch number, the minimum touch recognition area, and the maximum touch recognition area . Meanwhile, when the predetermined number or more of multi-touch readings are performed through the touch recognition module 140, the touch recognition confirmation unit 214 receives the touch points from the touch recognition module 140, You can check the number.

If it is determined through the touch recognition confirmation unit 214 that less than a specified number of touches are recognized through the touch screen 105 while the transparent touch area is set, the touch recognition control unit 216 controls the touch recognition unit Is processed by the touch of the basic touch area.

According to the first embodiment of the present invention, when the basic touch area is the desktop screen or the idle screen of the wireless terminal 100, the touch recognition control unit 216 controls the touch on the desktop or the idle screen And controls the touch event to be transferred to a process corresponding to the desktop or the idle screen.

According to the second embodiment of the present invention, when the basic touch area is the interface screen of the launcher program, the touch recognition control unit 216 controls the touch of less than the designated number to be recognized as a touch of the launcher program, And controls the touch event to be transmitted to the process corresponding to the launcher program.

According to the third embodiment of the present invention, when the basic touch area is an interface screen of an application program being executed in the wireless terminal 100, the touch recognition control unit 216 controls the touch of the application program And controls the touch event to be transmitted to a process corresponding to the application program.

According to an embodiment of the present invention, the touch recognition control unit 216 performs a process corresponding to the touch event by a process to which a touch event is delivered by at least one of the first to third embodiments, So that the touch event corresponding to the touch recognition input through the touch panel 104 is not directly transmitted. For example, according to the first embodiment, a touch event corresponding to a touch less than the designated number is transmitted to a process corresponding to a desktop, and a specific icon displayed on the desktop is clicked, Quot; z-order = 0 " may be assigned to the specific application program that has been driven. Accordingly, the touch recognition control unit 216 controls to keep "z-order = 0" in the transparent touch area or to control so that "z-order = 0" is not assigned to the driven specific application program, Even if " z-order = 0 " is assigned to the specific application program, it is possible to intercept it and control so that " z-order = 0 "

According to the fourth embodiment of the present invention, if the basic touch area is a touch recognition interface displayed through the basic touch area display part 210, the touch recognition control part 216 may notify the touch recognition interface To be recognized and processed.

If it is determined through the touch screen confirmation unit 214 that the transparent touch area is set and a touch of a specified number or more is recognized through the touch screen 105, the touch recognition control unit 216 displays the specified number The multi-touch for the transparent touch area can be recognized through the touch recognition module 140 of the program 120. [0050] FIG.

According to the embodiment of the present invention, the touch processed by the touch with respect to the transparent touch region is a simultaneous touch in which N (P < N? M) touch points forming a specified geometry structure are simultaneously touched by the designated touch device 300 (Simultaneous Touch or Synchronous Touch). However, the touch processed by the touch on the transparent touch region is not limited to the simultaneous touch. According to an embodiment of the present invention, the touch processed by the touch with respect to the transparent touch region may be multi-touch, and if the touch processed by the touch of the transparent touch region is combined with at least one dynamic authentication through the dynamic authentication module 150 The designated number of touch points to be processed by the touch of the transparent touch area may be greater than or equal to '1'. In this case, in order for the touch recognition control unit 216 to process a touch touched through the touch screen 105 by touching the transparent touch region, dynamic authentication is performed at a time of touching the transparent touch region do. That is, the designation number to be processed by touching the transparent touch region is only one of various conditions for processing by touching the transparent touch region, and thus the present invention is not limited thereto. Meanwhile, when the touch screen supports the shape touch, the touch that the touch recognition control unit 216 processes with the touch of the transparent touch area may be a shape touch recognizing the touch surface of the specified geometry.

FIG. 2D is a diagram illustrating a functional configuration of the touch recognition module 140 of the program 120 according to an embodiment of the present invention.

In more detail, FIG. 2D illustrates a case where a touch point touched through the touch screen 105 is recognized to process a touch point of a specified number or more with a touch to a transparent touch area, or a transparent touch The touch recognition module 140 recognizes the touch processed by the touch of the area. If the touch recognition module 140 is a person skilled in the art, referring to and / or modifying the figure 2d, It will be appreciated that various implementations of the touch recognition module 140 (e.g., some of the components may be omitted, or subdivided, or combined) may be inferred, but the invention includes all of the above- , And the technical features thereof are not limited only by the method shown in FIG. 2D.

Referring to FIG. 2d, the touch recognition module 140 of the program 120 recognizes a touch point touched through the touch screen 105 in order to process a touch point of a specified number or more by touching a transparent touch area Or a touch point recognition unit 218 for recognizing a specified number of touch points processed by a touch of a transparent touch region through the touch control module 135. In the touch device 300, And a simultaneous touch recognition unit 220 for recognizing N simultaneous touch points processed by touching the transparent touch region when the touch points are N touch points simultaneously touched through the touch point. The simultaneous touch recognition unit 220 may recognize that the simultaneous touch recognition unit 220 is capable of communicating with the outside of the wireless terminal 100 (for example, the operating server 500 interlocked with the program 120 or the wireless terminal 100) Device or server, etc.). Meanwhile, when the touch authentication of the present invention is combined with at least one dynamic authentication among sound authentication, image authentication, ground reel communication authentication, and proximity communication authentication, the number of touch points may be 'N = 1' The invention is not limited.

The touch point recognizing unit 218 recognizes a touch point touched through the touch screen 105 and processes the touch point by touching the transparent touch area with a touch point of a predetermined number or more. Lt; / RTI &gt; If the touch through the touch screen module 105 is processed by the touch of the transparent touch area through the touch control module 135, the touch point recognition module 218 recognizes the transparent touch Recognizes a predetermined number or more of touch points processed by touching the area.

If the predetermined number or more of the touch points are N touch points simultaneously touched through the designated touch device 300, the simultaneous touch recognition unit 220 may touch the transparent touch area through the touch control module 135 Recognizes the N simultaneous touch points processed.

The simultaneous touch of the present invention is characterized in that a touch recognition condition in which at least one or more of a touch number condition, a touch time condition, a mechanical touch condition, and a pressure recognition touch condition is combined with a multi- Touch. The touch recognition condition may be stored in a designated storage area of the memory unit 115 (or a designated storage medium 530) in the form of a data set used by the program 120, Can be set on the code.

Wherein the touch number condition includes a minimum touch recognition area and recognizes touch points touched in the transparent touch area as a simultaneous touch point when the number of touch points touched in the transparent touch area is a predetermined number N .

For example, when the number of touch points recognizable by the simultaneous touch is designated as 'N = 4', the simultaneous touch recognition unit 220 recognizes that only four touch points are touched in the transparent touch area, Can be recognized as a simultaneous touch point. Otherwise, it can be recognized as a simultaneous touch point.

The touch time condition is a feature that recognizes N touch points touched in the transparent touch area as N simultaneous touch points when N touch points touched in the transparent touch area are touched within a predetermined reference time.

For example, when four touch points are touched to the transparent touch area, if the four touch points are all touched within 1 ms, the simultaneous touch recognition unit 220 recognizes four touch points touching the transparent touch area at the same time It can be recognized as a touch point.

The mechanical touch condition is a condition for recognizing N touch points touched in the transparent touch area as simultaneous touch points when touching the N touch units included in the separately manufactured touch device 300 to the touch screen 105 to be.

For example, when four touch units are provided in the separately manufactured touch device 300 and a sound output function or a proximity wireless communication function is provided, at the time when the four touch points are touched in the transparent touch area, 107 or the data specified through the proximity wireless communication unit 112 is received, the touch device 300 having the sound output function or the proximity wireless communication function together with the four touch units The simultaneous touch recognition unit 220 can recognize four touch points touched in the transparent touch area as simultaneous touch points.

The pressure recognition touch condition is a characteristic of recognizing N touch points touched in the transparent touch area as a simultaneous touch point when the touch device 300, which is manufactured separately, is touched by pressing with human hands.

For example, when four touch points are touched to the transparent touch region, an impulse amount is detected once through a sensor (e.g., a gyro sensor) built in the wireless terminal 100 at the time when the four touch points are touched The simultaneous touch recognition unit 220 recognizes four touch points touching the transparent touch area at the same time by touching the touch device 300 having four touch units by touching the touch device 300 with a human hand, It can be recognized as a point. If four touch points are detected in the transparent touch region, four touch points may be detected by touching four times using a human finger or a touch pen.

Or a behavior pattern of people who take a picture when the person touches the touch screen 105 by touching the touch device 300 as if the person is painting, The N touch points touched in the transparent touch area are kept touched for a predetermined time. Accordingly, if N touch points touched in the transparent touch area are maintained in a state of being touched for a predetermined period of time, N touch points touched in the transparent touch area are touched by pressing the touch device 300 through the touch device 300, The simultaneous touch recognition unit 220 can recognize N touch points touched in the transparent touch area as simultaneous touch points.

When the touch device 300 is touched by pressing the touch device 300 on the touch screen 105 as a person is stamped on the touch screen, In the touched state, the mutual position relationship should be maintained unchanged. Accordingly, if N touch points are touched in the transparent touch area and the mutual positional relationship with respect to each touch point remains unchanged, the N touch points touched in the transparent touch area are moved to the touch device 300, The simultaneous touch recognition unit 220 can recognize N touch points touched in the transparent touch area as simultaneous touch points.

Meanwhile, in the process of touching the touch device 300 to the touch screen 105 as a person stamps the touch screen, the N touch parts provided in the touch device 300 are changed in accordance with the designated rule by the pushing force, If at least one touch part of the touch parts is designed to be spaced apart, the N touch points will be changed according to a rule of mutual positional relation in the process of touching the transparent touch area. If there is a constituent unit that separates the touch unit from the touch device 300 by a pressing force, if the mutual positional relation for each touch point in the process of touching the N touch points in the transparent touch region is changed according to a specified rule The N touch points touched in the transparent touch area are touched by pressing the touch device 300 through the touch device 300. Therefore, the simultaneous touch recognition unit 220 can recognize N touch points touched in the transparent touch area It can be recognized as a touch point.

The simultaneous touch recognition unit 220 checks whether at least one touch point is multi-touched in the transparent touch area, and if the identified multi touch point has at least one of the touch number condition, the touch time condition, the mechanical touch condition, Or a combination of two or more is satisfied.

According to the first simultaneous touch recognition method of the present invention, when the N touch points that are multi-touched in the transparent touch area satisfy at least one of the touch recognition conditions, The touch point can be recognized as a simultaneous touch point. Preferably, the simultaneous touch recognition unit 220 recognizes at least one touch point in the process of identifying each touch point touched in the transparent touch region among the touch number condition, the touch time condition, the mechanical touch condition, N touch points satisfying the condition are recognized as the simultaneous touch points.

On the other hand, according to an extensible aspect of the present invention, the concurrent touch point can be recognized more precisely using a specified touch condition. Wherein the touch condition condition is a simultaneous multi-touch condition condition for authenticating a touch state in which N touch points touched in the transparent touch area are simultaneously touched within a predetermined time, N touch points touched in the transparent touch area for a predetermined time A static touch condition condition for authenticating whether or not a fixed touch state is maintained without moving and a mutual positional relationship of N touch points touched in the transparent touch area is static A touch condition condition and a dynamic touch condition condition for authenticating whether or not at least one touch point among the N touch points touched in the transparent touch area is changed according to a specified rule as opposed to the static touch condition authentication condition, can do. The touch state condition may be stored in a designated storage area of the memory unit 115 (or a designated storage medium 530) in the form of a data set used by the program 120, Can be set on the code.

Referring to FIG. 2D, the touch recognition module 140 of the program 120 simultaneously touches the N touch points touched in the transparent touch area within a predetermined time to recognize the concurrent touch point more precisely A simultaneous multi-touch authentication unit 222 for authenticating the touch state, a fixed touch state authentication unit 224 for authenticating whether the N touch points touched in the transparent touch area maintain a fixed touch state for a predetermined period of time, A static touch state authentication unit (226) for authenticating whether a mutual positional relationship of the N touch points touched in the transparent touch area maintains a static touch state in which the mutual positional relationship remains unchanged for a predetermined period of time; Of the dynamic touch state authentication unit 228 that authenticates whether at least one of the touch points designated in the authentication process is changed according to a specified rule, As shown in FIG. According to an embodiment of the present invention, the authentication unit may be connected to the outside of the wireless terminal 100 (for example, an operating server 500 interlocked with the program 120, or a device or a server communicable with the wireless terminal 100) It is possible to be implemented.

According to the second simultaneous touch recognition method of the present invention, the simultaneous touch recognition unit 220 recognizes at least one of the N touch points touching the transparent touch region at least one of the touch recognition conditions, The N touch points can be recognized as the simultaneous touch points.

The simultaneous multi-touch authentication unit 222 can authenticate that N touch points touched in the transparent touch area are touch points simultaneously touched within a predetermined time (e.g., 1 ms). Preferably, the simultaneous multi-touch authentication unit 222 obtains a touch state value by counting a time at which each touch point touched in the transparent touch area is recognized, and calculates the N touch points based on the counted time The N touch points can be authenticated as a simultaneous touch point when the touch point is touched within a predetermined time. When the N touch points are simultaneously touched within a predetermined time, the simultaneous touch recognition unit 220 can recognize N touch points touched within a predetermined time as a simultaneous touch point.

If N touch points are touched through the touch device 300 having N touch units, the time at which the N touch points are recognized is not counted. That is, if a user holds the touch device 300 and touches the touch screen 105 in a direction perpendicular to the transparent touch area, the N touch points are simultaneously touched without counting time. In this case, the simultaneous multi-touch authentication unit 222 can authenticate the N touch points simultaneously touched through the touch device 300 as a simultaneous touch point satisfying the touch time condition. When the N touch points are simultaneously touched through the touch device 300, the simultaneous touch recognition unit 220 can recognize N touch points simultaneously touched through the touch device 300 as simultaneous touch points .

If the transparent touch region of the touch screen 105 is not in a perpendicular direction, even if the transparent touch region is touched by holding the touch device 300 with the hand of a person, Some touch portions of the N touch units may be first touched to the touch screen 105 and then the remaining touches may be touched. When the N touch units included in the touch device 300 are sequentially touched, the simultaneous multi-touch authentication unit 222 counts the time at which each touch point touched in the transparent touch area is recognized, And the simultaneous touch recognition unit 220 can recognize N touch points authenticated as being simultaneously touched by the simultaneous multiple touch authentication unit 222 as simultaneous touch points.

According to the third simultaneous touch recognition method of the present invention, when the simultaneous touch recognition unit 220 satisfies at least one condition among the touch recognition conditions and N touch points touched in the transparent touch area maintain a fixed touch state The N touch points can be recognized as the simultaneous touch points. Here, the fixed touch state refers to a state in which N touch points do not move in the transparent touch area for a predetermined time.

The fixed touch state authentication unit 224 authenticates whether the N touch points touched in the transparent touch area remain in the fixed touch state value without moving for a predetermined period of time while the transparent touch region is touched. That is, when people take a picture on a paper, a behavior pattern that habitually presses the stamp so that the stamp of the stamp can be sufficiently printed on the paper is generated. The fixed touch state authenticator 224 determines whether the N touch points The user is authenticated whether or not the above-mentioned pattern for taking a coating picture is being generated while being touched in the transparent touch area. Preferably, the fixed-state-of-touch authentication unit 224 counts the time from when the N touch points are touched to the transparent touch area to when the N touch points are touched to acquire the touch state values, Authenticates whether the counted time exceeds a specified reference time. If the counted time exceeds the designated reference time even before the touch release is confirmed, the N touch points can be authenticated as a simultaneous touch point. Accordingly, when N touch points touched in the transparent touch area are touched to the transparent touch area and remain in the fixed touch state for a predetermined period of time, the simultaneous touch recognition unit 220 recognizes the fixed touch state The N touch points to be held can be recognized as the simultaneous touch points.

According to the fourth simultaneous touch recognition method of the present invention, when the simultaneous touch recognition unit 220 maintains a static touch state of N touch points touched in the transparent touch region while satisfying at least one condition among the touch recognition conditions The N touch points can be recognized as the simultaneous touch points. Here, the static touch state means a state in which mutual positional relationship of each touch point is not changed in a state where N touch points are touched to the transparent touch region.

The static touch state authentication unit 226 identifies a touch state value including a mutual positional relationship with respect to N touch points touched in the transparent touch region, and outputs the N touch points Lt; RTI ID = 0.0 &gt; a &lt; / RTI &gt; That is, when N touch points are touched through the touch device 300 having N touch parts, the position of the N touch points is changed as long as the position of the touch part is not changed in the touch device 300 The static touch state authentication unit 226 authenticates whether the N touch points are kept in the transparent touch area while the touch points are being touched. If the N touch points maintain the static touch state in the transparent touch area, the simultaneous touch recognition unit 220 can recognize N touch points holding the static touch state as simultaneous touch points.

Meanwhile, when touching the touch device 105 with the touch device 300, the N touch parts are touched to the touch screen 105 according to the angle formed by the pushing force and the touch screen 105 (E.g., a range in which the N touch points do not deviate from the transparent touch area) within a certain range. However, even if such a slip occurs, the N touch points are simultaneously spaced apart in the same direction, and the mutual positional relationship with respect to the N touch points remains unchanged and the static touch state is maintained. If the simultaneous touch recognition unit 220 keeps the static touch state without changing the mutual positional relationship of the respective touch points even if the N touch points are simultaneously spaced in the same direction due to the slip, It can be recognized as a simultaneous touch point.

According to the fifth simultaneous touch recognition method of the present invention, the N touch points satisfying at least one of the touch recognition conditions and authenticated that the N touch points touch the transparent touch area are dynamic touch states, . Here, the dynamic touch state refers to a state in which the mutual positional relationship is changed according to a specified rule while N touch points are touched to the transparent touch region. In order for the dynamic touch state to occur, the touch device 300 may include a mechanical component that slides one or more of the N touch portions in a direction parallel to the touch screen 105. The dynamic touch state may be generated by a pushing force or may be generated by a motor provided in the touch device 300 or the like.

The dynamic touch state authentication unit 228 confirms a touch state value including a mutual positional relationship with respect to N touch points touched in the transparent touch region, and determines whether the N touch points are touched or touched, According to the rule, the mutual position relation is changed. At this time, the mutual positional relationship of the N touch points should be changed according to a predetermined rule. For example, only a position change in which at least one touch point of the N touch points is slid to a specific position may be included in a designated rule corresponding to the dynamic touch state. If the dynamic touch state occurs at N touch points touched in the transparent touch region, the simultaneous touch recognition unit 220 can recognize N touch points at which the dynamic touch state is generated as a simultaneous touch point.

According to the sixth simultaneous touch recognition method of the present invention, the simultaneous touch recognition unit 220 may combine or repeat two or more of the first through fifth simultaneous touch recognition methods, The N touch points can be recognized as the simultaneous touch points in a form in which at least one of the touch recognition methods is modified and used, so that the present invention is not limited thereto.

Referring to FIG. 2D, the touch authentication module 145 of the program 120 includes a simultaneous touch reading unit 230 for reading component values for N touch points simultaneously recognized through the transparent touch region, A simultaneous touch authentication unit (232) for authenticating whether a component of the N touch points matches a predetermined simultaneous touch authentication condition based on the component value; And a touch authentication result confirmation unit 234 for confirming a result of the authentication process of the wireless terminal 100. The simultaneous touch authentication unit 232 is connected to the outside of the wireless terminal 100 Or an apparatus or a server that can communicate with the wireless terminal 100, for example).

The simultaneous touch reading unit 230 reads out and extracts the component values for the geometric structure formed by the N touch points to authenticate the N touch points recognized through the simultaneous touch recognition unit 220. [ The component values for the N touch points may be one or more of a coordinate value, a scalar value, and a vector value based on a coordinate system (for example, an orthogonal coordinate system, a circular coordinate system, etc.) have.

According to the first simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 reads a component value including a distance value where each point constituting the N touch points is separated from each other based on a specified coordinate system Can be extracted. For example, if the N touch points are composed of A (2d1, y1), B (2d2, y2), C (2d3, y3) on the orthogonal coordinate system, And the distance between C and C, and the distance between B and C, and the like.

According to the second simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 extracts a component value including a line segment value connecting each point constituting the N touch points based on a specified coordinate system . For example, if the N touch points are composed of A (2d1, y1), B (2d2, y2), C (2d3, y3) on the orthogonal coordinate system and the like, the component values include segment AB, segment AC, segment BC And the like. Each line segment can be expressed in the form of a straight line equation.

According to the third simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 reads a component including a line segment angle value formed by two line segments that meet at respective points constituting the N touch points based on a specified coordinate system The value can be extracted. For example, if the N touch points are composed of A (2d1, y1), B (2d2, y2), C (2d3, y3) on the orthogonal coordinate system, AC angle ∠BAC for AC, ∠ABC for line segment BC at point B, ∠ACC for line AC at point C, and ∠ACB for line CB.

According to the fourth simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 constitutes the N touch points with a point (or any one of the N touch points) on a specified coordinate system as a reference point (Or (N-1) points excluding the reference point out of the N touch points).

According to the fifth simultaneous touch reading method of the present invention, when the points constituting the N touch points are different from each other, the simultaneous touch reading unit 230 includes the area formed by the N touch points on the designated coordinate system Can be extracted.

According to the sixth simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 may combine two or more touch recognizations among the first through fifth simultaneous touch reading methods or may repeat one or more simultaneous touch reading methods And the simultaneous touch reading unit 230 may extract component values of N touch points touched in the transparent touch region according to each of the applied simultaneous touch reading methods.

The simultaneous touch authentication unit 232 has a simultaneous touch authentication condition for authenticating a component value for the N touch points. The simultaneous touch authentication condition may be provided to the simultaneous touch authentication unit 232 in the form of a program 120 code of the program 120 or may be stored in the memory unit 115 May be provided to the simultaneous touch authenticating unit 232 in the form of a command.

According to the embodiment of the present invention, the simultaneous touch authentication condition includes a touch point number condition for the number of touch points 'N' to be simultaneously touched in the transparent touch area through the touch screen 105, A center determining condition for determining the center of each of the constituent points, a distance calculation condition (for example, a distance between the center points of the respective points) for calculating distances between points constituting the N touch points, (For example, a separation distance value and a tolerance of each point), a line segment setting condition for connecting each point constituting the N touch points (e.g., a line segment connecting the center points of the respective points (For example, an equation of a straight line, a slope of a straight line, a tolerance, and the like) for authenticating a line segment connecting each of the points, (For example, a condition for determining an inside angle or an outside angle formed by a line segment) for determining an angle of a line segment formed by two line segments and an angle authentication condition (E.g., a condition for determining a reference point, a condition for determining a size and a direction of a vector) for determining a vector component for the N touch points, and a vector determination condition (For example, vector size and direction, tolerance and the like) for calculating the area for each of the N simultaneous touch points (for example, dividing the multi-touch area into a plurality of cells, (E.g., a condition for counting the number of cells) and an area authentication condition (e.g., area for each point, tolerance, etc.) for authenticating the area of each touch point It comprises a combination on.

The simultaneous touch authentication unit 232 compares the component values of the N touch points extracted through the simultaneous touch reading unit 230 and the simultaneous touch authentication condition or performs a specified verification operation to determine whether the N touch Authenticates whether the component of the point matches the simultaneous touch authentication condition.

The touch authentication result confirmation unit 234 confirms that the concurrent touch authentication unit 232 authenticates the component values of the N touch points using the simultaneous touch authentication condition. If the simultaneous touch authenticating unit 232 is implemented outside the wireless terminal 100, the touch authentication result confirming unit 234 recognizes image data obtained by imaging the N touch points touched in the transparent touch area, Or the component value read by the simultaneous touch reading unit 230 to the simultaneous touch authentication unit 232 provided outside the wireless terminal 100. The simultaneous touch authentication unit 232 provides N It is possible to receive a result of authenticating whether the components of the touch points match the simultaneous touch authentication condition.

2E is a diagram showing the functional configuration of the touch authentication module 145 of the program 120 according to an embodiment of the present invention.

Referring to FIG. 2E, the touch authentication module 145 of the program 120 includes a simultaneous touch reading unit 230 for reading component values for N touch points simultaneously recognized through the transparent touch region, A simultaneous touch authentication unit (232) for authenticating whether a component of the N touch points matches a predetermined simultaneous touch authentication condition based on the component value; And a touch authentication result confirmation unit 234 for confirming a result of the authentication process of the wireless terminal 100. The simultaneous touch authentication unit 232 is connected to the outside of the wireless terminal 100 Or an apparatus or a server that can communicate with the wireless terminal 100, for example).

The simultaneous touch reading unit 230 reads out and extracts the component values for the geometric structure formed by the N touch points to authenticate the N touch points recognized through the simultaneous touch recognition unit 220. [ The component values for the N touch points may be one or more of a coordinate value, a scalar value, and a vector value based on a coordinate system (for example, an orthogonal coordinate system, a circular coordinate system, etc.) have.

According to the first simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 reads a component value including a distance value where each point constituting the N touch points is separated from each other based on a specified coordinate system Can be extracted. For example, if the N touch points are composed of A (2e1, y1), B (2e2, y2), C (2e3, y3) on the orthogonal coordinate system, And the distance between C and C, and the distance between B and C, and the like.

According to the second simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 extracts a component value including a line segment value connecting each point constituting the N touch points based on a specified coordinate system . For example, if the N touch points are composed of A (2e1, y1), B (2e2, y2), C (2e3, y3), and the like on the orthogonal coordinate system, the component values include a line segment AB, a line segment AC, And the like. Each line segment can be expressed in the form of a straight line equation.

According to the third simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 reads a component including a line segment angle value formed by two line segments that meet at respective points constituting the N touch points based on a specified coordinate system The value can be extracted. For example, if the N touch points are composed of A (2e1, y1), B (2e2, y2), C (2e3, y3) on the orthogonal coordinate system, AC angle ∠BAC for AC, ∠ABC for line segment BC at point B, ∠ACC for line AC at point C, and ∠ACB for line CB.

According to the fourth simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 constitutes the N touch points with a point (or any one of the N touch points) on a specified coordinate system as a reference point (Or (N-1) points excluding the reference point out of the N touch points).

According to the fifth simultaneous touch reading method of the present invention, when the points constituting the N touch points are different from each other, the simultaneous touch reading unit 230 includes the area formed by the N touch points on the designated coordinate system Can be extracted.

According to the sixth simultaneous touch reading method of the present invention, the simultaneous touch reading unit 230 may combine two or more touch recognizations among the first through fifth simultaneous touch reading methods or may repeat one or more simultaneous touch reading methods And the simultaneous touch reading unit 230 may extract component values of N touch points touched in the transparent touch region according to each of the applied simultaneous touch reading methods.

The simultaneous touch authentication unit 232 has a simultaneous touch authentication condition for authenticating a component value for the N touch points. The simultaneous touch authentication condition may be provided to the simultaneous touch authentication unit 232 in the form of a program 120 code of the program 120 or may be stored in the memory unit 115 May be provided to the simultaneous touch authenticating unit 232 in the form of a command.

According to the embodiment of the present invention, the simultaneous touch authentication condition includes a touch point number condition for the number of touch points 'N' to be simultaneously touched in the transparent touch area through the touch screen 105, A center determining condition for determining the center of each of the constituent points, a distance calculation condition (for example, a distance between the center points of the respective points) for calculating distances between points constituting the N touch points, (For example, a separation distance value and a tolerance of each point), a line segment setting condition for connecting each point constituting the N touch points (e.g., a line segment connecting the center points of the respective points (For example, an equation of a straight line, a slope of a straight line, a tolerance, and the like) for authenticating a line segment connecting each of the points, (For example, a condition for determining an inside angle or an outside angle formed by a line segment) for determining an angle of a line segment formed by two line segments and an angle authentication condition (E.g., a condition for determining a reference point, a condition for determining a size and a direction of a vector) for determining a vector component for the N touch points, and a vector determination condition (For example, vector size and direction, tolerance and the like) for calculating the area for each of the N simultaneous touch points (for example, dividing the multi-touch area into a plurality of cells, (E.g., a condition for counting the number of cells) and an area authentication condition (e.g., area for each point, tolerance, etc.) for authenticating the area of each touch point It comprises a combination on.

The simultaneous touch authentication unit 232 compares the component values of the N touch points extracted through the simultaneous touch reading unit 230 and the simultaneous touch authentication condition or performs a specified verification operation to determine whether the N touch Authenticates whether the component of the point matches the simultaneous touch authentication condition.

The touch authentication result confirmation unit 234 confirms that the concurrent touch authentication unit 232 authenticates the component values of the N touch points using the simultaneous touch authentication condition. If the simultaneous touch authenticating unit 232 is implemented outside the wireless terminal 100, the touch authentication result confirming unit 234 recognizes image data obtained by imaging the N touch points touched in the transparent touch area, Or the component value read by the simultaneous touch reading unit 230 to the simultaneous touch authentication unit 232 provided outside the wireless terminal 100. The simultaneous touch authentication unit 232 provides N It is possible to receive a result of authenticating whether the components of the touch points match the simultaneous touch authentication condition.

FIG. 2f is a diagram illustrating a functional configuration of the touch recognition module 140 of the program 120 according to another embodiment of the present invention.

In more detail, FIG. 2F shows a case where a touch surface touched through the touch screen 105 is recognized to process the touch surface of the designated geometrical structure by touching the transparent transparent touch area, or through the touch control module 135 The touch recognition module 140 recognizes the touch processed by the touch of the transparent touch area. If the person skilled in the art is aware of the present invention, (E.g., some of the components may be omitted, or broken down or combined) with respect to the touch recognition module 140, but the present invention may include all of the above- And the technical features thereof are not limited only by the method shown in FIG. 2f.

Referring to FIG. 2F, the touch recognition module 140 of the program 120 recognizes a touch point touched through the touch screen 105 in order to process a predetermined number of touch points or more by touching the transparent touch area A touch screen recognition unit 236 for recognizing a touch of a shape processed by a touch of a transparent touch region through the touch control module 135, (238). The shape touch recognition unit 238 recognizes that the shape recognition unit 238 recognizes that the shape recognition unit 238 is capable of communicating with the outside of the mobile terminal 100 (for example, the operating server 500 interlocked with the program 120 or the mobile terminal 100) Device or server, etc.).

The touch surface recognizing unit 236 recognizes the touch surface touched through the touch screen 105 to process the touch surface of the designated geometrical structure by touching the clear transparent touch area, 135). Meanwhile, when the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the touch surface recognition unit 236 recognizes the transparent touch Recognizes a shape touch processed by touching the area.

The shape touch of the present invention is characterized in that a touch that a touch recognition condition in which at least one or more of a touch time condition, a mechanical touch condition, and a pressure recognition touch condition is combined with a touch surface touched in the transparent touch area to be. The touch recognition condition may be stored in a designated storage area of the memory unit 115 (or a designated storage medium 530) in the form of a data set used by the program 120, Can be set on the code.

The touch time condition is a feature to recognize a touch surface of the transparent touch area as a shape touch surface having a designated shape when a surface touched in the transparent touch area is touched within a predetermined reference time.

For example, if the entire area of the surface to be touched in the transparent touch area is touched within 1 ms, the shape touch recognition unit 238 recognizes the touched surface in the transparent touch area as the shape touch surface having the specified shape .

The mechanical touch condition is a characteristic of recognizing the touched surface in the transparent touch area as a shape touch surface having a designated shape when a touch unit included in the separately manufactured touch device 300 is touched to the touch screen 105 .

For example, when the touch device 300 is provided with a touch unit having a geometry specified in the touch device 300 and a sound output function or a proximity wireless communication function is provided, If sound data designated through the sound input unit 107 is input or data specified through the proximity wireless communication unit 112 is received, the touch unit 300 having the sound output function or the proximity wireless communication function together with the touch unit, The shape recognition unit 238 recognizes the surface touched in the transparent touch area as a shape touch surface having a specified shape.

The pressure recognizing touch condition is a characteristic of recognizing a touch surface of the transparent touch area as a shape touch surface having a designated shape when the touch device 300 is pressed by a human hand as if it is painted with a hand.

For example, if an amount of impact is detected once through a sensor (e.g., a gyro sensor) built in the wireless terminal 100 at the time when the surface is touched to the transparent touch region, ) Is pressed by touching with the hand of a person, the shape touch recognition unit 238 can recognize the touch surface in the transparent touch area as a touch surface.

Or a behavior pattern of people who take a picture when the person touches the touch screen 105 by touching the touch device 300 as if the person is painting, The surface touched in the transparent touch area is maintained in the touched state for a predetermined time. Accordingly, if the surface touched in the transparent touch area is kept touched for a predetermined time, the touched surface of the transparent touch area is touched by touching the touch device 300 through the touch device 300, 238 may recognize the touch surface of the transparent touch area as a shape touch surface having a specified shape.

The shape recognition unit 238 recognizes whether the surface of the transparent touch area is touched, and determines whether the detected touch surface is a touch that is a combination of at least one of the touch time condition, the mechanical touch condition, Confirm that the recognition condition is satisfied.

According to the first shape touch recognition method of the present invention, when the surface touched in the transparent touch area satisfies at least one condition among the touch recognition conditions, the shape touch recognition unit 238 recognizes the touch surface as a touch It can be recognized as a plane. Preferably, the shape touch recognition unit 238 recognizes a touch surface that satisfies at least one of the touch time condition, the mechanical touch condition, and the pressure recognition touch condition as the shape touch surface.

On the other hand, according to an extensible aspect of the present invention, the shape touch surface can be more accurately recognized using a specified touch state condition. Wherein the touch condition condition is a simultaneous touch condition condition for authenticating a touch condition in which a surface touched in the transparent touch area is simultaneously touched within a predetermined time period, A static touch state condition for authenticating whether the shape of the surface touched in the transparent touch area maintains a static touch state that does not change for a predetermined period of time, And a dynamic touch state condition for authenticating whether or not a touched surface of the transparent touch area changes according to a specified rule. The touch state condition may be stored in a designated storage area of the memory unit 115 (or a designated storage medium 530) in the form of a data set used by the program 120, Can be set on the code.

Referring to FIG. 2F, the touch recognition module 140 of the program 120 recognizes that the surface to be touched in the transparent touch area is simultaneously touched within a predetermined period of time to recognize the shape touch surface more precisely A fixed touch state authentication unit 224 for authenticating whether the touched surface of the transparent touch area maintains a fixed touch state for a predetermined period of time, A static touch state authentication unit 226 for authenticating whether or not the shape of the touched surface maintains a static touch state that is not changed for a specified period of time, The authentication unit 228 may further include at least one authentication unit. According to an embodiment of the present invention, the authentication unit may be connected to the outside of the wireless terminal 100 (for example, an operating server 500 interlocked with the program 120, or a device or a server communicable with the wireless terminal 100) It is possible to be implemented.

According to the second shape touch recognition method of the present invention, the shape recognition unit 238 recognizes at least one of the touch recognition conditions, The touch surface can be recognized as a shape touch surface.

The simultaneous shape touch authentication unit 240 can authenticate that the surface touched in the transparent touch area is a shape touch surface touched simultaneously within a predetermined period of time (e.g., 1 ms). Preferably, the simultaneous shape touch authentication unit 240 acquires a touch state value by counting a time at which the entire area of a surface touched in the transparent touch area is recognized, The touch surface can be authenticated as a shape touch surface when the touch surface is touched within a predetermined time. If the shape touching surface is touched simultaneously within a predetermined time, the shape touch recognizing unit 238 can recognize the touched surface as a shape touching surface within a predetermined period of time.

If a shape touch surface is touched through a touch device 300 having a touch portion, the time at which the shape touch surface is recognized is not counted. That is, if the user holds the touch device 300 with a hand and touches the transparent touch area of the touch screen 105 in a direction perpendicular to the touch screen 105, the shape touch surface is touched simultaneously without counting time. In this case, the simultaneous shape touch authentication unit 240 can authenticate the shape touch surface simultaneously touched through the touch device 300 as a shape touch surface satisfying the touch time condition. When the shape touch surface is simultaneously touched through the touch device 300, the shape touch recognizer 238 can recognize the touch surface simultaneously touched by the touch device 300 as an upper touch surface.

If the transparent touch region of the touch screen 105 is not in a perpendicular direction, even if the transparent touch region is touched by holding the touch device 300 with the hand of a person, A part of the surface of the touch unit may be first touched to the touch screen 105 and then the remaining surface may be touched. When the touch units provided in the touch device 300 are sequentially touched, the simultaneous shape touch authentication unit 240 counts the time when the entire area of the surface to be touched in the transparent touch area is recognized, And the shape recognition unit 238 can recognize the touch surface authenticated as being simultaneously touched by the simultaneous shape touch authentication unit 240 as a shape touch surface.

According to the third shape touch recognition method of the present invention, the shape touch recognition unit 238 authenticates whether the surface touched in the transparent touch area satisfies at least one of the touch recognition conditions and maintains the fixed touch state The touch surface can be recognized as the touch surface. Here, the fixed touch state refers to a state in which the shape touch surface does not move for a predetermined time in the transparent touch area.

The fixed-touch-state authentication unit 224 authenticates whether the touched surface of the transparent touch area is touched and maintains a fixed touched state value for a predetermined period of time without moving. That is, when a person stamps a paper, a behavior pattern that habitually presses the stamp so that the stamp of the stamp can be sufficiently printed on the paper is generated. The fixed-touch-state authentication unit 224 determines whether the shape- The user is authenticated whether or not the above-described pattern for taking a picture is being generated. Preferably, the fixed-touch-state authentication unit 224 counts a time from the time when the shape-type touching surface is touched to the transparent-touching area to when the shape-touching surface is touched, Authenticates whether the counted time exceeds a specified reference time. If the counted time exceeds the specified reference time even before the touch release is confirmed, the touch surface may be authenticated as the shape touch surface. Accordingly, when the touched surface of the transparent touch area is touched and the fixed touch state is maintained without moving for a predetermined period of time, the shape touch recognition unit 238 recognizes the surface holding the fixed touch state as the shape touch surface .

According to the fourth shape touch recognition method of the present invention, the shape touch recognition unit 238 authenticates whether the surface touched in the transparent touch area satisfies at least one of the touch recognition conditions and maintains a static touch state The touch surface can be recognized as the touch surface. Here, the static touch state means a state in which the shape of the touch surface is not changed in a state where the shape touch surface is touched to the transparent touch region.

The static touch state authentication unit 226 confirms the shape of the touched surface in the transparent touch area and confirms the touch state value of the shape touch surface during the touched time, The shape of the surface is changed. That is, when the shape touch surface is touched through the touch device 300 having the touch portion, the shape of the shape touch surface is not changed unless the shape of the touch portion of the touch device 300 is changed, The static touch state authentication unit 226 authenticates whether the touch screen is kept in the static touch state while the touch screen is touched in the transparent touch area. If the shape touch surface maintains a static touch state in the transparent touch area, the shape touch recognition unit 238 can recognize the surface maintaining the static touch state as a shape touch surface.

In the case where the touch device 105 is touched by depressing the touch device 300, the touch device 105 is touched by the touch screen 105 in accordance with the angle between the touch screen 105 and the pushing force, (For example, a range in which the shape touch surface does not deviate from the transparent touch area) may occur. However, even if such a slip occurs, the shape touch surfaces are simultaneously spaced apart in the same direction, and the shape of the shape touch surface is not changed but the static touch state is maintained. The shape recognition unit 238 recognizes the surface as a shape touching surface if the shape touching surface is simultaneously spaced in the same direction due to the slip as described above and the shape of the touching surface remains unchanged and remains in the static touching state .

According to the fifth shape touch recognition method of the present invention, it is possible to recognize the touch surface as a shape touch surface by certifying that the touch surface in the transparent touch area satisfies at least one condition among the touch recognition conditions, have. Here, the dynamic touch state refers to a state in which the shape is changed according to a specified rule while the shape touch surface is touched to the transparent touch region. Such a dynamic touch state can be generated by a pushing force such that the shape of the touch part is changed or rotated or a motor provided in the touch device 300 or the like.

The dynamic touch state authentication unit 228 confirms the touch state value of the shape of the touched surface in the transparent touch area, and determines whether the touch surface is touched or changed in accordance with a specified rule in the touched state do. At this time, the shape of the shape touch surface must be changed according to a predetermined rule. If the dynamic touch state occurs on the shape touch surface touched in the transparent touch region, the shape touch recognition unit 238 can recognize the surface on which the dynamic touch state is generated as the shape touch surface.

According to the sixth shape touch recognition method of the present invention, the shape touch recognition unit 238 may combine or repeat two or more of the first to fifth shape recognition methods, It is possible to recognize the touch surface as a shape touch surface in a form in which at least one of the touch recognition methods is modified and used, so that the present invention is not limited thereto.

FIG. 2G is a diagram showing a functional configuration of the touch authentication module 145 of the program 120 according to another embodiment of the present invention.

2g shows the functional configuration of the touch authentication module 145 for authenticating the shape touch. As a person skilled in the art to which the present invention pertains, reference is made to Fig. 2g and / (E.g., some of the components may be omitted, or subdivided, or combined) for the touch authentication module 145, but the present invention includes all of the above- And the technical characteristics thereof are not limited only by the method shown in FIG. 2G.

Referring to FIG. 2G, the touch authentication module 145 of the program 120 includes a shape touch reading unit 242 for reading a pattern recognition value of a geometric structure of a shape touch surface recognized through the transparent touch area, A shape touch authentication unit 244 for authenticating whether the pattern structure of the shape touch surface matches a predetermined shape touch authentication condition based on the pattern recognition value, And the touch authentication result confirmation unit 234 for confirming the result of the authentication process and the shape authentication unit 244 according to the embodiment of the present invention. An operational server 500, or a device or server capable of communicating with the wireless terminal 100).

The shape touch reading unit 242 forms a shape touch image by imaging the geometric structure of the shape touch screen to authenticate the recognized shape touch screen through the shape touch recognition unit 238. [ The shape touch image may include at least one of a bitmap image or a vector map image imaged based on a coordinate system (for example, an orthogonal coordinate system, a circular coordinate system, etc.) set in the transparent touch region. The shape touch reading unit 242 extracts a pattern recognition value by applying the shape touch image to a designated pattern recognition algorithm. Wherein the pattern recognition value of the shape touch image is a generic name of values interpreted through a specified pattern recognition algorithm and includes at least one of a coordinate value, a scalar value, and a vector value of at least one of points, lines, and faces constituting the shape touch image Or a combination of two or more. The pattern recognition algorithm may be any algorithm that can be used for image processing if it is an algorithm for extracting a pattern recognition value that matches a specified shape touch authentication condition. Those skilled in the art will recognize various pattern recognition algorithms and methods of implementing the pattern recognition algorithms, so that a detailed description thereof will be omitted for the sake of convenience.

The shape touch authentication unit 244 has a shape touch authentication condition for authenticating a pattern recognition value extracted by the pattern recognition algorithm. The shape touch authentication condition may be provided to the shape touch authentication unit 244 in the form of a program 120 code of the program 120 or may be stored in the memory unit 115 The touch authentication unit 244 may be provided in the shape recognition unit 244.

According to an embodiment of the present invention, the shape touch authentication condition may be obtained by comparing and authenticating a pattern recognition value extracted from a shape touch image through the pattern recognition algorithm, or by performing a specified verification operation with the pattern recognition value, A generic term of a condition for authenticating validity, and may preferably include a predicted value and a tolerance of a pattern recognition value extracted from the shape touch image through the pattern recognition algorithm.

The shape touch authentication unit 244 compares the pattern recognition value extracted through the shape touch reading unit 242 with the shape touch authentication condition or performs a specified verification operation to determine whether the pattern structure of the shape touch surface is the shape Authentication to match the touch authentication condition.

The touch authentication result confirmation unit 234 confirms that the shape touch authentication unit 244 authenticates the pattern recognition value using the shape touch authentication condition. If the shape authentication unit 244 is implemented outside the wireless terminal 100, the touch authentication result confirmation unit 234 may extract the shape touch image data obtained by imaging the touched surface in the transparent touch area, The pattern recognition value read by the shape touch reading unit 242 is supplied to the shape touch authentication unit 244 provided outside the wireless terminal 100, It is possible to receive a result of authentication that the pattern structure of the surface matches the shape touch authentication condition.

2h is a diagram showing a functional configuration of the sound authentication module 155 of the program 120 according to the method of the present invention.

Referring to FIG. 2h, the sound authentication module 155 of the program 120 may be configured to recognize the sound input unit 107 at any point in time before, during, or after the N simultaneous touch points or shape touch surfaces are recognized or authenticated A sound authentication unit 248 for authenticating whether the recognized sound matches with a predetermined sound authentication condition, a sound authentication unit 248 for authenticating the sound data through the sound authentication condition, And the sound authentication unit 248 may be implemented outside the wireless terminal 100. The sound authentication unit 248 may be implemented on the external device. Meanwhile, according to the embodiment of the present invention, the sound recognition unit 246 can recognize the sound independently and authenticate through the sound authentication unit 248. In this case, the result of the sound authentication is equivalent to the touch recognition Lt; / RTI &gt; Preferably, when the sound authentication module 155 recognizes and authenticates the sound output through the touch device 300, the sound authentication module 155 determines that the touch device 300 is an authentic device that is not falsified, Can be authenticated. Or when the sound authentication module 155 recognizes and authenticates a sound output through the terminal device 540 of the affiliated member having the touch device 300, 300 at the merchant's point of sale.

According to the embodiment of the present invention, a sound device (for example, POS (1)) for outputting a designated sound signal is provided near the wireless terminal 100 having the program 120 for recognizing or authenticating the N simultaneous touch points or the shape- Point Of Sales terminal, a CAT (Credit Authorization Terminal), a charge terminal, a computer, or a touch device 300 that is touched to the touch screen 105). The sound device outputs a specified sound signal at a specified time point before, during, or after N simultaneous touch points or shape touch surfaces are recognized or authenticated. In particular, the sound signal may be output by the touch device 300.

According to the first sound output method of the present invention, the sound device can identify a unique code of a designated code system, and output a sound signal including the identified unique code. The unique code may be stored or maintained in a memory of the sound device, or may be provided from a designated server in communication with the sound device. When the sound data includes a unique code, the sound authentication condition may include a comparison object code to be compared and authenticated with the inherent code.

According to the second sound output method of the present invention, the sound device can identify the disposable code of the designated code system, and output the sound signal including the identified disposable code. The sound device stores or maintains a code generation rule (e.g., a code generation algorithm and / or one or more seed values) for generating a disposable code of a specified code system, and stores the disposable code of the specified code system It can be dynamically generated and output through a sound signal. Or the disposable code may be dynamically generated via a designated server in communication with the sound device and provided to the sound device. When the one-time code is included in the sound data, the sound authentication condition includes a code generation rule for dynamically generating a comparison target code matching the disposable code (e.g., a code generation algorithm in which a one- And / or a rule that matches the seed value).

According to the third sound output method of the present invention, the sound device can identify the unique code of the specified code system and the dynamically generated one-time code, and output the sound signal including the identified unique code and the disposable code. The unique code may be stored or maintained in a memory of the sound device, or may be provided from a designated server in communication with the sound device, and the disposable code may also be generated dynamically via the sound device, Can be dynamically generated through a designated server and provided to the sound device. Wherein the sound authentication condition includes a comparison object code to be compared and authenticated with the inherent code when the sound data includes a unique code and a one-time use code, the code generation rule for dynamically generating a comparison object code matched with the one- . &Lt; / RTI &gt;

According to the fourth sound output method of the present invention, the sound device has a function of outputting a signal sound of a specified frequency band, and can output the designated sound signal. At this time, the frequency band of the signal sound output through the sound device may play the role of the unique code or the disposable code. And the sound data is a signal sound of a specific frequency band. The sound authentication condition may include authentication frequency information for authenticating a frequency band of the signal sound.

According to the fifth sound output method of the present invention, the sound apparatus has a function of outputting a sound signal including a specified specific sound pattern, and can output a sound signal including the sound pattern. At this time, the sound pattern of the sound signal output through the sound device may play the role of the unique code or the disposable code. If the sound data includes a sound pattern, the sound authentication condition may include a pattern recognition algorithm for recognizing and authenticating the sound pattern and a pattern authentication value.

The sound device may output a sound signal in a manner of combining at least one or more of the first to fifth sound output methods, and the sound authentication condition may include at least one or two or more conditions matching the sound signal . Preferably, the sound authentication condition is stored in the memory 120 in the form of program code of the program 120 or in the form of data (or file) used by the program 120 .

The sound recognition unit 246 recognizes sound data input through the sound input unit 107 through the sound device provided in the vicinity of the wireless terminal 100. Preferably, the sound data input through the sound input unit 107 is buffered in a designated buffer memory, and the sound recognition unit 246 accesses the buffer memory to confirm the sound data.

According to the first sound authentication method of the present invention, the sound device converts at least one of a unique code and a disposable code into a sound signal of a DTMF (Dual Tone Multi Frequency) type (e.g., Buzzer sound). Alternatively, the sound device may output a signal sound of a specific frequency band according to the fourth sound output method. Alternatively, the sound device may output a sound signal including a specific sound pattern according to the fifth sound output method.

The sound recognition unit 246 recognizes one or more frequency bands of the sound data input through the sound input unit 107 and transmits the recognized one or more frequency bands to the sound authentication unit 248. The sound authentication unit 248 identifies one or more frequency bands included in the recognized sound data, and authenticates the validity of the sound data by reading the identified frequency band through the sound authentication condition.

When the sound data includes a unique code in the form of a DTMF and the sound authentication condition includes the comparison code to be compared and authenticated with the inherent code, the sound authenticator 248 compares the unique code of the sound data with the comparison object The validity of the unique code included in the sound data can be verified by comparing the codes.

When the sound data includes a DTMF disposable code and is included in the code generation rule for authenticating the disposable code in the sound authentication condition, the sound authentication unit 248 compares the one- The validity of the disposable code included in the sound data can be verified by using the code.

When the sound data includes a signal sound of a specific frequency band and the sound authentication condition includes the authentication frequency information, the sound authentication unit 248 determines that the frequency band corresponding to the sound signal of the sound data is a frequency band of the authentication frequency information It is possible to confirm the validity of the sound data with respect to the frequency band by confirming that the sound data is included in the specified error range.

The sound authentication unit 248 recognizes the sound pattern through the pattern recognition algorithm, and when the sound authentication condition includes the pattern recognition algorithm and the pattern authentication value, the sound authentication unit 248 recognizes the sound pattern, It is possible to verify the validity of the sound pattern included in the sound data by comparing with the authentication value or performing a specified verification operation.

The sound authentication confirmation unit 250 confirms the authentication result of the sound data performed through the sound authentication unit 248. If the sound authentication unit 248 is implemented outside the wireless terminal 100, the sound authentication confirmation unit 250 can recognize the input sound data or the unique code recognized from the input sound data and / Or a disposable code to the sound authentication unit 248 provided outside the wireless terminal 100 and receive the result of authenticating the frequency band of the sound data from the sound authentication unit 248. [

According to the second sound authentication method of the present invention, the sound device can output a sound signal including a sound pattern in which one or more codes among a unique code and a disposable code are patterned according to the first to third sound output methods have. Alternatively, the sound device may include a sound pattern (for example, a designated sound (e.g., a spoken sound of a speaker), a sound source (e.g., music played through a musical instrument according to a musical score, (E.g., at least one sound pattern among the sound patterns).

The sound recognition unit 246 recognizes a sound pattern included in the sound data input through the sound input unit 107 and transmits the recognized sound pattern to the sound authentication unit 248. The sound authentication unit 248 identifies the recognized sound pattern, and authenticates the validity of the sound data by reading the identified frequency band through the sound authentication condition.

When the sound data includes a sound pattern in which a unique code is patterned and the sound authentication condition includes the unique code and a comparison object code to be compared and authenticated, the sound authenticator 248 acquires a unique The validity of the unique code included in the sound data can be verified by comparing the code with the comparison target code.

When the sound data includes a sound pattern obtained by patterning the disposable code in the sound data and is contained in a code generation rule for authenticating the one-time code in the sound authentication condition, the sound authentication unit 248 generates The validity of the disposable code corresponding to the sound pattern can be authenticated using the compared comparison target code.

When the sound authentication pattern includes the pattern recognition algorithm and the pattern authentication value, the sound authentication unit 248 generates the pattern authentication value of the sound authentication condition Or may perform a specified verification operation to authenticate the validity of the sound pattern.

The sound authentication confirmation unit 250 confirms the authentication result of the sound data performed through the sound authentication unit 248. If the sound authentication unit 248 is implemented outside the wireless terminal 100, the sound authentication confirmation unit 250 obtains the sound pattern information recognized from the input sound data or the input sound data The sound authentication unit 248 may be provided with a sound authentication unit 248 provided outside the wireless terminal 100 and the sound authentication unit 248 may receive a result of authenticating the sound pattern of the sound data.

According to the third sound authentication method of the present invention, the sound device can output a sound signal including a sound code obtained by coding one or more specified codes of a unique code and a disposable code according to the first through third sound output methods have. The sound code is a generic term for encoding a bit string composed of '0' and '1' in a sound signal in an audible frequency or a non-audible frequency range. One or more codes of a unique code and a disposable code are directly encoded .

According to an embodiment of the present invention, the sound device identifies a sound signal to be encoded with a designated code, generates a sound spreading code by encoding the designated code according to a coding rule matching an encoding rule of the sound signal, The generated sound spreading code is encoded into the sound signal according to a specified encoding rule to generate the sound code in which the designated code is encoded. Preferably, the sound spreading code encoded in the sound signal is encoded in a pseudo noise region so that the sound perception capability that a typical human perceives is such that the specified code can recognize the sound spreading code encoded I will not.

The sound device outputs a sound signal including the generated sound code, and the sound input unit 107 receives a sound signal including the sound code. The sound input unit 107 may encode the input sound signal into at least one codec. For example, when the sound signal is input for voice communication, the input sound signal is encoded through a codec suitable for the voice call, and when the sound signal is input for voice recording, May be encoded through a codec suitable for the voice call. Preferably, the input sound signal is encoded by a codec of the same rule as a rule that the sound code is encoded in the sound device among the codecs supported by the sound input unit 107, or at least a codec Lt; / RTI &gt;

The sound recognition unit 246 decodes the buffered sound data according to a predetermined decoding rule to obtain a sound spreading code in which the to-be-encoded data is encoded, obtains an encoded code in the obtained sound spreading code, To the authentication unit 248.

When the sound data includes a sound code obtained by encoding a unique code and the sound authentication condition includes the comparison code to be compared and authenticated with the inherent code, the sound authentication unit 248 generates a unique code And the validation of the unique code included in the sound data can be authenticated.

The sound authentication unit 248 includes a sound code obtained by coding the disposable code in the sound data and included in the code generation rule for authenticating the disposable code in the sound authentication condition, The validity of the disposable code encoded in the sound code can be authenticated using the comparison object code.

The sound authentication confirmation unit 250 confirms the authentication result of the sound data performed through the sound authentication unit 248. If the sound authentication unit 248 is implemented outside the wireless terminal 100, the sound authentication confirmation unit 250 may determine whether the sound data corresponding to the input sound data, or the sound code corresponding to the input sound data, And provides a unique code and / or a disposable code obtained from the sound code to a sound authentication unit 248 provided outside the wireless terminal 100. The result of authenticating the sound code from the sound authentication unit 248 Can be provided.

When the sound authentication module 155 is provided as the dynamic authentication module 150 combined with the authentication of the N simultaneous touch points or the shape touch surface, the touch authentication result confirmation unit 234 confirms the sound authentication confirmation unit 250, And confirms whether the sound data recognized through the sound recognition unit 246 is authenticated by a combination of at least one of the first to third sound authentication methods or a combination of two or more of the first to third sound authentication methods. If the validity of the N simultaneous touch points or feature touch surfaces is authenticated and the recognized sound data is authenticated as a result of dynamic authentication combined with authentication of the N simultaneous touch points or feature touch faces, The controller 234 may determine that the validity of the N simultaneous touch points or the shape touch surface is authenticated based on the confirmed sound authentication result.

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Referring to FIG. 2h, the location authentication module 160 of the program 120 determines whether the N simultaneous touch points or the shape touch surface is located at any position before, during, A position recognition unit 252 for recognizing position data positioned through the position authentication unit 252, a position authentication unit 254 for authenticating whether the recognized position data matches a predetermined position authentication condition, And a location authentication unit 256 for confirming the result of authentication of the data. The location authentication unit 254 can be implemented outside the wireless terminal 100. Preferably, the location authentication module 160 authenticates the visiting site or visited state of the merchant having the touch device 300 or authenticates that the touch device 300 is located in the vicinity of the wireless terminal 100 . Or when the position of the touch device 300 is changed (for example, when the employee of the affiliated shop carries the touch device 300 and moves to the user's location), the location authentication module 160 determines It can be verified that the touch device 300 is located nearby.

According to the method of the present invention, at any specified point in time before, during or after the N simultaneous touch points or shape touching surfaces are recognized or authenticated, the position locating unit 113 transmits, via GPS, Position the position in real time or obtain the position finally positioned. The position recognition unit 252 confirms the position data of the wireless terminal 100 positioned or obtained in real time through the position measurement unit 113.

The location authentication unit 254 has a location authentication condition including at least one of a reference location and a location area to be compared with the confirmed location data. The location authentication condition may be stored in the program 120 in the form of a program code of the program 120 or may be stored in the memory unit 115 in the form of data (or a file) .

According to an embodiment of the present invention, the location authentication condition is a generic name of location information on which the mobile terminal 100 should exist at the time of touching the touch device 300 on the touch screen 105 of the wireless terminal 100 , Preferably a reference position or a position area corresponding to the position of the franchisee having the touch device 300. When the position of the touch device 300 is changed, the location authentication condition may be provided in real time from the operation server 500 or a designated server.

The position authenticating unit 254 checks whether the confirmed position data is within a predetermined distance from the reference position of the position authentication condition or whether the confirmed position data exists in the position area of the position authentication condition And verifies the validity of the position data. The location authentication unit 256 confirms the authentication result of the location data performed through the location authentication unit 254. If the location authentication unit 254 is implemented outside the wireless terminal 100, the location authentication unit 256 may transmit the confirmed location data to a location authentication unit (not shown) And receives the location data from the location authentication unit 254.

When the location authentication module 160 is provided as the dynamic authentication module 150 combined with the authentication of the N simultaneous touch points or the shape touch surface, the touch authentication result confirmation unit 234 confirms the location authentication confirmation unit 256, And confirms that the recognized position data through the position recognition unit 252 is authenticated. If the validity of the N simultaneous touch points or feature touch surfaces is authenticated and the recognized position data is authenticated as a result of dynamic authentication combined with authentication of the N simultaneous touch points or feature touch faces, The controller 234 can determine that the validity of the N simultaneous touch points or the shape touch surface is authenticated based on the confirmed position certification result.

2I is a diagram illustrating a functional configuration of the location authentication module 160 of the program 120 according to an embodiment of the present invention.

Referring to FIG. 2i, the location authentication module 160 of the program 120 determines whether the N simultaneous touch points or shape touching surfaces are located at any predetermined time point before, A position recognition unit 252 for recognizing position data positioned through the position authentication unit 252, a position authentication unit 254 for authenticating whether the recognized position data matches a predetermined position authentication condition, And a location authentication unit 256 for confirming the result of authentication of the data. The location authentication unit 254 can be implemented outside the wireless terminal 100. Preferably, the location authentication module 160 authenticates the visiting site or visited state of the merchant having the touch device 300 or authenticates that the touch device 300 is located in the vicinity of the wireless terminal 100 . Or when the position of the touch device 300 is changed (for example, when the employee of the affiliated shop carries the touch device 300 and moves to the user's location), the location authentication module 160 determines It can be verified that the touch device 300 is located nearby.

According to the method of the present invention, at any specified point in time before, during or after the N simultaneous touch points or shape touching surfaces are recognized or authenticated, the position locating unit 113 transmits, via GPS, Position the position in real time or obtain the position finally positioned. The position recognition unit 252 confirms the position data of the wireless terminal 100 positioned or obtained in real time through the position measurement unit 113.

The location authentication unit 254 has a location authentication condition including at least one of a reference location and a location area to be compared with the confirmed location data. The location authentication condition may be stored in the program 120 in the form of a program code of the program 120 or may be stored in the memory unit 115 in the form of data (or a file) .

According to an embodiment of the present invention, the location authentication condition is a generic name of location information on which the mobile terminal 100 should exist at the time of touching the touch device 300 on the touch screen 105 of the wireless terminal 100 , Preferably a reference position or a position area corresponding to the position of the franchisee having the touch device 300. When the position of the touch device 300 is changed, the location authentication condition may be provided in real time from the operation server 500 or a designated server.

The position authenticating unit 254 checks whether the confirmed position data is within a predetermined distance from the reference position of the position authentication condition or whether the confirmed position data exists in the position area of the position authentication condition And verifies the validity of the position data. The location authentication unit 256 confirms the authentication result of the location data performed through the location authentication unit 254. If the location authentication unit 254 is implemented outside the wireless terminal 100, the location authentication unit 256 may transmit the confirmed location data to a location authentication unit (not shown) And receives the location data from the location authentication unit 254.

When the location authentication module 160 is provided as the dynamic authentication module 150 combined with the authentication of the N simultaneous touch points or the shape touch surface, the touch authentication result confirmation unit 234 confirms the location authentication confirmation unit 256, And confirms that the recognized position data through the position recognition unit 252 is authenticated. If the validity of the N simultaneous touch points or feature touch surfaces is authenticated and the recognized position data is authenticated as a result of dynamic authentication combined with authentication of the N simultaneous touch points or feature touch faces, The controller 234 can determine that the validity of the N simultaneous touch points or the shape touch surface is authenticated based on the confirmed position certification result.

2J is a diagram showing the functional configuration of the camera authentication module 165 of the program 120 according to the method of the present invention.

Referring to FIG. 2J, the camera authentication module 165 of the program 120 determines whether or not the camera unit 108 is in a predetermined position before, during, or after the N simultaneous touch points or shape touch surfaces are recognized or authenticated. An image recognition unit 258 for recognizing image data acquired through the image authentication unit 260, an image authentication unit 260 for authenticating whether the verified image data matches a predetermined image authentication condition, And the image authentication unit 260 may be implemented outside the wireless terminal 100. The image authentication unit 260 may be an external device. Meanwhile, according to the embodiment of the present invention, the image recognition unit 258 can independently recognize image data and be authenticated through the image authentication unit 260. In this case, Can be used equally. Preferably, the camera authentication module 165 performs a specific action (e.g., photographing a code image or photographing a code image and ordering) by a visiting user at a merchant having the touch device 300 ) That you have done. The touch authentication may be an authentication associated with such an action.

According to the method of the present invention, in the vicinity of the wireless terminal 100 equipped with the program 120 for recognizing or authenticating the N simultaneous touch points or the shape touching surface, an image medium (for example, A POS terminal, a CAT, a charge terminal, a computer, etc., or a print medium on which a designated image is printed, or a touch device 300 for displaying a designated image in an electronic / printing manner) equipped with a display .

The image recognition unit 258 outputs an interface for guiding image data from the designated image medium using the screen output unit 103. The user performs a specified operation procedure in accordance with the guidance of the interface, Image data is obtained from the image medium through the camera section 108 as a result of the user operation.

According to an embodiment of the present invention, the image data may include a code image (for example, a one-dimensional bar code, a two-dimensional bar code, a three-dimensional bar code, a color code, etc.) Preferably, the code image may include a two-dimensional bar code in a code designated in at least one of a QR code format, a data matrix format, a maxi code format, and a PDF 417 format. Or the image data may comprise a pattern image comprising a specified image pattern. Preferably, the pattern image may include at least one image pattern recognizable through a specified pattern recognition algorithm of a logo, a pattern, a symbol, a photograph, or a pattern.

According to the first image display method of the present invention, the image medium includes an image device including a display for electronically outputting a code image or an image pattern (for example, a POS terminal equipped with a display for electronically outputting a designated image, a CAT, A charge terminal, a computer, or the like, or a touch device 300 that electronically outputs a designated image).

According to the first electronic image outputting method of the present invention, the image device can confirm the inherent code of the designated code system, and electronically output the encoded code image with the confirmed inherent code. The unique code may be stored or maintained in a memory of the imaging device, or may be provided from a designated server in communication with the imaging device. When a unique code is encoded in an electronically outputted code image, the image authentication condition may include a comparison target code to be compared and authenticated with the unique code.

According to the second electronic image output method of the present invention, the image device can identify the disposable code of the designated code system, and electronically output the code image in which the identified unique code is encoded. The image device stores or maintains code generation rules (e.g., code generation algorithms and / or one or more seed values, etc.) for generating one-off codes of a specified code scheme, and stores the one- It can be dynamically generated and output through an image. Or the disposable code may be dynamically generated via a designated server in communication with the imaging device and provided to the imaging device. When the disposable code is encoded in the electronically outputted code image, the image authentication condition is a code generation rule for dynamically generating a comparison target code matching the disposable code (e.g., a code generated by dynamically generating a disposable code included in the image Generation algorithm and / or rule matched with the seed value).

According to the third electronic image output method of the present invention, the image device confirms the inherent code of the specified code system and the one-time use code dynamically generated, and electronically outputs the confirmed unique code and the one- . The unique code may be stored or maintained in a memory of the imaging device, or may be provided from a designated server in communication with the imaging device, and the disposable code is also dynamically generated via the imaging device, Can be dynamically generated through a designated server and provided to the image device. Wherein when the unique code and the one-off code are encoded in the electronically output code image, the image authentication condition includes a comparison target code to be compared and authenticated with the inherent code, and the comparison target code to be compared with the one- Code generation rules can be included.

According to the fourth electronic image output method of the present invention, the image device can electronically output a pattern image including a specified specific image pattern. At this time, the pattern included in the pattern image output through the image device may play the role of the unique code or the disposable code. When the pattern image is included in the pattern image, the image authentication condition may include a pattern recognition algorithm for recognizing and authenticating the image pattern and a pattern authentication value.

Wherein the image device is capable of outputting an image in a manner of combining at least one or more of the first to fourth electronic image output methods, and the image authentication condition includes at least one or two or more conditions matched to the image can do. Preferably, the image authentication condition is stored in the memory 120 in the form of a program code of the program 120 or in the form of data (or a file) used by the program 120 .

According to the second image displaying method of the present invention, the image medium may include a print medium on which a code image or a pattern image is printed.

According to the first print image displaying method of the present invention, a code image in which a unique code of a specified code scheme is encoded can be printed on the print medium. When the pattern image printed on the printing medium includes a unique code, the image authentication condition may include a comparison code to be compared and authenticated with the inherent code.

According to the second print image displaying method of the present invention, the print medium can be printed as a pattern image including a specified specific image pattern. The image authentication condition may include a pattern recognition algorithm for recognizing and authenticating the image pattern and a pattern authentication value when the pattern image included in the pattern image printed on the print medium is included.

The image recognition unit 258 acquires image data displayed in an electronic or printing manner through an image medium provided in the vicinity of the wireless terminal 100. Preferably, the image data input through the camera unit 108 is buffered in a designated buffer memory, and the image recognition unit 258 accesses the buffer memory to acquire image data and transmits the image data to the image authentication unit 260 do.

When the image data includes a unique code and the image authentication condition includes the comparison code to be compared and authenticated with the inherent code, the image authentication unit 260 compares the unique code of the image data with the comparison object code Thereby validating the validity of the unique code included in the image data.

When the image data includes the one-time use code and is included in the code generation rule for authenticating the one-time use code in the image authentication condition, the image authentication unit 260 uses the comparison target code generated according to the code generation rule And validate the validity of the one-time code included in the image data.

The image authentication unit 260 recognizes the image pattern through the pattern recognition algorithm, and when the pattern recognition algorithm includes the pattern recognition algorithm and the pattern authentication value, It is possible to compare the authentication value with the authentication value or perform a specified verification operation to authenticate the validity of the image pattern included in the image data.

The image authentication unit 262 confirms the authentication result of the image data performed through the image authentication unit 260. If the image authentication unit 260 is implemented outside the wireless terminal 100, the image authentication unit 262 may determine whether the acquired image data or the code information recognized from the input image data Code information encoded in a code image, code information obtained by analyzing a pattern included in the pattern image, and the like) to the image authentication unit 260 provided outside the wireless terminal 100, and the image authentication unit 260 The user can be provided with a result of authenticating the image data.

When the camera authentication module 165 is provided as the dynamic authentication module 150 combined with the authentication of the N simultaneous touch points or the shape touch surface, the touch authentication result confirmation unit 234 checks the image authentication confirmation unit 262, And checks whether the image data recognized through the image recognition unit 258 is authenticated. If the validity of the N simultaneous touch points or feature touch surfaces is authenticated and the recognized image data is authenticated as a result of dynamic authentication combined with authentication of the N simultaneous touch points or feature touch faces, The controller 234 can determine that the validity of the N simultaneous touch points or the shape touch surface is authenticated based on the confirmed image authentication result.

2k is a diagram showing a functional configuration of the local area communication authentication module 170 of the program 120 according to the embodiment of the present invention.

Referring to FIG. 2K, the local area communication authentication module 170 of the program 120 may determine whether or not the local wireless communication unit A local communication recognition unit 264 for recognizing the authentication data received from the local device via the local communication authentication unit 261, a local communication authentication unit 266 for authenticating whether the recognized authentication data matches a predetermined local communication authentication condition, And a local area communication authentication unit 268 for confirming the result of the local area communication authentication through the local area communication authentication condition. The local area communication authentication unit 266 can be implemented outside the radio terminal 100 Do. Meanwhile, according to the embodiment of the present invention, the local area communication recognizer 264 can recognize the local area communication independently and authenticate through the local area communication authentication unit 266. In this case, It can be used equivalently to touch recognition. When the local area communication authentication module 170 performs the local area wireless communication with the touch device 300, the local area communication authentication module 170 determines that the touch device 300 is located in the vicinity of the mobile terminal 100 You can authenticate. Or the local area communication authentication module 170 performs short-range wireless communication with a terminal device 540 of an affiliated store having the touch device 300, the local area communication authentication module 170 performs a touch authentication to the touch device 300 It can be authenticated that it is being performed at the affiliated shop.

According to the embodiment of the present invention, in the vicinity of the wireless terminal 100 having the program 120 for recognizing or authenticating the N simultaneous touch points or the shape touch surface, (E.g., a point of sale (POS) terminal, a credit authorization terminal (CAT), a charge terminal, a computer, or a touch device 300 that is touched to the touch screen 105). The local device transmits designated authentication data at a specified time point before, during, or after the N simultaneous touch points or shape touch surfaces are recognized or authenticated.

According to the first local area communication method of the present invention, the local device can confirm the unique code of the designated code system and transmit the authentication data including the identified unique code. The unique code may be stored or maintained in the memory of the local device, or may be provided from a designated server in communication with the local device. When the authentication data includes a unique code, the local communication authentication condition may include the unique code and a comparison object code to be compared and authenticated.

According to the second short-range communication method of the present invention, the short-range device can confirm the one-time code of the designated code system and transmit the authentication data including the identified unique code. The local device stores or maintains a code generation rule (e.g., a code generation algorithm and / or one or more seed values) for generating a disposable code of a specified code system, and stores the disposable code of the designated code system Dynamically generated and transmitted through authentication data. Or the disposable code may be dynamically generated via a designated server communicating with the local device and provided to the local device. When the one-time code is included in the authentication data, the short-range communication authentication condition includes a code generation rule for dynamically generating a comparison target code that matches the one-time use code (for example, Algorithm and / or rule matched with the seed value).

According to the third short range communication method of the present invention, the short range device can confirm the unique code of the specified code system and the dynamically generated one-time code, and transmit the authentication data including the identified unique code and the one-time code. The unique code may be stored or maintained in a memory of the local device, or may be provided from a designated server communicating with the local device, and the disposable code may also be generated dynamically via the local device, And can be dynamically generated through the designated server and provided to the near device. Wherein when the authentication data includes a unique code and a disposable code, the short-range communication authentication condition includes a comparison object code to be compared and authenticated with the inherent code, and a code generation method for dynamically generating a comparison object code matching the disposable code You can include rules.

The local device may transmit authentication data in at least one of the first to third local area communication methods, and the local area communication authentication condition may include at least one of matching with the authentication data. The short-range communication authentication condition may be provided in the program 120 in the form of a program code of the program 120 or may be stored in the memory unit 115 in the form of data (or a file) Lt; / RTI &gt;

The local communication recognition unit 264 confirms the authentication data received from the local area wireless communication unit 110 in the vicinity of the wireless terminal 100 via the local area wireless communication unit 110. The local area communication device recognizes the authentication data including the designated code among the data received from the local area device and transmits the data to the local area communication authentication unit 266). The authentication data includes at least one of a unique code and a disposable code, and may include an identification code for identifying a local device and at least one key value for security processing according to an implementation method. Preferably, the authentication data (or unique code and / or disposable code) is encrypted according to a specified encryption rule, and the encrypted authentication data (or unique code and / or disposable code) Or may be decrypted by the operations server 500 (or a designated server).

The local communication authentication unit 266 identifies one or more codes among the unique code and the one-time code included in the recognized authentication data, and authenticates the validity of the authentication data through the local communication authentication condition. If the authentication data (or the unique code and / or the one-time code) is encrypted, the short-range communication authentication unit 266 can decrypt the encrypted authentication data (or unique code and / or disposable code).

When the unique code is included in the authentication data and the comparison code to be compared and authenticated is included in the local communication authentication condition, the local communication authentication unit 266 compares the unique code of the authentication data with the comparison object code So as to authenticate the validity of the unique code included in the authentication data.

When the one-time code is included in the authentication data and included in the code generation rule for authenticating the one-time code in the short-range communication authentication condition, the short-range communication authentication unit 266 compares the comparison target code The validity of the disposable code included in the authentication data can be authenticated.

The short-distance communication authentication unit 268 confirms the authentication result of the authentication data performed through the short-distance communication authentication unit 266. If the local area communication authentication unit 266 is implemented outside the wireless terminal 100, the local area communication authentication unit 268 determines whether the input authentication data or the unique code included in the input authentication data And / or a disposable code to the local communication authentication unit 266 provided outside the wireless terminal 100, and receives the authentication result from the local communication authentication unit 266.

When the local authentication module 170 is provided as the dynamic authentication module 150 combined with the authentication of the N simultaneous touch points or the shape touch surface, the touch authentication result confirmation unit 234 identifies the local communication authentication confirmation unit And confirms whether the authentication data recognized through the local communication recognition unit 264 is authenticated. If the validity of the N simultaneous touch points or feature touch surfaces is authenticated and the recognized authentication data is authenticated as a result of the dynamic authentication combined with the authentication of the N simultaneous touch points or feature touch faces, The controller 234 can determine that the validity of the N simultaneous touch points or the shape touch surface is authenticated based on the confirmed local communication authentication result.

FIG. 21 is a diagram showing the functional configuration of the proximity communication authentication module 175 of the program 120 according to the method of the present invention.

Referring to FIG. 21, the proximity communication authentication module 175 of the program 120 determines whether the N proximity touch points or the contoured touch surface are detected at any time point before, during, A proximity communication recognition unit (270) for recognizing the authentication data received from the proximity device via the wireless communication unit (112), a proximity communication authentication unit (272) for authenticating whether the recognized authentication data matches a predetermined proximity communication authentication condition, And a proximity communication authentication unit 274 for confirming the result of the authentication of the proximity communication through the proximity communication authentication condition. The proximity communication authentication unit 272 can be implemented outside the wireless terminal 100 Do. Meanwhile, according to the embodiment of the present invention, the proximity communication recognition unit 270 may independently recognize proximity communication and be authenticated through the proximity communication authentication unit 272. In this case, the result of the proximity communication authentication may be It can be used equivalently to touch recognition. Preferably, when the proximity communication authentication module 175 authenticates the authentication data transmitted through the proximity wireless communication in the touch device 300, the proximity communication authentication module 175 may be configured such that the touch device 300 is falsified, It can authenticate that it is an authentic device that is not replicated. When the proximity communication authentication module 175 authenticates the authentication data transmitted through the proximity wireless communication in the terminal device 540 of the merchant having the touch device 300, Can be authenticated that it is performed at an affiliated store having the touch device 300.

According to the embodiment of the present invention, the proximity of the wireless terminal 100 having the program 120 for recognizing or authenticating the N simultaneous touch points or the shape touch surface is provided with a proximity A touch device 300 that is touched to the touch screen 105, or an RF card, a contactless IC card, an NFC (non-contact type IC card) Card, etc.) may be provided. The proximity device transmits the specified authentication data at a designated time point before, during, or after the N simultaneous touch points or shape touch surfaces are recognized or authenticated.

According to the first proximity communication method of the present invention, the proximity device can confirm the unique code of the designated code system and transmit the authentication data including the confirmed unique code. The unique code may be stored or maintained in the memory of the proximity device, or may be provided from a designated server in communication with the proximity device. When the authentication data includes a unique code, the proximity communication authentication condition may include the comparison code to be compared with the unique code.

According to the second proximity communication method of the present invention, the proximity device can confirm the one-time code of the designated code system and transmit the authentication data including the confirmed unique code. The proximity device stores or maintains a code generation rule (e.g., a code generation algorithm and / or one or more seed values, etc.) for generating a one-off code of a specified code system, and stores the one- Dynamically generated and transmitted through authentication data. Or the disposable code may be dynamically generated via a designated server in communication with the proximity device and provided to the proximity device. When the one-time code is included in the authentication data, the proximity communication authentication condition includes a code generation rule for dynamically generating a comparison target code matched with the one-time use code (e.g., code generation by dynamically generating a one- Algorithm and / or rule matched with the seed value).

According to the third proximity communication method of the present invention, the proximity device can confirm the unique code of the designated code system and the dynamically generated one-time code, and transmit the authentication data including the confirmed unique code and the one-time code. The unique code may be stored or maintained in a memory of the proximity device, or may be provided from a designated server in communication with the proximity device, and the disposable code may also be generated dynamically via the proximity device, Can be dynamically generated through the designated server and provided to the proximity device. Wherein the proximity communication authentication condition includes a comparison object code to be compared and authenticated with the inherent code when the authentication data includes a unique code and a disposable code, You can include rules.

The proximity device may transmit authentication data in at least one of the first to third proximity communication methods, and the proximity communication authentication condition may include at least one of matching with the authentication data. The proximity communication authentication condition may be provided in the program 120 in the form of a program code of the program 120 or may be stored in the memory unit 115 in the form of data (or file) Lt; / RTI &gt;

The proximity communication recognition unit 270 confirms authentication data received from the proximity device provided near the wireless terminal 100 through the proximity wireless communication unit 112. [ Preferably, the proximity device can transmit various data in addition to the authentication data, and the proximity communication recognition unit 270 recognizes the authentication data including the designated code among the data received from the proximity device, 272). The authentication data includes at least one of a unique code and a disposable code, and may include an identification code for identifying the proximity device and at least one key value for security processing according to an implementation method. Preferably, the authentication data (or unique code and / or disposable code) is encrypted according to a specified encryption rule, and the encrypted authentication data (or unique code and / or disposable code) Or may be decrypted by the operations server 500 (or a designated server).

The proximity communication authentication unit 272 identifies at least one of a unique code and a disposable code included in the recognized authentication data, and authenticates the validity of the authentication data through the proximity communication authentication condition. If the authentication data (or unique code and / or disposable code) is encrypted, the proximity communication authentication unit 272 can decrypt the encrypted authentication data (or unique code and / or disposable code).

When the unique code is included in the authentication data and the comparison code to be compared and authenticated is included in the proximity communication authentication condition, the proximity communication authentication unit 272 compares the unique code of the authentication data, So as to authenticate the validity of the unique code included in the authentication data.

If the one-time code is included in the authentication data and the proximity communication authentication condition is included in the code generation rule for authenticating the one-time code, the proximity communication authentication unit 272 compares the comparison target code generated according to the code generation rule The validity of the disposable code included in the authentication data can be authenticated.

The proximity communication authentication confirmation unit 274 confirms the authentication result of the authentication data performed through the proximity communication authentication unit 272. If the proximity communication authentication unit 272 is implemented outside the wireless terminal 100, the proximity communication authentication confirmation unit 274 determines whether or not the proximity communication authentication unit 274 has received the input authentication data, And / or a disposable code to the proximity communication authentication unit 272 provided outside the wireless terminal 100, and receive the result of the authentication of the authentication data from the proximity communication authentication unit 272. [

When the proximity communication authentication module 175 is provided as the dynamic authentication module 150 combined with the authentication of the N simultaneous touch points or the shape touch surface, the touch authentication result confirmation unit 234 confirms the proximity communication authentication confirmation unit 274 to confirm whether the authentication data recognized through the proximity communication recognition unit 270 is authenticated. If the validity of the N simultaneous touch points or feature touch surfaces is authenticated and the recognized authentication data is authenticated as a result of the dynamic authentication combined with the authentication of the N simultaneous touch points or feature touch faces, The control unit 234 may determine that the validity of the N simultaneous touch points or shape touching surfaces is authenticated based on the confirmed proximity communication authentication result.

FIG. 2m is a diagram showing the functional configuration of the service module 180 of the program 120 according to the embodiment of the present invention.

Referring to FIG. 2m, the service module 180 of the program 120 displays data to be used for a service to be provided on the basis of a touch processed by the touch of the transparent touch area, a touch processed by the touch of the transparent touch area, A service setting unit 276 for setting at least one of an operation function of the program 120 to be used as a service to be provided as a basis and a specific program to be operated based on a touch processed by the touch of the transparent touch area, A service determination unit 278 for determining whether at least one of a condition in which the set data is used, a condition in which the set operation function is performed, and a condition in which the set specific program is operated is satisfied based on the touch processed by the touch, The service determining unit 278 determines whether or not the service is provided based on the touch processed by the touch of the transparent touch region based on the determination result of the service determining unit 278 Or a process for performing the set operation function for a service provided on the basis of a touch processed by the touch of the transparent touch region or a process for setting the set And a service providing unit 280 for processing a specific program to operate.

According to the first service providing method of the present invention, the service setting unit 276 sets and stores data to be used for a service to be provided on the basis of the touch processed by the touch of the transparent touch area, and the service determining unit 278 Determines whether the touch through the touch screen 105 is processed through the touch of the transparent touch area through the touch control module 135. [ If the touch through the touch screen 105 is processed by the touch of the transparent touch region, the service providing unit 280 transmits the set data to the service provided based on the touch processed by the touch of the transparent touch region To be used.

According to the second service providing method of the present invention, the service setting unit 276 sets and stores an operation function to be used for a service to be provided on the basis of the touch processed by the touch of the transparent touch area, 278 determines whether the touch through the touch screen 105 is processed through the touch of the transparent touch area through the touch control module 135. [ If the touch through the touch screen 105 is processed by the touch of the transparent touch region, the service providing unit 280 performs the set operation for the service provided based on the touch processed by the touch of the transparent touch region So that the function is performed.

According to the third service providing method of the present invention, the service setting unit 276 sets and stores a specific program to be operated based on the touch processed by the touch of the transparent touch area, and the service determining unit 278 And determines whether the touch through the touch screen 105 is processed through the touch of the transparent touch area through the touch control module 135. [ If the touch through the touch screen 105 is processed by the touch of the transparent touch area, the service providing unit 280 processes the set specific program to operate.

According to the fourth service providing method of the present invention, the service setting unit 276 sets and stores data to be used when a specified number of simultaneous touches are recognized through the touch recognition module 140. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch recognition module 140 has received the set simultaneous touch A touch processed by the touch of the transparent touch region is read through the recognition condition to determine whether or not the simultaneous touch of the specified number or more is recognized for the transparent touch region. If the simultaneous touch is recognized, the service providing unit 280 processes the data set in the recognized simultaneous touch to be used.

According to the fifth service providing method of the present invention, the service setting unit 276 sets and stores an operation function to be used when the specified number or more of simultaneous touches are recognized through the touch recognition module 140. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch recognition module 140 has received the set simultaneous touch A touch processed by the touch of the transparent touch region is read through the recognition condition to determine whether or not the simultaneous touch of the specified number or more is recognized for the transparent touch region. If the simultaneous touch is recognized, the service providing unit 280 processes an operation function set for the recognized simultaneous touch.

According to the sixth service providing method of the present invention, the service setting unit 276 sets and stores a specific program to be operated when the predetermined number or more of simultaneous touches are recognized through the touch recognition module 140. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch recognition module 140 has received the set simultaneous touch A touch processed by the touch of the transparent touch region is read through the recognition condition to determine whether or not the simultaneous touch of the specified number or more is recognized for the transparent touch region. If the simultaneous touch is recognized, the service providing unit 280 processes a specific program set for the recognized simultaneous touch operation.

According to the seventh service providing method of the present invention, the service setting unit 276 sets and stores data to be used when the specified number of simultaneous touches are authenticated through the touch authentication module 145. When the touch through the touch screen 105 is processed by the touch of the transparent touch area through the touch control module 135, the service determination module 278 determines that the touch authentication module 145 has received the set simultaneous touch A touch processed by the touch of the transparent touch area is read through the authentication condition and it is determined whether or not the concurrent touch of the specified number or more is authenticated for the transparent touch area. If the simultaneous touch is authenticated, the service providing unit 280 processes the data set for the authenticated simultaneous touch to be used.

According to the eighth service providing method of the present invention, the service setting unit 276 sets and stores an operation function to be used when the specified number or more of simultaneous touches are authenticated through the touch authentication module 145. When the touch through the touch screen 105 is processed by the touch of the transparent touch area through the touch control module 135, the service determination module 278 determines that the touch authentication module 145 has received the set simultaneous touch A touch processed by the touch of the transparent touch area is read through the authentication condition and it is determined whether or not the concurrent touch of the specified number or more is authenticated for the transparent touch area. If the simultaneous touch is authenticated, the service providing unit 280 processes an operation function set for the authenticated simultaneous touch to be performed.

According to the ninth service providing method of the present invention, the service setting unit 276 sets and stores a specific program to be operated when the specified number of simultaneous touches are recognized through the touch authentication module 145. When the touch through the touch screen 105 is processed by the touch of the transparent touch area through the touch control module 135, the service determination module 278 determines that the touch authentication module 145 has received the set simultaneous touch A touch processed by the touch of the transparent touch area is read through the authentication condition and it is determined whether or not the concurrent touch of the specified number or more is authenticated for the transparent touch area. If the simultaneous touch is authenticated, the service providing unit 280 processes the specific program set for the authenticated simultaneous touch to operate.

Preferably, the seventh to ninth service providing systems further include a service setting unit 276 for setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area, The service determination unit 278 reads the touch processed by the touch of the transparent touch area through the set simultaneous touch recognition condition and outputs the designated number of the transparent touch area A process of determining whether or not the simultaneous touch is recognized can be further performed.

According to the tenth service providing method of the present invention, the service setting unit 276 sets and stores data to be used when the shape touch is recognized through the touch recognition module 140. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch recognition module 140 has received the set shape touch And recognizes whether the touch of the transparent touch region is recognized by reading the touch processed by the touch of the transparent touch region through the recognition condition. If the shape touch is recognized, the service providing unit 280 processes the data set in the recognized shape touch to be used.

According to the eleventh service providing method of the present invention, the service setting unit 276 sets and stores an operation function to be used when the shape touch is recognized through the touch recognition module 140. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch recognition module 140 has received the set shape touch And recognizes whether the touch of the transparent touch region is recognized by reading the touch processed by the touch of the transparent touch region through the recognition condition. If the shape touch is recognized, the service provider 280 processes the recognized shape to perform an operation function set to the touch.

According to the twelfth service providing method of the present invention, the service setting unit 276 sets and stores a specific program to be operated when the shape touch is recognized through the touch recognition module 140. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch recognition module 140 has received the set shape touch And recognizes whether the touch of the transparent touch region is recognized by reading the touch processed by the touch of the transparent touch region through the recognition condition. If the shape touch is recognized, the service providing unit 280 processes the specific program set in the recognized shape touch to operate.

According to the thirteenth service providing method of the present invention, the service setting unit 276 sets and stores data to be used when the shape touch is authenticated through the touch authentication module 145. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch authentication module 145 has received the set shape touch And determines whether the touch of the transparent touch area is authenticated by reading the touch processed by the touch of the transparent touch area through the authentication condition. If the shape touch is authenticated, the service providing unit 280 processes the data set in the authenticated shape touch to be used.

According to the service providing method of the present invention, the service setting unit 276 sets and stores an operation function to be used when the shape touch is authenticated through the touch authentication module 145. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch authentication module 145 has received the set shape touch And determines whether the touch of the transparent touch area is authenticated by reading the touch processed by the touch of the transparent touch area through the authentication condition. If the shape touch is authenticated, the service providing unit 280 processes an operation function set in the authenticated shape touch to be performed.

According to the fifteenth service providing method of the present invention, the service setting unit 276 sets and stores a specific program to be operated when the shape touch is recognized through the touch authentication module 145. When the touch through the touch screen 105 is processed by the touch of the transparent touch region through the touch control module 135, the service determination unit 278 determines that the touch authentication module 145 has received the set shape touch And determines whether the touch of the transparent touch area is authenticated by reading the touch processed by the touch of the transparent touch area through the authentication condition. If the shape touch is authenticated, the service provider 280 processes the specific program set in the authenticated shape touch to operate.

Preferably, the tenth through fifteenth service providing methods further include setting the shape touch recognition condition for a touch to be processed by the touch of the transparent touch area to the service setting unit 276, The service determining unit 278 reads out the touch processed by the touch of the transparent touch region through the set shape touch recognition condition and displays the shape touch for the transparent touch region It is possible to further perform the process of determining whether the recognition is performed.

3 is a diagram illustrating a touch device 300 according to an embodiment of the present invention.

More specifically, FIG. 3 illustrates a configuration of an apparatus for holding N simultaneous touches on a touch screen 105 and simultaneously touching N simultaneous touch points or touch surfaces to the touch screen 105, Those skilled in the art will be able to refer and / or modify FIG. 3 to illustrate various embodiments of the structure of the touch device 300 (e.g., some of the components may be omitted, However, the present invention includes all of the above-described embodiments, and the technical features of the present invention are not limited only by the method shown in FIG.

3 (a) is an illustration of the external appearance of the touch device 300 before applying a pressing force, and FIG. 3 (b) is a view showing a state in which the touch device 300 is painted on the touch screen 105 3 (c) is a sectional view of the touch device 300 when a pressing force is applied to the touch device 300, as shown in FIG. 3 (b) ) Cut surface.

3 (a) and 3 (b), the touch device 300 includes a touch panel 105, which can be held by a human hand, A housing part 310 for protecting the touch part 335 and a pressing part 330 for pressing the touch screen 105 by touching the touch screen 105 with a human hand held by the hand module 305, And a push-in implementation unit 315 for implementing push-in operation.

The tongue module 305 is a general term of a configuration that is configured to grip the touch device 300 with the hand of a person and may be any shape that allows the touch device 300 to be gripped by a person's hand, It is irrelevant.

According to the embodiment of the present invention, the touch panel module 305 is made of a conductive material so as to transmit the electric charge filled in the human body to the touch portion 335 for the electrostatic touch, The conductive part may be made of a conductive material. If the charge unit 445 (for example, a battery 445, a super capacitor, etc.) electrically connected to the touch unit 335 is provided in the touch device 300, the charge module 305 may be a nonconductive It may be made of material.

According to the embodiment of the present invention, the internal module 305 performs electronic processing for performing dynamic authentication in cooperation with the dynamic authentication module 150 provided in the program 120 of the wireless terminal 100 An electronic module 400 may be provided.

The housing part 310 protects one or more touch parts 335 to be touched on the touch screen 105 from contamination or damage and includes a touched part 315, a touch part 335, and a frame 330 ). Preferably, the touch portion 335 is protected from being contaminated or damaged by the elastic portion 325 of the crimp implement 315.

The depilating unit 315 is configured to transmit a feeling of being depressed by a predetermined distance when the depilating unit 315 holds the depilating module 305 in the hand and depresses the depilating unit 305 to the touch screen 105, As a generic term, a sliding part 320 which is slid by a certain distance by a pressing force as shown in FIG. 3 (c) and an elastic part 325 which returns to the original position when the pressing force is released ).

According to the method of the present invention, the elastic portion 325 is moved in the air by a certain distance from the floor to touch the touch portion 335, which is touched by the touch screen 105, Or damaged.

A frame 330 for fixing and connecting the touch module 335 with the touch module 335 or the N touch module 335 is provided in the housing part 310. The frame 330 may be made of a conductive material so as to electrically connect the touch module 335 to the touch module 335 for an electrostatic touch or may be formed of at least a part of conductive material, And the touch portion 335 can be electrically connected to each other. In the case where the touch device 300 is provided with a charge charging part 445 electrically connected to the touch part 335, the frame 330 may be made of a nonconductive material.

The touch unit 335 is a touch unit that touches the touch screen 105 of the wireless terminal 100. The touch unit 335 is made of a conductive material for electrostatic touching, . The touch unit 335 may be formed of a conductive or nonconductive conductive material such as a conductive rubber material or the like so as to prevent the touch screen 105 from being damaged when the touch screen 105 of the wireless terminal 100 is touched. ). The touch unit 335 is electrically connected to the touch module 305 through the frame 330 or electrically connected to the charge unit 445 provided in the touch device 300.

When N simultaneous touch points are touched on the touch screen 105 of the wireless terminal 100, the touch unit 335 may include N touch units corresponding to N simultaneous touch points as shown in (d) 335). If the shape touch surface of the geometry specified in the touch screen 105 of the wireless terminal 100 is touched, the touch portion 335 may include at least one touch portion having a geometry structure as shown in (e) (335).

4 is a diagram showing the configuration of an electronic module 400 incorporated in the touch device 300 of the present invention.

4 is a block diagram illustrating an exemplary configuration of an exemplary embodiment of the present invention. Referring to FIG. 4, there is shown an exemplary embodiment of an electronic device, which is embedded in a touch device 300 and performs one or more dynamic authentication procedures in cooperation with the dynamic authentication module 150 of FIG. 1 at the time when the touch device 300 is depressed by a touch pad. As a person skilled in the art to which the present invention pertains, reference will be made to and / or modified with reference to FIG. 4 to illustrate various implementations of the functionality of the electronic module 400 However, the present invention includes all of the above-mentioned embodiments, and the technical features of the present invention are not limited only by the method shown in FIG. For example, the touch device 300 may include two or more electronic modules 400 (e.g., two or more electronic modules 400 interlocking with the sound authentication module 155 and the proximity communication authentication module 175 of FIG. 1) ), And the present invention includes such an implementation method. For convenience, FIG. 4 illustrates an embodiment in which the electronic module 400 of the present invention is implemented through one electronic module 400. FIG.

Referring to FIG. 4, the electronic module 400 includes a control unit 404 and a memory unit 420, and the processing of designated sound authentication in cooperation with the sound authentication module 155 of FIG. 1 is performed by a sound output unit A screen output unit 424 for processing the designated image authentication in cooperation with the camera authentication module 165 in FIG. 1, and a local communication authentication module 170 in cooperation with the local communication authentication module 170 in FIG. 1 One or more configuration units for specified dynamic authentication among the proximity wireless communication unit 432 and the proximity wireless communication unit 416 for processing the specified proximity communication authentication in cooperation with the proximity communication authentication module 175 of FIG. A sound input unit 412 for processing sound recognition for sound authentication in accordance with the method of operation, a wireless network communication unit 436 for wireless network connection, a user operation unit 428 for user operation, )Wow, Through the module, a pressure force having a sensor portion 440 for processing the sensed to determine echoed applied.

The controller 404 is a general term for a configuration for controlling the operation of the electronic module 400, and may be implemented through a logic circuit or may include at least one processor and an execution memory. For convenience of explanation, the control unit 404 includes a processor and an execution memory to load and operate at least one program code in the execution memory, and outputs the result through the sound output unit 408 or the proximity wireless communication unit 416 The configuration of the electronic module 400 will be described. Hereinafter, the program 450 corresponding to the program code operating in conjunction with the dynamic authentication module 150 of FIG. 1 will be described in the present control unit 404 for convenience. However, it should be understood that the method of implementing the electronic module 400 is not limited to the embodiment of FIG. 4, and that the configuration illustrated in the configuration of the program 450 in FIG. 4 can also be implemented in the form of a logic circuit Come on.

The memory unit 420 is a general term of a nonvolatile memory included in the electronic module 400 and includes at least one program code executed through the control unit 404 and at least one data set used by the program code And stores it. The program code includes program code corresponding to the program 450 implemented for the operation of the present invention, system program code and system data set corresponding to the operating system of the electronic module 400, And a communication program code and a communication data set for processing various kinds of communication.

According to an embodiment of the present invention, the memory unit 420 may store one or more static seed values to be substituted into a designated code generation algorithm for dynamically generating the one-time code. The static seed value may be a unique serial code uniquely assigned to the touch device 300, a space identification code identifying a space in which the touch device 300 is used (e.g., store, building, store, etc.) And an application identification code for identifying the application in which the touch device 300 is used.

According to an embodiment of the present invention, the memory unit 420 may store a designated unique code. Preferably, the unique code includes an ID code uniquely assigned to the electronic module 400 or the touch device 300.

When the electronic module 400 is interlocked with the sound authentication module 155 of FIG. 1, the memory unit 420 recognizes a recognizable sound pattern (for example, a designated voice A sound pattern of at least one of a sound source (e.g., a sound of one segment), a sound source (e.g., music played through the musical instrument according to the musical score, and a sound of the speaker according to the musical score).

Meanwhile, when the electronic module 400 is interlocked with the camera authentication module of FIG. 1, the memory unit 420 may store pattern information corresponding to a recognizable image pattern through a designated pattern recognition algorithm.

The sound output unit 408 includes a sound output unit such as a speaker or a buzzer included in the electronic module 400 and a drive module for driving the sound output unit 408. The sound output unit 408 is connected to the control unit 404 via a bus, Decodes sound data corresponding to the calculation result corresponding to the sound output among various calculation results, converts the sound data into a sound signal, and outputs the sound signal through the sound output device.

The sound input unit 412 includes a sound input unit such as a microphone provided in the electronic module 400 and a drive module for driving the sound input unit. The sound input unit 412 encodes sound data, which is encoded by the sound input unit, To the control unit (404).

The proximity wireless communication unit 416 is a collective term for processing proximity wireless communication using a radio frequency signal at a proximity distance of about 10 cm or so using an antenna. Preferably, the proximity wireless communication unit 416 is an NFC (Near Field Communication) standard using a frequency band of 13.56 Mz Way proximity wireless communication in accordance with the &lt; / RTI &gt; The proximity wireless communication unit 416 may process half duplex wireless communication of an RFID standard (for example, proximity wireless communication included in the ISO 18000 series standard or short range wireless communication within 10 m) not included in the NFC standard have.

The screen output unit 424 is constituted by a screen output device (for example, an LCD (Liquid Crystal Display), an electronic paper or the like) provided in the electronic module 400 and a driving module for driving the screen output device And outputs the operation result corresponding to the screen output to the screen output device among the operation results.

The user operation unit 428 includes a user input unit provided in the electronic module 400 and a drive module for driving the user input unit. The user operation unit 428 receives a command for commanding various operations of the control unit 404, And receives the data necessary for the operation.

The short-range wireless communication unit 432 is a short-range communication module that connects a communication session using a radio frequency signal as a communication medium within a predetermined distance, and may include at least one of Wi-Fi communication, Bluetooth communication, have. The short range wireless communication unit 432 can access the communication network through a connection device (for example, a wireless AP (Access Point) located nearby) (for example, within 10 m).

The wireless network communication unit 436 is a general term for a communication configuration for connecting the electronic module 400 to a wireless communication network. The wireless network communication unit 436 includes at least an antenna, an RF module, a baseband module, and a signal processing module for transmitting / And is connected to the control unit 404 through a bus and transmits the calculation result corresponding to the wireless communication among various calculation results of the control unit 404 through wireless communication or receives data through wireless communication To the control unit 404, and maintains connection, registration, communication, and handoff procedures of the wireless communication.

According to an embodiment of the present invention, the wireless network communication unit 436 is a mobile communication unit that performs at least one connection, a location registration, a call processing, a call connection, a data communication, and a handoff to a mobile communication network according to the CDMA / WCDMA / &Lt; / RTI &gt; Meanwhile, according to the intention of the person skilled in the art, the wireless network communication unit 436 may further include a portable Internet communication configuration for performing at least one of connection to the portable Internet, location registration, data communication and handoff according to the IEEE 802.16 standard, It is evident that the present invention is not limited by the wireless communication configuration provided by the wireless network communication unit 436. [ The electronic module 400 includes a USIM reader 114 (not shown) for connection to a wireless communication network and can disconnect a USIM for wireless communication network connection.

The sensor unit 440 collectively refers to a configuration for processing sensing for determining that the touch unit of the touch device 300 is touched by the touch screen 105. The sensor unit 440 may include a touch sensor Any sensor may be used as long as it can sense at least one of movement sensing, charge change sensing, current change sensing, voltage change sensing, and resistance change sensing. According to an embodiment of the present invention, the sensor unit 440 may be a sensor such as a gyro sensor capable of sensing an impact amount at a touch point.

4, the program 450 of the electronic module 400 interlocked with the sound authentication module 155 of FIG. 1 includes a storage unit 455 for storing a unique code assigned to the memory unit 420, An encoding unit 465 encoding the unique code according to a predetermined sound encoding rule to generate sound data; and an output unit 470 outputting the sound data encoded with the unique code through the sound output unit 408 And a coin confirmation unit 475 for confirming whether the touch device 300 is depressed according to the method of operation. The sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436 And a management unit 490 for receiving management information related to the operation of the touch device 300 through at least one of the short range wireless communication unit 432 and storing the management information in a designated storage area of the memory unit 420.

The storage unit 455 stores the unique code of the designated code system in the memory unit 420. The unique code may be stored in the touch device 300 when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, May be stored in the memory unit 420 at least one of the time when the electronic module 400 is mounted on the touch device 300 and the time when the electronic module 400 is installed and used, .

According to the first code storage method of the present invention, the unique code may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store the unique code, The unique code may be stored in the memory unit 420 during the manufacturing process of the module 400. [

According to the second code storage method of the present invention, the unique code can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, Receives or receives a unique code to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- And store the received or inputted unique code in the memory unit 420.

According to the third code storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The unique code may be stored and the storage unit 455 may store the unique code from at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The memory unit 420 receives or receives a unique code to be stored in the memory unit 420 and stores the received unique code in the memory unit 420.

The encoding unit 465 generates sound data obtained by encoding the unique code according to the specified sound encoding rule. The sound encoding rule may include at least one of a DTMF encoding rule and a sound code encoding rule.

The DTMF coding rule is a generic term of a rule for encoding '1' to '9', '0', '#', '*', etc. used in a telephone button into a sound signal in an audio frequency band, 1 'to' 9 ',' 0 ','#',' 1 'to' 9 'are combined by combining the sound frequency of a high frequency range (for example, 697 Hz, 770 Hz, 852 Hz, 941 Hz) and a sound frequency of a high frequency range (for example, 1209 Hz, 1336 Hz, 1477 Hz, * ', And so on. If the inherent code is encoded into a DTMF signal, the inherent code is preferably composed of a designated code structure that can be displayed as '1' to '9', '0', '#', '*', and the like.

The sound code encoding rule is a generic name of a rule for encoding to insert a bit string of data specified in a designated bit stream of sound data encoded according to a specified sound encoding rule and is preferably set in accordance with the data encoding rule matched with the sound encoding rule Generates a sound spreading code applicable to the sound encoding rule by encoding the data, and encodes the generated sound spreading code into sound data according to the sound encoding rule to generate the sound code in which the specified data is encoded. Preferably, the sound spreading code is encoded in a pseudo noise region, whereby the sound spreading code recognized by a normal human can not recognize the sound spreading code.

When the sound data in which the unique code is encoded is generated through the encoding unit 465, the output unit 470 outputs the generated sound data through the sound output unit 408. The sound data may be periodically output, or may be output at a time when the touch device 300 is depressed on the touch screen 105 of the wireless terminal 100, and / or at a predetermined time interval after being output at the depressing time It can be repeatedly output a specified number of times. Repetition of the output of the sound data for a predetermined number of times is intended to increase the probability that the wireless terminal 100 recognizing the sound data recognizes the unique code encoded in the sound data.

The touch confirmation unit 475 determines that the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 so that the output unit 470 outputs the sound data at the time when the touch device 300 is depressed. As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 is provided with the check unit 475, the output unit 470 outputs the sound data encoded with the unique code at the time when the touch device 300 is checked And outputs the sound data at a predetermined time interval after the sound data is output at the time of depressing.

After the sound data encoded with the unique code is output through the sound output unit 408, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the unique code encoded in the sound data is recognized through the sound authentication module 155 provided in the program 120 of the wireless terminal 100 through at least one of the communication unit 432 and the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the designated operation and the received management information may be stored in the designated storage area of the memory unit 420. [

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 interlocked with the sound authentication module 155 of FIG. 1 includes a storage unit 455 for storing a sound pattern assigned to the memory unit 420, And an output unit 470 for outputting sound data in which the sound pattern is encoded through the sound output unit 408. The check unit 475 confirms whether the touch device 300 is depressed according to an embodiment of the present invention, And controls the operation related to the operation of the touch device 300 through at least one of the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, and the short- And a management unit 490 for receiving the information and storing the received information in a designated storage area of the memory unit 420.

The storage unit 455 stores the designated sound pattern in the memory unit 420. Preferably, the sound pattern is generated when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, May be stored in the memory unit 420 at least one of the time when the electronic module 400 is mounted on the touch device 300 and the time when the electronic module 400 is installed and used, .

According to the first code storage method of the present invention, the sound pattern may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store the sound pattern The sound pattern may be stored in the memory unit 420 during the manufacturing process of the module 400. [

According to the second code storage method of the present invention, the sound pattern can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, Receives or receives a sound pattern to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- And may store the received or inputted sound pattern in the memory unit 420. [0033] FIG.

According to the third code storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The sound pattern may be stored and the storage unit 455 may store the sound pattern from at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The sound pattern to be stored in the memory unit 420 may be received or input and the received sound pattern may be stored in the memory unit 420.

The output unit 470 outputs the sound data including the sound pattern through the sound output unit 408. The sound data may be periodically output, or may be output at a time when the touch device 300 is depressed on the touch screen 105 of the wireless terminal 100, and / or at a predetermined time interval after being output at the depressing time It can be repeatedly output a specified number of times. Repetition of the output of the sound data for a predetermined number of times is intended to increase the probability that the wireless terminal 100 recognizing the sound data recognizes the sound pattern encoded in the sound data.

The touch confirmation unit 475 determines that the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 so that the output unit 470 outputs the sound data at the time when the touch device 300 is depressed. As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

In the case where the electronic module 400 includes the check unit 475, the output unit 470 outputs the sound data in which the sound pattern is encoded at the time when the touch device 300 is checked And outputs the sound data at a predetermined time interval after the sound data is output at the time of depressing.

After the sound data including the sound pattern is output through the sound output unit 408, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the sound pattern included in the sound data is recognized through the sound authentication module 155 provided in the program 120 of the wireless terminal 100 through at least one of the communication unit 432 and the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the designated operation and the received management information may be stored in the designated storage area of the memory unit 420. [

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 in conjunction with the sound authentication module 155 of FIG. 1 includes a generator 460 that dynamically generates a disposable code having a structure specified in accordance with a designated code generation rule, An encoding unit 465 for encoding the generated disposable code according to a predetermined sound encoding rule to generate sound data, and an output unit for outputting the sound data encoded by the sound output unit 408 through the sound output unit 408. [ And a storage unit 455 for storing at least one static seed value for dynamically generating the disposable code in the memory unit 420. According to an embodiment of the present invention, And at least one of a sound input unit 412, a proximity wireless communication unit 416, a wireless network communication unit 436, and a short range wireless communication unit 432 according to an embodiment of the present invention. Receiving and managing information related to operations of the touch device 300 may be provided with a management unit 490 for storing in a specified storage area of the memory unit 420.

The storage unit 455 stores in the memory unit 420 at least one static seed value to be used for dynamically generating the disposable code. The static seed value may be set at a time when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, The electronic module 400 may be stored in the memory unit 420 at at least one point in time when the electronic module 400 is mounted on the touch device 300 and is used, have.

According to the first seed storage method of the present invention, the static seed value may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store The static seed value can be stored in the memory unit 420 during the manufacturing process of the electronic module 400. [

According to the second seed storing method of the present invention, the static seed value can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, 455 may transmit a static seed value to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436 and the short- Received or input, and stores the received or inputted static seed value in the memory unit 420. [0050]

According to the third seed storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The static seed value may be stored and the storage unit 455 may store the static seed value through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The static seed value to be stored in the memory unit 420 may be received or input from the memory unit 420 and the received static seed value may be stored in the memory unit 420. [

The generating unit 460 includes a code generation algorithm for dynamically generating the one-time use code in accordance with a designated code generation rule. The generating unit 460 generates the one or more stored static seed values and the dynamic seed values dynamically determined One or more seed values are dynamically generated by assigning the seed value to a specified code generation algorithm (e.g., MD4, MD4, SHA, etc.) to generate a disposable code of a specified structure (e.g., code length, number of digits, code structure, etc.). Preferably, the code generation rule may include at least one of a time-synchronized code generation rule and a challenge-response code generation rule.

According to the first dynamic seed determination method of the present invention, the generation unit 460 checks a time value through a timer (not shown) built in the electronic module 400, and outputs the time value Value form) can be determined as the dynamic seed value.

According to the second dynamic seed determining method of the present invention, the generating unit 460 generates a sound signal of a specified device (e.g., POS terminal, computer, wireless terminal 100, etc.) around the touch device 300 through the sound input unit 412 (For example, sound data in which the seed value is encoded in the DTMF format, and the sound data in which the seed value is encoded), and can analyze the sound data to determine the dynamic seed value. Preferably, the seed value determined using the sound data may include at least one of a time value, a challenge value, a dynamic generated value (e.g., a value dynamically generated according to a specified procedure (or algorithm) of a specified device) .

According to the third dynamic seed determination method of the present invention, the generation unit 460 generates a designation of a designated device (e.g., a POS terminal, a computer, a wireless terminal 100) around the touch device 300 through the proximity wireless communication unit 416, Etc.), and determine the dynamic seed value by receiving the seed value transmitted through the near field wireless communication. Preferably, the seed value determined using the proximity wireless communication may include at least one of a time value, a challenge value, and a dynamic generation value.

According to the fourth dynamic seed determination method of the present invention, the generation unit 460 receives the seed value transmitted from the designated device or server through the wireless network communication unit 436 or the short-range wireless communication unit 432, . Preferably, the seed value determined using the wireless network communication unit 436 or the short-range wireless communication unit 432 may include at least one of a time value, a challenge value, and a dynamic generation value.

When the value received from the outside through at least one of the near field wireless communication unit 416, the wireless network communication unit 436 and the near field wireless communication unit 432 is a dynamic generated value, 460) generates the one-time use code by using the received dynamic generation value as a seed or uses the received generated generation value as it is as a one-time use code without generating a separate one-time use code, Can be processed into a specified structure and used as a disposable code.

The encoding unit 465 generates the sound data obtained by encoding the generated one-time code according to the specified sound encoding rule. The sound encoding rule may include at least one of a DTMF encoding rule and a sound code encoding rule.

The DTMF coding rule is a generic term of a rule for encoding '1' to '9', '0', '#', '*', etc. used in a telephone button into a sound signal in an audio frequency band, 1 'to' 9 ',' 0 ','#',' 1 'to' 9 'are combined by combining the sound frequency of a high frequency range (for example, 697 Hz, 770 Hz, 852 Hz, 941 Hz) and a sound frequency of a high frequency range (for example, 1209 Hz, 1336 Hz, 1477 Hz, * ', And so on. If the disposable code is encoded into a DTMF signal, the disposable code generated by the generation unit 460 may be encoded into a designated code structure that can be displayed as' 1 'to' 9 ',' 0 ','#',' .

The sound code encoding rule is a generic name of a rule for encoding to insert a bit string of data specified in a designated bit stream of sound data encoded according to a specified sound encoding rule and is preferably set in accordance with the data encoding rule matched with the sound encoding rule Generates a sound spreading code applicable to the sound encoding rule by encoding the data, and encodes the generated sound spreading code into sound data according to the sound encoding rule to generate the sound code in which the specified data is encoded. Preferably, the sound spreading code is encoded in a pseudo noise region, whereby the sound spreading code recognized by a normal human can not recognize the sound spreading code.

When the sound data in which the disposable code is encoded is generated through the encoding unit 465, the output unit 470 outputs the generated sound data through the sound output unit 408. The sound data may be periodically output, or may be output at a time when the touch device 300 is depressed on the touch screen 105 of the wireless terminal 100, and / or at a predetermined time interval after being output at the depressing time It can be repeatedly output a specified number of times. Repeating the output of the sound data a predetermined number of times at a specified time interval is intended to increase the probability that the wireless terminal 100 recognizing the sound data recognizes the disposable code encoded in the sound data.

The touch confirmation unit 475 determines that the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 so that the output unit 470 outputs the sound data at the time when the touch device 300 is depressed. As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 has the check unit 475, the output unit 470 outputs the discrete code-encoded sound data at the time when the touch device 300 is checked And outputs the sound data at a predetermined time interval after the sound data is output at the time of depressing.

After the sound data obtained by encoding the disposable code is output through the sound output unit 408, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the one-time code encoded in the sound data is recognized through the sound authentication module 155 provided in the program 120 of the wireless terminal 100 through at least one of the communication unit 432 and the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the designated operation and the received management information may be stored in the designated storage area of the memory unit 420. [

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 interlocked with the camera authentication module 165 of FIG. 1 includes a storage unit 455 for storing a unique code assigned to the memory unit 420, An encoding unit 465 for encoding the unique code according to a predetermined encoding rule to generate a code image and an output unit 470 for outputting a code image in which the unique code is encoded through the screen output unit 424 And a coin verification unit 475 for confirming whether the touch device 300 is depressed according to an operation method. The sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, And a local wireless communication unit 432. The management unit 490 receives the management information related to the operation of the touch device 300 and stores the management information in a designated storage area of the memory unit 420. [

The storage unit 455 stores the unique code of the designated code system in the memory unit 420. The unique code may be stored in the touch device 300 when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, May be stored in the memory unit 420 at least one of the time when the electronic module 400 is mounted on the touch device 300 and the time when the electronic module 400 is installed and used, .

According to the first code storage method of the present invention, the unique code may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store the unique code, The unique code may be stored in the memory unit 420 during the manufacturing process of the module 400. [

According to the second code storage method of the present invention, the unique code can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, Receives or receives a unique code to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- And store the received or inputted unique code in the memory unit 420.

According to the third code storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The unique code may be stored and the storage unit 455 may store the unique code from at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The memory unit 420 receives or receives a unique code to be stored in the memory unit 420 and stores the received unique code in the memory unit 420.

The encoding unit 465 generates a code image obtained by encoding the unique code according to a specified encoding rule. The encoding rule may include at least one of a one-dimensional bar code encoding rule, a QR code encoding rule, a data matrix encoding rule, a maximum code encoding rule, and a PDF417 encoding rule.

When the code image in which the unique code is encoded is generated through the encoding unit 465, the output unit 470 outputs the generated code image through the screen output unit 424. The check unit 475 confirms whether the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 in order to output a code image at the time when the touch device 300 is depressed. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 includes the check unit 475, the output unit 470 outputs a code image in which the unique code is encoded at the time when the touch device 300 is checked .

After the code image in which the unique code is encoded through the face output unit 470 is output, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the unique code encoded in the code image is recognized through the camera authentication module 165 included in the program 120 of the wireless terminal 100 through at least one of the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the designated operation and the received management information may be stored in the designated storage area of the memory unit 420. [

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 interlocked with the camera authentication module 165 of FIG. 1 includes a storage unit 455 for storing an image pattern designated in the memory unit 420, And an output unit 470 for outputting a code image in which the image pattern is encoded through the screen output unit 424. The check unit 475 confirms whether the touch device 300 is depressed according to an embodiment of the present invention, And controls the operation related to the operation of the touch device 300 through at least one of the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, and the short- And a management unit 490 for receiving the information and storing the received information in a designated storage area of the memory unit 420.

The storage unit 455 stores the designated image pattern in the memory unit 420. Preferably, the image pattern is generated when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, May be stored in the memory unit 420 at least one of the time when the electronic module 400 is mounted on the touch device 300 and the time when the electronic module 400 is installed and used, .

According to the first code storage method of the present invention, the image pattern may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store the image pattern During the manufacturing process of the module 400, the image pattern may be stored in the memory unit 420.

According to the second code storage method of the present invention, the image pattern can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, and the storage unit 455 Receives or receives an image pattern to be stored in the memory unit 420 from outside via at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- And store the received or inputted image pattern in the memory unit 420. [0034] FIG.

According to the third code storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The storage unit 455 may store the image pattern from at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- The memory unit 420 receives or receives an image pattern to be stored in the memory unit 420, and stores the received or inputted image pattern in the memory unit 420.

The output unit 470 outputs a pattern image including the image pattern through the screen output unit 424. The check unit 475 confirms whether the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 in order to output a pattern image at the touch point of the touch device 300. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

In the case where the electronic module 400 includes the check unit 475, the output unit 470 outputs a pattern image in which the image pattern is encoded at the time when the touch device 300 is checked .

After the pattern image including the image pattern is output through the face output unit 470, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the image pattern included in the pattern image has been recognized through the camera authentication module 165 included in the program 120 of the wireless terminal 100 through at least one of the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the designated operation and the received management information may be stored in the designated storage area of the memory unit 420. [

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 interlocked with the camera authentication module 165 of FIG. 1 includes a generator 460 for dynamically generating a disposable code having a structure specified in accordance with a designated code generation rule, An encoding unit 465 encoding the generated disposable code in a designated encoding rule to generate a code image, and an output unit 470 for outputting a code image in which the disposable code is encoded through the screen output unit 424 And a storage unit 455 for storing at least one static seed value for dynamically generating the disposable code in the memory unit 420. According to an embodiment of the present invention, And a touch confirmation unit 475 for confirming whether or not the user touches the touch device 411 through at least one of the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, (30 0, and stores the received management information in a designated storage area of the memory unit 420. [0040]

The storage unit 455 stores in the memory unit 420 at least one static seed value to be used for dynamically generating the disposable code. The static seed value may be set at a time when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, The electronic module 400 may be stored in the memory unit 420 at at least one point in time when the electronic module 400 is mounted on the touch device 300 and is used, have.

According to the first seed storage method of the present invention, the static seed value may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store The static seed value can be stored in the memory unit 420 during the manufacturing process of the electronic module 400. [

According to the second seed storing method of the present invention, the static seed value can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, 455 may transmit a static seed value to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436 and the short- Received or input, and stores the received or inputted static seed value in the memory unit 420. [0050]

According to the third seed storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The static seed value may be stored and the storage unit 455 may store the static seed value through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The static seed value to be stored in the memory unit 420 may be received or input from the memory unit 420 and the received static seed value may be stored in the memory unit 420. [

The generating unit 460 includes a code generation algorithm for dynamically generating the one-time use code in accordance with a designated code generation rule. The generating unit 460 generates the one or more stored static seed values and the dynamic seed values dynamically determined One or more seed values are dynamically generated by assigning the seed value to a specified code generation algorithm (e.g., MD4, MD4, SHA, etc.) to generate a disposable code of a specified structure (e.g., code length, number of digits, code structure, etc.). Preferably, the code generation rule may include at least one of a time-synchronized code generation rule and a challenge-response code generation rule.

According to the first dynamic seed determination method of the present invention, the generation unit 460 checks a time value through a timer (not shown) built in the electronic module 400, and outputs the time value Value form) can be determined as the dynamic seed value.

According to the second dynamic seed determining method of the present invention, the generating unit 460 generates a sound signal of a specified device (e.g., POS terminal, computer, wireless terminal 100, etc.) around the touch device 300 through the sound input unit 412 (For example, sound data in which the seed value is encoded in the DTMF format, and the sound data in which the seed value is encoded), and can analyze the sound data to determine the dynamic seed value. Preferably, the seed value determined using the sound data may include at least one of a time value, a challenge value, a dynamic generated value (e.g., a value dynamically generated according to a specified procedure (or algorithm) of a specified device) .

According to the third dynamic seed determination method of the present invention, the generation unit 460 generates a designation of a designated device (e.g., a POS terminal, a computer, a wireless terminal 100) around the touch device 300 through the proximity wireless communication unit 416, Etc.), and determine the dynamic seed value by receiving the seed value transmitted through the near field wireless communication. Preferably, the seed value determined using the proximity wireless communication may include at least one of a time value, a challenge value, and a dynamic generation value.

According to the fourth dynamic seed determination method of the present invention, the generation unit 460 receives the seed value transmitted from the designated device or server through the wireless network communication unit 436 or the short-range wireless communication unit 432, . Preferably, the seed value determined using the wireless network communication unit 436 or the short-range wireless communication unit 432 may include at least one of a time value, a challenge value, and a dynamic generation value.

When the value received from the outside through at least one of the near field wireless communication unit 416, the wireless network communication unit 436 and the near field wireless communication unit 432 is a dynamic generated value, 460) generates the one-time use code by using the received dynamic generation value as a seed or uses the received generated generation value as it is as a one-time use code without generating a separate one-time use code, Can be processed into a specified structure and used as a disposable code.

The encoding unit 465 generates a code image obtained by encoding the generated one-time code in accordance with a specified encoding rule. The encoding rule may include at least one of a one-dimensional bar code encoding rule, a QR code encoding rule, a data matrix encoding rule, a maximum code encoding rule, and a PDF417 encoding rule.

When the code image in which the disposable code is encoded is generated through the encoding unit 465, the output unit 470 outputs the generated code image through the screen output unit 424. The check unit 475 confirms whether the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 in order to output a code image at the time when the touch device 300 is depressed. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 has the check unit 475, the output unit 470 outputs a code image in which the disposable code is encoded at the time when the touch device 300 is checked .

After the code image in which the disposable code is encoded through the face output unit 470 is output, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the one-time code encoded in the code image has been recognized through the camera authentication module 165 included in the program 120 of the wireless terminal 100 through at least one of the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the designated operation and the received management information may be stored in the designated storage area of the memory unit 420. [

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 interlocked with the local communication authentication module 170 of FIG. 1 includes a storage unit 455 for storing a unique code assigned to the memory unit 420, And a transmitting unit 480 for transmitting the authentication data including the unique code to the wireless terminal 100 through the short range wireless communication unit 432. According to an embodiment of the present invention, And a touch confirmation unit 475 for confirming whether or not the user touches the touch device 411 through at least one of the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, And a management unit 490 for receiving management information related to the operation of the storage unit 300 and storing the management information in a designated storage area of the memory unit 420.

The storage unit 455 stores the unique code of the designated code system in the memory unit 420. The unique code may be stored in the touch device 300 when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, May be stored in the memory unit 420 at least one of the time when the electronic module 400 is mounted on the touch device 300 and the time when the electronic module 400 is installed and used, .

According to the first code storage method of the present invention, the unique code may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store the unique code, The unique code may be stored in the memory unit 420 during the manufacturing process of the module 400. [

According to the second code storage method of the present invention, the unique code can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, Receives or receives a unique code to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- And store the received or inputted unique code in the memory unit 420.

According to the third code storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The unique code may be stored and the storage unit 455 may store the unique code from at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The memory unit 420 receives or receives a unique code to be stored in the memory unit 420 and stores the received unique code in the memory unit 420.

The transmitting unit 480 transmits the authentication data including the unique code to the wireless terminal 100 through the short range wireless communication unit 432. [ The authentication data may be periodically transmitted or transmitted at a time point when the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 and / It can be repeatedly transmitted a specified number of times. Repeating the transmission of the authentication data a predetermined number of times at a specified time interval is intended to increase the probability that the wireless terminal 100 recognizing the authentication data recognizes the unique code included in the authentication data.

The touch confirmation unit 475 confirms whether the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 in order to transmit the authentication data to the touch unit 300, As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 is provided with the check unit 475, the transmitter 480 can transmit authentication data including the unique code at the time when the touch device 300 is checked And the authentication data may be repeatedly transmitted a predetermined number of times after the authentication data is transmitted at the time of the stamping.

After the authentication data including the unique code is transmitted through the short-distance wireless communication unit 432, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of the fact that the unique code encoded in the authentication data is recognized through the local communication authentication module 170 provided in the program 120 of the wireless terminal 100 through at least one of the communication unit 432 and the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the specified operation and the received management information may be stored in the designated storage area of the memory unit 420 .

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

Referring to FIG. 4, a program 450 of an electronic module 400 interlocked with the local communication authentication module 170 of FIG. 1 includes a generation unit 460 for dynamically generating a disposable code having a structure specified in accordance with a designated code generation rule And a transmitting unit 480 for transmitting authentication data including the generated one-time code to the wireless terminal 100 through the short-range wireless communication unit 432. The wireless terminal 100 includes a transmitting unit 480 for dynamically generating the one- And a storage unit 455 for storing one static seed value in the memory unit 420 and includes a stamp confirmation unit 475 for confirming whether or not the touch device 300 is stamped in accordance with the method. Receives the management information related to the operation of the touch device 300 through at least one of the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, and the near field wireless communication unit 432, (420) And a management unit 490 for storing the data in the storage area.

The storage unit 455 stores in the memory unit 420 at least one static seed value to be used for dynamically generating the disposable code. The static seed value may be set at a time when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, The electronic module 400 may be stored in the memory unit 420 at at least one point in time when the electronic module 400 is mounted on the touch device 300 and is used, have.

According to the first seed storage method of the present invention, the static seed value may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store The static seed value can be stored in the memory unit 420 during the manufacturing process of the electronic module 400. [

According to the second seed storing method of the present invention, the static seed value can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, 455 may transmit a static seed value to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436 and the short- Received or input, and stores the received or inputted static seed value in the memory unit 420. [0050]

According to the third seed storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The static seed value may be stored and the storage unit 455 may store the static seed value through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The static seed value to be stored in the memory unit 420 may be received or input from the memory unit 420 and the received static seed value may be stored in the memory unit 420. [

The generating unit 460 includes a code generation algorithm for dynamically generating the one-time use code in accordance with a designated code generation rule. The generating unit 460 generates the one or more stored static seed values and the dynamic seed values dynamically determined One or more seed values are dynamically generated by assigning the seed value to a specified code generation algorithm (e.g., MD4, MD4, SHA, etc.) to generate a disposable code of a specified structure (e.g., code length, number of digits, code structure, etc.). Preferably, the code generation rule may include at least one of a time-synchronized code generation rule and a challenge-response code generation rule.

According to the first dynamic seed determination method of the present invention, the generation unit 460 checks a time value through a timer (not shown) built in the electronic module 400, and outputs the time value Value form) can be determined as the dynamic seed value.

According to the second dynamic seed determining method of the present invention, the generating unit 460 generates a sound signal of a specified device (e.g., POS terminal, computer, wireless terminal 100, etc.) around the touch device 300 through the sound input unit 412 (For example, sound data in which the seed value is encoded in the DTMF format, and the sound data in which the seed value is encoded), and can analyze the sound data to determine the dynamic seed value. Preferably, the seed value determined using the sound data may include at least one of a time value, a challenge value, a dynamic generated value (e.g., a value dynamically generated according to a specified procedure (or algorithm) of a specified device) .

According to the third dynamic seed determination method of the present invention, the generation unit 460 generates a designation of a designated device (e.g., a POS terminal, a computer, a wireless terminal 100) around the touch device 300 through the proximity wireless communication unit 416, Etc.), and determine the dynamic seed value by receiving the seed value transmitted through the near field wireless communication. Preferably, the seed value determined using the proximity wireless communication may include at least one of a time value, a challenge value, and a dynamic generation value.

According to the fourth dynamic seed determination method of the present invention, the generation unit 460 receives the seed value transmitted from the designated device or server through the wireless network communication unit 436 or the short-range wireless communication unit 432, . Preferably, the seed value determined using the wireless network communication unit 436 or the short-range wireless communication unit 432 may include at least one of a time value, a challenge value, and a dynamic generation value.

When the value received from the outside through at least one of the near field wireless communication unit 416, the wireless network communication unit 436 and the near field wireless communication unit 432 is a dynamic generated value, 460) generates the one-time use code by using the received dynamic generation value as a seed or uses the received generated generation value as it is as a one-time use code without generating a separate one-time use code, Can be processed into a specified structure and used as a disposable code.

The transmitting unit 480 transmits the authentication data including the disposable code to the wireless terminal 100 through the short range wireless communication unit 432. The authentication data may be periodically transmitted or transmitted at a time point when the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 and / It can be repeatedly transmitted a specified number of times. Repeating the transmission of the authentication data a predetermined number of times at a specified time interval is intended to increase the probability that the wireless terminal 100 recognizing the authentication data recognizes the disposable code included in the authentication data.

The touch confirmation unit 475 confirms whether the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 in order to transmit the authentication data to the touch unit 300, As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 is provided with the check unit 475, the transmitter 480 can transmit the authentication data including the disposable code at the time when the touch device 300 is checked And the authentication data may be repeatedly transmitted a predetermined number of times after the authentication data is transmitted at the time of the stamping.

After the authentication data including the disposable code is transmitted through the short range wireless communication unit 432, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the one-time code encoded in the authentication data is recognized through the local communication authentication module 170 provided in the program 120 of the wireless terminal 100 through at least one of the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the specified operation and the received management information may be stored in the designated storage area of the memory unit 420 .

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

4, the program 450 of the electronic module 400 interlocked with the proximity communication authentication module 175 of FIG. 1 includes a storage unit 455 for storing a unique code assigned to the memory unit 420, And a transmitting unit 480 for transmitting the authentication data including the unique code to the wireless terminal 100 through the proximity wireless communication unit 416. In accordance with an embodiment of the present invention, And an activity confirmation unit 485 for confirming whether the proximity wireless communication is activated. The sound input unit 412, the proximity wireless communication unit 416, A management unit 490 for receiving management information related to the operation of the touch device 300 through at least one of a wireless network communication unit 436 and a short range wireless communication unit 432 and storing the management information in a designated storage area of the memory unit 420 .

The storage unit 455 stores the unique code of the designated code system in the memory unit 420. The unique code may be stored in the touch device 300 when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, May be stored in the memory unit 420 at least one of the time when the electronic module 400 is mounted on the touch device 300 and the time when the electronic module 400 is installed and used, .

According to the first code storage method of the present invention, the unique code may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store the unique code, The unique code may be stored in the memory unit 420 during the manufacturing process of the module 400. [

According to the second code storage method of the present invention, the unique code can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, Receives or receives a unique code to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, and the short- And store the received or inputted unique code in the memory unit 420.

According to the third code storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The unique code may be stored and the storage unit 455 may store the unique code from at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The memory unit 420 receives or receives a unique code to be stored in the memory unit 420 and stores the received unique code in the memory unit 420.

The transmitting unit 480 transmits the authentication data including the unique code to the wireless terminal 100 through the proximity wireless communication unit 416. [ The authentication data may be periodically transmitted or transmitted at a time point when the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 and / It can be repeatedly transmitted a specified number of times. Repeating the transmission of the authentication data a predetermined number of times at a specified time interval is intended to increase the probability that the wireless terminal 100 recognizing the authentication data recognizes the unique code included in the authentication data.

The touch confirmation unit 475 confirms whether the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 in order to transmit the authentication data to the touch unit 300, As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 .

When the electronic module 400 is provided with the check unit 475, the transmitter 480 can transmit authentication data including the unique code at the time when the touch device 300 is checked And the authentication data may be repeatedly transmitted a predetermined number of times after the authentication data is transmitted at the time of the stamping.

The activity confirmation unit 485 may be configured to match the radio frequency signal of the proximity wireless communication unit 416 with the radio frequency signal of the proximity wireless communication unit 416 in order to transmit the unique code at the time when the proximity wireless communication is activated between the electronic module 400 and the wireless terminal 100. [ It is confirmed whether a radio field is formed around the electronic module 400 by a radio frequency signal of a frequency band in which the radio frequency signal is generated. The activation confirmation unit 485 can recognize whether a radio field is formed around the electronic module 400 by recognizing the size or the change of a radio frequency signal received by the antenna of the proximity wireless communication unit 416.

When the activity confirmation unit 485 is provided in the electronic module 400, the transmission unit 480 transmits the activation confirmation unit 485 to the mobile terminal 100 at the time when the proximity wireless communication is activated between the electronic module 400 and the wireless terminal 100 And may transmit the authentication data repeatedly at a designated time interval after transmitting the authentication data at the time when the proximity wireless communication is activated.

After the authentication data including the unique code is transmitted through the proximity wireless communication unit 416, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of the fact that the unique code encoded in the authentication data is recognized through the proximity communication authentication module 175 included in the program 120 of the wireless terminal 100 through at least one of the communication unit 432 and the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the specified operation and the received management information may be stored in the designated storage area of the memory unit 420 .

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

Referring to FIG. 4, a program 450 of an electronic module 400 interlocked with the proximity communication authentication module 175 of FIG. 1 includes a generation unit 460 for dynamically generating a disposable code having a structure specified in accordance with a specified code generation rule And a transmitting unit 480 for transmitting authentication data including the generated disposable code to the wireless terminal 100 through the proximity wireless communication unit 416. The wireless terminal 100 includes a transmitting unit 480 for dynamically generating the one- And a storage unit 455 for storing one static seed value in the memory unit 420 and includes a check unit 475 for confirming whether the touch device 300 is depressed according to the method, The proximity wireless communication unit 416, the wireless network communication unit 436, and the short-range wireless communication unit 432 according to an embodiment of the present invention. At least one Receiving and managing information related to operations of the touch device 300 may be provided with a management unit 490 for storing in a specified storage area of the memory unit 420.

The storage unit 455 stores in the memory unit 420 at least one static seed value to be used for dynamically generating the disposable code. The static seed value may be set at a time when the electronic module 400 is manufactured, when the electronic module 400 is mounted on the touch device 300, when the electronic module 400 is mounted on the touch device 300, The electronic module 400 may be stored in the memory unit 420 at at least one point in time when the electronic module 400 is mounted on the touch device 300 and is used, have.

According to the first seed storage method of the present invention, the static seed value may be stored in the memory unit 420 at the time when the electronic module 400 is manufactured, and the storage unit 455 may store The static seed value can be stored in the memory unit 420 during the manufacturing process of the electronic module 400. [

According to the second seed storing method of the present invention, the static seed value can be stored in the memory unit 420 at the time when the electronic module 400 is mounted on the touch device 300, 455 may transmit a static seed value to be stored in the memory unit 420 from the outside through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436 and the short- Received or input, and stores the received or inputted static seed value in the memory unit 420. [0050]

According to the third seed storage method of the present invention, when the electronic module 400 is initially installed in the touch device 300 or when the electronic module 400 is being used, The static seed value may be stored and the storage unit 455 may store the static seed value through at least one of the proximity wireless communication unit 416, the user operation unit 428, the wireless network communication unit 436, The static seed value to be stored in the memory unit 420 may be received or input from the memory unit 420 and the received static seed value may be stored in the memory unit 420. [

The generating unit 460 includes a code generation algorithm for dynamically generating the one-time use code in accordance with a designated code generation rule. The generating unit 460 generates the one or more stored static seed values and the dynamic seed values dynamically determined One or more seed values are dynamically generated by assigning the seed value to a specified code generation algorithm (e.g., MD4, MD4, SHA, etc.) to generate a disposable code of a specified structure (e.g., code length, number of digits, code structure, etc.). Preferably, the code generation rule may include at least one of a time-synchronized code generation rule and a challenge-response code generation rule.

According to the first dynamic seed determination method of the present invention, the generation unit 460 checks a time value through a timer (not shown) built in the electronic module 400, and outputs the time value Value form) can be determined as the dynamic seed value.

According to the second dynamic seed determining method of the present invention, the generating unit 460 generates a sound signal of a specified device (e.g., POS terminal, computer, wireless terminal 100, etc.) around the touch device 300 through the sound input unit 412 (For example, sound data in which the seed value is encoded in the DTMF format, and the sound data in which the seed value is encoded), and can analyze the sound data to determine the dynamic seed value. Preferably, the seed value determined using the sound data may include at least one of a time value, a challenge value, a dynamic generated value (e.g., a value dynamically generated according to a specified procedure (or algorithm) of a specified device) .

According to the third dynamic seed determination method of the present invention, the generation unit 460 generates a designation of a designated device (e.g., a POS terminal, a computer, a wireless terminal 100) around the touch device 300 through the proximity wireless communication unit 416, Etc.), and determine the dynamic seed value by receiving the seed value transmitted through the near field wireless communication. Preferably, the seed value determined using the proximity wireless communication may include at least one of a time value, a challenge value, and a dynamic generation value.

According to the fourth dynamic seed determination method of the present invention, the generation unit 460 receives the seed value transmitted from the designated device or server through the wireless network communication unit 436 or the short-range wireless communication unit 432, . Preferably, the seed value determined using the wireless network communication unit 436 or the short-range wireless communication unit 432 may include at least one of a time value, a challenge value, and a dynamic generation value.

When the value received from the outside through at least one of the near field wireless communication unit 416, the wireless network communication unit 436 and the near field wireless communication unit 432 is a dynamic generated value, 460) generates the one-time use code by using the received dynamic generation value as a seed or uses the received generated generation value as it is as a one-time use code without generating a separate one-time use code, Can be processed into a specified structure and used as a disposable code.

The transmitting unit 480 transmits the authentication data including the disposable code to the wireless terminal 100 through the proximity wireless communication unit 416. [ The authentication data may be periodically transmitted or transmitted at a time point when the touch device 300 is pressed on the touch screen 105 of the wireless terminal 100 and / It can be repeatedly transmitted a specified number of times. Repeating the transmission of the authentication data a predetermined number of times at a specified time interval is intended to increase the probability that the wireless terminal 100 recognizing the authentication data recognizes the disposable code included in the authentication data.

The touch confirmation unit 475 confirms whether the touch device 300 is connected to the touch screen 105 of the wireless terminal 100 in order to transmit the authentication data to the touch unit 300, As shown in FIG. The electronic module 400 may include a sensor unit 440 or may be connected to a sensor unit 440 included in the touch device 300 in order to confirm whether the touch device 300 is pressed on the touch screen 105 . Preferably, the check unit 475 checks whether a pressing force is applied through the sensor module 440 through the sensor module.

When the electronic module 400 is provided with the check unit 475, the transmitter 480 can transmit the authentication data including the disposable code at the time when the touch device 300 is checked And the authentication data may be repeatedly transmitted a predetermined number of times after the authentication data is transmitted at the time of the stamping.

The activation confirmation unit 485 may be configured to match the radio frequency signal of the proximity wireless communication unit 416 with the radio frequency signal of the proximity wireless communication unit 416 in order to transmit the disposable code at the time when the proximity wireless communication is activated between the electronic module 400 and the wireless terminal 100. [ It is confirmed whether a radio field is formed around the electronic module 400 by a radio frequency signal of a frequency band in which the radio frequency signal is generated. The activation confirmation unit 485 can recognize whether a radio field is formed around the electronic module 400 by recognizing the size or the change of a radio frequency signal received by the antenna of the proximity wireless communication unit 416.

When the activity confirmation unit 485 is provided in the electronic module 400, the transmitter 480 transmits the disposable use information to the wireless terminal 100 at a time point when the proximity wireless communication is activated between the electronic module 400 and the wireless terminal 100. [ And may transmit the authentication data repeatedly at a designated time interval after transmitting the authentication data at the time when the proximity wireless communication is activated.

After the authentication data including the disposable code is transmitted through the proximity wireless communication unit 416, the management unit 490 controls the sound input unit 412, the proximity wireless communication unit 416, the wireless network communication unit 436, As a result of whether the one-time code encoded in the authentication data is recognized through the proximity communication authentication module 175 provided in the program 120 of the wireless terminal 100 through at least one of the communication unit 432 and the communication unit 432, A result of at least one of a result of whether the program 120 of the storage unit 100 has performed the specified operation and the received management information may be stored in the designated storage area of the memory unit 420 .

The management unit 490 stores, updates and deletes the management information stored in the designated storage area of the memory unit 420 (for example, deletes management information for a predetermined period of time) 436 and the short-range wireless communication unit 432 to a designated device or server via the communication unit.

5 is a diagram showing a system configuration according to an embodiment of the present invention.

5 is a flowchart illustrating a method of authenticating a simultaneous touch or a shape touch using a multi touch function of a touch input unit 104 included in the wireless terminal 100, 100 to provide a designated service. Those skilled in the art will be able to refer to and / or modify FIG. 5 to implement various implementations of the system (For example, some constituent parts may be omitted, or a subdivided or combined practice method) may be inferred. However, the present invention includes all the above-mentioned methods of practicing the invention, Technical features are not limited.

The system of the present invention is configured to communicate with the wireless terminal 100 shown in Figure 1 and through an operating server 500 capable of communicating with a terminal 540 of an affiliate shop having the touch device 300 shown in Figure 3 Can be implemented. However, the operation server 500 is a functional name for implementing a system implemented on a network to provide the touch authentication service, but is not limited to a physical name. Preferably, the operating server 500 can be divided into servers operated by each service provider as the service provider implementing the present invention is segmented. For example, some of the components shown in the operating server 500 of FIG. 5 may be provided in a server of a provider providing a separate service associated with touch authentication, or a component associated with authentication of a one- And may be provided in a server of an organization providing authentication. It is clear that the system for providing the touch authentication service of the present invention includes all the cases in which a plurality of providers cooperate to provide various touch authentication services.

Referring to FIG. 5, the operation server 500 registers / authenticates a user of the mobile terminal 100 shown in FIG. 1 as a member or a member having a touch device 300 shown in FIG. 3 as a member Authentication unit 505 for subscribing / authenticating the mobile terminal 100 to the mobile terminal 100 and authenticating the validity of the program 120 of the wireless terminal 100 shown in FIG. 1 or having the touch device 300 shown in FIG. 3 And a program authentication unit 510 for authenticating the validity of a program provided in the terminal device 540 of a merchant, and a detailed description thereof will be made with reference to FIG. 2a or FIG. 2b.

5, the operation server 500 for authenticating the simultaneous touch stores the simultaneous touch authentication condition for the corresponding affiliated store identified in association with the affiliated store terminal 540 in the designated storage medium 530, And an authentication condition management unit (520) for managing the simultaneous touch authentication condition to be applied to simultaneous touch authentication of the program (120) of the wireless terminal (100), wherein the authentication condition A simultaneous touch authentication unit (232) for performing simultaneous touch authentication requested from the program (120) of the wireless terminal (100) based on the simultaneous touch authentication condition, a determination unit And an authentication result providing unit 525 for providing the program to the program 120 of the wireless terminal 100. The storage medium 530 of FIG. 5 may be provided in the operating server 500 or may be provided outside, and thus the present invention is not limited thereto.

When the terminal 540 of the merchant recognizes and reads the simultaneous touch of the touch device 300 provided at the corresponding merchant and determines and transmits the simultaneous touch authentication condition for the touch device 300, Touch authentication condition received from the terminal 540 of the terminal 540 is mapped with the franchise information identifying the corresponding franchisee and stored in the designated storage medium 530. When the terminal device 540 of the merchant terminal acquires and transmits the component value for the simultaneous touch point according to the embodiment of the present invention, the authentication condition determiner 515 determines the component value for the simultaneous touch point And determine the simultaneous touch authentication condition of the merchant. The authentication condition determining unit 515 can further determine at least one of a touch recognition condition and a touch condition for the simultaneous touch using the touch device 300. [ The authentication condition management unit 520 may store at least one of a touch recognition condition and a touch condition condition in a designated storage medium 530.

According to the embodiment of the present invention, the simultaneous touch authentication condition may include a touch point number condition for the number 'N' of touch points to be simultaneously touched in the touch area through the touch input unit 104 of the wireless terminal 100, A center determination condition for determining the center of each point constituting the N touch points, a distance calculation condition (e.g., a distance between the center points of the respective points) for calculating distances between the points constituting the N touch points, (E.g., a distance value and a tolerance of each point) for authenticating the calculated distance, a line segment setting condition for connecting each point constituting the N touch points (e.g., center of each point (E.g., a straight line equation, a slope of a straight line, a tolerance, etc.) for authenticating a line segment joining the points, and a line segment authentication condition (For example, a condition for determining an interior angle or an outside angle formed by a line segment) for determining an angle of a line segment formed by two line segments that meet at an intersection point and an angle authentication condition (E.g., a condition for determining a reference point, a condition for determining a size and a direction of a vector) for determining a vector component for the N touch points, and a vector determination condition (For example, vector size and direction, tolerance and the like) for authenticating each of the N simultaneous touch points, a condition for calculating an area for each of the N simultaneous touch points (e.g., dividing the multiple touch area into a plurality of cells, (E.g., a condition for counting the number of included cells) and an area authentication condition (e.g., area for each point, tolerance, etc.) for authenticating the area of each touch point Or it comprise a combination of two or more.

When the simultaneous touch authentication condition is confirmed / determined, the authentication condition management unit 520 notifies the program 120 provided in the wireless terminal 100 of a process (e.g., a program 120 or the program 120 provided to the wireless terminal 100 via the communication network or via the communication network to the program 120 provided to the wireless terminal 100 (Or file) to be used by the program 120 in order to process the data. According to an embodiment of the present invention, the authentication condition management unit 520 may process at least one of a touch recognition condition and a touch condition for the simultaneous touch using the touch device 300. Meanwhile, when the simultaneous touch authentication unit 232 is provided in the operation server 500, the simultaneous touch authentication condition may be applied without being provided to the program 120. [ Or the simultaneous touch recognition unit 220 is provided in the operation server 500, the touch recognition condition may be applied without being provided to the program 120. [ Or one or more authentication units among the simultaneous multiple touch authentication unit 222, the fixed touch state authentication unit 224, the static touch state authentication unit 226 and the dynamic touch state authentication unit 228, The touch state condition may be applied without being provided to the program 120. [

According to the embodiment of the present invention, the simultaneous touch authentication condition of the franchisee can be changed at any time (for example, by changing the position of some of the touch modules of the touch device 300 or adjusting the height thereof) And the changed / renewed simultaneous touch authentication condition is provided to the program 120 of the wireless terminal 100 as soon as possible. Meanwhile, when the simultaneous touch authentication unit 232 is provided in the operation server 500, the simultaneous touch authentication condition may not be provided to the program 120.

When the simultaneous touch authentication unit 232 is provided on the side of the operation server 500 according to the method of the present invention, the simultaneous touch authentication unit 232 acquires from the program 120 of the wireless terminal 100 N Image data obtained by imaging the number of simultaneous touch points or component values for the N simultaneous touch points.

If image data of N simultaneous touch points are received from the program 120 of the wireless terminal 100, the simultaneous touch authenticating unit 232 extracts from the image data the geometric structure formed by the N touch points The component values are read out and extracted. The component values for the N touch points may be at least one of a coordinate value, a scalar value, and a vector value based on a coordinate system (e.g., an orthogonal coordinate system, a circular coordinate system, etc.) .

According to the first simultaneous touch reading method of the present invention, the simultaneous touch authenticating unit 232 calculates a component value including a distance value where each point constituting the N touch points is separated from each other based on a specified coordinate system Can be extracted. For example, if the N touch points are composed of A (51, y1), B (52, y2), C (53, y3) on the orthogonal coordinate system, And the distance between C and C, and the distance between B and C, and the like.

According to the second simultaneous touch reading method of the present invention, the simultaneous touch authenticating unit 232 extracts a component value including a line segment value connecting each point constituting the N touch points, based on a specified coordinate system . For example, if the N touch points are composed of A (51, y1), B (52, y2), C (53, y3) and the like on the orthogonal coordinate system, the component values include segment AB, segment AC, segment BC And the like. Each line segment can be expressed in the form of a straight line equation.

According to the third simultaneous touch reading method of the present invention, the simultaneous touch authenticating unit 232 may calculate a coordinate value of a component including a line segment angle value formed by two line segments that meet at each point constituting the N touch points, The value can be extracted. For example, if the N touch points are composed of A (51, y1), B (52, y2), C (53, y3) on the orthogonal coordinate system, AC angle ∠BAC for AC, ∠ABC for line segment BC at point B, ∠ACC for line AC at point C, and ∠ACB for line CB.

According to the fourth simultaneous touch reading method of the present invention, the simultaneous touch authenticating unit 232 forms the N touch points with a point (or any one of the N touch points) on a specified coordinate system as a reference point (Or (N-1) points excluding the reference point out of the N touch points).

According to the fifth simultaneous touch reading method of the present invention, when the points constituting the N touch points are different from each other, the simultaneous touch authentication unit 232 includes an area formed by the N touch points on a specified coordinate system Can be extracted.

According to the sixth simultaneous touch reading method of the present invention, the simultaneous touch authenticating unit 232 may combine two or more touch recognizers among the first through fifth simultaneous touch reading methods or may repeat one or more simultaneous touch reading methods And the simultaneous touch authentication unit 232 may extract component values for N touch points touched in the touch region according to each applied simultaneous touch reading method.

The simultaneous touch authentication unit 232 compares the component value received from the program 120 of the wireless terminal 100 or the component value extracted from the image data with the simultaneous touch authentication condition or performs a specified verification operation And confirms whether the components of the N touch points match the simultaneous touch authentication condition.

The authentication result providing unit 525 provides the program 120 of the wireless terminal 100 with the simultaneous touch authentication result performed by the simultaneous touch authentication unit 232.

Referring to FIG. 5, the operation server 500 for authenticating the shape touch stores the shape-based touch authentication condition for a corresponding affiliate shop identified in association with the terminal device 540 of the affiliate shop in the designated storage medium 530, And an authentication condition management unit (520) for managing the shape touch authentication condition to be applied to the shape touch authentication of the program (120) of the wireless terminal (100), wherein the authentication condition A shape touch authentication unit 244 for performing shape touch authentication requested from the program 120 of the wireless terminal 100 based on the shape touch authentication condition, And an authentication result providing unit 525 for providing the program to the program 120 of the wireless terminal 100. The storage medium 530 of FIG. 5 may be provided in the operating server 500 or may be provided outside, and thus the present invention is not limited thereto.

When the terminal device 540 of the merchant recognizes and reads the shape touch of the touch device 300 provided at the corresponding merchant and determines and transmits the shape touch authentication condition for the touch device 300, Touch authentication conditions received from the terminal 540 of the terminal 540 are mapped with the merchant information identifying the corresponding merchant and stored in the designated storage medium 530. When the terminal device 540 of the merchant terminal acquires and transmits the pattern recognition value for the shape touch surface according to the embodiment of the present invention, the authentication condition determination section 515 determines the pattern recognition value for the shape touch surface And the touch authentication condition of the shape of the merchant can be determined. The authentication condition determining unit 515 can further determine at least one of a touch recognition condition and a touch condition for the shape touch using the touch device 300. [ The authentication condition management unit 520 may store at least one of a touch recognition condition and a touch condition condition in a designated storage medium 530.

According to an embodiment of the present invention, the shape touch authentication condition may be obtained by comparing and authenticating a pattern recognition value extracted from a shape touch image through the pattern recognition algorithm, or by performing a specified verification operation with the pattern recognition value, A generic term of a condition for authenticating validity, and may preferably include a predicted value and a tolerance of a pattern recognition value extracted from the shape touch image through the pattern recognition algorithm.

When the shape touch authentication condition is confirmed / determined, the authentication condition management unit 520 notifies the program 120 provided in the wireless terminal 100 that the shape touch authentication condition is applied in the form of a program code (for example, a program Or the program 120 supplied to the wireless terminal 100 via the communication network) or transmits the shape touch authentication condition to the program 120 provided to the wireless terminal 100 via the communication network (Or file) to be used by the program 120 in order to process the data. According to an embodiment of the present invention, the authentication condition management unit 520 can process at least one of a touch recognition condition and a touch condition for a shape touch using the touch device 300. [ On the other hand, when the shape touch authentication unit 244 is provided in the operation server 500, the shape touch authentication condition can be applied without being provided to the program 120. [ Or the simultaneous touch recognition unit 220 is provided in the operation server 500, the touch recognition condition may be applied without being provided to the program 120. [ Or one or more authentication units among the simultaneous multiple touch authentication unit 222, the fixed touch state authentication unit 224, the static touch state authentication unit 226 and the dynamic touch state authentication unit 228, The touch state condition may be applied without being provided to the program 120. [

According to the embodiment of the present invention, the shape authentication condition of the franchisee can be changed at any time (for example, by changing the position of the touch module of the touch device 300 or adjusting the height thereof) , And the changed / updated shape touch authentication condition is provided to the program 120 of the wireless terminal 100 as soon as possible. On the other hand, when the shape touch authentication unit 244 is provided in the operation server 500, the shape touch authentication condition may not be provided to the program 120. [ Or the shape recognition unit 238 is provided in the operation server 500, the touch recognition condition may be applied without being provided to the program 120. [ Or at least one authentication unit among the simultaneous shape touch authentication unit 240, the fixed touch state authentication unit 224, the static touch state authentication unit 226 and the dynamic touch state authentication unit 228 The touch state condition may be applied without being provided to the program 120. [

When the shape touch authentication unit 244 is provided on the operation server 500 side in accordance with the method of the present invention, the shape touch authentication unit 244 may receive the shape information from the program 120 of the wireless terminal 100 A pattern recognition value for the shape touch image obtained by imaging the touch surface or the pattern recognition value for the shape touch surface. The shape touch image may include at least one of a bitmap image or a vector map image imaged based on a coordinate system (for example, an orthogonal coordinate system, a circular coordinate system, etc.) set in the touch region.

If the shape touching image for the shape touching surface is received from the program 120 of the wireless terminal 100, the shape touching authentication unit 244 applies the shape touching image to the designated pattern recognition algorithm, . Wherein the pattern recognition value of the shape touch image is a generic name of values interpreted through a specified pattern recognition algorithm and includes at least one of a coordinate value, a scalar value, and a vector value of at least one of points, lines, and faces constituting the shape touch image Or a combination of two or more. The pattern recognition algorithm may be any algorithm that can be used for image processing if it is an algorithm for extracting a pattern recognition value that matches a specified shape touch authentication condition. Those skilled in the art will recognize various pattern recognition algorithms and methods of implementing the pattern recognition algorithms, so that a detailed description thereof will be omitted for the sake of convenience.

The shape touch authentication unit 244 compares the pattern recognition value received from the program 120 of the wireless terminal 100 or the pattern recognition value extracted from the shape touch image with the shape touch authentication condition, To verify that the pattern structure of the shape touch surface matches the shape touch authentication condition.

The authentication result providing unit 525 provides the shape touch authentication result performed by the shape touch authentication unit 244 to the program 120 of the wireless terminal 100.

5, the operation server 500 stores the confirmed sound authentication condition in the designated storage medium 530 in cooperation with the terminal device 540 or the touch device 300 of the merchant, An authentication condition determining unit (515) that includes an authentication condition managing unit (520) that manages the program to be applied to the program (120) of the wireless terminal (100) and determines a sound authentication condition of the merchant according to the method; A sound authentication unit 248 for performing sound authentication requested from the program 120 of the wireless terminal 100 based on the authentication condition and a sound authentication unit 248 for performing authentication of the sound authentication by the program 120 of the wireless terminal 100. [ And an authentication result providing unit 525 for providing an authentication result.

The authentication condition management unit 520 may receive at least one of a unique code and / or a disposable code to be encoded in the sound signal to be output through the terminal device 540 or the touch device 300 of the merchant, or a sound pattern to be included in the sound signal And stores the information on the designated storage medium 530 by mapping the merchant information identifying the franchisee and the confirmed sound authentication condition. The sound authentication condition may be provided from the terminal device 540 or the touch device 300 of the merchant.

Meanwhile, the authentication condition determination unit 515 determines whether or not at least one of a unique code and / or a disposable code to be encoded in the sound signal to be output through the terminal device 540 of the affiliate shop or the touch device 300, You can determine the sound authentication condition for one.

When the sound data input to the wireless terminal 100 includes a unique code of a code system specified in the sound data, the sound authentication condition may include a comparison object code to be compared and authenticated with the unique code. Alternatively, when the sound data input to the wireless terminal 100 includes a sound pattern, the sound authentication condition may include a pattern recognition algorithm and a pattern authentication value for recognizing and authenticating the sound pattern. Or when the sound data input to the wireless terminal 100 includes a one-time code dynamically generated with a code system specified in the code system, the sound authentication condition includes a code generation rule for dynamically generating a comparison target code matching the one- For example, code generation algorithms that dynamically generate disposable codes included in sound data, and / or rules that match seed values).

When the sound authentication condition is confirmed / determined, the authentication condition management unit 520 notifies the program 120 provided in the wireless terminal 100 that the sound authentication condition is applied in the form of a program code (for example, the program 120) Or providing the sound authentication condition to the program 120 provided to the wireless terminal 100 via the communication network to process the program 120 provided to the wireless terminal 100 through the providing server, So that the program 120 is applied to the data (or file) used. Meanwhile, when the sound authentication unit 248 is provided in the operation server 500, the sound authentication condition may be applied without being provided to the program 120. [

According to the embodiment of the present invention, the sound authentication condition of the franchisee can be updated at any time (for example, a specific frequency change, a sound pattern change, a sound code change in data) The changed / updated sound authentication condition is provided to the program 120 of the wireless terminal 100 as soon as possible. Meanwhile, when the sound authentication unit 248 is provided in the operation server 500, the sound authentication condition may not be provided to the program 120.

When the sound authentication unit 248 is provided on the operation server 500 side according to an embodiment of the present invention, the sound authentication unit 248 may perform sound authentication from the program 120 of the wireless terminal 100 And receives necessary data.

According to the first sound authentication method of the present invention, when the sound data input to the program 120 of the wireless terminal 100 includes a signal sound of a specific frequency band, the sound authentication unit 248 transmits the sound signal to the wireless terminal 100 may receive the sound data input from the program 120 of the wireless terminal 100 or the unique code and / or the disposable code recognized from the sound data.

The sound authentication unit 248 reads the frequency band of the beep sound and outputs the unique frequency band included in the sound data when the sound data including a beep signal of a specific frequency band is received from the program 120 of the wireless terminal 100. [ Code and / or one-off code.

When a unique code is extracted from the received sound data or a unique code is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 compares the unique code with the sound authentication condition The validity of the inherent code can be verified by comparing the codes.

Or when a disposable code is extracted from the received sound data or a disposable code is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 compares the generated sound authentication data The validity of the disposable code can be authenticated using the generated comparison target code.

According to the second sound authentication method of the present invention, when the sound data input to the program 120 of the wireless terminal 100 includes a sound pattern, the sound authentication unit 248 authenticates the wireless terminal 100 The sound data input from the program 120 to the wireless terminal 100 or the sound pattern information recognized from the sound data can be received.

When sound data including a sound pattern is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 recognizes the sound data through a specified pattern recognition algorithm and extracts sound pattern information .

When the sound pattern information is extracted from the received sound data or the sound pattern information is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 obtains the sound pattern information and the sound authentication condition Or may verify the validity of the sound pattern included in the sound data by performing a specified verification operation.

According to the third sound authentication method of the present invention, when the sound data input to the program 120 of the wireless terminal 100 includes a sound code, the sound authentication unit 248 authenticates the sound of the wireless terminal 100 The sound data input from the program 120 to the wireless terminal 100, or the sound code corresponding to the sound data, or the unique code and / or the disposable code obtained from the sound code.

When the sound data including the sound code is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 reads the sound data, extracts the sound code included in the sound data, It is possible to extract the unique code and / or the disposable code encoded in the sound code. Alternatively, when a sound code included in the sound data is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 may extract the unique code and / or the disposable code encoded in the sound code have.

When a unique code is extracted from the received sound data (or a sound code) or a unique code is received from the program 120 of the wireless terminal 100, the sound authenticating unit 248 obtains the unique code and the sound The validity of the unique code can be verified by comparing the comparison target code of the authentication condition.

Or when a disposable code is extracted from the received sound data (or sound code) or a disposable code is received from the program 120 of the wireless terminal 100, the sound authentication unit 248 determines whether the sound authentication condition The validity of the disposable code can be authenticated using the comparison target code generated according to the code generation rule.

The authentication result providing unit 525 provides the sound authentication result performed by the sound authenticating unit 248 to the program 120 of the wireless terminal 100. If the sound authentication is combined with the touch authentication, the authentication result providing unit 525 may provide the sound authentication result to the program 120 of the wireless terminal 100 together with the result of the touch authentication.

5, the operation server 500 may store the identified location authentication conditions in association with the terminal device 540 of the merchant in the designated storage medium 530, or may transmit the location authentication conditions to the wireless terminal 100, And an authentication condition management unit (520) that manages the program to be applied to the program (120) of the franchise point, and includes an authentication condition determination unit (515) for determining the location authentication condition of the franchisee according to an implementation method, A location authentication unit 254 for performing location authentication requested from the program 120 of the wireless terminal 100 and an authentication result providing unit 220 for providing the authentication result of the location authentication to the program 120 of the wireless terminal 100. [ (525).

The authentication condition management unit 520 checks the location authentication condition corresponding to the location where the wireless terminal 100 should be located at the time of touching the touch device 300 to the touch input unit 104 of the wireless terminal 100 , Stores the franchise information identifying the franchisee in the designated storage medium 530 by mapping the identified location authentication condition. The location authentication condition includes a reference location or a location area corresponding to a location of an affiliated store including the touch device 300, and may be provided from the terminal device 540 of the affiliate shop.

On the other hand, when the position where the touch device 300 is touched by the touch input unit 104 of the wireless terminal 100 is changed (for example, when an employee of the merchant is holding the touch device 300 and visiting the customer's location) The authentication condition determining unit 515 receives the information corresponding to the change of the position of the touch device 300 from the terminal device 540 of the affiliate shop and determines the location authentication condition of the specific wireless terminal 100 Can be determined.

When the location authentication condition is confirmed / determined, the authentication condition management unit 520 performs processing (e.g., program 120) to apply the location authentication condition to the program 120 provided to the wireless terminal 100 in the form of a program code, Or providing the location authentication condition to the program 120 provided to the wireless terminal 100 via the communication network to transmit the location authentication request to the wireless terminal 100 via the communication network, So that the program 120 is applied to the data (or file) used. Meanwhile, when the location authentication unit 254 is provided in the operation server 500, the location authentication condition may be applied without being provided to the program 120. [

According to the embodiment of the present invention, the location authentication condition of the franchisee can be changed at any time, and can be updated through the re-registration process, and the changed / (120). Meanwhile, when the location authentication unit 254 is provided in the operation server 500, the location authentication condition may not be provided to the program 120.

When the location authentication unit 254 is provided on the operation server 500 side according to an embodiment of the present invention, the location authentication unit 254 notifies the wireless terminal 100 of the program 120 of the wireless terminal 100, And receives position data of the mobile terminal 100.

When the position data of the wireless terminal 100 is received from the program 120 of the wireless terminal 100, the position authentication unit 254 determines that the position data exists within a predetermined distance from the reference position of the position authentication condition , Or authenticates the position data by checking whether the confirmed position data exists in the position area of the position authentication condition.

The authentication result providing unit 525 provides the location authentication result of the location authentication unit 254 to the program 120 of the wireless terminal 100. If the location authentication is combined with the touch authentication, the authentication result providing unit 525 may provide the location authentication result to the program 120 of the wireless terminal 100 together with the result of the touch authentication.

5, the operation server 500 may store the image authentication condition, which has been checked in cooperation with the terminal device 540 of the merchant or the touch device 300, in the designated storage medium 530, An authentication condition determining unit (515) that has an authentication condition managing unit (520) that manages the image to be applied to the program (120) of the wireless terminal (100) An image authentication unit 260 for performing image authentication requested from the program 120 of the wireless terminal 100 based on an authentication condition and an image authentication unit 260 for authenticating the authentication result of the image authentication to the program 120 of the wireless terminal 100. [ And an authentication result providing unit 525 for providing an authentication result.

The authentication condition management unit 520 may include a unique code and / or a disposable code to be encoded in a code image to be electronically output through the terminal device 540 or the touch device 300 of the merchant, Or an image pattern to be included in a pattern image to be electronically output through the touch device 300, and further stores an image authentication condition for at least one of the image patterns to be included in the designated storage medium by mapping the merchant information for identifying the franchisee, (530). Alternatively, the authentication condition management unit 520 is a unique code printed on the printing medium of the merchant. Or the image pattern printed on the printing medium of the merchant, and stores the merchant information identifying the merchant in the designated storage medium 530 by mapping the confirmed image authentication condition . The image authentication condition may be provided from the terminal device 540 or the touch device 300 of the merchant.

The authentication condition determining unit 515 determines whether the unique code and / or the disposable code to be encoded in the code image to be electronically output through the terminal device 540 or the touch device 300 of the affiliate shop, ) Or an image pattern to be included in a pattern image to be electronically output through the touch device 300. [0050] FIG. Alternatively, the authentication condition determining unit 515 determines whether or not the unique code to be printed on the printing medium of the merchant. Or an image pattern to be printed on the printing medium of the merchant.

When the unique code of the code system specified in the code image input to the wireless terminal 100 is included, the image authentication condition may include the comparison code to be compared with the unique code. The image authentication condition may include a pattern recognition algorithm for recognizing and authenticating the image pattern and a pattern authentication value when the image pattern specified in the pattern image input to the wireless terminal 100 is included. Or the one-off code dynamically generated in the code system specified in the code image input to the wireless terminal 100, the image authentication condition includes code generation rules for dynamically generating a comparison target code matched with the one- For example, code generation algorithms that dynamically generate disposable codes included in the code image, and / or rules that match seed values).

When the image authentication condition is confirmed / determined, the authentication condition management unit 520 notifies the program 120 provided in the wireless terminal 100 that the image authentication condition is applied in the form of a program code (for example, Or the program 120 provided to the wireless terminal 100 via the communication network by providing the image authentication condition to the program 120 provided to the wireless terminal 100 via the communication network, So that the program 120 is applied to the data (or file) used. Meanwhile, when the image authentication unit 260 is provided in the operation server 500, the image authentication condition can be applied without being provided to the program 120. [

According to the embodiment of the present invention, the image authentication condition of the franchisee can be changed at any time, and can be updated through a re-registration process, and the changed / (120). On the other hand, when the image authentication unit 260 is provided in the operation server 500, the image authentication condition may not be provided to the program 120.

When the image authentication unit 260 is provided on the side of the operation server 500 according to an embodiment of the present invention, the image authentication unit 260 performs image authentication from the program 120 of the wireless terminal 100 And receives necessary data.

According to the first image authentication method of the present invention, when a code image is input to the program 120 of the wireless terminal 100, the image authentication unit 260 receives the code image from the program 120 of the wireless terminal 100 A code image input to the wireless terminal 100, or a unique code and / or a disposable code recognized from the code image.

When the code image is received from the program 120 of the wireless terminal 100, the image authentication unit 260 reads the code image and extracts the unique code and / or the one-time code included in the code image have.

When the inherent code is extracted from the received code image or a unique code is received from the program 120 of the wireless terminal 100, the image authenticating unit 260 transmits the unique code to the comparison object The validity of the inherent code can be verified by comparing the codes.

Alternatively, when the one-time code is extracted from the received code image or the one-time code is received from the program 120 of the wireless terminal 100, the image authentication unit 260 may generate the one- The validity of the disposable code can be authenticated using the generated comparison target code.

According to the second image authentication method of the present invention, when a pattern image is input to the program 120 of the wireless terminal 100, the image authentication unit 260 receives the pattern image from the program 120 of the wireless terminal 100 A pattern image input to the wireless terminal 100, or image pattern information recognized from the pattern image.

When the pattern image is received from the program 120 of the wireless terminal 100, the image authentication unit 260 can recognize the pattern image through the designated pattern recognition algorithm and extract the image pattern information.

When the image pattern information is extracted from the received pattern image or the image pattern information is received from the program 120 of the wireless terminal 100, the image authentication unit 260 obtains the image pattern information and the image authentication condition Or may verify the validity of the image pattern included in the pattern image by performing a specified verification operation.

The authentication result providing unit 525 provides the image authentication result performed by the image authentication unit 260 to the program 120 of the wireless terminal 100. If the image authentication is combined with the touch authentication, the authentication result providing unit 525 may provide the image authentication result to the program 120 of the wireless terminal 100 together with the result of the touch authentication.

5, the operation server 500 stores the confirmed short-range communication authentication condition in the designated storage medium 530 in cooperation with the terminal device 540 or the touch device 300 of the merchant, And an authentication condition management unit (520) for managing the authentication condition to be applied to the program (120) of the wireless terminal (100). The authentication condition determination unit (515) determines the local communication authentication condition of the affiliate shop A local area communication authentication unit 266 for performing local area communication authentication requested from the program 120 of the wireless terminal 100 based on the local area communication authentication condition, 100 to the program 120 of the authentication result providing unit 525.

The authentication condition management unit 520 may transmit the authentication information to the program 120 of the wireless terminal 100 via the wireless terminal 100 through the terminal device 540 or the touch terminal 300 Identifies the local communication authentication condition for the unique code and / or the one-time code to be included in the authentication data, and stores the franchise information identifying the franchisee and the confirmed local communication authentication condition in the designated storage medium 530. The local communication authentication condition may be provided from the terminal device 540 or the touch device 300 of the merchant.

The authentication condition determination unit 515 transmits the authentication request to the program 120 of the wireless terminal 100 through the short range wireless communication from the wireless terminal 100 through the terminal device 540 or the touch device 300 The local communication authentication condition for the unique code and / or the one-time code to be included in the authentication data to be transmitted.

When the authentication data includes a unique code, the local communication authentication condition may include the unique code and a comparison object code to be compared and authenticated. When the one-time code is included in the authentication data, the short-range communication authentication condition includes a code generation rule for dynamically generating a comparison target code that matches the one-time use code (for example, Algorithm and / or rule matched with the seed value).

When the short-range communication authentication condition is confirmed / determined, the authentication condition management unit 520 notifies the program 120 provided in the wireless terminal 100 that the short-range communication authentication condition is applied in the form of a program code The wireless terminal 100 generates or updates the program 120 provided to the wireless terminal 100 through the providing server 120 or the program 120 provided to the wireless terminal 100 via the communication network (Or file) to be used by the program 120 in order to process the data. If the local communication authentication unit 266 is provided in the operation server 500, the local communication authentication condition may be applied without being provided to the program 120. [

According to the embodiment of the present invention, the local communication authentication condition of the franchisee can be changed at any time and updated through re-registration process, and the changed / The program 120 of FIG. Meanwhile, when the local area communication authentication unit 266 is provided in the operation server 500, the local area communication authentication condition may not be provided to the program 120.

When the local area communication authentication unit 266 is provided on the side of the operation server 500 according to an embodiment of the present invention, the local area communication authentication unit 266 receives, from the program 120 of the radio terminal 100, The mobile terminal 100 may receive the authentication data received by the wireless terminal 100 through the short-range wireless communication, or the unique code and / or the one-time code included in the authentication data.

When the authentication data is received from the program 120 of the wireless terminal 100, the local area communication authentication unit 266 may read the authentication data and extract a unique code and / or a disposable code. If the authentication data (or the unique code and / or the one-time code) is encrypted, the short-range communication authentication unit 266 can decrypt the encrypted authentication data (or unique code and / or disposable code).

When the unique code is extracted from the received authentication data or a unique code is received from the program 120 of the wireless terminal 100, the local area communication authentication unit 266 transmits the unique code and the local communication authentication condition The validity of the unique code can be verified by comparing the comparison target codes.

Or when the disposable code is extracted from the received authentication data or the disposable code is received from the program 120 of the wireless terminal 100, the short-range communication authentication unit 266 generates the short- The validity of the disposable code can be verified using the generated comparison target code.

The authentication result providing unit 525 provides the local area communication authentication result performed by the local area communication authentication unit 266 to the program 120 of the wireless terminal 100. [ If the local area communication authentication is combined with the touch authentication, the authentication result providing unit 525 may provide the local communication authentication result to the program 120 of the wireless terminal 100 together with the result of the touch authentication have.

5, the operating server 500 may store the proximity communication authentication condition checked in conjunction with the terminal device 540 of the merchant or the touch device 300 in the designated storage medium 530, An authentication condition determining unit 515 for determining that the proximity communication authentication condition of the affiliate shop is determined according to the method, and an authentication condition management unit 520 for managing the authentication condition to be applied to the program 120 of the wireless terminal 100 A proximity communication authentication unit 272 for performing proximity communication authentication requested from the program 120 of the wireless terminal 100 based on the proximity communication authentication condition, 100 to the program 120 of the authentication result providing unit 525.

The authentication condition management unit 520 transmits the program to the program 120 of the wireless terminal 100 through the proximity wireless communication from the proximity position of the wireless terminal 100 through the terminal device 540 of the merchant or the touch device 300 The proximity communication authentication condition for the unique code and / or the one-time code to be included in the authentication data to be included in the authentication data, and stores the franchise point information identifying the franchisee in the designated storage medium 530 by mapping the confirmed proximity communication authentication condition. The proximity communication authentication condition may be provided from the terminal device 540 or the touch device 300 of the merchant.

The authentication condition determination unit 515 determines whether or not the program 120 of the wireless terminal 100 is connected to the wireless terminal 100 through the proximity wireless communication in the proximity of the wireless terminal 100 through the terminal device 540 of the affiliate shop or the touch device 300 The proximity communication authentication condition for the unique code and / or the one-time code to be included in the authentication data to be transmitted.

When the authentication data includes a unique code, the proximity communication authentication condition may include the comparison code to be compared with the unique code. When the one-time code is included in the authentication data, the proximity communication authentication condition includes a code generation rule for dynamically generating a comparison target code matched with the one-time use code (e.g., code generation by dynamically generating a one- Algorithm and / or rule matched with the seed value).

When the proximity communication authentication condition is confirmed / determined, the authentication condition management unit 520 notifies the program 120 provided in the wireless terminal 100 that the proximity communication authentication condition is applied in the form of a program code (for example, a program The program 120 provided to the wireless terminal 100 via the communication network or the program 120 provided to the wireless terminal 100 via the communication network) (Or file) to be used by the program 120 in order to process the data. On the other hand, if the proximity communication authentication unit 272 is provided in the operation server 500, the proximity communication authentication condition may be applied without being provided to the program 120. [

According to the embodiment of the present invention, the proximity communication authentication condition of the merchant may be changed at any time, and may be updated through the re-registration process, and the changed / The program 120 of FIG. On the other hand, when the proximity communication authentication unit 272 is provided in the operation server 500, the proximity communication authentication condition may not be provided to the program 120.

If the proximity communication authentication unit 272 is provided on the operating server 500 side in accordance with the method of the present invention, the proximity communication authentication unit 272 notifies the program 120 of the wireless terminal 100 The mobile terminal 100 may receive the authentication data received by the wireless terminal 100 through the proximity wireless communication or the unique code and / or the one-time code included in the authentication data.

When the authentication data is received from the program 120 of the wireless terminal 100, the proximity communication authentication unit 272 may read the authentication data and extract the unique code and / or the disposable code. If the authentication data (or unique code and / or disposable code) is encrypted, the proximity communication authentication unit 272 can decrypt the encrypted authentication data (or unique code and / or disposable code).

When the unique code is extracted from the received authentication data or a unique code is received from the program 120 of the wireless terminal 100, the proximity communication authentication unit 272 determines whether the unique code and the proximity communication authentication condition The validity of the unique code can be verified by comparing the comparison target codes.

Or when the one-time use code is extracted from the received authentication data or the one-time use code is received from the program 120 of the wireless terminal 100, the proximity communication authentication unit 272 generates the code generation rule of the proximity communication authentication condition The validity of the disposable code can be verified using the generated comparison target code.

The authentication result providing unit 525 provides the program 120 of the wireless terminal 100 with the proximity communication authentication result performed by the proximity communication authentication unit 272. If the proximity communication authentication is combined with the touch authentication, the authentication result providing unit 525 may provide the proximity communication authentication result with the result of the touch authentication to the program 120 of the wireless terminal 100 have.

6 is a diagram illustrating a process of registering an authentication condition for a touch authentication service according to an embodiment of the present invention.

More specifically, FIG. 6 shows a case where a touch authentication condition for a touch authentication service is registered by accessing an operation server 500 specified by a terminal device 540 of a merchant, and a sound authentication condition for sound authentication, A location authentication condition, an image authentication condition for image authentication, a short-range communication authentication condition for short-range communication authentication, and a proximity communication authentication condition for proximity communication authentication, Those skilled in the art will be able to refer to and / or modify the FIG. 6 to understand various ways of performing the authentication condition registration process (for example, However, the present invention is not limited to the above-described embodiments, The technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 6, the terminal 540 of the merchant terminal requests the member server 500 to register or authenticate the merchant 500, and the operating server 500 registers the merchant member as a member, Authentication is processed (605). If the franchisee is not registered as a member or is not authenticated, the operation server 500 outputs 610 an error of member registration of the franchisee or a member authentication error to the terminal 540 of the franchisee.

The terminal 540 of the merchant requests the validation of the program to the specified operating server 500 in step 615 and the operating server 500 verifies the validity of the program provided in the terminal 540 of the merchant (620). If the program stored in the terminal 540 of the merchant is not validated, the operating server 500 outputs a program authentication error to the terminal 540 of the merchant (625).

As the validity of the program is verified, the terminal device 540 of the merchant determines the touch authentication condition of the merchant for touch authentication (630). The touch authentication condition includes at least one of a simultaneous touch authentication condition and a shape touch authentication condition. The touch authentication condition may be determined through the operation server 500 or may be determined through an information exchange procedure between the terminal 540 of the merchant and the operation server 500 (630).

The terminal device 540 of the merchant terminal requests the operation server 500 to register the touch authentication condition 635 and the operation server 500 confirms the touch authentication condition of the merchant 640, And stores it in the storage medium 530 (645).

On the other hand, when it is necessary to register a dynamic authentication condition to be combined with the touch authentication (for example, at least one of a sound authentication condition, a location authentication condition, an image authentication condition, a short-range communication authentication condition, and a proximity communication authentication condition) The device 540 may include one or more authentication conditions (e.g., a sound authentication condition, a voice authentication condition, a voice authentication condition, a voice authentication condition, etc.) for the dynamic authentication (e.g., sound authentication, location authentication, image authentication, A location authentication condition, an image authentication condition, a short-range communication authentication condition, and a proximity communication authentication condition). The dynamic authentication condition may be determined (650) or the terminal device (540) of the franchisee and the operation server (500) may agree through a designated information exchange procedure according to the method (650). Which of the dynamic authentication conditions is to be registered depends on the configuration of the electronic module 400 provided in the touch device 300 or the configuration of the program 120 of the wireless terminal 100 to which the touch device 300 is touched Can be selectively determined.

The terminal 540 of the merchant terminal requests the operation server 500 to register the dynamic authentication condition 655 and the operation server 500 confirms one or more dynamic authentication conditions to be combined with the touch authentication (660), and stores it in the designated storage medium 530 (665).

7 is a diagram illustrating a process of applying an authentication condition for a touch authentication service according to an embodiment of the present invention.

7 shows a process of applying the registered authentication condition to the program 120 of the wireless terminal 100 through the process shown in FIG. 6. The process of FIG. It is possible to refer to and / or modify the FIG. 7 to envisage various implementations of the authentication condition application process (e.g., omitting some steps or changing the order) The present invention is not limited to the above-described embodiments.

Referring to FIG. 7, a user's wireless terminal 100 requests a user's membership or authentication to a designated operation server 500 (700), and the operation server 500 registers the user as a member, Authentication is handled (705). If the user is not registered as a member or is not authenticated, the operation server 500 causes the wireless terminal 100 to output a membership failure error or a member authentication error to the wireless terminal 100 (710).

The wireless terminal 100 requests the designated operation server 500 to validate the program 120 and then the operation server 500 requests the validity of the program 120 included in the wireless terminal 100 (720). &Lt; / RTI &gt; If the program 120 of the wireless terminal 100 is not validated, the operation server 500 outputs a program authentication error to the wireless terminal 100 (725).

As the validity of the program 120 is authenticated, the operation server 500 transmits the newly registered or updated authentication condition of the touch authentication condition and the dynamic authentication condition registered through the process shown in FIG. 6 to the wireless terminal 100 (730), and the wireless terminal (100) receives and stores the authentication condition (735). Meanwhile, in a case where the authentication procedure using the authentication condition is performed by the operation server 500, the authentication condition may not be provided to the mobile terminal 100.

FIG. 8 is a diagram illustrating a process of selectively recognizing a touch through a transparent touch area according to an embodiment of the present invention.

More specifically, FIG. 8 illustrates a case where after setting a transparent touch area for selectively recognizing a touch of a specified number or more on the basic touch area displayed on the touch screen 105 of the wireless terminal 100, It is determined whether or not more than a specified number of touches are recognized through the touch screen 105. If less than a specified number of touches are recognized through the touch screen 105, And processes the touch of the specified number or more by touching the transparent touch region when a predetermined number or more of touches are recognized through the touch screen 105. In the present invention, As a person skilled in the art, referring to and / or modifying FIG. 8, various embodiments of the selective touch recognition process However, it should be understood that the present invention includes all of the above-described embodiments, and it is to be understood that the technical features of the present invention are not limited thereto, It is not limited.

Referring to FIG. 8, the program 120 of the wireless terminal 100 identifies (800) a basic touch area displayed on the touch screen 105, and displays a transparent A touch area is set (805).

If the transparent touch area is set, the program 120 of the wireless terminal 100 maintains 810 the touch through the touch screen 105 to be transmitted to the transparent touch area set by the program 120, , It is determined whether more than a predetermined number of touches are recognized through the touch screen 105 in a state where the transparent touch area is set (815).

If less than a specified number of touches are recognized through the touch screen 105, the program 120 of the wireless terminal 100 transmits a predetermined number of touches, which are touched through the touch screen 105, (Step 820). If a predetermined number or more of touches are recognized through the touch screen 105, the program 120 of the wireless terminal 100 transmits a touch of a predetermined number or more, which is touched through the touch screen 105, (825).

9 is a diagram illustrating a process of recognizing and authenticating a simultaneous touch point according to an embodiment of the present invention.

9, when the simultaneous touch authentication condition is registered through the process shown in FIG. 6, N simultaneous touch points, which are touched through the touch device 300 at the wireless terminal 100, are recognized, Performing touch authentication and performing at least one designated dynamic authentication among sound authentication, location authentication, image authentication, short-range communication authentication, and proximity communication authentication according to an embodiment of the present invention, Those of ordinary skill in the art will be able to refer to and / or modify this FIG. 9 to infer various implementations of the authentication process (e.g., omitting some of the steps or changing the sequence) It should be understood, however, that the present invention includes all such contemplated embodiments, and that the technical features of the present invention, It is not limited.

Referring to FIG. 9, the program 120 of the wireless terminal 100 recognizes a touch point processed by a touch of a transparent touch area through a process shown in FIG. 8 (905). If the multi-touch point is recognized in the transparent touch area, the wireless terminal 100 determines whether the recognized multi-touch point is a simultaneous touch point simultaneously touched by the pressure sensing through the designated touch device 300 (910).

If the multi-touch point touched in the transparent touch area is identified as a simultaneous touch point touched simultaneously with the pressure recognition through the touch device 300 designated, the wireless terminal 100 transmits the registered multi- (915) a process of authenticating the validity of the simultaneous touch point recognized by the wireless terminal 100 using the simultaneous touch authentication condition of the wireless terminal 100. If the validity of the simultaneous touch is not authenticated, the wireless terminal 100 outputs a simultaneous touch authentication error (920). Meanwhile, the procedure for authenticating the validity of the simultaneous touch may be performed through the designated operation server 500 (915).

Meanwhile, when performing at least one designated dynamic authentication among the sound authentication, the location authentication, the image authentication, the short distance communication authentication, and the proximity communication authentication in combination with the touch authentication for the simultaneous touch point, the touch device 300 performs a touch (925). If the touch device (300) is touched by pressure recognition, an output operation for specified dynamic authentication of at least one of sound authentication, location authentication, image authentication, local communication authentication, The wireless terminal 100 performs a transmission operation using the resource included in the wireless terminal 100. The wireless terminal 100 may perform a transmission operation using at least one of a sound authentication, a location authentication, an image authentication, a short- An operation is performed (935). According to an embodiment of the present invention, the recognition operation for the dynamic authentication may be performed independently of the touch device 300 (e.g., when performing location authentication or recognizing the output / transmission operation of the terminal device 540 of the affiliate shop) And the present invention is not limited thereto.

The wireless terminal 100 may perform the recognition operation through at least one of the registered sound authentication condition, the location authentication condition, the image authentication condition, the short-distance communication authentication condition, and the proximity communication authentication condition through the process shown in FIG. (940) at least one of a recognized sound authentication procedure, a location authentication procedure, an image authentication procedure, a short-range communication authentication procedure, and a proximity communication authentication procedure. If the validity of the dynamic authentication is not authenticated, the wireless terminal 100 outputs a simultaneous touch authentication error (920). Meanwhile, at least one of the sound authentication, the location authentication, the image authentication, the short-range communication, and the proximity communication can be performed through the designated operation server 500 (940).

10 is a diagram illustrating a process of recognizing and authenticating a shape touch surface according to an embodiment of the present invention.

In more detail, FIG. 10 illustrates a case where a shape touch region is touched through the touch device 300 in the wireless terminal 100 when the shape touch authentication condition is registered through the process shown in FIG. 6, And performs a specified dynamic authentication by performing at least one of sound authentication, location authentication, image authentication, local area communication authentication, and proximity communication authentication according to an embodiment of the present invention. Those skilled in the art will be able to refer to and / or modify this drawing 10 to infer various implementations of the authentication process (e.g., omitting some steps or changing the order) , The present invention includes all of the above-mentioned methods of practicing the invention. Shall not.

Referring to FIG. 10, the program 120 of the wireless terminal 100 recognizes the touched surface processed by the touch of the transparent touch region through the process shown in FIG. 8 (1005). If the touch surface is recognized in the transparent touch area, the wireless terminal 100 determines whether the recognized touch surface is a shape touch surface touched simultaneously with the pressure recognition through the designated touch device 300 (1010).

If the touching surface of the transparent touch area is identified as a touch touch surface touched simultaneously with the pressure recognition through the designated touch device 300, the wireless terminal 100 displays the touch screen of the affiliated shop registered through the process shown in FIG. 6 (1015) a process of authenticating the validity of the shape touch surface recognized by the wireless terminal 100 using the shape touch authentication condition. If the validity of the shape touch is not authenticated, the wireless terminal 100 outputs a shape touch authentication error (1020). Meanwhile, the procedure for authenticating the validity of the shape touch may be performed through the designated operation server 500 (1015).

On the other hand, when performing at least one designated dynamic authentication among the sound authentication, the location authentication, the image authentication, the short distance communication authentication, and the proximity communication authentication combined with the touch authentication with respect to the shape touching surface, (1025), and if the touch device 300 is touched by pressure recognition, performs an output operation for specified dynamic authentication of at least one of sound authentication, location authentication, image authentication, local communication authentication, and proximity communication authentication (1030), and the wireless terminal (100) performs wireless communication using at least one of a sound authentication, a location authentication, an image authentication, a short distance communication authentication, and a proximity communication authentication (1035). According to an embodiment of the present invention, the recognition operation for the dynamic authentication may be performed independently of the touch device 300 (e.g., when performing location authentication or recognizing the output / transmission operation of the terminal device 540 of the affiliate shop) And the present invention is not limited thereto.

The wireless terminal 100 may perform the recognition operation through at least one of the registered sound authentication condition, the location authentication condition, the image authentication condition, the short-distance communication authentication condition, and the proximity communication authentication condition through the process shown in FIG. (1040) at least one of a recognized sound authentication procedure, a location authentication procedure, an image authentication procedure, a short-range communication authentication procedure, and a proximity communication authentication procedure. If the validity of the dynamic authentication is not authenticated, the wireless terminal 100 outputs a shape touch authentication error (1020). Meanwhile, at least one of the sound authentication, the location authentication, the image authentication, the local communication authentication, and the proximity communication authentication may be performed through the designated operation server 500 (1040).

FIG. 11 is a diagram illustrating a process of providing a service through selective touch recognition according to an embodiment of the present invention.

11 is a view illustrating a state in which a transparent touch region is set on a basic touch region displayed on a touch screen 105 of the wireless terminal 100 according to a condition designated by a touch through the touch screen 105, If the user is a person skilled in the art of the present invention, it is possible to refer to and / or modify the FIG. 11 to provide various services for the service providing process. It is to be understood that the invention may be practiced otherwise than as specifically described herein, but it is to be understood that the invention is not limited to the particular embodiments set forth herein, Features are not limited.

According to the first service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores data to be used for a service to be provided based on the touch processed by the touch of the transparent touch area, , And determines whether the touch through the touch screen 105 is processed by the touch of the transparent touch area (1105). If the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 displays the service provided on the basis of the touch processed by the touch of the transparent touch area And processes the set data to be used (1110).

According to the second service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores an operation function to be used for a service to be provided on the basis of the touch processed by the touch of the transparent touch area, (1105) whether the touch through the touch screen 105 is processed by the touch of the transparent touch area. If the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 may be used for a service provided based on the touch processed by the touch of the transparent touch area And processes the set operation function to be performed (1110).

According to the third service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores a specific program to be operated based on the touch processed by the touch of the transparent touch region (1100) It is determined whether the touch through the touch screen 105 is processed by the touch of the transparent touch area (1105). If the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the specific program to be operated (operation 1110).

According to the fourth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores data to be used when a predetermined number or more of simultaneous touches are recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch region, the program 120 of the wireless terminal 100 processes the touch of the transparent touch region through the set simultaneous touch recognition condition The touch is read and it is determined whether the user recognizes the simultaneous touch more than the designated number of the transparent touch area (1105). If the simultaneous touch is recognized, the program 120 of the wireless terminal 100 processes the data set for the recognized simultaneous touch to be used (1110).

According to the fifth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores an operation function to be used when the specified number or more of simultaneous touches is recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch region, the program 120 of the wireless terminal 100 processes the touch of the transparent touch region through the set simultaneous touch recognition condition The touch is read and it is determined whether the user recognizes the simultaneous touch more than the designated number of the transparent touch area (1105). If the simultaneous touch is recognized, the program 120 of the wireless terminal 100 processes 1110 to perform an operation function set for the recognized simultaneous touch.

According to the sixth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores a specific program to be operated when the specified number or more of simultaneous touches are recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch region, the program 120 of the wireless terminal 100 processes the touch of the transparent touch region through the set simultaneous touch recognition condition The touch is read and it is determined whether the user recognizes the simultaneous touch more than the designated number of the transparent touch area (1105). If the simultaneous touch is recognized, the program 120 of the wireless terminal 100 processes 1110 the specific program set for the recognized simultaneous touch.

According to the seventh service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores data to be used when the specified number or more of simultaneous touches are authenticated (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch region, the program 120 of the wireless terminal 100 processes the touch of the transparent touch region through the set simultaneous touch authentication condition The touch is read and it is determined whether the number of simultaneous touches equal to or greater than the designated number of the transparent touch areas is authenticated (1105). If the simultaneous touch is authenticated, the program of the wireless terminal 100 processes the data set in the authenticated simultaneous touch to be used (1110).

According to the eighth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores an operation function to be used when the specified number or more of simultaneous touches are authenticated (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch region, the program 120 of the wireless terminal 100 processes the touch of the transparent touch region through the set simultaneous touch authentication condition The touch is read and it is determined whether the number of simultaneous touches equal to or greater than the designated number of the transparent touch areas is authenticated (1105). If the simultaneous touch is authenticated, the program 120 of the wireless terminal 100 processes 1110 to perform an operation function set for the authenticated simultaneous touch.

According to the ninth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores a specific program to be operated when the specified number or more of the simultaneous touches are recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch region, the program 120 of the wireless terminal 100 processes the touch of the transparent touch region through the set simultaneous touch authentication condition The touch is read and it is determined whether the number of simultaneous touches equal to or greater than the designated number of the transparent touch areas is authenticated (1105). If the simultaneous touch is authenticated, the program 120 of the wireless terminal 100 processes the specific program set for the authenticated simultaneous touch to operate 1110.

According to the tenth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores data to be used when the shape touch is recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the touch of the transparent touch area through the set touch recognition condition A touch is read and it is determined whether the shape touch for the transparent touch area is recognized (1105). If the shape touch is recognized, the program 120 of the wireless terminal 100 processes the data set in the recognized shape touch to be used (1110).

According to the eleventh service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores an operation function to be used when the shape touch is recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the touch of the transparent touch area through the set touch recognition condition A touch is read and it is determined whether the shape touch for the transparent touch area is recognized (1105). If the shape touch is recognized, the program 120 of the wireless terminal 100 processes the recognized function to be performed in the recognized shape touch (1110).

According to the twelfth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores a specific program to be operated when the shape touch is recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the touch of the transparent touch area through the set touch recognition condition A touch is read and it is determined whether the shape touch for the transparent touch area is recognized (1105). If the shape touch is recognized, the program of the wireless terminal 100 processes the specific program set in the recognized shape touch operation (operation 1110).

According to the thirteenth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores data to be used when the shape touch is authenticated (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the touch of the transparent touch area through the set touch authentication condition A touch is read and it is determined whether the shape touch for the transparent touch area is authenticated (1105). If the shape touch is authenticated, the program of the wireless terminal 100 processes the data set in the authenticated shape touch to be used (1110).

According to the service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores an operation function to be used when the shape touch is authenticated (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the touch of the transparent touch area through the set touch authentication condition A touch is read and it is determined whether the shape touch for the transparent touch area is authenticated (1105). If the shape touch is authenticated, the program 120 of the wireless terminal 100 processes the operation function set in the authenticated shape touch to be performed (1110).

According to the fifteenth service providing method of the present invention, the program 120 of the wireless terminal 100 sets and stores a specific program to be operated when the shape touch is recognized (1100). When the touch through the touch screen 105 is processed by the touch of the transparent touch area, the program 120 of the wireless terminal 100 processes the touch of the transparent touch area through the set touch authentication condition A touch is read and it is determined whether the shape touch for the transparent touch area is authenticated (1105). If the shape touch is authenticated, the program 120 of the wireless terminal 100 processes the specific program set in the authenticated shape touch to operate (1110).

100: wireless terminal 105: touch screen
120: program 125: member module
130: program authentication module 135: touch control module
140: Touch recognition module 145: Touch authentication module
155: sound authentication module 160: location authentication module
165: camera authentication module 170: short-range communication authentication module
175: proximity communication authentication module 180: service module
208: basic touch area identification part 210: basic touch area display part
212: transparent touch area setting unit 214: touch recognition confirmation unit
216: Touch recognition control unit 276: Service setting unit
278: Service judging unit 280: Service provisioning
300: Touch device 500: Operation server

Claims (23)

An optional touch recognition method using a transparent touch area executed in a wireless terminal having a touch screen supporting multi-touch,
A first step of setting a transparent touch area for selectively recognizing a predetermined number or more of touches on a basic touch area displayed on the touch screen;
A second step of confirming whether a specified number of touches are recognized through the touch screen when the transparent touch area is set; And
Wherein when a touch of less than the designated number is recognized through the touch screen, the touch processing unit processes a touch of the predetermined number of touches by touching the basic touch region, and when a touch of a predetermined number or more is recognized through the touch screen, And a third step of processing the touch by the touch of the transparent touch region.
The method according to claim 1,
Further comprising the step of identifying a basic touch area displayed on the touch screen.
The method according to claim 1,
Further comprising the step of displaying a touch recognition interface including T (T? 1) touch recognition areas as a basic touch area on the touch screen.
The touch screen according to claim 1,
(T &gt; = 1) touch recognition areas capable of generating a specified touch event by recognizing one touch point to less than a specified number of touch points.
The touch panel according to claim 1,
Wherein the touch area is set to recognize the touch of the predetermined number or more, but includes a transparent area and the touch recognition area is not displayed on the touch screen.
6. The display device according to claim 5,
Wherein the entire area or a part of the area of the touch screen is transparent.
The touch panel according to claim 1,
Wherein the at least one area includes at least one of an entire area of the touch screen, and an area matching the touch area in which the basic touch area is displayed.
The method according to claim 1,
Wherein the number of touch points is determined as a number exceeding a maximum number of touch points that can be processed in the basic touch area.
The method according to claim 1,
Wherein the plurality of touch points include a plurality of touches in which a predetermined number or more of touch points are touched in accordance with at least one specified condition.
2. The touch screen device according to claim 1, wherein the touch-
And simultaneously touching at least a specified number of touch points through a designated touch device.
2. The touch screen device according to claim 1, wherein the touch-
And a shape touch of a designated shape is touched through a designated touch device.
The method according to claim 1,
Further comprising setting data to be used for a service to be provided based on the touch processed by the touch of the transparent touch region,
Further comprising processing the set data to be used in the service when the touch through the touch screen is processed by the touch of the transparent touch area.
The method according to claim 1,
Further comprising the step of setting an operation function to be used for a service to be provided based on the touch processed by the touch of the transparent touch region,
Further comprising the step of processing the service so that the set operation function is performed when the touch through the touch screen is processed by the touch of the transparent touch region.
The method according to claim 1,
Further comprising setting a specific program to be operated based on the touch processed by the touch of the transparent touch area,
Further comprising the step of processing the selected specific program to operate when the touch through the touch screen is processed by the touch of the transparent touch area.
The method according to claim 1,
Further comprising the step of setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, The method of claim 1, further comprising the step of: recognizing the selected touch area using the transparent touch area.
The method according to claim 1,
Setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area and setting data to be used when the specified number or more of the simultaneous touches are recognized,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, ; And
And processing the data set for the recognized simultaneous touch to be used.
The method according to claim 1,
Setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area and setting an operation function to be used when the specified number or more of simultaneous touches are recognized,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, ; And
And performing an operation function set for the recognized simultaneous touch so as to perform the selected touch function.
The method according to claim 1,
Setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area and setting a specific program to be operated when the designated number or more of the simultaneous touches are recognized,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, ; And
Further comprising processing the specific program set for the recognized simultaneous touch to operate.
The method according to claim 1,
Further comprising setting a simultaneous touch authentication condition for a touch to be processed by a touch of the transparent touch area,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch region, the touch processed by the touch of the transparent touch region is read through the set simultaneous touch authentication condition, The method of claim 1, further comprising the step of:
The method according to claim 1,
Setting a simultaneous touch authentication condition for a touch to be processed by the touch of the transparent touch area and setting data to be used when the specified number or more of simultaneous touches are authenticated,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch region, the touch processed by the touch of the transparent touch region is read through the set simultaneous touch authentication condition, ; And
And processing the data set for the authenticated simultaneous touch to be used.
The method according to claim 1,
Setting a simultaneous touch authentication condition for a touch to be processed by the touch of the transparent touch area and setting an operation function to be used when the specified number or more of simultaneous touches are authenticated,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch region, the touch processed by the touch of the transparent touch region is read through the set simultaneous touch authentication condition, ; And
And performing an operation function set for the authenticated simultaneous touch so as to perform the selected function.
The method according to claim 1,
Setting a simultaneous touch authentication condition for a touch to be processed by the touch of the transparent touch area and setting a specific program to be operated when the specified number or more of simultaneous touches are recognized,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch region, the touch processed by the touch of the transparent touch region is read through the set simultaneous touch authentication condition, ; And
Further comprising processing the specific program set for the authenticated simultaneous touch to operate.
The method according to claim 20, 21 or 22,
Further comprising the step of setting a simultaneous touch recognition condition for a touch to be processed by the touch of the transparent touch area,
Wherein when the touch through the touch screen is processed by the touch of the transparent touch area, the touch processed by the touch of the transparent touch area is read through the set simultaneous touch recognition condition, The method of claim 1, further comprising the step of: recognizing the selected touch area using the transparent touch area.

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