KR101632242B1 - Method for Accessing Network by using Touch Module - Google Patents

Abstract

The present invention relates to a communication network connecting method using a touch module, and more particularly, to a wireless network communication module having a capacitive touch screen and connected to a communication network via a base station of a designated communication company, A method of executing a program through a program of a terminal having a communication module, the method comprising the steps of: when a plurality of touch points are recognized as multiple touches on the electrostatic touch screen, a geometric relationship formed by the plurality of multi- A designing geometric relationship in which a specified number of touch units are arranged in a designed geometric relationship and a designated number of touch units are arranged in a touch module mapped with a near device among the touch modules manufactured by arranging the touch units in a designed geometrical relationship, Authentication request to the server to be performed or Wherein when the geometric relationship formed by the plurality of touch points recognized by the multi-touch is matched with the geometric relationship in the design of the touch module mapped with the local device, the local device mapped with the authenticated touch module (M > = 1) detected by the short distance communication module using the short distance communication identification value and the access code for accessing the communication network using the short range communication device, And a specific local device mapped with the authenticated touch module among the local devices, and if the specific local device mapped with the authenticated touch module is identified, the specific local device mapped with the authenticated touch module using the access code Wherein the control unit controls a procedure for activating a communication network connection using the touch module, And a local device operated by the user having the touch module.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for accessing a communication network using a touch module,

The present invention relates to a mobile communication terminal which has an electrostatic touch screen and is executed through a program of a terminal having a wireless communication module for connecting to a communication network via a base station of a designated communication company and a short range communication module for connecting to a communication network via a short- Wherein when the plurality of touch points are recognized as multiple touches on the electrostatic touch screen, a geometric relationship formed by the plurality of touch points recognized by the multi-touch is a geometric relationship A request for authentication to a server that performs an authentication procedure for authenticating whether the touch module is matched within a permissible error range and a design geometric relationship in which a specified number of touch units are arranged in a touch module mapped with a local device , And the plurality of multi-touch recognized plural Wherein when the geometric relationship formed by the touch points is matched with the geometric relationship in the design of the mapped touch module, a local communication identification value for identifying the local device mapped with the authenticated touch module, (M > = 1) short-range devices detected through the short-range communication module using the short-range communication ID, and transmits the access code to the specific short- And controls a procedure for activating a communication network connection using a specific short range device mapped with the authenticated touch module using the access code if the specific short range device mapped with the authenticated touch module is identified, The short range device mapped with the touch module may be a short range device The present invention relates to a communication network connecting method using a touch module.

Recently, as a smartphone is activated, a terminal for multiprocessing a communication network connection via a mobile communication company and a communication network connection using a short distance communication such as Wi-Fi is being released. The communication network connection using the short distance communication is advantageous in that the data communication fee is free or inexpensive as compared with the communication network connection via the mobile communication company.

However, the communication network connection using the short distance communication has a problem that the communication quality seriously degrades when a plurality of terminals simultaneously approach one short range unit (e.g., a wireless AP or a repeater). Most near-range devices restrict access to only authorized devices. Accordingly, in order to access the communication network using the access-restricted short-range device, it is necessary to obtain the access right of the short-range device. In order to do so, not only the short- There is a problem that a complicated identification process is required to identify a local device to be accessed from among the devices.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a wireless communication system, which includes a capacitive touch screen, a wireless network communication module for accessing a communication network via a base station of a designated communication company, A method of executing a program through a program of a terminal having a communication module, the method comprising the steps of: when a plurality of touch points are recognized as multiple touches on the electrostatic touch screen, a geometric relationship formed by the plurality of multi- A designing geometric relationship in which a specified number of touch units are arranged in a designed geometric relationship and a designated number of touch units are arranged in a touch module mapped with a near device among the touch modules manufactured by arranging the touch units in a designed geometrical relationship, Authentication request to the server to be performed, And when the geometric relationship formed by the plurality of touch-recognized touch points is matched with the geometric relationship in the design of the touch module mapped with the local device, the local device mapped with the authenticated touch module And a second step of checking or receiving an access code for accessing a communication network using the short range device and a second step of checking or receiving an access code for accessing the communication network using the short range communication identification value, A third step of identifying a specific short range device mapped with the authenticated touch module among the short range devices, and if the specific short range device mapped with the authenticated touch module is identified, And a fourth step of controlling a procedure for activating a network connection using the specific local device mapped And a short range device that is mapped with the touch module includes a short range device that is operated by a user having the touch module.

A communication network connecting method using a touch module according to the present invention includes a wireless network communication module having a capacitive touch screen and connected to a communication network via a base station of a designated communication company, A method of executing through a program of a terminal having a module, the method comprising the steps of: when a plurality of touch points are recognized as multiple touches on the electrostatic touch screen, a geometric relationship formed by the plurality of multi- A design geometric relationship in which a specified number of touch units are arranged in a designed geometric relationship and a predetermined number of touch units are arranged in a touch module mapped to a near device and an authentication process of authenticating whether or not matching is performed within a tolerance range is performed Or the authentication section And when the geometric relationship formed by the plurality of touch-recognized touch points is matched with the geometric relationship in the design of the touch module mapped with the local device, the local device mapped with the authenticated touch module And a second step of checking or receiving an access code for accessing a communication network using the short range device and a second step of checking or receiving an access code for accessing the communication network using the short range communication identification value, A third step of identifying a specific short range device mapped with the authenticated touch module among the short range devices, and if the specific short range device mapped with the authenticated touch module is identified, And a fourth step of controlling a procedure for activating a network connection using the specific local device mapped And the short range device mapped with the touch module includes a short range device operated by the user having the touch module.

According to the present invention, the method of connecting a communication network using the touch module may further include checking a plurality of touch points recognized as multi-touch on the electrostatic touch screen.

According to the present invention, the method for connecting a communication network using the touch module may further include calculating a component value for reading a geometric relationship formed by a plurality of touch points recognized as multi-touch on the electrostatic touch screen have.

According to another aspect of the present invention, there is provided a method of connecting a communication network using a touch module, the method comprising: calculating a component value for reading a touch characteristic including a geometric relationship formed by a plurality of touch points recognized as multi- As shown in FIG.

According to the present invention, the authentication procedure may be performed through a predetermined server, or through a program of the terminal, or may be distributed through the established server and the program of the terminal.

According to the present invention, when the authentication procedure is performed through the predetermined server, the first step may generate touch characteristic information including the component value and transmit the generated touch characteristic information to the established server.

According to the present invention, in the first step, when the authentication procedure is performed through a predetermined server, the plurality of touch points are connected to the set server through a communication network connection using the wireless network communication module, The touch point of the multi-touch can be requested.

According to the present invention, in the first step, when the authentication procedure is performed through a predetermined server, the first step may include a step of connecting to the electrostatic touch screen through a communication network connection using a short- The plurality of touch points can be authenticated to the set server as to whether or not the touch points of the multi-touch using the prepared touch module are used.

According to the present invention, the method for connecting a communication network using the touch module may further include confirming M short-range communication identifiers corresponding to M short-range devices detected through exchange of radio frequency signals of the short-range communication module have. In this case, the third step may identify a specific short-range communication ID value corresponding to the short-distance communication ID value mapped with the authenticated touch module among the M short-range communication ID values identified.

According to another aspect of the present invention, there is provided a method of connecting to a communication network using a touch module, the method comprising the steps of: confirming M local communication identification values corresponding to M local devices recognized through radio frequency signal exchange corresponding to the local communication module; Determining m (1? M? M) short-range communication identifiers having a signal strength of a radio frequency signal with the short-range communication module among the M short-range devices corresponding to the M short- As shown in FIG. In this case, the third step may identify the specific short-range communication ID corresponding to the short-distance communication ID mapped to the authenticated touch module among the m short-range communication IDs identified.

According to the present invention, the local communication ID value may include at least one of a SSID, an IP address, and a MAC address of the local device, or a combination of two or more of them.

According to the present invention, the access code may include an ID / PW for accessing a communication network via the short range device, a set value to be registered in the short range device according to a security protocol set in the short range device, And may include at least one or a combination of two or more authentication values to be used in the procedure.

According to another aspect of the present invention, there is provided a method of connecting to a communication network using a touch module, the method comprising: when a short distance communication ID value mapped to the authenticated touch module is confirmed, And checking whether the reference signal strength is equal to or greater than the set reference signal strength.

According to the present invention, in the fourth step, when the touch panel is connected to the communication network using the wireless network communication module before the plurality of touch points are multi-touch recognized on the electrostatic touch screen, And converting the communication module to a communication network connection using the specific local device mapped with the authenticated touch module.

According to the present invention, in the fourth step, before the plurality of touch points are recognized as a multi-touch on the electrostatic touch screen, And converting the communication network connection using the other local device into a communication network connection using the specific local device mapped with the authenticated touch module when the communication device is connected to the communication network through another local device.

According to the present invention, in the fourth step, before the plurality of touch points are recognized as multi-touches on the electrostatic touch screen, a specific short-range device mapped with the authenticated touch module among the M short-range devices using the short- The method may further include the step of maintaining a communication network connection using the specific local device mapped with the authenticated touch module.

According to the present invention, the fourth step includes the step of providing the access code to the specific local area device corresponding to the local area communication identification value and automatically connecting the terminal to the communication network through the specific local area mapped with the touch module can do.

According to the present invention, in the fourth step, the access authentication procedure using the access code and the specific local area device corresponding to the local area communication identification value is performed to automatically transmit the terminal to the communication network through the specific local area mapped with the touch module And a step of connecting to the network.

According to the present invention, the fourth step includes automatically inputting the access code into the access code input interface displayed on the terminal and semi-automatically connecting the terminal to the communication network through a specific local device mapped with the touch module . In this case, the fourth step may include controlling the access code input interface for the specific local area device corresponding to the local area communication identification value to be displayed on the terminal.

According to the present invention, the fourth step further comprises the step of displaying an access code for a specific local area device corresponding to the local communication identification value on the terminal, wherein the access code includes an access code input Can be manually entered into the interface.

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According to the present invention, there is an advantage in that the user can access a communication network by using a short-range device mapped with the touch module without a complicated approach to the near device or a process of acquiring access rights by touching the near device and the mapped touch module on the electrostatic touch screen of the terminal.

1 is a functional block diagram of a system according to an embodiment of the present invention.
2 is a functional block diagram of a terminal according to an embodiment of the present invention.
3 illustrates a touch module according to an embodiment of the present invention.
4 is a side sectional view of a touch module according to an embodiment of the present invention.
5 is a diagram illustrating a process of registering authentication information for a touch module according to an embodiment of the present invention.
6 is a diagram illustrating a process of registering a module usage destination having a touch module according to an embodiment of the present invention.
7 is a diagram illustrating a process of mapping a touch module and a short range device according to an embodiment of the present invention.
8 is a diagram illustrating a process of recognizing a touch point through a recognition module according to an embodiment of the present invention.
9 is a diagram illustrating a process of authenticating touch characteristics of a touched point on an electrostatic touch screen according to an embodiment of the present invention.
10 is a diagram illustrating a process of authenticating touch characteristics of a touched point on an electrostatic touch screen according to another embodiment of the present invention.
11 is a diagram illustrating a process of authenticating touch characteristics of a touched point on an electrostatic touch screen according to another embodiment of the present invention.
12 is a diagram illustrating a process of receiving a local communication ID and an access code of a local device mapped with an authenticated touch module according to an embodiment of the present invention.
FIG. 13 is a diagram illustrating a process of providing a local communication ID and an access code of a local device mapped with an authenticated touch module according to another embodiment of the present invention.
FIG. 14 is a diagram illustrating a process of activating a communication network connection using an authenticated touch module and a local device mapped 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.

In other words, the following embodiments correspond to the preferred embodiment of the preferred embodiment of the present invention. In the following embodiments, a specific configuration (or step) is omitted, or a specific configuration (or step) (Or steps), or an embodiment that incorporates functions implemented in more than one configuration (or step) into any one configuration (or step), a particular configuration (or step) It will be apparent that the present invention is not limited to the embodiments described below. In the following embodiments, a specific configuration unit implemented on the server side is implemented on the terminal side and reference is made on the server side, or conversely, in the following embodiments, a specific configuration unit implemented on the terminal side is implemented on the server side, And all of the embodiments utilizing the same are also included in the scope of the present invention. Therefore, it should be clearly stated that various embodiments corresponding to subsets or combinations based on the following embodiments can be subdivided based on the filing date of the present invention.

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.

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

More specifically, FIG. 1 illustrates an example of a touch generated by disposing a specified number of touch points touching a capacitive touch screen 205 of a terminal 200 in a designed geometric relationship with a designated number of capacitive touchable touch units 305 The touch point of the touch using the module 300 (for example, the touch module 300 held at a specific module use destination) is authenticated. In such a case, the terminal 200 is mapped with the authenticated touch module 300 The present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention. It will be appreciated that various implementations of the functional configuration of the system (e.g., some configuration portions may be omitted, or subdivided, or combined) may be inferred, Is made, including any exemplary method of inference, to which the technical feature that is not limited to the exemplary method shown in the figure 1.

The physical system configuration of the present invention includes a touch module 300 manufactured by disposing a specified number of capacitive touchable touch units 305 in a designed geometric relationship, And a terminal 115 having a terminal 200 having a capacitive touch screen 205 capable of communicating with the terminal 200 according to an embodiment of the present invention. Hereinafter, the electrostatic touch using the touch module 300 will be referred to as a module touch for the sake of distinguishing the electrostatic touch by a human finger from the electrostatic touch using the touch module 300, The number of touch units 305 included in the touch panel unit 300 may be one touch unit 305 when authenticating the module touch in cooperation with the electronic module, .

The terminal 200 includes a wireless network communication module 210 having a capacitive touch screen 205 and connected to a communication network via a base station of a communication company and a short range device 230 connected to a communication network via a short- A general term of the device having the communication module 209 is a general term of a device including a wireless terminal (for example, various smart phones having various capacitive touch screens 205, various tablet PCs, various PDAs, various mobile phones, etc.) . However, the terminal 200 indicated in the present invention is by no means limited to the wireless terminal and may include any device (e.g., a laptop, smart TV, navigation device, etc.) having an electrostatic touchscreen 205 .

The touch module 300 is a generic term for modules manufactured by arranging a predetermined number of touch parts 305 electrostatically touchable on a capacitive touch screen 205 provided in the terminal 200 in a designed geometric relationship The touch module 300 may be provided on a service provider side having a short distance device 230 for connecting the terminal 200 having the electrostatic touch screen 205 to a communication network through short- ). Hereinafter, the side holding the touch module 300 will be referred to as a " module utilization destination ".

The module use destination includes a short range device 230 that includes (or has) the touch module 300 and connects the terminal 200 having the electrostatic touch screen 205 to a communication network through short-range communication (Or possesses) a touch module 300, a franchisee, an agency, an enterprise, and the like, and the touch module 300 provided (or retained) in the module use destination may include means for identifying and / A means for identifying and / or authenticating the local device 230 (e.g., a wireless access point (AP), a wireless repeater, etc.) installed in the module utilization destination, a communication network access And a means for authenticating the user.

The logical system configuration of the present invention includes a recognition module 100 for recognizing the touch characteristics of the electrostatic touch sensed on the electrostatic touch screen 205 of the terminal 200, An authentication module 120 for reading the touch characteristics of the electrostatic touches and arranging the designated number of touch parts 305 in a designed geometric relationship to perform touch authentication by the touch module 300 manufactured by the touch module 300, A management module 170 for mapping and managing the touch module 300 and the short range device 230 provided in the terminal 200 and the electrostatic touch screen 205 of the terminal 200, A connection module 150 for connecting the terminal 200 to the communication network through the short range device 230 mapped with the specific touch module 300 when the touch characteristic of the touch is authenticated by a touch using the specific touch module 300 ).

The recognition module 100 includes various terminals 200 (e.g., a smart phone, a tablet PC, a mobile terminal such as a mobile phone) having an electrostatic touch screen 205 using an electrostatic touch by a human finger as an input means, And may be embodied in the form of an application installed in the terminal 200 or a program module embedded (or linked to) an application installed in the terminal 200 .

The authentication module 120 may be implemented on the server 115 communicating with the terminal 200 having the recognition module 100 or may be implemented in the terminal 200 by being programmed. Meanwhile, according to the embodiment, the authentication module 120 may be distributed to the terminal 200 having the electrostatic touch screen 205 and the server 115 on the network, and thus the present invention is not limited thereto.

The management module 170 may be implemented on the server 115 having the authentication module 120 or in the form of the same module as the authentication module 120, May be implemented on a separate server other than the server 115 (for example, a provider server providing a communication network connection using local communication, a server of a module utilization destination, or the like). When the management module 170 and the authentication module 120 are implemented on a separate server, the management module 170 and the authentication module 120 interoperate with each other or operate the program 220 of the terminal 200 (E.g., the recognition module 100 or the connection module 150). The management module 170 may be configured to form a form in which the touch module 300 and the local device 230 are programmed into the terminal 200 through the program 220 of the terminal 200 ), And the present invention is not limited thereto.

The connection module 150 may be programmed into a terminal 200 having an electrostatic touch screen 205 and a local communication module 209 and may be spherical. Or may be embodied in the form of a program module embedded (or interlocked) in an application installed in the terminal 200. The connection module 150 and the recognition module 100 may be programmed in the same application or may be programmed in a separate application form that can be interlocked.

Meanwhile, according to another embodiment of the present invention, the recognition module 100 is not provided in the form of an application installed in the terminal 200, but may be a script code or a program included in an access page provided in a browser of the terminal 200 (220) code. For example, in the case of some of the short-distance devices 230, instead of limiting access to the terminal 200 that accesses the short-distance device 230, a designated access device (e.g., a proxy device, a gateway, (Or a connection server) by instructing the terminal 200 to access the terminal 200 (for example, a proxy server or the like). At this time, the connection page provided through the connection device (or the connection server) may be loaded into the terminal 200. In this case, the recognition module 100 may transmit a script code or a program 220 code , And the connection module 150 may be implemented through the connection device (or connection server).

1, the recognition module 100 includes a touch module 300, which is manufactured by disposing a specified number of capacitive touchable touch units 305 in a specified geometric relationship, The touch module 300 is provided with a touch characteristic recognition unit 102 for recognizing a touch characteristic designed in the touch module 300 at the time of touching the touch module 300, And may further include a touch characteristic determining unit 104 for determining whether the touch characteristics match the design. However, the touch characteristic determining unit 104 may be implemented in the authentication module 120 interlocked with the recognition module 100 according to an embodiment.

The touch characteristic recognition unit 102 recognizes a touch point of a specified number by reading the touch event generated through the operating system of the terminal 200 that has been programmed by the recognition module 100 at least once. Preferably, the touch characteristic recognition unit 102 can recognize a predetermined number of touch point coordinates by reading one touch event generated through the operating system. The touch property recognizing unit 102 may recognize a predetermined number of touch events occurring through the operating system and recognize the coordinates average value of the designated number of touch points as the touch point touch coordinates according to the execution method.

Since the operating system of the terminal 200 to which the touch module 300 of the present invention is touched is optimized for the electrostatic touch by human fingers, the operating system determines whether the touch event is a finger touch or a touch module 300 ) Can not distinguish whether it is a module touch. However, the touch module 300 according to the present invention is designed such that a specific number of touch parts 305 are arranged in a designed geometrical relationship to express a specific touch characteristic according to a designed design. The touch characteristic recognition part 102, And recognizes various components for determining whether the touch-recognized touch point is combined with the touch characteristic of the touch module 300, which is designed in advance. Hereinafter, the number of touch units 305 included in the touch module 300 is referred to as 'N'. It is preferable that the number N is plural. However, if a predetermined code value other than the geometric relation is used as a means for identifying or authenticating the electrostatic touch, the N may be '1'. However, in the case of 'N = 1', the geometric relationship of the touch points is not taken into account and the code value can be used as means for identification or authentication.

The touch characteristic recognition unit 102 determines whether or not the touch point is a module touch using the touch module 300 manufactured in accordance with a design rule having the recognized touch point coordinates at one or more designated time points before, It is possible to further recognize the characteristic information.

According to the embodiment of the present invention, the touch characteristic recognizing unit 102 recognizes the touch number of the touch point based on the touch count condition, the simultaneous touch condition, Characteristic information corresponding to at least one of a non-simultaneous touch condition, a sequential touch condition, a sensor interlock condition, a fixed touch condition, a static touch condition, and a dynamic touch condition can be recognized.

The touch number condition is a condition for determining whether the number of touch points recognized by touching the electrostatic touch screen 205 coincides with the number 'N' of the touch units 305 provided in the touch module 300. Preferably, the touch characteristic recognition unit 102 may calculate the number of touch point coordinates recognized as being distinguishable among the touch recognized touch points as one of the characteristic information for the N touch points. If the touch characteristic determining unit 104 for determining the touch number condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines whether the number of touch points touched on the capacitive touch screen 205 is It is possible to determine whether the N touch points satisfy the number-of-touch condition by reading whether or not it matches the number 'N' in the design of the touch part 305 provided in the touch module 300.

When the N touch units 305 provided in the touch module 300 are designed and manufactured to simultaneously touch the capacitive touch screen 205 (for example, touch within the set simultaneous touch recognition time), the N It is a condition for judging whether or not touch points of a plurality of touch points are touched simultaneously. Preferably, the touch characteristic recognition unit 102 reads a plurality of touch events in the process of recognizing the touch point coordinates and determines a touch required time for recognizing the N touch point coordinates as a characteristic for the N touch points Or a change in the number of touch points between the touch event in which the N touch points are recognized and the previous touch event can be calculated as one of the pieces of characteristic information for the N touch points. If the touch characteristic determining unit 104 for identifying the simultaneous touch condition is implemented in the recognition module 100, the touch characteristic determining unit 104 reads whether the touch required time is within a preset simultaneous touch recognition time It is determined whether the N touch points satisfy the simultaneous touch condition or whether the number of touch points touched on the electrostatic touch screen 205 has changed from '0' or '1' to 'N' It is possible to determine whether or not the point satisfies the simultaneous touch condition.

When the non-simultaneous touch condition is designed so that the N touch units 305 provided in the touch module 300 are not simultaneously touched by the electrostatic touch screen 205, it is determined whether the N touch points are touched at the same time Condition. Preferably, the touch characteristic recognition unit 102 reads a plurality of touch events in the process of recognizing the touch point coordinates and determines a touch required time for recognizing the N touch point coordinates as a characteristic for the N touch points Or a change in the number of touch points between the touch event in which the N touch points are recognized and the previous touch event can be calculated as one of the pieces of characteristic information for the N touch points. If the touch characteristic determining unit 104 for identifying the non-simultaneous touch condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines that the touch time exceeds the predetermined non-simultaneous touch recognition time (Or stepwise) to "N" by judging whether or not the N touch points satisfy the non-simultaneous touch condition, or if the number of touch points touched on the electrostatic touch screen 205 is '0' or '1' It is possible to determine whether or not the N touch points satisfy the non-simultaneous touch condition.

When the N touch units 305 provided in the touch module 300 are designed so as to touch the capacitive touch screen 205 at the same time and sequentially touch in accordance with the designated order, It is a condition for judging whether or not touch points are sequentially touched in the specified order. However, since the touch module 300 according to the present invention touches the touch module 300 by applying a predetermined pressing force to the touch module 300, the pressing force is different from person to person, However, when mechanically operated, it is possible to consider the time difference). Preferably, the touch characteristic recognition unit 102 reads a plurality of touch events in the process of recognizing the touch point coordinates, and outputs a touch sequence identification value for each touch point (or for each touch point group) among the N touch points, It can be calculated as one of the characteristic information for the N touch points. If the touch characteristic discrimination unit 104 for discriminating the progressive touch condition is implemented in the recognition module 100, the touch characteristic discrimination unit 104 reads whether the touch sequence discrimination value capable of distinguishing the touch sequence is calculated, It is possible to discriminate whether the N touch points satisfy the sequential touch condition. Meanwhile, the touch sequence identification value may be provided to the authentication module 120 as one of the components for discriminating the characteristic relation of the touch-recognized N touch point coordinates. In this case, the authentication module 120 may include N touch The touch sequence identification value may be used to identify or authenticate the geometric relationship for the N touch points along with the touch point coordinates for the point.

The sensor interlocking condition is established when at least one of the sensors provided in the terminal 200 at the time when the N touch units 305 of the touch module 300 are touched by the electrostatic touch screen 205 Or a sensing signal pattern in which a change value of a sensing signal before and after touching the touch module 300 changes by a predetermined value or more is detected. The sensor interlock condition may relate to a sensor type of the terminal 200, a type of a sensing target module included in the touch module 300, and / or a behavior habit of touching the touch module 300. For example, when the terminal 200 is provided with a designated sensor (e.g., a geomagnetic sensor or the like) for measuring a magnetic field and a magnet for forming a magnetic field of a size designated by the touch module 300 is provided as a module to be sensed, A predetermined sensor (e.g., a geomagnetic sensor) of the terminal 200 does not effectively detect the magnetic field of the magnet included in the touch module 300 before the touch module 300 approaches the terminal 200 For example, the size of the magnetic field is inversely proportional to the square of the distance, and thus it is not detected as an effective magnetic field unless it is close to a certain distance). When the touch module 300 is proximate to touch the electrostatic touch screen 205, The designated sensor of the touch module 200 effectively detects the magnetic field of the magnet provided on the touch module 300 and the touch module 300 is moved away from the electrostatic touch screen 205 The geomagnetic sensor of the terminal 200 does not effectively detect the magnetic field of the magnet mounted on the touch module 300. The sensor interlocking condition is determined by the electrostatic force of the touch module 300, It is determined whether a sensing value corresponding to a maximum value of a sensing signal sensed by a designated sensor of the terminal 200 is detected as a value greater than a specified reference value at the time of touching the touch screen 205, (For example, when there is no effective magnetic field detection) is detected at a touch point (for example, at a touch point Whether the effective magnetic field is detected or the effective magnetic field is detected at the touch time and there is no effective magnetic field detection within a predetermined period of time without the detection of the effective magnetic field) Conditions. Even if the touch module 300 does not have a separate sensing target module, the sensor interlock condition may include a predetermined sensor (for example, a gyro sensor or an acceleration sensor) capable of detecting an amount of impact in the terminal 200 (For example, an impact amount exceeding a specified reference value or an impact amount of a predetermined number of times according to the structure of the touch module 300) to touch the touch module 300 to the electrostatic touch screen 205, Or a sensed change value corresponding to a difference in sensed value between before and after the touch module 300 is touched to the electrostatic touch screen 205 is determined And a condition for determining whether a sensing signal pattern that changes by more than a reference value is detected. The sensor interlocking condition may be a sensing comparison value corresponding to a value to be compared with a sensing value corresponding to a maximum value of the sensing signal sensed by the designated sensor of the terminal 200, (E.g., a change amount) or a ratio (for example, a change rate) to be compared with the change amount of the sensor. Preferably, the touch characteristic recognizing unit 102 recognizes a sensed value or sensed change value sensed through a sensor of the sensor interlocking condition in the process of recognizing the touch point coordinates as one of the characteristic information of the N touch points As shown in Fig. If the touch characteristic determining unit 104 for determining the interlocking condition of the sensor is implemented in the recognition module 100, the touch characteristic determining unit 104 determines that the touch point is recognized by the touch sensor, (Or a sensing signal pattern) is detected through the designated sensor, and the N touch points are detected as a sensor interlocking condition by comparing the sensed value or sensing change value recognized through the sensor with the sensed comparison value of the sensor interlocking condition It can be determined whether or not it is satisfied. Meanwhile, the sensing value or the sensing change value may be provided to the authentication module 120 as one of the components for discriminating the characteristic relation of the touch-recognized N touch point coordinates. In this case, The geometric relationship with respect to the N touch points can be identified or authenticated using the sensed value or the sensing change value together with the touch point coordinates of the N touch points.

The fixed touch condition is a condition for determining whether the touch module 300 is touched by the electrostatic touch screen 205 based on a behavior habit of a person who touches the touch module 300. For example, a person who has experienced such an action in the case of stamping on a paper with a stamp attached to the stamp may have a habit of keeping the stamp in contact with the paper for a certain period of time until the stamp is stamped on the paper . Similarly, a person who touches the touch module 300 to the capacitive touch screen 205 may hold the touch module 300 on the capacitive touch screen 205 for a predetermined time until the capacitive touch is completed A behavioral habit may be induced. The fixed touch condition is a condition for determining whether the touch module 300 is touched according to the behavior habit. Preferably, the touch characteristic recognizing unit 102 may calculate the held touch holding time after recognizing the N touch points as one of the characteristic information for the N touch points in the process of recognizing the touch point coordinates, Or the number of touch events in which N touch points are repeatedly recognized after the N touch points are recognized, as one of the pieces of characteristic information for the N touch points. If the touch characteristic determining unit 104 for determining the fixed touch condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines whether or not the touch holding time after the N touch points are recognized It is possible to determine whether the N touch points satisfy the fixed touch condition by comparing the number of repeated touch events with the fixed touch time of the fixed touch condition (or the number of fixed touch repeated touch events).

The static touch condition is a state in which the mutual geometric relations of the N touch points are not moved and the stationary state is N when the N touch units 305 of the touch module 300 are touched by the electrostatic touch screen 205 It is a condition to judge whether or not to maintain. Preferably, the touch characteristic recognition unit 102 recognizes whether or not the mutual geometric relationship of the N touch points is maintained or changed after recognizing the N touch points in the process of recognizing the touch point coordinates, As one of the characteristic information for the N touch points. If the touch characteristic determining unit 104 for identifying the static touch condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines whether or not the N touch points are recognized, It is possible to determine whether or not the N touch points satisfy the static touch condition by confirming whether or not the mutual geometric relationship is maintained or changed.

The dynamic touch condition is a condition for determining whether the N touch units 305 provided in the touch module 300 move according to a rule designated on the electrostatic touch screen 205. [ The dynamic touch condition is designed such that the N touch units 305 provided in the touch module 300 are designed to move by a force (for example, a pushing force) applied while the electrostatic touch screen 205 is touched Can be applied. For example, the design and fabrication structure of the touch module 300 may be changed by pressing the touch module 300 on the electrostatic touch screen 205 while pressing the pressure in the up and down direction (i.e., the direction perpendicular to the surface of the touch screen 205) When at least one touch part 305 of the N touch parts 305 is made to slide in the designated direction on the electrostatic touch screen 205 by a slider that forms an inclination with the up and down direction when a force is applied, Dynamic touch conditions can be applied. Preferably, the touch characteristic recognizing unit 102 recognizes the touch point coordinates by using the geometric relationship changing pattern in which the N touch points are recognized and the mutual geometric relationship between the N touch points is changed, It can be calculated as one of the characteristic information for the touch point. . If the touch characteristic determining unit 104 for identifying the dynamic touch condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines that the N touch points are recognized, And the geometric relationship change pattern is matched with a design change pattern imparted in designing and fabricating the touch module 300 so that the N touch points satisfy the dynamic touch condition . Meanwhile, the geometric relation change pattern may be provided to the authentication module 120 as one of the components for determining the characteristic relation of the N touch coordinates of the touch recognition. In this case, The geometric relationship change pattern may be used to identify or authenticate the geometric relationship for the N touch points along with the touch point coordinates for the point.

According to the expanded embodiment of the present invention, the touch characteristic recognizing unit 102 recognizes that the N touch points are formed in accordance with a design rule specified and are touched by using the touch module 300 in use at a designated module use destination In order to authenticate, characteristic information corresponding to at least one condition of a sound recognition condition, an NFC (Near Field Communication) recognition condition, a Bluetooth recognition condition, and a position recognition condition can be recognized. Here, the characteristic information recognized in accordance with at least one of the sound recognition condition, the NFC recognition condition, and the position recognition condition is information usable as the authentication means.

The sound recognition condition is a condition for recognizing a specific sound signal at the time when the N touch units 305 included in the touch module 300 are touched by the capacitive touch screen 205 and authenticating through the authentication module 120 to be. Preferably, the sound signal may be encoded with a code value including a unique code or a disposable code, and the touch characteristic recognition unit 102 may recognize a unique code or a disposable code included in the sound signal by the N touch points The characteristic information can be recognized as the characteristic information designated to be displayed at the time point when the information is displayed.

According to an embodiment of the present invention, the touch module 300 may store a designated unique code, or may store a designated code generation rule (e.g., a code generation algorithm for generating a one-off code and / or a fixed seed value and a dynamic seed value , Random number, etc.), and the like, and an electronic module and speaker for encoding the code value including the unique code or the one-time code into a sound signal and outputting the code. According to another embodiment of the present invention, the electronic module and the speaker for outputting the sound signal may include a cradle for holding the touch module 300, various devices or terminals provided around the touch module 300, A pad for placing the terminal 200 to touch the module 300, and the like.

According to an embodiment of the present invention, the electronic module may output a sound signal obtained by encoding the code value using at least one of a dual tone multiple frequency (DTMF) encoding rule or a sound code encoding rule. Here, the DTMF coding rule is a generic term for rules for encoding 1 'to 9', '0', '#', '*', etc. into sound signals in an audio frequency band, 1 'to' 9 ',' 0 ','#',' * ', etc.) in combination with a sound frequency of a high frequency range (for example, 770 Hz, 852 Hz, and 941 Hz) and a sound frequency of a high frequency range (for example, 1209 Hz, 1336 Hz, 1477 Hz, . ≪ / RTI > The sound code encoding rule is a generic name of a rule for encoding a bit stream of data specified in a designated bit stream of sound data encoded according to a specified sound encoding rule, Generates a sound spreading code applicable to the sound encoding rule by encoding the designated 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 . The sound spreading code is preferably encoded in a pseudo noise region so that the sound spreading code recognized by a normal human can not recognize the sound spreading code.

In order to apply the sound recognition condition, the terminal 200 having the electrostatic touch screen 205 is provided with a sound input unit 207 for receiving a sound signal, (207), and extracts an encoded code value from the sound signal. According to the embodiment of the present invention, the sound signal in which the code value is encoded is outputted continuously (or periodically) through the electronic module, or when the touch module 300 is touched to the electrostatic touch screen 205 And the touch characteristic recognizing unit 102 recognizes the sound signal input through the sound input unit 207 at a time point when N touch points are recognized through the electrostatic touch screen 205 And extract the encoded code value from the sound signal. Preferably, the touch recognition for the N touch points may be used as a trigger for recognizing a sound signal input through the sound input unit 207.

If the touch characteristic determining unit 104 for determining the sound recognition condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines whether the touch point is recognized by using the code value It is possible to discriminate whether or not the sound is recognized and whether the electrostatic touch on the N touch points satisfies the sound recognition condition. On the other hand, the code value recognized through the sound may be provided to the authentication module 120 as one of the components for discriminating the characteristic relation of the touch-recognized N touch point coordinates. In this case, And can identify or authenticate the electrostatic touch for the N touch points using the code value.

The NFC recognition condition recognizes the NFC-based radio frequency signal at the time when the N touch units 305 of the touch module 300 are touched by the electrostatic touch screen 205 and authenticates the NFC-based radio frequency signal through the authentication module 120 . Preferably, the NFC-based radio frequency signal may include a code value including a unique code or a disposable code, and the touch characteristic recognition unit 102 may identify a unique code or a disposable code included in the NFC- It can be recognized as the characteristic information designated to be expressed at the point of time when the N touch points are recognized.

According to an embodiment of the present invention, the touch module 300 may store a designated unique code, or may store a designated code generation rule (e.g., a code generation algorithm for generating a one-off code and / or a fixed seed value and a dynamic seed value (E.g., an NFC chip) that transmits a code value including the unique code or the one-time code through an NFC-based radio frequency signal, and an antenna can do. According to another embodiment of the present invention, the electronic module and the antenna for transmitting the NFC-based radio frequency signal include a cradle for holding the touch module 300, various devices provided around the touch module 300, (For example, within 10 cm) of the NFC module 212 of the terminal 200 in which the module touch is performed in a space where the module touch is performed, such as a pad for mounting the terminal 200 to touch the touch module 300, Lt; / RTI >

In order to apply the NFC recognition condition, the terminal 200 having the capacitive touch screen 205 is provided with an NFC module 212 for transmitting and receiving NFC-based radio frequency signals, Based on the NFC-based radio frequency signal received through the NFC module 212 and extracts a code value included in the NFC-based radio frequency signal. According to an embodiment of the present invention, an NFC-based radio frequency signal including the code value is transmitted continuously (or periodically) via the electronic module, or the touch module 300 is transmitted to the electrostatic touch screen 205, The touch characteristic recognizing unit 102 recognizes that the N touch points are received through the NFC module 212 at a time point when N touch points are recognized through the capacitive touch screen 205, The NFC-based radio frequency signal can be checked and the code value can be extracted. Preferably, the touch recognition for the N touch points includes receiving an NFC-based radio frequency signal through the NFC module 212, or receiving a code included in the NFC-based radio frequency signal received through the NFC module 212 It can be used as a trigger to extract the value.

If the touch characteristic determining unit 104 for identifying the NFC recognition condition is implemented in the recognition module 100, the touch characteristic determining unit 104 determines whether the N touch points are recognized, It is possible to discriminate whether the NFC-based radio frequency signal is recognized and whether the electrostatic touch for the N touch points satisfies the NFC recognition condition. Meanwhile, the code value recognized through the NFC-based radio frequency signal may be provided to the authentication module 120 as one of the components for discriminating the characteristic relation of the N touch point coordinates recognized by the touch, The controller 120 may identify or authenticate the electrostatic touch for the N touch points using the code value.

The Bluetooth recognition condition is recognized when the N touch units 305 of the touch module 300 touch the capacitive touch screen 205 to recognize the Bluetooth based radio frequency signal and authenticate through the authentication module 120 . Preferably, the Bluetooth-based radio frequency signal may include a code value including a unique code or a disposable code, and the touch characteristic recognition unit 102 may identify a unique code or a disposable code included in the Bluetooth- It can be recognized as the characteristic information designated to be expressed at the point of time when the N touch points are recognized.

According to an embodiment of the present invention, the touch module 300 may store a designated unique code, or may store a designated code generation rule (e.g., a code generation algorithm for generating a one-off code and / or a fixed seed value and a dynamic seed value (E.g., a Bluetooth chip) for transmitting the code value including the unique code or the one-time code via the Bluetooth-based radio frequency signal, and an antenna can do. According to another embodiment of the present invention, the electronic module and the antenna for transmitting the Bluetooth-based radio frequency signal include a cradle for holding the touch module 300, various devices provided around the touch module 300, (For example, within 10 m) of the Bluetooth module 211 provided in the terminal 200 in which the module touch is performed in a space where the module touch is made, such as a pad for placing the terminal 200 to touch the touch module 300 ). ≪ / RTI >

In order to apply the Bluetooth recognition condition, the terminal 200 having the capacitive touch screen 205 is provided with a Bluetooth module 211 for transmitting and receiving a Bluetooth-based radio frequency signal, And reads out the Bluetooth-based radio frequency signal received through the Bluetooth module 211 to extract a code value included in the Bluetooth-based radio frequency signal. According to the embodiment of the present invention, the Bluetooth-based radio frequency signal including the code value is transmitted continuously (or periodically) through the electronic module (or broadcast without pairing) And the touch characteristic recognizing unit 102 recognizes the touch point of the touch module 205 at a time point when N touch points are recognized through the electrostatic touch screen 205, 211 based on the Bluetooth-based radio frequency signal and extract the code value. Preferably, the touch recognition for the N touch points includes receiving a Bluetooth-based radio frequency signal through the Bluetooth module 211, or receiving a code included in the Bluetooth-based radio frequency signal received through the Bluetooth module 211 It can be used as a trigger to extract the value.

If the touch characteristic discrimination unit 104 for discriminating the Bluetooth recognition condition is implemented in the recognition module 100, the touch characteristic discrimination unit 104 may include a code value at a point in time when the N touch points are recognized It is possible to discriminate whether the Bluetooth based radio frequency signal is recognized and whether the electrostatic touch for the N touch points satisfies the Bluetooth recognition condition. Meanwhile, the code value recognized through the Bluetooth-based radio frequency signal may be provided to the authentication module 120 as one of the components for discriminating the characteristic relation of the N touch point coordinates recognized by the touch, The controller 120 may identify or authenticate the electrostatic touch for the N touch points using the code value.

The position recognition condition recognizes the position of the terminal 200 at the time when the N touch units 305 provided in the touch module 300 are touched by the electrostatic touch screen 205, Or to use it to authenticate the geometric relationship for the N touch points.

In order to apply the position recognition condition, the terminal 200 having the capacitive touch screen 205 is provided with a position positioning module 213 for positioning a GPS-based (and / or indoor terrestrial based) position, The recognizing unit 102 can recognize the position information to orient the current position of the terminal 200 through the position determining module 213 as characteristic information designated to be displayed at the time when the N touch points are recognized. Meanwhile, the position information may be provided to the authentication module 120 as one of the components for discriminating the characteristic relation of the N touch point coordinates of the touch recognition. In this case, the authentication module 120 may use the position information Thereby identifying or authenticating the electrostatic touch for the N touch points.

1, the recognition module 100 touches the N touch units 305 included in the touch module 300 to the electrostatic touch screen 205 to determine the geometric relationship of the N touch points recognized A module touch reading unit 106 for calculating a component value to be used for identifying the touch element, and touch characteristic information including at least one characteristic information including the calculated element value and recognized through the touch characteristic recognition unit 102 And a touch characteristic providing unit 108 provided to the specified authentication module 120. In the present invention, the geometric relationship for the N touch points is defined as a relationship matched with the geometric arrangement relationship of the N touch parts 305 provided in the touch module 300, The touch relationship is defined as a relationship that can further include one or more design touch characteristics designated to be expressed at the touch point in the geometric relationship. The touch characteristic information is a term named collectively for the information provided to the authentication module 120 in the recognition module 100, and is not limited to a data structure for providing information once.

According to the method of the present invention, the N touch units 305 are arranged in a specified geometrical relationship in the touch module 300, and the module touch reading unit 106 reads the N touch units 305 Type touch screen 205 to calculate a component value for discriminating the geometric relationship with respect to the N touch points recognized through the touch characteristic recognition unit 102. [

In the case where the touch module 300 is provided with a plurality of touch parts 305 by design, the present invention can be realized by touching the touch module 300 without touching the specific direction or the specific area of the capacitive touch screen 205 If the N touch units 305 provided in the touch module 300 are touched by the electrostatic touch screen 205 and N touch points are recognized, the geometric relationship formed by the N touch points is designed Is matched within the specified tolerance range with respect to the geometric relationship in the design of the touch module (300). Thus, in order to read the geometric relationship with respect to the N touch points touched by the electrostatic touch screen 205 regardless of which direction the touch module 300 touches in the direction of the electrostatic touch screen 205, The coordinate rotation must be accompanied by the coordinate rotation, and the geometric relationship to the N touch points should not be changed or distorted by the coordinate rotation. In order to do this, at least one touch point, which is a reference for reading geometric relationship or coordinate rotation among N touch points, must be identified by using N touch points touched to the electrostatic touch screen 205. However, in a situation where the touch module 300 is arranged to be touched in a specific direction of the electrostatic touch screen 205 so as to be touched, or in a state where it is not predetermined to touch a specific area, among the N touch points arbitrarily and randomly selected, It is technically very difficult to specify the touch point always at the same reference point. In order to specify such a reference point, the general touch unit 305, which is not the reference point among the N touch units 305, forms and arranges a geometric relationship according to the same conditions in design, The touch unit 305 is arranged under different conditions different from the general touch unit 305 to specify a reference point among the N touch points touched on the electrostatic touch screen 205. [ Here, the condition for specifying the reference point may include a condition for designing the touch panel 300 to have a designated touch portion 305 that is a reference point and a condition for designing and manufacturing different conditions for providing the remaining general touch portion 305, and / (For example, the shape or the area of the designated touch portion 305 and the general touch portion 305) designed to be different from the geometric characteristics of the other general touch portions 305 Conditions for designing differently, etc.).

When the touch module 300 is provided with a plurality of touch units 305 by design, the module touch reading unit 106 can perform the touch panel operation in any direction of the electrostatic touch screen 205, It is desirable to calculate the component values for the geometric relationship authentication for the N touch points touched on the expression touch screen 205. [ For example, the module touch reading unit 106 may include an element value for determining a reference point of a geometric relationship with respect to the N touch points, an element value for determining a distance relation between N touch points, An element value for determining an angle relation between the reference points and the remaining touch points, an element value for determining an angle relationship between the reference point and the remaining touch points, An element value for discriminating a combination of a distance relation and an angle relation between points, a component value including at least one element value among element values for discriminating a combination of a distance relation and an angle relation between the reference point and the remaining touch points Can be calculated.

According to the embodiment of the present invention, the module touch reading unit 106 can determine the touch point number characteristic or the geometric structure characteristic of the N touch points among the space-time characteristics of the geometric relationship of the N touch points, Component values can be calculated in the form of a combination of at least one or more of coordinate values, scalar values, and vector values on the coordinate system specified for the N touch points. The coordinate system for calculating the component value may include an orthogonal coordinate system applied to the electrostatic touch screen 205. The designated coordinate system may include a coordinate system applied to the electrostatic touch screen 205, It is possible to include other coordinate systems defined for interpreting the characteristic relationship with respect to the coordinate system. For example, the value of the component may be a coordinate value on a designated coordinate system such as A (11, y1), B (12, y2), C (13, y3), D (14, y4) . ≪ / RTI > Alternatively, the component value may be calculated by dividing the line segment value AB, the line segment AC, the line segment AD, the line segment AE, or the like calculated with reference to the coordinate value on the coordinate system and the line segment values such as ∠BAC, ∠BAD, ∠BAE, ∠CAD, ∠CAE, And a scalar value that includes at least one of the same angular values. Or the component value may include a vector value calculated based on a reference point on the coordinate system (for example, an origin on a coordinate system) or a reference line. The reference point for calculating the vector value may be either the origin on the coordinate system or one of the N touch points

When the touch module 300 is provided with a plurality of touch portions 305 in the design, the geometric relationship authentication of the present invention can be realized by the geometric relationship of the N touch points touched to the capacitive touch screen 205, The geometric relationship of the N touch points is preferably within a design geometric relationship and within a specified tolerance range (or probability distribution) And an analog type authentication for authenticating whether or not the authentication is performed. That is, even if the same place of the electrostatic touch screen 205 is touched by using the touch part 305 (or a human finger) provided on the touch module 300, the same coordinate value is always recognized as a touch point . This is because the electrostatic touch using the electrostatic touch screen 205 is a touch as long as it is not a point touch and the central point of the touch surface is calculated as a touch point except for some special cases, The calculated touch point is different even if the area of the surface on which the electrostatic touch is recognized or the outline of the touched surface is slightly deformed by noise. For example, the capacitive touch may include a contaminated state of the surface of the capacitive touch screen 205 (or the touch portion 305 of the touch module 300), a ground state of the voltage applied to the capacitive touch screen 205 , A state in which the body of the terminal 200 is used as the ground or the terminal 200 is held in the human hand and the human body (or a person standing on the ground) is used as the ground), electromagnetic disturbance around the electrostatic touching unit 305 The same coordinate value is not always recognized as a touch point every time the user touched the same place of the electrostatic touch screen 205 due to various reasons such as a change in the electrostatic touch pressure applied for the electrostatic touch. Accordingly, simply by comparing the touch point touched on the electrostatic touch screen 205 with the previously registered coordinate values, the authentication success rate of the module touch can only stay at several percent. As the number of touch points increases, The authentication success rate is further lowered. Particularly, when coordinate rotation is performed to allow the touch module 300 to be recognized and authenticated even if the touch module 300 is touched in any direction of the electrostatic touch screen 205, The authentication success rate is further lowered. In addition, when the touch units 305 provided in the touch module 300 are close to each other, the touch points to be recognized as two different touch points may be recognized as one touch point.

In order to improve the authentication success rate of the analog touch authentication, the touch unit 305 of the touch module 300 is arranged in accordance with a minimum identification distinction distance and a minimum identification distance set in advance, The element value including the touch recognition error assigned to the terminal 200 having the electrostatic touch screen 205, the element value mapped with the touch recognition error assigned to the terminal 200, the probability distribution of the touch recognition error (E.g., a Gaussian probability distribution, etc.), and an element value mapped with the probability distribution. Preferably, the touch recognition error or probability distribution may be applied to read geometric relationships for the N touch points or to compare and analyze geometric relationships in the design.

Meanwhile, the geometric touch characteristic relation authentication for identifying and / or authenticating that the touch module 300, which is specified in the present invention, is touched to the electrostatic touch screen 205 is not limited to the geometric relationship authentication for the N touch points, The geometric touch characteristic relationship authentication is performed in a space in which the touch module 300 (or the object to which the touch module 300 is mounted) is assigned to the touch module 300 in addition to the geometric relationship authentication for the N touch points And determining or authenticating whether the imparted property is effectively expressed at the module touch point.

The touch characteristic providing unit 108 includes a component value for N touch points calculated through the module touch reading unit 106 and a capacitive touch screen 205 recognizing N touch points, The touch characteristic recognizing unit 102 may include unique information that uniquely identifies the terminal 200 having the recognition module 100 and may recognize the N touch points at the time of recognizing the touch points according to the embodiment of the present invention To the designated authentication module 120, touch characteristic information that further includes at least one characteristic information. Here, the characteristic information included in the touch characteristic information may include at least one of the position information of the terminal 200 recognized according to the position recognition condition and the code value recognized according to the sound recognition condition or the NFC recognition condition . The characteristic information may correspond to at least one of the touch number condition, the simultaneous touch condition, the non-simultaneous touch condition, the sequential touch condition, the sensor interlock condition, the fixed touch condition, the static touch condition, And may further include recognized characteristic information.

The authentication module 120 may be implemented as a program in the terminal 200 having the recognition module 100 or may be implemented in the server 115 on the network. If the authentication module 120 is implemented in the server 115 on the network, the recognition module 100 may access the server 115 having the authentication module 120 through the communication network to which the terminal 200 is connected. Or relay communication with the server 115 having the authentication module 120 through a designated relay server.

According to the embodiment of the present invention, the authentication module 120 reads the geometric relationship and the at least one characteristic information for the N touch points and determines that the touch module 300 corresponding to the N touch points It is possible to identify specific module usage destinations including the touch module 300 corresponding to N touch points among a plurality of module usage destinations. That is, the touch module 300 is used as identification means (for example, ID) for identifying a module usage destination having a specific touch module 300 touched to the electrostatic touch screen 205 among a plurality of module usage destinations In this case, the recognition module 100 does not select a module usage destination from the user before or during the touch module 300 is touched. Meanwhile, according to another embodiment of the present invention, the touch module 300 can be used as authentication means (e.g., a PW matched with the identification means) for authenticating a specific module use destination, in which case the recognition module 100 Receives the module usage destination from the user before or during the touch module 300 is touched, and includes the module usage destination identification information for identifying the selected module usage destination in the touch property information to the authentication module 120 . If the touch module 300 is used as an identification means for identifying a specific module usage destination and simultaneously used as an authentication means for authenticating the specific module usage destination, the recognition module 100 determines whether the touch module 300 It is acceptable that the user is not selected to use the module before or during the touch. In order to use the touch module 300 as an identification means, the touch module 300 must have unique / uniqueness such that the touch characteristics using the touch module 300 do not overlap. The present invention has as its first object to achieve the above object. Meanwhile, in order for the touch module 300 to be used as an authentication unit, the touch module 300 must have a hermeticity that at least a part of the touch characteristics using the touch module 300 is not exposed. can do. The touch property for airtightness is achieved by not exposing the geometric relationship to the N touch points to the outside (for example, when the geometric relationship of the N touch parts 305 to the touch module 300 is visually externally exposed And the opaque touch film 315 which blocks the touch point of the touch screen 305 and transmits the electrostatic change by the N touch units 305 to the electrostatic touch screen 205. If not, But also by at least one characteristic information recognized at the time of touch.

Referring to FIG. 1, the authentication module 120 determines whether or not the geometric relationship formed by the N touch points recognized by touching the electrostatic touch screen 205 corresponds to the N touch units 305 provided in the touch module 300, (For example, within an allowable error range / probability distribution) and authentication information for authenticating at least one touch property given to the touch module 300 And an authentication information storage unit 122 for generating or confirming the authentication information and storing the authentication information. Meanwhile, the authentication information storage unit 122 may not be included in the authentication module 120 (however, the storage medium 124 may be included in the authentication module 120) and may be implemented on a separate server. Hereinafter, a preferred embodiment of the present invention will be described with reference to an embodiment in which the authentication information storage unit 122 is included in the authentication module 120 implemented in the server 115 on the network or implemented in a separate server .

The authentication information storage unit 122 confirms or generates a design geometric relationship with respect to the N touch units 305 included in the touch module 300 and determines a geometric relationship between the N touch units 305 To the electrostatic touch screen 205 and stores the authentication information for authenticating the geometric relationship formed by the recognized N touch points. The geometric relationship in the design may include at least one of a combination of two or more of a design coordinate relationship, a design distance relation, a design angle relationship, a design coordinate relationship, a distance relationship, and an angle relationship with respect to the N touch units 305 And may further include design tolerances for each relationship.

According to the embodiment of the present invention, when the touch module 300 is manufactured by disposing the N touch units 305 in a designed geometrical relationship in design, the manufacturer can set the touch module 300 to the designated terminal 200 When the geometric relationship of the N touch points repeatedly touched is included in the tolerance range, the touching screen 205 of the quality management terminal 200 is repeatedly touched for a predetermined number of times or more, The module 300 can be supplied to the module utilization destination. Meanwhile, in the repeated touch process for quality control, the tolerance may be adjusted (e.g., adjusted upward or downward) within a specified range based on a design tolerance. In this case, And stores the adjusted tolerance in the authentication information. According to the embodiment of the present invention, unique identification information (e.g., serial code) uniquely identifying each touch module 300 may be given to the touch module 300 supplied to the module use destination. In this case, The information storage unit 122 may store the mapping information of the authentication information of the touch module 300 and the unique identification information assigned to the touch module 300.

According to the method of the present invention, the touch module 300, which is manufactured by disposing the N touch units 305 in a design geometrical relationship in design, is provided with a touch count condition, a simultaneous touch condition, a non-simultaneous touch condition, When at least one touch condition among the sensor interlocking condition, the fixed touch condition, the static touch condition, and the dynamic touch condition is given by design, the authentication information is used to discriminate and authenticate at least one touch condition given to the touch module 300 And the touch characteristic authentication value. For example, the touch characteristic authentication value may include an authentication value for each touch condition including the number 'N' of the touch parts 305 provided in the touch module 300 and the like. In this case, the authentication information storage unit 122 may include the touch characteristic authentication value for each touch condition in the authentication information.

According to the embodiment of the present invention, the sound recognition condition, the NFC recognition condition, and the NFC recognition condition are added to the touch module 300 (or the space where the module touch is made) produced by disposing the N touch units 305 in a designed geometric relationship in design, When at least one recognition condition of the Bluetooth recognition condition and the position recognition condition is given by design, the authentication information is used to identify and recognize at least one recognition condition given to the touch module 300 (or in the space where the module touch is performed) And a touch characteristic authentication value for authentication. For example, the touch characteristic authentication value may include a touch characteristic authentication value (e.g., a unique code and a unique code) for authenticating the validity of a code value recognized through at least one recognition condition of the sound recognition condition, the NFC recognition condition, (E.g., a code generation algorithm for generating one-off codes and / or a fixed seed value and a dynamic seed value (e.g., time, random number, etc.) for dynamically generating a comparison value to be compared or a verification code to be compared with the one- Etc.).

According to the embodiment of the present invention, the module usage destination provided with the fabricated touch module 300 may be configured to transmit the provided touch module 300 to a designated terminal device (for example, a terminal device included in the module utilization destination) The touch module 300 can be registered with the touch module 300 of the module use destination by touching the touch screen 205. Preferably, the terminal of the module use destination receives the unique identification information displayed on the touch module 300 at a time before, during, or after the process of registering the touch module 300, 300, etc.) (for example, the name of the module utilization destination, the name of the module, the name of the representative, the business registration number, the module usage destination identification information allocated to the module usage destination, And the address information for identifying the user. The authentication information storage unit 122 receives the touch point information of the registration target touch module 300 from the terminal of the module use destination, and stores the identification information, the module usage destination information, The above registration information can be received. The authentication information storage unit 122 may store the touch point information of the registration target touch module 300 received from the terminal of the module use destination using the unique identification information and the geometric relationship in the design included in the authentication information mapped The geometric relationship can be authenticated. The authentication information storage unit 122 may map the authentication information of the registration target touch module 300 identified and authenticated through the unique identification information and the unique identification information of the registration target touch module 300. When the module usage destination information is received from the terminal of the module utilization destination, the authentication information storage unit 122 stores authentication information or unique identification information of the registration target touch module 300 and the received module usage information Can be mapped and stored. If the address information of the module use destination is received from the terminal of the module utilization destination, the authentication information storage unit 122 stores the module information that can be compared with the position information positioned through the terminal 200 based on the address information And can map and store the authentication information or unique identification information of the registration target touch module 300 and the calculated location area information of the module use destination.

Referring to FIG. 1, the management module 170 may include unique identification information for identifying the touch module 300 provided to the module use destination and / or module usage information having the touch module 300 And the access code for accessing the communication network by using the short range device 230 to the designated management DB 174 by mapping the short range communication identification value identifying the short range device 230 provided in the module use destination with the access code for accessing the communication network using the short range device 230 And a connection information storage unit 172 for storing the connection information. The management DB 174 may be the same medium as the storage medium 124 of the authentication module 120 or may be a separate database, and thus the present invention is not limited thereto.

The connection information storage unit 172 stores unique identification information for identifying the touch module 300 provided to the module usage destination and / or the unique identification information for identifying the touch module 300, which is associated with the process of registering the module usage information, (Or the module use destination identification information) having the module 230 and the short distance device 230 having the module 300 and the short range communication ID value for identifying the short range device 230 included in the module use destination, Check the access code to connect to.

The local communication identification value may include at least one of an SSID, an IP address, and a MAC address that identifies the local device 230 included in the module using the touch module 300, or a combination of two or more of them. However, the local communication identification value is not limited to the above example, and it is evident that any information (or combination of information) that uniquely identifies the short range device 230 included in the module use destination is included in the scope of the present invention I will reveal.

The access code includes an ID / PW for accessing a communication network via the short range device 230, a set value to be registered in the short range device 230 according to a security protocol set in the short range device 230, The authentication value to be used in the security procedure of the security protocol set in the security protocol. For example, if the local device 230 includes a wireless AP, the wireless AP may be implemented with various authentication protocols such as WPA-PSK, WPA2-PSK, WPA / WPA2, and WEP 64, WEP 128, TKIP, AES, TKIP / AES, and the like. The access codes may include the ID / PW and / or the security protocol including the authentication protocol and the encryption method. A setting value to be registered in the local device 230 for network connection, an authentication value to be used in the security procedure, and the like.

It is preferable that the unique identification information and / or the module usage destination information (or module usage destination identification information) is registered through the terminal of the module utilization destination, and the local communication identification value and the access code are stored in the terminal Or a terminal device using the module is connected to the server 115 through the local device 230 of the module use destination so that at least some information (for example, A part of the communication identification value, etc.) can be extracted.

The connection information storage unit 172 stores unique identification information for identifying the touch module 300 of the module use destination and / or module usage destination information (or module usage destination identification information) having the touch module 300, And maps the local communication identification value and the access code to the local device 230 provided in the module usage destination and stores the mapping in the designated management DB 174.

According to an embodiment of the present invention, the management DB 174 includes information on the terminal 200 that identifies the terminal 200 (or the type of the terminal 200) having the capacitive touch screen 205 and / The program information for authenticating the program 220 having the recognition module 100 and / or the connection module 150 among the applications installed in the terminal 200 having the electrostatic touch screen 205 is stored and managed can do.

Referring to FIG. 1, the authentication module 120 receives a touch characteristic including a component value for N touch points touched through the electrostatic touch screen 205 from the recognition module 100 of the terminal 200, And the touch characteristic information may further include at least one characteristic information recognized by the recognition module 100 of the terminal 200. In this case,

The touch characteristic receiving unit 126 receives the touch characteristic information transmitted through the recognition module 100. The touch characteristic information includes a component value for N touch points touched to the capacitive touch screen 205 of the terminal 200 and includes the electrostatic touch screen 205 and a programmed recognition module 100 and may further include one or more pieces of characteristic information recognized through the recognition module 100 of the terminal 200 according to an embodiment of the present invention .

Referring to FIG. 1, the authentication module 120 includes a touch point checking unit 128 for checking a component value included in the touch characteristic information, And a location information checking unit 130 for checking the location information of the terminal 200 among the information. However, the location information checking unit 130 may be omitted when the location information is not included in the touch characteristic information.

The touch point check unit 128 checks component values of N touch points included in the touch characteristic information. If the component value includes the coordinate value of the coordinate system of the touch screen 205, the touch point check unit 128 coordinates the component value into a coordinate system corresponding to the geometric relation included in the authentication information . Meanwhile, the coordinate transformation may be performed by the touch point authenticating unit 132, the reference point identifying unit 134, or the touch property verifying unit 136 described below.

The position information confirmation unit 130 confirms the position information of the terminal 200 with respect to the N touch points included in the touch characteristic information. If the location information of the mobile station 200 is not included in the touch characteristic information, the location information checking unit 130 may determine whether the location information of the mobile station 200 corresponding to the location calculated using the base station or the wireless AP Cell-based location information of the cell. Alternatively, the location information verification unit 130 can confirm the indoor terrestrial based location information calculated using the indoor LAN using the wireless communication with the terminal 200.

Referring to FIG. 1, the authentication module 120 reads the mutual geometric relationships among N touch points using the component values included in the touch characteristic information, and the read mutual geometric relationships are designed and manufactured And a touch point authenticating section 132 for authenticating whether or not the touch section 305 of the touch module 300 includes a geometric relationship that can be formed by touching the electrostatic touch screen 205. [

The touch point authenticating unit 132 reads the component values confirmed through the touch point confirming unit 128 and transmits the sensed value to the N touch units 305 of the touch module 300, Authenticate that the touch point is a valid touch point.

According to the method of the present invention, the touch point authenticating unit 132 may calculate the distance between the N touch points, and may determine that the calculated distance between touch points is smaller than the minimum distinction recognition distance set for the effective touch module 300 The N touch points can be authenticated as the touch point of the valid touch module 300 designed and manufactured according to the design method according to the present invention. Distance comparisons are compared based on the coordinate distance on the same coordinate system, and coordinate transformations can be performed for this purpose. If any one of the touch point distances is smaller than the set minimum distinction recognition distance within the specified tolerance range, it is possible to determine that the N touch points are not the touch points of the effective touch module 300.

According to the embodiment of the present invention, the touch point authenticating unit 132 sets and maintains an N-ary structure condition formed by line segments connecting N touch points. For example, the N-type structure condition may be an N-ary shape in which the contact area size of the touch portion 305, the minimum distinction recognition distance, the minimum identification distance, the area of the region where the N touch portions 305 are arranged, A condition for the geometric characteristic for the object, and / or a condition for the geometric characteristic that can not be formed. When the N-type structure condition is set, the touch point authenticating unit 132 connects the N touch points to form an N-ary shape, and reads the formed N-type geometry through the set N-shape structure condition , The N touch points can be authenticated as a touch point of a valid touch module 300 designed and manufactured according to the design method according to the present invention.

According to the embodiment of the present invention, the touch point authenticating unit 132 can confirm whether or not the touch point authenticating unit 132 includes a linear arrangement structure in which three or more touch points among the N touch points are arranged in a line. Preferably, the N touch points have a geometric relationship to avoid (or exclude) a linear arrangement structure for three or more touch points, and the touch point authenticating unit 132 may determine that the N touch points have two or more It is possible to certify that the linear arrangement structure for the touch point is avoided (or excluded). Herein, the linear array structure is a structure in which a line segment connecting two designated touch points among N touch points is defined as a reference line segment, and third to Nth touch points are arranged at positions lower than or 3.5 mm below the reference line segment , And the touch module 300 of the present invention is preferably designed to avoid (or exclude) such a linear arrangement structure.

When the component values are coordinate-converted into the designated coordinate system, the touch point authenticating unit 132 preferably reads mutual geometric relationships among the N touch points using the value set as the information on the designated coordinate system. If the component values are not coordinate-transformed to the designated coordinate system, the touch point authenticating unit 132 may coordinate the component values into the designated coordinate system, and then read the mutual geometric relationship.

Referring to FIG. 1, the authentication module 120 includes a reference point identification unit 134 for identifying a reference point for reading a geometric relationship of N touch points, A touch characteristic verifying unit 136 for calculating a geometric relationship between the design target geometric relationship and the geometric relationship between the design target geometric relationship included in the authentication information stored through the authentication information storage unit 122 and the calculated geometric relationship, And a touch characteristic authentication unit (138) for authenticating whether the geometric relationship of the touch points matches within a specified tolerance range (or probability distribution) with a design geometric relationship included in the authentication information, And an authentication result providing unit 140 generating and providing a touch characteristic authentication result including the authentication result of the geometric relationship.

At least one of the touch count condition, the simultaneous touch condition, the non-simultaneous touch condition, the sequential touch condition, the sensor interlock condition, the fixed touch condition, the static touch condition, and the dynamic touch condition may be stored in the authentication module 120 according to the embodiment of the present invention. If the touch characteristic determining unit 104 determines that the N touch points are module touches using the touch module 300 manufactured according to the design rule specified by the condition information, The touch characteristic determining unit 104 determines the characteristic information to be used by the touch characteristic determining unit 104 from at least one characteristic information included in the touch characteristic information received through the touch characteristic receiving unit 126, Based on the touch characteristic authentication value for authenticating the characteristic information included in the touch characteristic information among the touch characteristic authentication values stored in the storage medium 124, That the module touch with the touch module 300 manufactured according to the design rule group N number of touch points is specified to determine the characteristic information included can be determined.

In order to read the geometric relationship of the N touch points, the reference point identifying unit 134 determines whether or not the touch unit 305 provided in the touch module 300 is in a state of being interrupted At least one reference point corresponding to the touch point touched on the expression touch screen 205 is identified.

According to the embodiment of the present invention, the reference point identification unit 134 may identify a component value confirmed through the touch point check unit 128 or a component value authenticated through the touch point authentication unit 132 And the component value is at least one of N touch points, and the component value is coordinate-converted to the designated coordinate system through the touch point confirmation unit 128 or the touch point authentication unit 132, And can be coordinate-converted into the designated coordinate system by the point identifying unit 134. [ The reference point identifying unit 134 reads the component value based on a condition for specifying a reference point among the geometric relationships in the design, and identifies at least one reference point among the N touch points. For example, after the N touch units 305 divide the area of the touch module 300 into n (2 < n &lt; N) divided areas, When the designated touch portion 305 corresponding to the reference point is arranged at a designated position on one of the n divided regions, the reference point identifying portion 134 determines whether or not the reference point It is possible to identify the designated area in which the two touch areas 305 of the n divided areas are arranged and identify the designated touch point corresponding to the designated position on the designated area as the reference point.

The touch characteristic checking unit 136 may include at least one of a distance relationship and an angle relation between the N touch points and / or at least one of a distance relation and an angle relation between the identified reference point and n touch points The geometric relationship to be authenticated for the N touch points is calculated. Preferably, the distance relation comprises a coordinate distance on a designated coordinate system. The coordinate distance includes a relative coordinate distance calculated through a coordinate value with reference to a designated coordinate system, and may be expressed by a vector value further including a specific direction on the designated coordinate system according to an embodiment. The angle relationship includes a coordinate angle on the designated coordinate system. The coordinate angle may be an angle on a coordinate system formed by a segment connecting three touch points, an angle on a coordinate system formed by the touch point and the touch point when the reference point is identified, a specific reference line on the designated coordinate system A reference line passing through the origin on the coordinate system, and the like), and an angle on a coordinate system formed by a line segment connecting the reference point and each touch point on the basis of the reference line passing through the origin on the coordinate system.

When the geometric relationship to be authenticated is calculated, the touch characteristic authenticating unit 138 obtains the geometric relationship between the design geometric relationship included in the plurality of pieces of authentication information stored by the authentication information storage unit 122 and the calculated geometrical relationship to be authenticated The touch points are matched and then the distance and the angle are compared to confirm whether they are matched (for example, matched or within a specified tolerance range). If it is confirmed that the design geometric relationship included in the stored plurality of pieces of authentication information matches the calculated geometrical relationship to be authenticated (e.g., in agreement with or within a specified error range), the touch- The controller 138 touches the electrostatic touch screen 205 with the touch module 300 having N touch parts 305 according to the matched design geometric relationship corresponding to the component value The touch module 300 corresponding to the N touch points may be authenticated using the module corresponding to the module usage information matched with the authentication information including the matched geometric relationship on the design It can be identified by the touch module 300 held at the destination.

Meanwhile, when the location information of the terminal 200 is mapped to the authentication information, the module usage destination information and the location area information of the module usage destination are mapped and stored in the storage medium 124, The characteristic authentication unit 138 identifies the comparison target authentication information mapped with the location area information matched with the received location information among the authentication information stored in the storage medium 124, The geometric relationship between the calculated authentication target geometric relationship and the authentication information for each touch module 300 stored in the storage medium 124 is compared by comparing whether the calculated geometrical relationship to be calculated matches or falls within a specified error range The time required for authentication can be shortened.

If the touch characteristic information includes the module using identification information selected by the user, the touch characteristic authenticating unit 138 determines that the module corresponding to the module use identification information among the authentication information stored in the storage medium 124 By comparing the geometric relationship between the geometric relationship included in the verified authentication information and the calculated geometrical relationship to be authenticated within the specified error range, The touch module 300 can verify whether the geometric relationship matches the geometric relationship in design with respect to the N touch units 305 included in the touch module 300 held by the module use destination. And can be used as an authentication means for authenticating the user.

Meanwhile, when one or more pieces of characteristic information available as authentication means are included in the touch characteristic information received through the touch characteristic receiving unit 126, the touch characteristic verifying unit 136 may determine that one or more characteristic information included in the touch characteristic information And the touch characteristic authenticating unit 138 can authenticate the validity of the identified characteristic information through the touch characteristic authentication value included in the authentication information stored in the storage medium 124. [ If the touch characteristic authenticating unit 138 authenticates the calculated geometrical relationship to be authenticated and at the same time validates the validity of at least one characteristic information included in the touch characteristic information, , That is, the geometric characteristic relation for the N touch points. If the touch characteristic information does not contain authenticatable characteristic information, the touch characteristic authenticating unit 138 authenticates the geometric characteristic relation for the N touch points by only authenticating the calculated authentication target geometric relationship . &Lt; / RTI &gt;

According to the first characteristic information authentication method of the present invention, when the touch characteristic information includes characteristic information including a code value recognized according to at least one of a sound recognition condition, an NFC authentication condition, and a Bluetooth recognition condition, The touch characteristic authenticating unit 138 may authenticate the validity of the code value using a touch characteristic authentication value for authenticating the code value among the touch characteristic authentication values stored in the storage medium 124. [

According to the second characteristic information authentication method of the present invention, the touch characteristic information includes characteristic information including position information recognized according to the position recognition condition, and in the process of authenticating the geometric relationship with respect to the N touch points, If the information is not used, the touch characteristic authenticating unit 138 can verify the validity of the position information by comparing the position information of the module use destination stored in the storage medium 124 with the position information.

According to the third characteristic information authentication method of the present invention, when the touch characteristic information includes characteristic information including N touch orders per touch point recognized in accordance with the sequential touch condition, Can validate the validity of the touch orders of each of the N touch points using the touch characteristic authentication value for authenticating the touch sequence among the touch characteristic authentication values stored in the storage medium 124. [

The authentication result providing unit 140 may generate the touch property authentication result including the authentication result value corresponding to the authentication result of the geometric relationship with respect to the N touch points. If the authentication result for at least one characteristic information is confirmed through the touch characteristic authenticating unit 138, the authentication result providing unit 140 determines whether the authentication result of the geometric relation for the N touch points and the characteristic information The authentication result including the authentication result obtained by combining the authentication result with the authentication result can be generated.

According to the embodiment of the present invention, when the authentication result value includes a value corresponding to the authentication success, the touch characteristic authentication result includes unique identification information for identifying the successfully authenticated touch module 300, 300) to the module usage destination (or the module usage destination identification information). Meanwhile, when providing the touch characteristic authentication result to the service providing module, the touch characteristic authentication result uniquely identifies the terminal 200 having the electrostatic touch screen 205 to which the authenticated touch module 300 is touched As shown in FIG.

The authentication result providing unit 140 may provide the generated touch property authentication result to the recognition module 100. At this time, the touch characteristic authentication result is provided to the recognition module 100 through the reverse path that received the touch characteristic information, or may be provided as a separate path formed between the recognition module 100 and the authentication module 120 May be provided to the recognition module (100). In this case, the recognition module 100 may read the authentication result value included in the touch property authentication result to determine whether the geometric property relationship for the N touch points is authentic, and if the geometric property relationship is authenticated, 200, and the authentication result value may be provided to the connection module 150 programmed in the module 200. In accordance with the execution method, unique identification information for identifying the touch module 300 that has succeeded in authentication and module usage information Information) can be further provided.

When the geometric property relationship is authenticated, the connection module 150 (or the recognition module 100) identifies the mapped proximity device 230 with the authenticated touch module 300 to the designated management module 170 And may request an access code for accessing the communication network using the short range communication identifier and the short range device 230.

According to an embodiment of the present invention, the authentication result providing unit 140 may provide the generated touch characteristic authentication result to the designated management module 170. In this case, the management module 170 may include the touch characteristic authentication result And determines whether the geometric characteristic relation for the N touch points is authenticated by reading the authentication result value from the authentication module 150. If the geometric characteristic relation is authenticated, The proximity communication ID value for identifying the short distance device 230 mapped with the touch module 300 and the access code for connecting to the communication network using the short distance device 230 may be provided.

Referring to FIG. 1, the recognition module 100 receives a touch characteristic authentication result for the geometric characteristic relationship of the N touch points from the authentication module 120, reads out the touch characteristic authentication result, When the geometric characteristic relation for the N touch points is authenticated, it is determined whether or not the geometric characteristic relation for the touch points is authenticated, and when the geometric characteristic relation for the N touch points is authenticated, The authentication result processing unit 110 processes the authentication result to be executed.

The authentication result processing unit 110 receives the touch characteristic authentication result including the authentication result value corresponding to the authentication result of the geometric characteristic relationship of the N touch points from the authentication module 120 provided with the touch characteristic information, The authentication result value of the received touch characteristic authentication result is read and it is determined whether the geometric characteristic relation for the N touch points is authenticated. If the geometric characteristic relation for the N touch points has been authenticated, the authentication result processing unit 110 transmits the authentication result value for the success of the geometric characteristic relationship authentication to the connection module 150 programmed in the terminal 200 It is possible to provide unique identification information and / or module usage destination information (or module usage destination identification information) in correspondence. The authentication result processing unit 110 may transmit the authentication result to the authenticated touch module 300 and the authenticated touch module 300 according to the success of the authentication of the geometric property relationship of the N touch points to the management module 170 specified in place of the connection module 150. [ And may request an access code for connecting to the communication network using the short range device 230 and the short range communication identification value for identifying the mapped short range device 230.

Referring to FIG. 1, the connection module 150 uses unique identification information and / or module usage destination information (or module usage destination identification information) in accordance with the success of authentication of the geometric property relationship provided from the recognition module 100 To the designated management module 170, a short distance communication identification value for identifying the short range device 230 mapped with the authenticated touch module 300 and an access code for accessing the communication network using the short range device 230 And a connection information requesting unit 152 for requesting access information. The access information requesting unit 152 may be implemented through the authentication result processing unit 110 of the recognition module 100 according to an embodiment of the present invention.

The connection information request unit 152 is interlocked with the management module 170 that manages and manages the touch module 300 and the local device 230. The connection information request unit 152 receives unique identification information And / or module usage destination information (or module usage destination identification information), and establishes the short-range communication access request information using the unique identification information succeeded in authentication and / or module usage destination information (or module usage destination identification information) And transmits the short-range communication access request information to the interlocked management module 170.

According to the embodiment of the present invention, the short-range communication access request information includes unique identification information for identifying the touch module 300 that has succeeded in authentication and / or module usage information (or module usage destination identification information) Information unique to the terminal 200 having the electrostatic touch screen 205 to which the touch module 300 is touched and / or the program 220 of the terminal 200 Lt; RTI ID = 0.0 &gt; authenticate &lt; / RTI &gt; According to an embodiment of the present invention, the local area access request information may further include user identification information for identifying a user of the terminal 200 (or the program 220).

Meanwhile, when the authentication module 120 provides the touch characteristic authentication result to the management module 170, the connection information request unit 152 transmits the short-range communication access request information to the management module 170, Even if the identification value and the access code are not requested, the management module 170 may transmit the short distance communication ID and the access code according to the successful authentication of the geometric characteristic relation for the N touch points.

Referring to FIG. 1, the management module 170 requests a local communication ID and an access code for the local device 230 mapped with the touch module 300 from the program 220 of the terminal 200 A connection request receiving unit 176 for receiving the local area communication access request information, and the management DB 174 using the unique identification information and / or the module usage information (or module usage destination identification information) included in the local area communication connection request information A connection information extracting unit 180 for extracting a local communication identification value for identifying the local device 230 mapped with the touch module 300 authenticated by the local device 230 and an access code for connecting to the communication network using the local device 230 And a connection information providing unit 182 for providing the extracted local communication identification value and an access code to the program 220 of the terminal 200. The terminal 200 transmitting the local area communication connection request information ) Or The connection request authentication unit 178 for authenticating the validity of the program 220 may be further provided. Meanwhile, when the touch module authentication result is provided from the authentication module 120 to the management module 170, the management module 170 obtains the touch attribute authentication result from the authentication module 120, The touch module 300 receives the touch characteristic authentication result and determines whether the geometric characteristic relationship with respect to the N touch points is authenticated. If the authentication is successful, the contact information extraction unit 180 extracts, And an authentication result processing unit 110 for processing to extract a local communication identification value for identifying the device 230 and an access code for connecting to the communication network using the local device 230.

The touch module 300 is connected to the touch module 300 successfully authenticated in the program 220 (e.g., the recognition module 100 or the connection module 150) of the touched terminal 200, The connection request receiving unit 176 receives the short distance communication access request information requesting the short distance communication identification value and the access code from the program 220 of the terminal 200, ) And a short-range communication access request information requesting an access code. The short-range communication access request information includes unique identification information for identifying the touch module 300 that has succeeded in authentication and / or module usage destination information (or module usage destination identification information) having the successfully authenticated touch module 300, The unique information identifying the terminal 200 having the electrostatic touch screen 205 with which the touch module 300 is touched and / or the unique information identifying the application 220 for authenticating the program 220 of the terminal 200 Value. &Lt; / RTI &gt; According to an embodiment of the present invention, the local area access request information may further include user identification information for identifying a user of the terminal 200 (or the program 220).

According to the embodiment of the present invention, when the local area communication access request information is received through the connection request receiving unit 176, the connection request authentication unit 178 transmits the local area communication access request information to the terminal 200, The validity of the program 220 of the terminal 200 or the validity of the program 220 provided in the terminal 200 may be performed.

According to the first connection request authentication method of the present invention, the connection request authentication unit 178 (or the management DB 174) is connected to the terminal 200 (or the terminal 200 having the capacitive touch screen 205) The terminal 200 identification information of the terminal 200 that is included in the local area communication access request information based on the terminal 200 information is read out The terminal 200 transmitting the local area access request information can authenticate the terminal 200 having the touch screen module 205 with the touch module 300.

According to the second connection request authentication method of the present invention, the connection request authentication unit 178 (or the management DB 174) can recognize the application among the applications installed in the terminal 200 having the capacitive touch screen 205 And program information for authenticating the program 220 having the module 100 and / or the connection module 150, and the connection request authentication unit 178 identifies the local area communication access request information The program 220 of the terminal 200 that has transmitted the short-range communication access request information verifies the application authentication value included in the recognition module 100 and / or the program 220 having the connection module 150 You can authenticate.

The terminal 200 or the program 220 that receives the local area connection request information through the connection request receiver 176 and / or transmits the local area connection request information through the connection request authentication unit 178, The connection information extracting unit 180 extracts the connection information from the management DB 174 using the unique identification information included in the local area communication connection request information and / or the module usage destination information (or module usage destination identification information) A short distance communication identification value for identifying the short range device 230 mapped to the touch module 300 authenticated by the short range device 230 and an access code for accessing the communication network using the short range device 230.

Meanwhile, when the touch module authentication result is provided from the authentication module 120 to the management module 170, the authentication result processing module 110 receives the touch characteristic authentication result from the authentication module 120, Receives the touch characteristic authentication result, and determines whether the geometric characteristic relation for the N touch points is authenticated. The authentication result processing unit 110 transmits the authentication result to the local device 230 mapped with the authenticated touch module 300 through the connection information extraction unit 180. [ And the access information extracting unit 180 extracts the unique identification information included in the touch characteristic authentication result and the unique identification information included in the touch attribute authentication result, A short distance communication identification value for identifying the short range device 230 mapped with the touch module 300 authenticated from the management DB 174 using the module usage destination information (or the module usage destination identification information) 230) to extract the access code for connection to the communication network.

When the local communication ID and the access code for identifying the local device 230 mapped with the touch module 300 authenticated through the connection information extracting unit 180 are extracted, the connection information providing unit 182 extracts And the local communication connection information including the local communication identification value and the access code is formed and the authenticated touch module 300 is connected to the program 220 of the terminal 200 having the electrostatic touch screen 205 And provides the short-range communication access information. According to an embodiment of the present invention, the short-range communication access information may be provided in a touch characteristic authentication result provided to the program 220 of the terminal 200.

According to another embodiment of the present invention, the terminal 200 having the electrostatic touch screen 205 with which the authenticated touch module 300 is touched may be connected to the access device managing the short range device 230 through the browser Or a connection server). In this case, the connection information providing unit 182 transmits the connection information to the connection device (or connection server) to which the terminal 200 having the electrostatic touch screen 205 with the authenticated touch module 300 touched, By providing the local communication identification value and the access code and / or by providing the unique information of the terminal 200 having the electrostatic touch screen 205 with which the authenticated touch module 300 is touched, Or a connection server) may allow the terminal 200 having the electrostatic touch screen 205 to which the authenticated touch module 300 is touched to be permitted to access the communication network through the short range device 230.

Referring to FIG. 1, the connection module 150 includes a short-range communication identifier for identifying the short-range unit 230 mapped to the touch module 300 authenticated by the management module 170, (M &gt; = 1) short range devices 230 recognized through the short distance communication module 209 of the terminal 200, and an access information receiving unit 154 for receiving an access code for accessing a communication network using the short- A local area communication confirming unit 156 for confirming the specific local area network 230 corresponding to the local area communication ID and a local area communication unit for controlling the local area communication using the access code, And a control unit 158.

The management module 170 may include a short range communication identification value for identifying the short range device 230 mapped to the authenticated touch module 300 and an access code for accessing the communication network using the short range device 230 The connection information receiving unit 154 receives a local communication ID value for identifying the local device 230 mapped to the touch module 300 authenticated by the management module 170 and the local communication ID value for identifying the short- 230 to access the communication network.

The short range communication module 209 of the terminal 200 may be connected to the proximity M (short range) terminal at a point in time before, during, or after the touch module 300 is touched on the capacitive touch screen 205 of the terminal 200. [ M proximity devices 230 are exchanged with the nearby devices 230 to maintain the state of detecting the M short range devices 230 having possibility of communication network connection, And is periodically or arbitrarily updated in accordance with radio frequency signal exchange.

Before or after the local communication connection information including the local communication ID and the access code of the local device 230 mapped with the touch module 300 authenticated through the connection information receiving unit 154 is received, , The short-range communication confirmation unit 156 confirms M short-distance communication identification values corresponding to the M short-range devices 230 detected through exchange of the radio frequency signal of the short-range communication module 209. [

When the local area communication access information including the local area communication identification value and the access code of the local area network 230 mapped with the touch module 300 authenticated through the connection information receiving unit 154 is received, Corresponding to the short-range communication ID included in the short-range communication access information among the M short-range communication ID values corresponding to the M short-range devices 230 detected through exchange of the radio frequency signal of the short- Confirm the specific local communication identification value. Preferably, the short-distance communication confirmation unit 156 confirms a radio frequency signal intensity of the specific short range device 230 corresponding to the short-range communication ID mapped to the authenticated touch module 300, (For example, a signal strength capable of connecting to a communication network or a setting value of a signal strength capable of high-speed communication than a communication network connection using the wireless network communication module 210).

According to another embodiment of the present invention, the local area communication confirming unit 156 confirms that the M short distance units 230 corresponding to the M short distance communication IDs detected through the radio frequency signal exchange of the short distance communication module 209, It is possible to identify m (1? M? M) short range communication identifiers whose signal strength of the radio frequency signal with the short range communication module 209 is equal to or greater than a preset reference signal strength. In this case, if the local communication access information including the local communication ID and the access code of the local device 230 mapped with the touch module 300 authenticated through the connection information receiving unit 154 is received, Which is included in the short-range communication access information, among the m short-range communication IDs corresponding to the m short-range devices 230 exchanging the radio frequency signal of the radio signal frequency equal to or higher than a preset reference signal strength, It is possible to confirm the specific local communication identification value corresponding to the communication identification value.

The local area communication module 160 exchanges radio frequency signals of a predetermined reference signal strength or more with the local area communication module 209 of the terminal 200 through the local area communication validation unit 156, The local area communication controller 158 controls the local area network 230 to use the access code included in the local area communication access information, Thereby controlling the connection to be activated.

According to the first short distance communication activation method of the present invention, before the plurality of touch points are multi-touch recognized on the electrostatic touch screen 205, the terminal 200 accesses the communication network using the wireless network communication module 210 In this case, the local communication control unit 158 switches the communication network connection using the wireless network communication module 210 to the communication network connection using the specific local area 230 mapped with the authenticated touch module 300 .

According to the second short distance communication activation method of the present invention, before the plurality of touch points are multi-touch recognized on the electrostatic touch screen 205, the terminal 200 transmits the M short- The local communication control unit 158 may be connected to the communication network through the local device 230 other than the local device 230 mapped with the authenticated touch module 300 among the devices 230. In this case, The communication network connection using the other short range device 230 can be switched to the communication network connection using the specific short range device 230 mapped with the authenticated touch module 300. [

According to the second short distance communication activation method of the present invention, before the plurality of touch points are multi-touch recognized on the electrostatic touch screen 205, the terminal 200 transmits the M short- The local communication controller 158 may be connected to the communication network through the specific local device 230 mapped with the authenticated touch module 300 of the device 230. In this case, It is possible to maintain the communication network connection using the specific short range device 230 mapped with the network.

According to an embodiment of the present invention, the local area communication controller 158 provides the access code to the specific local area network 230 corresponding to the local area communication ID value or uses the specific local area network 230 and the access code The terminal 200 can be automatically connected to the communication network through the specific local device 230 mapped with the touch module 300 by performing the connection authentication procedure.

Or the close range communication control unit 158 controls to display an access code input interface for the specific short range device 230 corresponding to the short range communication identification value on the terminal 200 And the access code is automatically input to the access code input interface to semiautomatically connect the terminal 200 to the communication network through the specific short range device 230 mapped with the touch module 300.

Or the local area communication controller 158 displays an access code for the specific local area device 230 corresponding to the local communication ID on the terminal 200 to allow the user to select The terminal 200 may be manually connected to the communication network through the specific short range device 230 by manually inputting the access code shown in the access code input interface for the specific short range device 230.

2 is a functional block diagram of a terminal 200 according to an embodiment of the present invention.

2 is a block diagram of an electrostatic touchscreen 205 according to an embodiment of the present invention. Referring to FIG. 2, the electrostatic touch screen 205 includes a recognition module 100 for recognizing a touch characteristic of a touched touch point, The authentication module 120 and / or the authenticated touch module 300, which are mapped with the touch characteristics of the touch module 300 manufactured by disposing the touch units 305 in a designed geometric relation, And a connection module 150 for controlling the connection of the communication network using the communication module 230. The present invention is applicable to a terminal 200 having a communication module 150, / RTI &gt; and / or &lt; / RTI &gt; can be used to derive various implementations of the functional configuration of the terminal 200 (e.g., omitting some components, or refining or aggregating the implementation) Is made, including any exemplary method, to which the technical feature that is not limited to the exemplary method shown in the figure 2. 2 for the sake of convenience, FIG. 2 illustrates an embodiment of at least one wireless terminal of various smart phones, various tablet PCs, PDAs, and various mobile phones having the electrostatic touch screen 205 as an embodiment of the terminal 200 But it is to be understood that the terminal 200 of the present invention is not limited to the wireless terminal of the embodiment of Figure 2 and that any device with an electrostatic touchscreen 205 is possible Come on.

Referring to FIG. 2, the terminal 200 includes a control unit 201, a memory unit 215, a screen output unit 203, a touch input unit 204, and at least one communication module. A key input unit 202, a sound output unit 206, a sound input unit 207, an NFC module 212, a Bluetooth module 211, a position measurement module 213 and a USIM reader unit 214, And a battery 208 for the battery. The communication module may include a short range communication module 209 and a wireless network communication module 210.

The controller 201 is a collective term for controlling the operation of the terminal 200. The control unit 201 includes at least one processor and an execution memory in hardware, and is connected to each component of the terminal 200 through a bus (BUS). The control unit 201 loads the program code provided in the memory unit 215 of the terminal 200 into the execution memory through the processor and calculates the result and transmits the result to the respective units through the bus, And controls the operation of the terminal 200, and receives data necessary for calculation from each component as needed.

The memory unit 215 is a general term of the nonvolatile memory included in the terminal 200 and stores at least one program code executed through the control unit 201 and at least one data set used by the program code Respectively. The memory unit 215 stores a program 220 implemented in the form of a program code. The program 220 is loaded into the controller 201 as it is driven or activated. Hereinafter, the functional configuration of the program 220 loaded into the control unit 201 will be described in the control unit 201 for convenience.

The key input unit 202 includes at least one of a key button, a keypad, and a keyboard provided in the terminal 200. The key input unit 202 may generate a key event for driving or activating the program 220. Alternatively, the key input unit 202 may generate a key event for activating the electrostatic touch screen 205 so that the module touch can be performed.

The screen output unit 203 includes a display (for example, an LCD (Liquid Crystal Display)) provided in the terminal 200 and a driving module for driving the display in the terminal 200. The screen output unit 203 outputs an execution screen or an authentication result of the program 220.

The touch input unit 204 includes a transparent electrostatic touch panel that shares a coordinate plane with the screen output unit 203 and a driving module that drives the electrostatic touch panel within the terminal 200 . The electrostatic touch screen 205 is implemented by combining the transparent electrostatic touch panel and the display of the screen output unit 203.

The sound output unit 206 includes a speaker provided in the terminal 200 and a drive module for driving the speaker in the terminal 200. The sound input unit 207 is connected to the terminal 200 And a driving module for driving the microphone in the terminal 200. The microcomputer 200 includes a microcomputer (not shown) When the touch module 300 has a function of outputting a sound signal, the sound input unit 207 receives the sound signal and transmits the encoded data to the program 220.

The wireless network communication module 210 and the short range communication module 209 are communication resources provided in the terminal 200. The wireless network communication module 210 transmits the communication resources through the base station of the communication company to which the terminal 200 is subscribed And the short distance communication module 209 connects to the communication network through a short range device 230 (e.g., a wireless AP (Access Point), a wireless repeater, etc.) located in a short distance. Preferably, the short-range communication module 209 can access the communication network through a short-range device 230 installed near the base station based on IEEE 802.11 related standards using Wi-Fi. Meanwhile, the short-range communication module 209 can access the communication network through the short-range device 230 installed near the base station based on the Bluetooth-related standard. In this case, the Bluetooth module 211 transmits the short- ). &Lt; / RTI &gt;

The NFC module 212 transmits and receives a radio frequency signal at a near distance of about 10 cm according to the NFC standard of 13.56 Mz frequency band. If the touch module 300 includes an NFC chip, the NFC module 212 receives an NFC-based radio frequency signal transmitted through the NFC chip of the touch module 300, And transmit the encoded data to the program 220.

The Bluetooth module 211 transmits / receives a radio frequency signal within a distance of 10 m according to the Bluetooth communication standard. Preferably, the Bluetooth communication standard transmits (or broadcasts) a Bluetooth-based radio frequency signal without pairing, or receives a Bluetooth-based radio frequency signal broadcast without pairing, based on a specification after the Bluetooth 4.0 (BLE) , But the present invention is not limited thereto, and it is possible to transmit and receive a Bluetooth-based radio frequency signal according to a specification prior to Bluetooth 4.0. If the touch module 300 is provided with a Bluetooth chip (for example, Bluetooth chip of Bluetooth 4.0 or later), the Bluetooth module 211 transmits (or broadcasts without pairing) the Bluetooth module of the touch module 300 via the Bluetooth chip, Based radio frequency signal, and may transmit the encoded data to the Bluetooth-based radio frequency signal to the program 220.

The position measurement module 213 includes a GPS module that measures a moving position of the terminal 200. The position measurement module 213 determines the position information indicating the position of the terminal 200 at the time when the touch module 300 having N touch units 305 is touched on the electrostatic touch screen 205 To the program 220.

According to the present invention, the program 220 may be downloaded to the terminal 200 and installed in the terminal 200 through a designated program providing server (e.g., an Apple App Store, etc.) The program 220 is omitted in the case where the program 220 is installed in the factory. The program 220 may be manually activated or activated by the user, or may be activated or activated by watering the push notification. Hereinafter, the functional part of the program 220 implemented in the form of a program code on the program 220 and loaded into the control part 201 for functionalization will be described in the control part 201, .

Referring to FIG. 2, a program 220 of the terminal 200 includes a recognition module 100 embedded in the recognition module 100 shown in FIG. 1 or implemented as a program in the terminal 200, When the touch module 300 having N touch units 305 is touched to the electrostatic touch screen 205 through the recognition module 100, the module using the touch module 300 So as to recognize the touch characteristic corresponding to the touch. Meanwhile, the recognition module 100 may be implemented in the form of a script code of an access page provided to the terminal 200 or a program 220 code associated with the access page.

Meanwhile, the program 220 of the terminal 200 may include a touch function for the N touch points recognized through the recognition module 100 in cooperation with the authentication module 120 implemented on the server 115 of FIG. 1, It is possible to request the authentication of N touch units 305 that are capable of electrostatic touch and match the touch characteristics of the touch module 300 manufactured by arranging the N touch units 305 in a designed geometric relationship.

According to another embodiment of the present invention, the program 220 of the terminal 200 may embed the authentication module 120 shown in FIG. 1 or may embed at least a part of the configuration of the authentication module 120 Or may operate in conjunction with the authentication module 120 implemented by being programmed in the terminal 200, and thus the present invention is not limited thereto.

Referring to FIG. 2, a program 220 of the terminal 200 includes a connection module 150 in FIG. 1 or a recognition module 100 implemented in a form programmed in the terminal 200 And the touch characteristics of the N touch points recognized through the recognition module 100 are arranged in a designed geometric relationship with the N touch parts 305 capable of electrostatically touching through the authentication module 120 When the authentication module 300 is authenticated to match the touch characteristics of the touch module 300, the authenticated touch module 300 is connected to the local module 300 through the management module 170 implemented through the server 115 of FIG. The short distance communication identification value and the access code from the management module 170 and the short distance communication identification value and the access code from the management module 170, The connection module 150, (230) corresponding to the short-range communication identification value among the M short-range devices (230) detected through the short-range communication module (209) of the terminal (200) And controls the connection of the communication network using the specific short range device 230 to be activated.

According to another embodiment of the present invention, the connection module 150 may be implemented on an access device (or connection server) that provides an access page to the browser of the terminal 200, No.

The management module 170 is preferably implemented through the server 115 of FIG. 1 or a separate server. If the program 220 of the terminal 200 is an application provided by a module using the touch module 300, the management module 170 may be embedded in the program 220 of the terminal 200 , Or may be programmed and implemented in the terminal 200.

3 illustrates a touch module 300 according to an embodiment of the present invention.

3 is a perspective view of an electrostatic touch screen according to an exemplary embodiment of the present invention. Referring to FIG. 3, the electrostatic touch screen 205 includes a touch unit 305 including a static induction- The touch module 300 may be manufactured by using the touch module 300 having the film 315. The touch module 300 may be formed by using the touch module 300 with reference to FIGS. It should be understood that the various embodiments of the module 300 may be deduced, but the present invention includes all of the above-described embodiments, and the technical features thereof are not limited to those of the embodiment shown in FIG.

Referring to FIG. 3, the touch module 300 includes N touch units 305 including electrostatic change induction materials for the electrostatic touch screen 205, and N touch units 305, And a frame portion 310 and / or a touch film 315 arranged in a geometric relationship.

Preferably, FIG. 3 illustrates an example in which a plurality (e.g., five) of touch portions 305 comprising electrostatic change inducing materials are arranged in any unique geometric relationship (i.e., different geometric relationships for each touch module 300) 1 shows an embodiment of one touch module 300. [ However, the embodiment of the touch module 300 of the present invention is not limited to the embodiment shown in FIG. 3, and various embodiments (for example, N touch parts 305 in the form of a tetragonal lattice structure) An embodiment in which a plurality of touch portions 305 are arranged in a geometric relationship, an embodiment in which N touch portions 305 are arranged in a geometrical relationship of a hexagonal honeycomb-shaped lattice structure, and the like), and the present invention can be applied to all such deformable embodiments As a scope of the present invention.

The touch unit 305 collectively refers to a component that induces a change in electrostatic force to the electrostatic touch screen 205 among the components of the touch module 300. The touch unit 300 includes a plurality of touch units 305 And is disposed on the frame portion 310 and / or the touch film 315 in a designed geometrical relationship in the case of manufacturing the touch panel.

The frame unit 310 is a collective term for electrically connecting the touch unit 305 to a human body which holds the touch unit 305 by hand and holds the touch module 300 by hand, (Or touches) some (or all) of the plurality of touch units 305 when the touch panel unit 300 is manufactured by providing the plurality of touch units 305.

The touch film 315 is formed of a material for fixing (or contacting) the touch part 305 and transmitting the electrostatic change by the touch part 305 to the electrostatic touch screen 205 when the electrostatic type touch is performed A touch part 305 of some or all of the plurality of touch parts 305 may be disposed and fixed to the touch module 300 when the touch module 300 includes a plurality of touch parts 305. [ Or contact).

The touch module 300 may be formed in a paint form by connecting a handle to the frame 310, or may be mounted on a paint having the handle. Alternatively, the touch module 300 may be mounted on a card-shaped object or in the form of a card by forming the thickness of the touch portion 305, the frame portion 310 and / or the touch film 315 to be thin. The shape of the object to which the touch module 300 is attached or the object including the touch module 300 may be variously modified or applied according to the intention of the person skilled in the art or the field of service so that the present invention is not limited thereto I clarify it clearly.

According to the first touch portion embodiment of the present invention, the touch portion 305 may be manufactured using a conductive material having at least one rubber elastic property of a conductive rubber material, a conductive plastic material, or a conductive silicon material, (For example, a measured resistance value between a touching portion and a portion electrically connected to the human body is 300? Or less) and a pre-designed hardness (for example, 80 or less based on a Shore A hardness meter). For example, when the touch portion 305 of the first touch portion embodiment is made of a conductive rubber material, the conductive rubber may be prepared by mixing conductive rubber (for example, conductive carbon or metal powder) and rubber at a calculated ratio And the hardness and the electrical resistance can be determined according to the compounding ratio of the rubber and the conductive carbon.

According to the second touch unit of the present invention, the touch unit 305 may be manufactured using a metallic material, and the metallic material may be formed of a material having a high electrical conductivity such as gold, silver, copper, And the measured resistance value between the portion and the portion electrically connected to the human body is less than 1 ohm). However, the metallic material may be provided in the touch module 300 in a form that is connected to other static electricity change inducing materials that can be shrunk and restored because of difficulty in shrinking and restoring.

According to the third touch part of the present invention, the touch part 305 can be manufactured by plating a non-conductive material with a metallic material. Here, the nonconductive material is preferably made of a shrinkable and restorable material. If the nonconductive material is not shrinkable or restorable, the touch module 300 may be connected to other electrostatic induction-inducing materials that can be shrunk and restored.

According to the fourth touch part of the present invention, the touch part 305 can be manufactured by forming a metal film of a metallic material on the outside of a cushioning material of an elastic material which can be shrunk and restored. The cushioning material may be formed of a foamable material such as sponge or polyurethane. The metal film may be formed by plating a metallic material on the buffer material and / or by yarn or cotton on a metallic material. For example, the touch portion 305 formed by forming the metal film of the buffer material may have a structure of an EMI shielding gasket.

According to the fifth touch part of the present invention, the touch part 305 can be manufactured using a carbon fiber material including a carbon nanotube material or a single wall carbon nanotube material, For example, 80 or less on a Shore A hardness scale).

According to the sixth touch part of the present invention, the touch part 305 can be manufactured using a dielectric material including a solid dielectric material or a liquid dielectric material and a container for housing the dielectric material. The dielectric material is a general term of a material in which polarization is generated by a voltage or an electric field to generate a bound charge on a surface. The dielectric material is polarized by a voltage or an electric field applied to the surface of the touch screen 205, And a ferroelectric material having a permittivity to generate a confinement charge (for example, barium titanate or rhodium salt).

According to the seventh touch unit embodiment of the present invention, the touch unit 305 may include a combination of the first to sixth touch unit embodiments (e.g., a metallic material of the second touch unit embodiment and a fourth touch unit And a material having a metal film of a metallic material formed on the outside of a cushioning material of a flexible and resilient material.

In the meantime, the touch portion of the present invention is not limited to the first to seventh touch portions, and may be formed of any material that induces the electrostatic change of the electrostatic touch screen 205, It is clear that it belongs to the scope of the right.

The touch unit 305 manufactured in the first to seventh touch unit embodiments includes a touch recognition surface having an electrostatic transition inducing area calculated to induce electrostatic change in the electrostatic touch screen 205. Preferably, the touch recognition surface of the touch portion 305 is formed in a circular shape having a diameter of 3 mm to 7 mm or an elliptic shape or a polygonal shape having an electrostatic change induction area corresponding to a circle area having a diameter of 3 mm to 7 mm .

According to an embodiment of the present invention, it is preferable that the N touch units 305 provided in the touch module 300 have uniqueness to form unique inherent geometrical relations for each touch module 300. [ In addition to the geometric relationship formed by the N touch units 305, the touch module 300 may be provided with an identification and / or authentication characteristic, or the touch module 300 (or the touch module 300 may be mounted When the N touch units 305 are provided with the authentication means associated with the geometric relationship of the N touch units 305, the geometric relationship formed by the N touch units 305 The uniqueness of a relationship does not necessarily have to be respected.

Meanwhile, since the area of the touch module 300 where the touch part 305 is disposed is finite and the N touch parts 305 disposed in the area have the contact area of the calculated size, The number of cases in which the N touch portions 305 can be arranged in different geometric relationships in the region is limited. According to the present invention, in the course of designing the position where the N touch parts 305 are disposed in the touch module 300, the maximum number of N touch parts 305 arranged in a finite area in different geometric relationships The minimum distinction recognition distance is set to derive the number of cases.

The minimum distinction recognition distance may be set such that when two or more touch units 305 are touched to the electrostatic touch screen 205, the touch points by the two or more touch units 305 on the corresponding capacitive touch screen 205 are different from each other, And the minimum distance that can be recognized and recognized. For example, if the distance between the two touch points of the electrostatic touch screen 205 is less than 7 mm, the two touch points are recognized as one touch point. If the distance is more than 7.5 mm, If different touch points are discriminated and recognized, it is preferable that the minimum distinction recognition distance includes 7.5 mm. On the other hand, if there are two or more capacitive touch screens 205 corresponding to the touch module 300, the minimum distinguishable distance distinguishes two touch points that are multi-touched in two or more capacitive touch screens 205 The larger the separation distance, the smaller the recognizable minimum separation distance.

According to the method of the present invention, the minimum distinction recognition distance is a value that correlates with the contact area of the touch portion 305. That is, the minimum distinction recognition distance may be a value set in the electrostatic touch screen 205, but is a value experimentally obtained using an assumed threshold based on an allowable error. For example, even in the case of the same electrostatic touch screen 205, the minimum discrimination recognition in the case where the contact area of the touch portion 305 is an area of 25 mm 2 (for example, a contact surface produced in the form of a square of 5 mm * 5 mm) The minimum distinction recognition distance in the case where the distance and the contact area of the touch portion 305 are larger than 38 mm 2 (for example, a contact surface produced in a circular shape with a diameter of 7 mm) may be different. Therefore, it is preferable that the minimum distinction recognition distance is set based on the experimental data of the plurality of capacitive touch screens 205 based on the contact area of the touch unit 305. At this time, the minimum distinction recognition distance is preferably set as a distance between an outline and an outline of a graphic object which realizes a contact surface of the touch unit 305. However, the present invention is not limited thereto, And may be set to the distance between the center portion and the center portion of the contact surface.

According to the present invention, the different geometric relationships formed by the N touch units 305 included in each touch module 300 of the same type can be distinguished from each other even if they touch the capacitive touch screen 205 It must have the identifiable identity. The operating system of the apparatus having the electrostatic touchscreen 205 calculates the touch point as the touch point, and the touch surface of the touch screen 205 is touch point It is calculated that the movement of the center point must be moved. Therefore, a minimum identification distance is set so that the N touch portions 305 having different geometric relationships with the touch module 300 are identified in different geometric relationships even when touched on the electrostatic touch screen 205.

The minimum identification distances are designed to have different geometric relationships so that the N touch parts 305 disposed on the touch module 300 are mutually different from each other in order to be distinguished in a different geometric relationship even when touched on the electrostatic touch screen 205 And a distance at which the N touch parts 305 provided in the other touch module 300 should be apart. For example, when the touch surface of the same area is moved by 3.5 mm or more and touched the capacitive touch screen 205, the operating system of the apparatus having the capacitive touch screen 205 moves the touch surfaces moved by 3.5 mm or more If recognized as a touch point, the minimum identification distance may be set to a value greater than or equal to 3.5 mm. Preferably, the minimum identification distance includes a center distance of the comparison target touch unit 305 included in another touch module 300 of the same type.

According to an embodiment of the present invention, the minimum identification distance may be a value set on the capacitive touch screen 205, but is a value obtained experimentally using an assumed threshold based on an allowable error. Meanwhile, if there are two or more capacitive touch screens 205 corresponding to the touch module 300, the minimum identification distance may be set so that the minimum movement distance of the touch surface in the two or more capacitive touch screens 205 can be detected And may be set to a larger spacing distance among the minimum spacing distances.

According to the present invention, even if the N touch units 305 provided in the touch module 300 are touched without touching the specific direction or specific area of the electrostatic touch screen 205, If the N touch units 305 are touched by the electrostatic touch screen 205 and N touch points are recognized, the geometric relationship formed by the N touch points is determined according to the designed geometric relationship and the designated tolerance range Lt; RTI ID = 0.0 &gt; authentic &lt; / RTI &gt;

The N touch units 305 may be touched to the N touch points recognized by touching the N touch units 305 for the readability of the N touch units 305 included in the touch module 300 of the present invention, The coordinate rotation must be accompanied by the coordinate rotation, and the geometric relationship to the N touch points should not be changed or distorted by the coordinate rotation. In order to do this, at least one touch point, which is a reference of the geometric relationship reading or the coordinate rotation among the N touch points, must be identified by using the N touch points touched on the electrostatic touch screen 205. However, in a situation where the touch module 300 is arranged to be touched in a specific direction of the electrostatic touch screen 205 so as to be touched, or in a state where it is not predetermined to touch a specific area, among the N touch points arbitrarily and randomly selected, It is technically very difficult to specify the touch point always at the same reference point.

Even when touching the N touch units 305 provided in the touch module 300 to any direction of the electrostatic touch screen 205, at least one reference point designated in advance among the N touch points One or more general touch units 305 that are not the reference points among the N touch units 305 provided in the touch module 300 may be provided in the touch module 300 under the same condition, The touch module 305 may be provided in the touch module 300 under a different condition from the other general touch units 305 so that at least one touch point provided in another condition among the N touch points touched to the capacitive touch screen 205 Is detected and specified as a reference point. Here, the reference point specifying condition is a condition for designing different conditions for the condition including the designated touch portion 305 as the reference point and the condition for providing the remaining general touch portion 305, and / or the geometric (For example, a condition for designing and manufacturing the shape or area of the designated touch portion 305 and the general touch portion 305) different from the geometric characteristics of other general touch portions 305 .

4 is a side sectional view of a touch module 300 according to an embodiment of the present invention.

4 is a perspective view of an electrostatic touch screen according to an exemplary embodiment of the present invention. Referring to FIG. 4, the electrostatic touch screen 205 includes a touch unit 305 including a static induction- Sectional view of a touch module 300 fabricated with a membrane 315. It should be understood by those skilled in the art that reference is made to and / It is to be understood that the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention.

4, the touch module 300 includes N electrostatic touchable touch units 305 on the electrostatic touch screen 205, and electrostatic changes caused by the touch units 305, A touch film 315 which is made of a material transmitting to the touch screen 205 and which arranges and fixes the N touch units 305 in a designed geometrical relationship, And a frame part 310 contacting the N touch parts 305 fixed to the housing 310. The housing part 320 fixing the touch film 315 and accommodating the touch part 305 Respectively. Meanwhile, a protective film 325 may be further provided on the outer side of the touch film 315 of the touch module 300 shown in FIG. 4 (a) to absorb the amount of impact generated during the electrostatic touch. Although not shown in FIG. 4A for the sake of simplicity, the touch film 315 includes N pieces of embossed grooves for arranging the N touch portions 305 and the (D) or (E) The embossing plate 330 may be further provided. The upper end of the frame part 310 may further include a grip part that is in electrical contact with a human body.

Referring to FIG. 4 (b), the touch module 300 includes N touch units 305 capable of electrostatically touching the capacitive touch screen 205, and N touch units 305, The frame unit 310 includes a frame unit 310 for fixing and fixing the electrostatic touch screen unit 205 and an electrostatic touch screen unit 205 for transmitting the electrostatic change by the touch unit 305 to the electrostatic touch screen unit 205, And a touching film 315 contacting the N touching portions 305 arranged and fixed to the frame portion 310 by a pressing force. The touching portion 315 fixes the touching film 315, And a housing part 320 for accommodating the housing. On the other hand, a protective layer 325 made of a material capable of absorbing an impact generated during electrostatic touch may be further provided on the outside of the touch film 315 provided in the touch module 300 of FIG. 4 (B). Although not shown in FIG. 4A for the sake of simplicity, the touch film 315 includes N pieces of embossed grooves for arranging the N touch portions 305 and the (D) or (E) The embossing plate 330 may be further provided. The upper end of the frame part 310 may further include a grip part that is in electrical contact with a human body.

Referring to FIG. 4, the touch module 300 includes N touch units 305 capable of electrostatically touching the electrostatic touch screen 205, and a plurality of N touch units 305 A frame unit 310 for fixing the unit 305 to the electrostatic touch screen 205 and an electrostatic touch screen 205 for transmitting the electrostatic change by the touch unit 305 to the electrostatic touch screen 205, And a touching portion 315 for disposing and fixing the touching portion 305 of the touching portion 315. The touching portion 315 further includes a housing portion 320 for holding the touching portion 305 and accommodating the touching portion 305 . A part of the touching part 305 fixed to the frame part 310 by the pressing force applied to the frame part 310 during the electrostatic type touches the touching film 315 and contacts the touching part 315 A part of the touching portions 305 which are fixed in place are brought into contact with the frame portion 310 so that the N touching portions 305 form a designed geometric relationship. On the other hand, a protective layer 325 made of a material capable of absorbing an impact generated during electrostatic touch may be further provided on the outside of the touch film 315 provided in the touch module 300 of FIG. 4 (B). Although not shown in FIG. 4A for the sake of simplicity, the touch film 315 includes N pieces of embossed grooves for arranging the N touch portions 305 and the (D) or (E) The embossing plate 330 may be further provided. The upper end of the frame part 310 may further include a grip part that is in electrical contact with a human body.

Referring to FIG. 4, the touch module 300 includes a frame unit 310, N touch units 305, and a touch unit 300 shown in FIGS. 4 (a), 4 (b), and 4 The touch module 335 may be fabricated by stacking the film 315 and the touch module 335 may be housed in the housing 320 to manufacture the touch module 300. [ The touch unit 335 may further include an embedded plate 330 having N embedded grooves for arranging the dogs 305 in a designed geometrical relationship. Meanwhile, the touch module 300 may be used as the touch module 300 without the housing part 320 as shown in FIG. 4 (e). If the thickness of the touch unit 335 shown in FIG. 4 (e) is made thin (for example, about 1 mm), the card-shaped touch module 300 can be manufactured.

4, the touch module 300 includes N touch units 305 without the touch film 315 shown in (a), (b), and (c) of FIG. And the N touch units 305 fixedly mounted on the frame unit 310 are exposed to the outside. The touch module 300 may include the frame unit 310 and the touch unit 305 without the housing unit 320 as shown in FIG.

5 is a diagram illustrating a process of registering authentication information for the touch module 300 according to an embodiment of the present invention.

5 shows a process of registering and storing authentication information including design geometrical relationships and errors in N touch units 305 provided in the touch module 300 in the authentication module 120 Those skilled in the art will be able to refer to and / or modify the FIG. 5 to understand the various ways of implementing the authentication information registration process (e.g., some steps 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.

Referring to FIG. 5, the authentication module 120 identifies a design geometric relationship with respect to N touch units 305 to be disposed in the touch module 300 in designing the touch module 300 (for example, (For example, registration from a device on the side of the manufacturer) or unique identification information for uniquely identifying (or uniquely identifying the geometric relationship in the design) the touch module 300 to be designed and manufactured (500), the authentication information and the unique identification information of the touch module 300 to be designed and manufactured are mapped and held (505). Preferably, the design geometric relationship may include a design error.

Meanwhile, if the actual measurement verification of the geometric relationship in the design is performed in the process of manufacturing the designed touch module 300, the authentication module 120 transmits the design-created touch to the designated electrostatic capacitive touch screen 205 (For example, the test electrostatic touch screen 205 (for example, the test electrostatic touch screen 205 (see FIG. 5)) for confirming the actual measurement geometry relationship in which the N touch units 305 of the module 300 are repeatedly touched a predetermined number of times or more, (510), and after confirming the geometric relationship in the design mapped with the unique identification information, iteratively compares the actual measurement geometric relationship with the design geometric relation more than the specified number of times to determine the actual measurement geometric relationship (515). On the other hand, if the actual measurement verification is not performed, Based authentication module 120 may perform the process of generating the authentication information includes a geometric relationship, on the design.

If the actual measurement geometric relationship is out of tolerance of the geometric relationship in the design over the specified number of times during repeatedly comparing the actual measurement geometric relationship with the geometric relationship in the design, the authentication module 120 determines that the touch module 300 (520) or perform a procedure of re-manufacturing the touch module (300) (520).

On the other hand, if the actual geometric relationship is within the error tolerance of the geometric relationship in the design, the authentication module 120 identifies (525) the design geometric relationship on which the actual geometric verification was performed, (530). Then, the authentication information of the touch module 300 is mapped to the unique identification information and stored in the storage medium 124 (545).

According to an embodiment of the present invention, the authentication module 120 identifies (525) a design geometric relationship and a design tolerance of the touch module 300, and includes the geometric relationship between the design and the design tolerance (530). &Lt; / RTI &gt; Meanwhile, in the actual measurement verification process, the design tolerance may be corrected according to the embodiment. In this case, the authentication module 120 may calculate the geometrical relationship between the design of the touch module 300 and the calibration (525) the generated tolerance, and generate authentication information including the geometric relationship and the corrected tolerance in the design (530).

On the other hand, there exists a touch characteristic to be generated at the time of touching the designed touch module 300 to the electrostatic touch screen 205 and uses it as the identification means and / or authentication means for the touch module 300 The authentication module 120 confirms the touch characteristic authentication value corresponding to the touch characteristic to be generated at the touch time of the touch module 300 in step 535 and determines the geometric relationship between the design module 300 and the touch module 300 The authentication information including the touch property authentication value is generated 540, the authentication information of the touch module 300 and unique identification information are mapped and stored in the storage medium 124 (545).

According to an embodiment of the present invention, the authentication module 120 may generate the authentication information including the design geometric relationship of the touch module 300, the design tolerance, and the touch characteristic authentication value (540) . If the design tolerance is corrected in the actual measurement verification process, the authentication module 120 determines that the geometric relationship between the design of the touch module 300, the tolerance corrected through the actual measurement verification, (540). &Lt; / RTI &gt;

The touch characteristic authentication value may be registered in the process of designing the touch module 300 or may be set and registered in the process of providing the touch module 300 to a predetermined module use place. If the authentication module 120 is programmed and implemented in the terminal 200 having the electrostatic touch screen 205, the storage medium 124 storing the authentication information is stored in the memory 200 of the terminal 200, (215).

6 is a diagram illustrating a process of registering a module usage destination having a touch module 300 according to an embodiment of the present invention.

6 shows a process of receiving a module module using a touch module 300 that is designed and manufactured. When the module module is used, It is to be understood and appreciated that the present invention is not limited to the embodiments described above, but may be modified and / or modified in various ways (e.g., omitting some steps or changing the order) And the technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 6, the authentication module 120 receives the unique identification information of the touch module 300 provided to the module use destination from the terminal of the module use destination provided with the touch module 300, and uses a module (600), the registration information including at least one of the address information of the module use destination and the address information of the module use destination.

According to the embodiment of the present invention, when the touch module 300 is provided to the module use destination, the authentication module 120 stores and manages information for verifying the module usage destination provided with the touch module 300 . When the module usage destination information is received from the terminal of the module utilization destination, the authentication module 120 reads the module usage destination information and verifies that the module is the effective module utilization source provided with the touch module 300 (605) .

If the module usage destination is not verified, the authentication module 120 transmits an unregistered error to the terminal device (610), and can terminate the module usage destination registration process.

According to the embodiment of the present invention, when designing and manufacturing the touch module 300, authentication information and unique identification information of the designed touch module 300 are mapped and stored through the process shown in FIG. 5, The module 120 determines whether the authentication information of the touch module 300 stored in the module use destination is mapped using unique identification information received from the terminal device (615).

If authentication information of the touch module 300 held by the module use destination is not stored, the authentication module 120 transmits an unregistered error of the touch module 300 to the terminal device 620, The process can be terminated.

On the other hand, if authentication information of the touch module 300 held by the module use destination is stored, the authentication module 120 may use the address information of the module use destination to perform location authentication of the module touch using the touch module 300 (Or the unique identification information of the touch module 300 held in the module use destination) of the touch module 300 held in the module use destination and the module information of the module The usage-destination information and the location-area information are mapped and stored in the storage medium 124 (630). If the authentication module 120 is programmed and implemented in the terminal 200 having the electrostatic touch screen 205, the storage medium 124 for storing the authentication information is stored in the memory 200 of the terminal 200, (215).

FIG. 7 is a diagram illustrating a process of mapping a touch module 300 and a short range device 230 according to an embodiment of the present invention.

More specifically, FIG. 7 illustrates a process of mapping the touch module 300 and the short range device 230 held by the module use destination. If the module is a person skilled in the art, Referring to and / or modified with respect to FIG. 7, various embodiments of the mapping process of the touch module 300 and the local device 230 may be inferred (for example, some steps may be omitted or the procedures may be changed) 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.

Referring to FIG. 7, the management module 170 receives unique identification information of the touch module 300 and / or module usage information (or module usage information) provided from the terminal of the module utilization destination having the touch module 300, And acquires (or acquires in accordance with a designated procedure) a local communication identification value and an access code for the local device 230 to be mapped with the touch module 300 held by the module use destination (700).

The management module 170 registers the touch module 300 of the module usage destination corresponding to the unique identification information and / or the module usage destination information (or module usage destination identification information) through the process shown in FIG. 6 (705). If the touch module 300 of the module use destination is not registered, the management module 170 transmits an unregistered error of the touch module 300 to the terminal device (710) and terminates the module use destination registration process have.

On the other hand, if the touch module 300 of the module use destination is not registered, the management module 170 may store unique identification information of the touch module 300 held in the module use destination and / And the short-range communication ID and the access code for the short-range device 230 to be mapped with the touch module 300 of the module-use destination are mapped and stored (715). If the management module 170 is programmed and implemented in the terminal 200 having the electrostatic touchscreen 205, the touch module 300 and the short range device 230 are connected to the memory 200 of the terminal 200, Section 215 of FIG.

FIG. 8 is a diagram illustrating a process of recognizing a touch point through the recognition module 100 according to an embodiment of the present invention.

8 shows the case where the recognition module 100 recognizes N touch points touched on the capacitive touch screen 205 of the terminal 200 and recognizes the recognized N touch points as N touch And a touch authentication module (120) using the touch module (300) fabricated by arranging the touch module (305) in a designed geometrical relationship. The touch module (300) It is possible to refer to and / or modify the FIG. 8 to various ways of performing the touch point recognition process (for example, omitting some steps or changing the order). However, All the methods to be inferred are included, and the technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 8, the recognition module 100 recognizes that the capacitive touch function of the capacitive touch screen 205 provided in the terminal 200 enables the N touch points to be recognized (the capacitive touch screen 205 (800) indicating that the capacitive touch function is activated instead of the screen on / off and that the capacitive touch function can be activated even when the screen is turned off. If the capacitive touch function of the capacitive touch screen 205 is activated, the recognition module 100 checks one or more touch events generated through the capacitive touch screen 205 of the terminal 200 805), and recognizes N touch points by reading the at least one touch event (810). Here, the N touch points may be one touch point or a plurality of touch points according to the method of operation. However, it is usually only necessary to recognize the touch points so that the touch point is a touch using a human finger or a touch The touch using the module 300 can not be known.

According to the embodiment of the present invention, when the electrostatic type touch using the touch module 300 is used, at least one touch condition (e.g., a touch count condition, a simultaneous touch condition, an nonsynchronous touch condition, The static touch condition, and the dynamic touch condition). If the N touch points are recognized, the recognition module 100 can recognize the N touch points by using the at least one touch condition, 205 may include N touch points of the touch module 300 (step 815). In this case, however, it is possible to confirm whether the N touch points are touches using the touch module 300 rather than a human finger, and it is not normally known which touch module 300 is used. Meanwhile, the process of confirming whether the N touch points satisfy the touch characteristics of the touch module 300 may be omitted, or may be performed through the authentication module 120, and thus the present invention is not limited thereto.

The recognition module 100 calculates (820) a component value for reading the geometric relationship of the N touch points recognized through the electrostatic touch screen 205 (820), and calculates (825) and provides it to the authentication module 120 (840). The touch characteristic information may further include unique information of the terminal 200 having the electrostatic touch screen 205 in which the N touch points are touched.

If the characteristic information for authentication of the touch module 300 is to be recognized or calculated, the recognition module 100 recognizes or calculates at least one characteristic information set to be displayed at the touch point in order to discriminate the touch characteristic of the touch point (830). Preferably, the characteristic information for authentication may include a code value recognized at a touch point using at least one of a sound recognition condition, an NFC recognition condition, a Bluetooth recognition condition, and a location recognition condition. Meanwhile, if the information calculated through the touch condition is used for authentication, it may be included in the characteristic information for authentication.

If the characteristic information for authentication of the touch module 300 is recognized or calculated, the recognition module 100 determines whether or not the component value calculated for the geometric relationship reading and the recognized or calculated (835) and provides it to the authentication module 120 (840). The touch characteristic information may further include unique information of the terminal 200 having the electrostatic touch screen 205 in which the N touch points are touched.

FIG. 9 is a diagram illustrating a process of authenticating touch characteristics of a touched point on the electrostatic touch screen 205 according to an embodiment of the present invention.

9 shows a specific touch module 300 manufactured by providing N touch points with N touch points sensed on the capacitive touch screen 205 through the process shown in FIG. FIG. 5 illustrates an example of authenticating the geometric relationship of N touch points among the various touch characteristic authentication embodiments. Referring to FIG. Those skilled in the art will be able to refer to and / or modify the FIG. 9 to understand various ways of performing the touch characteristic authentication process (e.g., a method in which some steps are omitted, However, the present invention includes all of the above-mentioned embodiments, and the technical features of the present invention are not limited by the method shown in FIG. For example, the geometric relationship authentication process (or a part of processes) of FIG. 9 may be performed through the terminal 200, and thus the present invention is not limited thereto.

Referring to FIG. 9, the authentication module 120 receives (900) the touch characteristic information provided from the recognition module 100 through the process shown in FIG. 8, and outputs the touch characteristic information to the N touch points included in the touch characteristic information (905). &Lt; / RTI &gt;

The authentication module 120 reads the mutual geometric relationship between the N touch points based on the component values and authenticates that the N touch points corresponding to the component values are touch points using the effective touch module 300 (910). If the N touch points corresponding to the component values are not the touch points using the effective touch module 300, the authentication module 120 may include an authentication result value corresponding to the geometric relationship authentication failure for the N touch points (920), and transmits the result through a designated path (935).

Meanwhile, if the N touch points corresponding to the component values are touch points using the effective touch module 300, the authentication module 120 determines whether or not the touch points included in the authentication information stored in the authentication information stored in the FIG. 5 or FIG. The geometric relationship corresponding to the component value is compared with the design geometric relationship matched within the tolerance range (915), and the procedure for confirming the geometric relationship is performed corresponding to the component value Or geometric relationships corresponding to the component values are compared with all design geometric relationships that correspond to the comparison object and are finally matched Can be repeated until it is impossible to confirm the geometric relationship. Meanwhile, if the touch characteristic information includes a touch identification value capable of identifying the touch module 300 touched by the electrostatic touch screen 205, the authentication module 120 performs the process shown in FIG. 5 or 6 Identifying a geometric relationship in the design of the authentication information corresponding to the touch identification value among the stored authentication information and authenticating whether the geometric relationship corresponding to the component value matches within the identified geometrical relationship with the identified design within the tolerance range Procedure can be performed.

If the geometric relationship corresponding to the component value and the design geometric relationship matching within the tolerance range are not finally confirmed, the authentication module 120 determines whether the authentication corresponding to the geometric relationship authentication failure for the N touch points A touch characteristic authentication result including the resultant value is generated (920), and transmitted through the designated path (935).

Meanwhile, if the geometric relationship corresponding to the component value and the geometric relationship in design matching within the tolerance range are confirmed, the authentication module 120 determines that the authentication result value corresponding to the geometric relationship authentication success for the N touch points (930), and transmits the result through a designated path (935). Alternatively, the authentication module 120 identifies the unique identification information of the touch module 300 matched with the authentication information including the matched geometric relationship and / or the module usage destination information (or module usage destination identification information) (925), an authentication result value corresponding to the success of the geometric relationship authentication for the N touch points, unique identification information of the authenticated touch module (300) and / or module usage destination information (or module usage destination identification information) (930) and transmit (935) through the designated path.

FIG. 10 is a diagram illustrating a process of authenticating touch characteristics of a touched point on the electrostatic touch screen 205 according to another embodiment of the present invention.

More specifically, FIG. 10 illustrates a specific touch module 300 manufactured by providing N touch points of N touch points sensed on the capacitive touch screen 205 through N processes, FIG. 4 illustrates a process of authenticating whether a touch using a touch point is matched, specifically, a geometric relationship authentication of N touch points in various touch characteristic authentication examples and a touch characteristic authentication at a touch point. Those skilled in the art will be able to refer to and / or modify the FIG. 10 to determine various ways of performing the touch characteristic authentication process (e.g., a method in which some steps are omitted, 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 geometric relationship authentication process (or a part of processes) of FIG. 10 may be performed through the terminal 200, and thus the present invention is not limited thereto.

Referring to FIG. 10, the authentication module 120 receives (1000) the touch characteristic information provided from the recognition module 100 through the process shown in FIG. 8, and outputs the touch characteristic information to N touch points included in the touch characteristic information And the characteristic information recognized or calculated through the recognition module 100 at the electrostatic touch point (1005).

The authentication module 120 reads the mutual geometrical relationship between the N touch points based on the component values and authenticates that the N touch points corresponding to the component values are touch points using the effective touch module 300 (1010) whether the N touch points have been touched through the valid touch module (300) by authenticating the validity of the characteristic information recognized or calculated through the recognition module (100) and / or the electrostatic touch time. If the N touch points corresponding to the component value are not the touch points using the effective touch module 300 and / or the validity of the characteristic information recognized or calculated by the recognition module 100 at the electrostatic touch time is authenticated The authentication module 120 generates a touch characteristic authentication result including an authentication result value corresponding to the geometric relationship authentication failure for the N touch points 1020 and transmits the touch characteristic authentication result through a designated path 1035, .

Meanwhile, if the N touch points corresponding to the component values are touch points using the effective touch module 300, the authentication module 120 determines whether or not the touch points included in the authentication information stored in the authentication information stored in the FIG. 5 or FIG. The geometric relationship corresponding to the component value is compared with the design geometric relationship matched within the tolerance range (step 1015), and the procedure for confirming the geometric relationship is performed corresponding to the component value Or geometric relationships corresponding to the component values are compared with all design geometric relationships that correspond to the comparison object and are finally matched Can be repeated until it is impossible to confirm the geometric relationship. Meanwhile, if the touch characteristic information includes a touch identification value capable of identifying the touch module 300 touched by the electrostatic touch screen 205, the authentication module 120 performs the process shown in FIG. 5 or 6 Identifying a geometric relationship in the design of the authentication information corresponding to the touch identification value among the stored authentication information and authenticating whether the geometric relationship corresponding to the component value matches within the identified geometrical relationship with the identified design within the tolerance range Procedure can be performed. Alternatively, the range of the geometric relationship in the design corresponding to the comparison object can be reduced by using the position information among the characteristic information recognized at the touch point, or the geometric relationship in design can be selected for any one comparison object.

If the geometric relationship corresponding to the component value and the design geometric relationship matching within the tolerance range are not finally confirmed, the authentication module 120 determines whether the authentication corresponding to the geometric relationship authentication failure for the N touch points A touch characteristic authentication result including the result value is generated (1020), and transmitted through the designated path (1035).

Meanwhile, if the geometric relationship corresponding to the component value and the geometric relationship in design matching within the tolerance range are confirmed, the authentication module 120 determines that the authentication result value corresponding to the geometric relationship authentication success for the N touch points (1030), and transmits the result through a designated path (1035). Alternatively, the authentication module 120 identifies the unique identification information of the touch module 300 matched with the authentication information including the matched geometric relationship and / or the module usage destination information (or module usage destination identification information) (1025), authentication result values corresponding to the success of the geometric relationship authentication for the N touch points, unique identification information of the authenticated touch module (300) and / or module usage destination information (or module usage destination identification information) (1030) and transmit (1035) through the designated path.

FIG. 11 is a diagram illustrating a process of authenticating touch characteristics of a touched point on the electrostatic touch screen 205 according to another embodiment of the present invention.

More specifically, FIG. 11 illustrates a specific touch module 300 manufactured by providing N touch points of N touch points sensed on the electrostatic touch screen 205 through the process shown in FIG. 8 with N touch units 305 Specifically, it includes a geometric relationship authentication of N touch points among a variety of touch characteristic authentication examples, a touch characteristic authentication expressed at a touch point, and a code value authentication recognized at a touch point FIG. Those skilled in the art will appreciate that various changes and modifications may be made to the method of the present invention without departing from the scope of the present invention by referring to and / 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. For example, the geometric relationship authentication process (or a part of processes) of FIG. 11 may be performed through the terminal 200, and thus the present invention is not limited thereto.

Referring to FIG. 11, the authentication module 120 receives (1100) the touch characteristic information provided from the recognition module 100 through the process shown in FIG. 8, and outputs the touch characteristic information to N touch points included in the touch characteristic information And the characteristic information recognized or calculated through the recognition module 100 at the electrostatic touch point (1105).

The authentication module 120 reads the mutual geometrical relationship between the N touch points based on the component values and authenticates that the N touch points corresponding to the component values are touch points using the effective touch module 300 (1110) whether the N touch points have been touched through the valid touch module (300) by authenticating the validity of the characteristic information recognized or calculated through the recognition module (100) and / or the electrostatic touch point. If the N touch points corresponding to the component value are not the touch points using the effective touch module 300 and / or the validity of the characteristic information recognized or calculated by the recognition module 100 at the electrostatic touch time is authenticated The authentication module 120 generates a touch characteristic authentication result including the authentication result value corresponding to the authentication failure for the touch module 300 in operation 1120 and transmits the result through a designated path in operation 1140.

Meanwhile, if the N touch points corresponding to the component values are touch points using the effective touch module 300, the authentication module 120 determines whether or not the touch points included in the authentication information stored in the authentication information stored in the FIG. 5 or FIG. The geometric relationship corresponding to the component value is compared with the design geometric relationship within the tolerance range (1115), and the procedure for confirming the geometric relationship is performed corresponding to the component value Or geometric relationships corresponding to the component values are compared with all design geometric relationships that correspond to the comparison object and are finally matched Can be repeated until it is impossible to confirm the geometric relationship. Meanwhile, if the touch characteristic information includes a touch identification value capable of identifying the touch module 300 touched by the electrostatic touch screen 205, the authentication module 120 performs the process shown in FIG. 5 or 6 Identifying a geometric relationship in the design of the authentication information corresponding to the touch identification value among the stored authentication information and authenticating whether the geometric relationship corresponding to the component value matches within the identified geometrical relationship with the identified design within the tolerance range Procedure can be performed. Alternatively, the range of the geometric relationship in the design corresponding to the comparison object can be reduced by using the position information among the characteristic information recognized at the touch point, or the geometric relationship in design can be selected for any one comparison object.

If the geometric relationship corresponding to the component value and the geometric relationship in design matching within the tolerance range are not finally confirmed, the authentication module 120 determines that the authentication result corresponding to the authentication failure for the touch module 300 (1120), and transmits the result through the designated path (1140).

Meanwhile, if the geometric relationship corresponding to the component value is confirmed to match the design geometric relationship within the tolerance range, the authentication module 120 uses the authentication information including the geometric relationship on the matched design, (1125) authentication of the recognized code value using at least one of sound, NFC, and Bluetooth at the touch time among the characteristic information included in the characteristic information. According to another embodiment of the present invention, when performing the code value authentication procedure, the geometric relation authentication for the N touch points may be omitted (e.g., when the number of touch points is '1'), The authentication module 120 performs an authentication process of a code value recognized at the touch time based on the authentication information identified using the characteristic information (or the position information) authenticated in the validity touch module 300 authentication process (1125).

If the validity of the code value recognized at the touch point is not authenticated, the authentication module 120 generates a touch characteristic authentication result including the authentication result value corresponding to the authentication failure of the touch module 300 1120) and transmits through the designated path (1140).

Meanwhile, if the validity of the code value recognized at the touch point is authenticated, the authentication module 120 determines whether or not the touch property including the authentication result value obtained by combining the success of the geometric relationship authentication with the N touch points and the authentication success of the code value The authentication result is generated (1135) and transmitted through the designated path (1140). Alternatively, the authentication module 120 may identify the unique identification information of the touch module 300 matched with the authentication information including the matched geometric relationship and / or the module usage destination information (or module usage destination identification information) (1130), an authentication result value obtained by combining the success of the geometric relation authentication of the N touch points and the authentication success of the code value, unique identification information of the authenticated touch module (300), and / Module usage destination identification information) 1135, and transmits the result through a designated path (1140).

FIG. 12 is a diagram illustrating a process of receiving a local communication ID and an access code of an authorized touch module 300 and a mapped local device 230 according to an embodiment of the present invention.

More specifically, FIG. 12 shows a case where the recognition module 100 receives and reads the touch characteristic authentication result of the touch characteristic authentication process performed through the process shown in FIGS. 9 to 11, so that N touch points correspond to a specific touch module 300 And a short range communication ID value and an access code of the short range device 230 mapped to the authenticated touch module 300 to the designated management module 170. In this case, Those skilled in the art will be able to refer and / or modify FIG. 12 to illustrate various embodiments of the method for providing short range communication identifiers and access codes (e.g., some steps may be omitted, or alternatively, It is to be understood that the invention may be practiced otherwise than as specifically described herein but is to be accorded the widest scope consistent with the teachings presented in the drawings, The characteristics of the product are not limited.

Referring to FIG. 12, the recognition module 100 receives (1200) a touch characteristic authentication result obtained through the process shown in FIGS. 9 through 11 over a designated path, The result value is read and a specific module of the touch module 300 manufactured by disposing the N touch units 305 touching the electrostatic touch screen 205 of the terminal 200 and N touch points capable of electrostatically touching The touch point of the electrostatic touch using the touch module 300 is checked (1205).

If the N touch points are not identified as touch points of the electrostatic touch using the specific module using the touch module 300, the recognition module 100 generates an error message for touch property authentication of the N touch points (1210).

If the N touch points are identified as touch points of the electrostatic touch using the specific module using the touch module 300, the recognition module 100 may connect to the authenticated touch module 300 using the connection module 150 (Or module usage destination identification information), and the connection module 150 provides the unique identification information and / or the module usage destination information (or the module usage destination identification information) And authenticating the validity of the program 220 of the terminal 200 and the unique information identifying the terminal 200 including the electrostatic touch screen 205 having the touch module 300 touched (1215) a local communication connection request information requesting a local communication ID and an access code of the local device 230 mapped with the touch module 300, Lt; RTI ID = 0.0 &gt; Information is transmitted (1220).

The management module 170 receives the short-range communication access request information (1225) and transmits the short-range communication access request information using the unique information and / or the application authentication value of the terminal 200 included in the short- A procedure for authenticating the validity of the terminal 200 and / or the program 220 that has transmitted the information is performed (1230).

If the validity of the terminal 200 and / or the program 220 is not authenticated, the management module 170 provides an authentication error to the connection module 150 and / or the program 220 1235).

The management module 170 may be configured to determine whether the short distance device 300 is mapped based on the unique identification information included in the short distance communication connection request information and / or the module usage destination information (or module usage destination identification information) The communication module 150 extracts a local communication ID and an access code of the local module 230 and an access code including the local communication ID and the access code of the local device 230 mapped to the touch module 300 And transmits the short-range communication access information (1245).

FIG. 13 is a diagram illustrating a process of providing a local communication ID and an access code of an authorized touch module 300 and a mapped local device 230 according to another embodiment of the present invention.

13, the management module 170 receives and reads the touch characteristic authentication result of the touch characteristic authentication process performed through the processes shown in FIGS. 9 to 11, so that N touch points correspond to a specific touch module 300 , It is possible to use the N-touch point as a trigger to identify the local communication ID value and the proximity communication ID of the local device 230 mapped to the authenticated touch module 300, The present invention is not limited thereto and various changes and modifications may be made by those skilled in the art by referring to and / (For example, an operation method in which some steps are omitted or the order is changed), but the present invention includes all the above- The technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 13, the management module 170 receives (1300) a touch characteristic authentication result obtained through the process shown in FIGS. 9 to 11 through a designated path, The result value is read and a specific module of the touch module 300 manufactured by disposing the N touch units 305 touching the electrostatic touch screen 205 of the terminal 200 and N touch points capable of electrostatically touching The touch point of the electrostatic touch using the touch module 300 is checked (1305).

If the N touch points are not identified as touch points of the electrostatic touch using the touch module 300 of the module use destination, the management module 170 provides the touch characteristic authentication result to the terminal 200 1310).

If the N touch points are identified as the touch point of the electrostatic touch using the touch module 300 of the module usage destination, the management module 170 determines whether the N proximity devices 230, which are mapped with the authenticated touch module 300, The local communication ID value and the access code of the local device 230 mapped to the touch module 300 are extracted and transmitted to the connection module 150 by a local communication And transmits connection information (1320). According to an embodiment of the present invention, the short-range communication access information may be provided in the touch characteristic authentication result provided from the management module 170 to the terminal 200.

14 is a diagram illustrating a process of activating a communication network connection using an authenticated touch module 300 and a mapped local device 230 according to an embodiment of the present invention.

In more detail, FIG. 14 illustrates a case where the connection module 150 receives the proximity device 230 mapped with the authenticated touch module 300 using the short-range communication access information received through the process shown in FIG. 12 or FIG. 13 The present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the spirit and scope of the present invention. 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, No.

Referring to FIG. 14, the connection module 150 receives the local communication identification (ID) of the local device 230 mapped with the authenticated touch module 300 from the management module 170 through the process shown in FIG. 12 or FIG. And the M short distance communication IDs corresponding to the M short range devices 230 detected through the short range communication module 209 of the terminal 200 are received (Step 1400) The local communication module 209 of the terminal 200 matches the local communication ID value mapped to the authenticated touch module 300 among the M local communication IDs identified in step 1405, A specific short range device 230 which is transmitting / receiving a radio frequency signal having a predetermined reference signal strength or more is confirmed (1410). Meanwhile, the connection module 150 checks m short-distance communication identification values that are equal to or greater than a predetermined reference signal strength among the M short-range devices 230 detected through the short-range communication module 209 (1405) The specific local device 230 matching the local communication ID mapped to the authenticated touch module 300 among the local communication ID values may be identified 1410.

If the specific short range device 230 mapped with the authenticated touch module 300 is not confirmed or confirmed, the radio communication module 209 of the terminal 200 transmits / The connection module 150 maintains the currently connected communication network connection of the terminal 200 (1415).

Meanwhile, when the identified specific short range device 230 is connected to the short range communication module 209 of the terminal 200 and the predetermined reference signal 230, The access module 150 transmits the RF signal to the specific short range device 230 using the access code of the specific short range device 230 mapped to the authenticated touch module 300 And controls to use the communication network connection to be used (1420).

According to the embodiment of the present invention, the connection module 150 provides the access code to the specific local area network 230 corresponding to the local area communication ID value, or provides the access code using the specific local area network 230 and the access code The terminal 200 can be automatically connected to the communication network through the specific short range device 230 mapped with the touch module 300 by performing the authentication procedure.

Alternatively, the connection module 150 may control the access code input interface for the specific local area device 230 corresponding to the local communication identification value to be displayed on the terminal 200 (if it is marked by the user or the operating system, And the access code is automatically input to the access code input interface, so that the terminal 200 can be semiautomatically connected to the communication network through the specific short range device 230 mapped with the touch module 300.

Alternatively, the connection module 150 displays an access code for the specific local area device 230 corresponding to the local communication identification value on the terminal 200, thereby allowing the user to select a specific mapped The terminal 200 can be manually connected to the communication network through the specific short range device 230 by manually inputting the access code shown in the access code input interface for the short range device 230.

100: recognition module 102: touch characteristic recognition part
104: touch characteristic discrimination unit 106: module touch reading unit
108: Touch characteristic providing unit 110: Authentication result processing unit
115: server 120: authentication module
122: authentication information storage unit 124: storage medium
126: Touch characteristic receiving unit 128: Touch point check unit
130: Position information verification unit 132: Touch point authentication unit
134: reference point identification unit 136: touch property verification unit
138: touch characteristic authenticating unit 140: authentication result providing unit
150: Connection module 152: Connection information request part
154: connection information reception unit 156: short-
158: Local communication control unit 170: Management module
172: Connection information storage unit 174: Management DB
176: connection request receiving unit 178: connection request authentication unit
180: connection information extracting unit 182: connection information providing unit
200: Terminal 205: Electrostatic touch screen
220: program 230: short range device
300: touch module 305: touch part

Claims (28)

There is provided a method of executing a program through a program of a terminal equipped with a capacitive touch screen and having a wireless communication module for connecting to a communication network via a base station of a designated communication company and a short range communication module for connecting to a communication network via a short- As a result,
Wherein when the plurality of touch points are recognized as a plurality of touches on the electrostatic touch screen, a geometric relationship formed by the plurality of touch points recognized by the multi-touch is a touch A first authentication unit configured to request authentication with a server that performs an authentication procedure for authenticating whether a design geometric relationship in which a specified number of touch units are disposed in a touch module mapped with a local device and a matching error within a tolerance range, step;
When a geometric relationship formed by the plurality of touch points recognized by the multi-touch is matched with a geometric relationship in a design of a touch module mapped with the local device, a local communication identification value for identifying a local device mapped with the authenticated touch module And a second step of confirming or receiving an access code for accessing a communication network using the local device;
A third step of identifying a specific local device mapped with the authenticated touch module among M (M? 1) local devices detected through the local communication module using the local communication identification value; And
And a fourth step of controlling a procedure for activating a communication network connection using a specific short range device mapped with the authenticated touch module using the access code if the specific short range device mapped with the authenticated touch module is identified ,
Wherein the short range device mapped with the touch module includes a short range device operated by a user having the touch module.

The method according to claim 1,
Further comprising identifying a plurality of touch points recognized as multi-touch on the electrostatic touch screen.
The method according to claim 1,
Further comprising the step of calculating a component value for reading a geometric relationship formed by a plurality of touch points recognized by the multi-touch on the electrostatic touch screen.
The method according to claim 1,
Further comprising the step of calculating a component value for reading a touch characteristic including a geometric relationship formed by a plurality of touch points recognized by the multi-touch on the electrostatic touch screen. Way.
2. The method according to claim 1,
Performed through a predetermined server, or
Performed through the program of the terminal, or
Wherein the program is distributed through the program of the terminal and the server.
5. The method according to claim 3 or 4,
When performing the authentication procedure through a predetermined server,
And generating touch characteristic information including the component value and transmitting the touch characteristic information to the set server.
2. The method according to claim 1,
When performing the authentication procedure through a predetermined server,
Wherein the plurality of touch points authenticate the touch point of the multi-touch using the touch module manufactured through the communication network connection using the wireless network communication module.
2. The method according to claim 1,
When performing the authentication procedure through a predetermined server,
Wherein the plurality of touch points are touch points of a multi-touch using the touch module manufactured by the established server through a communication network connection using a local device accessible at a point of time when a plurality of touch points are recognized on the electrostatic touch screen, Wherein the touch module is connected to the communication network.
The method according to claim 1,
Further comprising checking M short-range communication IDs corresponding to M short-range devices detected through exchange of radio frequency signals of the short-range communication module.
10. The method according to claim 9,
And a specific local communication identification value corresponding to the local communication identification value mapped with the authenticated touch module among the identified M local communication identification values is confirmed.
The method according to claim 1,
Confirming M short-distance communication identification values corresponding to M short-range devices recognized through exchange of radio frequency signals corresponding to the short-range communication module; And
(M (1? M? M) short-range communication identification values having a signal strength of a radio frequency signal with the short-range communication module among the M short-range devices corresponding to the M short- The method of claim 1, further comprising the steps of:
12. The method according to claim 11,
And the specific local communication identification value corresponding to the local communication identification value mapped with the authenticated touch module among the m local communication identification values identified is confirmed.
The method of claim 1, wherein the short-
And at least one of a SSID, an IP address, and a MAC address of the local device, or a combination of two or more of the SSID, the IP address, and the MAC address of the local device.
2. The method of claim 1,
An ID / PW for connecting to the communication network via the near device,
A setting value to be registered in the local device according to a security protocol set in the local device,
And a authentication value to be used in a security procedure of the security protocol set in the local device.
The method according to claim 1,
When the local communication identification value mapped to the authenticated touch module is confirmed,
Further comprising the step of verifying whether the signal strength of the specific local area apparatus corresponding to the mapped local communication identification value is equal to or greater than a preset reference signal strength.
The method as claimed in claim 1,
Wherein when a plurality of touch points are connected to a communication network using the wireless network communication module before the plurality of touch points are recognized on the electrostatic touch screen, a communication network connection using the wireless network communication module is connected to a specific short- To the communication network using the touch module.
The method as claimed in claim 1,
When a plurality of touch points are connected to the communication network through a short range device other than the short range device mapped with the authenticated touch module among the M short range devices using the short distance communication module before the plurality of touch points are recognized on the electrostatic touch screen And converting the communication network connection using the other local device into a communication network connection using a specific local device mapped with the authenticated touch module.
The method as claimed in claim 1,
When a plurality of touch points are connected to a communication network through a specific short range device mapped with the authenticated touch module among the M short range devices using the short distance communication module before a plurality of touch points are recognized on the electrostatic touch screen, Further comprising the step of: maintaining a communication network connection using a specific local device mapped with the touch module.
The method as claimed in claim 1,
And providing the access code to a specific local device corresponding to the local communication identification value and automatically connecting the terminal to the communication network through a specific local device mapped with the touch module. Network connection method.
The method as claimed in claim 1,
And performing a connection authentication procedure using the access code and the specific local device corresponding to the local communication identification value to automatically connect the terminal to the communication network through the specific local device mapped with the touch module A method of connecting a communication network using a touch module.
The method as claimed in claim 1,
Automatically inputting the access code into the access code input interface displayed on the terminal, and semi-automatically connecting the terminal to the communication network through a specific local device mapped with the touch module. Connection method.
22. The method as claimed in claim 21,
And controlling the terminal to display an access code input interface for a specific local area device corresponding to the local communication identification value on the terminal.
The method as claimed in claim 1,
Further comprising displaying an access code for a specific local area device corresponding to the local area communication identification value on the terminal,
Wherein the access code is manually input to an access code input interface displayed on the terminal.
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