KR20150117783A - Method for Operating Value Data Between Offline To Offline by using Touch Module - Google Patents

Abstract

The present invention relates to a method for operating a value between offline sites by using a touch module. The method for operating the value between the offline sites by using the touch module according to the embodiment of the present invention includes a first step of checking an authentication result, a second step of supplying value data to a user of a device with an electrostatic screen touched by a touch module of a value provider, and a third step of checking the use result or processing the value data provided from the value provider to be used. The method for operating the value between the offline sites by using the touch module according to the present invention maximizes a marketing effect by a value provision. A system according to the present invention includes the touch module and a recognition device.

Description

[0001] The present invention relates to a method for operating an offline value using a touch module,

The present invention relates to a recognition device having a capacitive touch screen in which a touch module of the value provider is touched when a touch module held in a value provider is touch-recognized / authenticated on an electrostatic touch screen of a recognition device carried by a user Providing the user with value data available from the value provider, using the value data available from the value provider, and using the value data provided from the value provider using the recognition device having the capacitive touch screen at the value consumer .

Disclosed is a service in which a plurality of touch parts are arranged in a designed geometric relationship and the touch module is touched to the electrostatic touch screen, and the touch module is used as an identification means and / or an authentication means for providing value or using value.

Conventional electrostatic touch screens are designed to use electrostatic touches by human fingers as input means and are also optimized to do so. In particular, a capacitive touch screen provided in a wireless terminal such as a recently activated smart phone or a tablet PC is designed and manufactured to selectively recognize a capacitive touch by a finger of a human and use it as an input means. For example, some electrostatic touch screens are designed to recognize only a capacitive touch corresponding to a finger touch area when a person's finger is touched as a valid touch, and to ignore it if not. Even if this multi-touch is supported, it is optimized for touch-and-drag multi-touch (e.g., pinch-to-zoom, etc.) for two or three touch points. Therefore, it is technically difficult to use a plurality of touch units as the authentication means and / or the identification means by touching the touch module on the electrostatic touch screen optimized to use the electrostatic touch by the human finger as the input means.

On the other hand, conventionally, when providing and using electronically generated value data, a service for providing value data on-line and using the value data on-line or off-line has been provided, but the electronically generated value data is transmitted through the first offline And offline 'off-line' method, which is used through a separate second off-line after provision of the offline operating system. In other words, in order to provide electronically generated value data through off-line and to use it offline, there is a need for a medium to link different off-line. There is a technical difficulty in providing such offline offline media . In addition, 'offline - offline' method of operation has clear features and advantages over conventional value operations in that value is provided and used in face - to - face with users and operators.

In order to solve the above-described problems, an object of the present invention is to provide a touch module having a plurality of touch parts and having a unique touch characteristic according to design, when the touch module is touched to the capacitive touch screen of a recognition device carried by the user, The touch characteristics including the geometric relationship of the designated number of touch points touching the touch screen are matched with the touch characteristics of the manufactured touch module (or the object equipped with the touch module) When the touch module possessed by the value provider is touch-recognized / authenticated, the touch module of the value provider is provided to the user of the recognition device having the touch-enabled electrostatic touch screen by the value provider, Providing the possible value data, Using a recognition device with a touch screen is how the {} to be used for processing the value data is provided from the providers to provide value.

It is an object of the present invention to provide a method and system for controlling a touch screen of a recognition device held by a user in a case where a touch module possessed by a value application of the value data is touch- And to process the value data provided from the provider to be used.

The present invention also provides an offline value management method using a touch module executed by a server, the method comprising: a plurality of capacitive touch units provided in a touch module; A touch module holding a geometric characteristic relation for a plurality of recognized touch points on a touch screen is held at a designated value provider and the touch module is touched to the electrostatic touch screen of the device to confirm the authentication result of the recognized geometric characteristic relationship The method of claim 1, wherein if the geometric characteristic relation for the plurality of touch points is authenticated by a geometric characteristic relationship of a plurality of electrostatic touch parts provided in a touch module of a specified value provider, If the touch module of the value provider receives possible value data To a user of a device having an electrostatic touch screen; and a second step of providing the value data provided from the value provider using the device having the electrostatic touch screen at the specified value place of use or processing And a third step of confirming the step. The authentication result may include a result of authenticating a value provider while identifying a value provider having a touch module touched on the electrostatic touch screen among a plurality of value providers. Meanwhile, the geometric characteristics of the plurality of capacitive touch units included in the touch module of the value provider can identify the value provider having the touch module touched on the capacitive touch screen among the plurality of value providers, have. Further, the touch module of the value provider may include at least one of a touch module provided in an offline store of a value issuing organization, a touch module provided in an offline store of a value distribution agency affiliated with a value issuing agency, and a touch module owned by a value distributor can do.

According to the present invention, the offline value operation method using the touch module is a method for operating the offline value, wherein after the value data is provided to the user of the device, a plurality of capacitive touch parts provided in the touch module are connected to a capacitive touch screen Touching the touch module holding the geometric characteristic relation for the recognized plurality of touch points with the touch module holding at the specified value place of use by touching the electrostatic touch screen of the device and confirming the authentication result obtained by authenticating with the recognized geometric property relationship Wherein in the third step, when the geometric characteristic relation for the plurality of touch points is authenticated by the geometric characteristic relationship of the plurality of electrostatic touch parts provided in the touch module of the use destination of the specified value, The value data provided from the value provider is used You can check the results of processing or use. Here, the geometric characteristic relationship of the plurality of capacitive touch parts provided in the touch module of the value use place identifies the value use place having the touch module touched on the capacitive touch screen among a plurality of value use places, have. Meanwhile, the touch module of the value use destination may include at least one of a touch module provided in an offline store where the value data can be used and a touch module owned by an employee of the offline store.

According to the present invention, the second step may include transmitting the value data to a program of the device having the touch screen of the value provider, the touch module being touched.

According to the present invention, the second step is a step of mapping the value data provided by the program of the device having the electrostatic touch screen with which the touch module of the value provider is touched, with the user identification information uniquely identifying the user and storing .

According to the present invention, the second step stores the value data provided by the program of the device having the touch-enabled electrostatic touch screen with the touch module of the value provider, with the medium identification information uniquely identifying the device or the program Step < / RTI >

According to the present invention, the value provider and the value store may include a separate off-line store or person separated from each other off-line.

The present invention also provides a method of operating an offline value using a touch module using a touch module executed in a server, the method comprising: a plurality of touch units provided in a touch module held by a value provider, A first step of confirming an authentication result of authenticating a geometric characteristic relation of a plurality of touch points recognized by touching an electrostatic touch screen provided in the device; A second step of providing, when the relationship is authenticated, value data available in the one or more specified value usage destinations provided by the value provider to a user of a device having a capacitive touch screen to which the touch module of the value provider is touched; Using a device with said electrostatic touch screen at a value location And a third step of confirming the result value data is to be processed or used to use as provided by the group value provider. Here, the authentication result may include a result of authenticating the value provider having the touch module touched on the electrostatic touch screen. Meanwhile, the geometric characteristic relationship of the plurality of touch units provided in the touch module of the value provider may authenticate the value provider having the touch module touched on the capacitive touch screen. Further, the touch module of the value provider may include at least one of a touch module provided in an offline store of a value issuing organization, a touch module provided in an offline store of a value distribution agency affiliated with a value issuing agency, and a touch module owned by a value distributor can do.

According to the present invention, the offline value operation method using the touch module is a method of operating the value module of a user of the device after the value data is provided to the user of the device, Further comprising the step of confirming an authentication result of authenticating a geometric characteristic relation of a plurality of touch points recognized by touching the provided electrostatic touch screen, When the geometric characteristic relationship of the touch part is authenticated, the value application provided with the authenticated touch module may use the value data provided from the value provider, or confirm the used result. Here, the geometric characteristic relationship of the plurality of touch units provided in the touch module of the value use destination can authenticate the value use place having the touch module touched on the capacitive touch screen. Meanwhile, the touch module of the value use destination may include at least one of a touch module provided in an offline store where the value data can be used and a touch module owned by an employee of the offline store.

Meanwhile, an off-line value management method using a touch module according to the present invention is a method for operating an offline value using a touch module executed in an apparatus having an electrostatic touch screen, A first step of requesting or authenticating a geometric characteristic relation of a plurality of touch points recognized by touching the electrostatic touch screen through a designated path, a step of acquiring a geometric characteristic relation for the plurality of touch points A second step of receiving the value data available from the value provider provided by the value provider and usable at the specified one or more usage points of the value, when it is authenticated by the geometric property relationship of the touch module held by the designated value provider; Process the value data you provide to be used And a third step of the procedure to determine the result of using or or. Here, the geometric characteristic relationship of the touch module possessed by the value provider can identify the value provider having the touch module touched on the electrostatic touch screen among a plurality of value providers, and authenticate the value provider. On the other hand, the touch module possessed by the value provider includes a touch module provided in an offline store of a value issuing organization, a touch module provided in an offline store of a value distribution agency affiliated with a value issuing organization, One can be included.

According to the present invention, an offline value management method using the touch module is characterized in that after receiving the value data, a plurality of touch units provided in the touch module are touched to the electrostatic touch screen, A step of determining whether or not the geometric characteristic relation of the plurality of touch points with respect to the plurality of touch points is greater than the geometric characteristic relationship of the touch module The method may further include the step of processing the value data provided from the value provider at the value use place holding the authenticated touch module or checking the result of using the value data. Here, the geometric property relationship of the touch module possessed by the value user can identify the value user having the touch module touched on the capacitive touch screen among the plurality of value users, and authenticate the value user. On the other hand, the touch module possessed by the value use place may include at least one of a touch module provided in an offline store where the value data can be used and a touch module owned by an employee of the offline store.

According to the present invention, an offline value operation method using the touch module includes: checking whether the capacitive touch screen is activated; and recognizing a plurality of touch points touched through the activated capacitive touch screen .

Meanwhile, an off-line value operation method using a touch module according to the present invention is a method for operating an offline value using a touch module executed in an apparatus having an electrostatic touch screen, A touch step for touching the plurality of touch units on the touch screen to request or authenticate the geometric characteristics of the plurality of recognized touch points through a designated path; A second step of receiving, when the geometric characteristic relation of a plurality of touch points touched by the touch module on the touch module is authenticated, value data available in the one or more specified value application provided by the value provider, The value data provided from the value provider at the use destination Causes a third step of the process or any of the procedures used to verify the result using. Here, the geometric characteristic relationship of the plurality of touch points touched to the capacitive touch screen by the touch module of the value provider can be used to authenticate the value provider having the touch module touched on the capacitive touch screen. Meanwhile, the touch module of the value provider includes at least one of a touch module provided in an offline store of a value issuing organization, a touch module provided in an offline store of a value distribution agency affiliated with a value issuing organization, and a touch module owned by a value distributor can do.

According to the present invention, the offline value management method using the touch module may further include a step of, after receiving the value data, touching the plurality of touch units provided in the touch module held at the specified value usage destination to the capacitive touch screen A step of authenticating or authenticating a geometric characteristic relation for a plurality of recognized touch points through a designated path, and a step of acquiring a plurality of touch points touching the touch module of the value use destination on the electrostatic touch screen through a designated touch authentication module In the case where the geometric characteristic relation for the authenticated touch module is authenticated, processing the value data provided from the value provider at the value use place holding the authenticated touch module or confirming the used result. Here, the geometric property relationship of the plurality of touch points touching the touch module of the value use destination to the electrostatic touch screen can authenticate the value use place having the touch module touched on the electrostatic touch screen. Meanwhile, the touch module of the value use destination may include at least one of a touch module provided in an offline store where the value data can be used and a touch module owned by an employee of the offline store.

According to the present invention, an offline value operation method using the touch module includes: checking whether the capacitive touch screen is activated; and recognizing a plurality of touch points touched through the activated capacitive touch screen .

According to the present invention, the offline value management method using the touch module further comprises checking a value provider corresponding to the touch module to be touched on the capacitive touch screen, A plurality of touch units included in a touch module held by a provider may be touched to the electrostatic touch screen to request or authenticate the geometric characteristics of the recognized plurality of touch points through a designated path.

According to the present invention, there is an advantage that the value operation service is provided by interworking with the 'offline-offline offline system' using the electronically generated value data through the first off-line and then using the second off-line.

According to the present invention, since value provision and use are performed while a user who provides value data, an operator who provides value data, or an operator who uses value data face each other face each other, it is possible to maximize the marketing effect There is an advantage.

According to the present invention, since the offline and offline values are provided through the touch module having a plurality of touch units and the value providing and use is performed through the device owned by the user having the electrostatic touch screen capable of touching the touch module, Or an operator who provides a value use has an advantage of providing a value operation service of 'offline-offline link method' using a touch module without a separate terminal device.

1 is a schematic diagram of a system configuration using a touch module according to an embodiment of the present invention.
2A to 2C illustrate a touch module according to an embodiment of the present invention.
3 is a functional block diagram of a recognition apparatus according to an embodiment of the present invention.
4 is a diagram showing a configuration of a touch authentication system according to an embodiment of the present invention.
5 is a diagram illustrating a configuration of a value operation system according to an embodiment of the present invention.
6 is a diagram illustrating a process of registering a touch authentication condition for a touch module according to an embodiment of the present invention.
7 is a diagram illustrating a process of registering a value provider of a touch module according to an embodiment of the present invention.
8 is a diagram illustrating a process of registering a value usage place of a touch module according to an embodiment of the present invention.
9 is a diagram illustrating a process of recognizing a module touch using a touch module in a program of a recognizing device according to an embodiment of the present invention.
FIG. 10 is a diagram illustrating a process of authenticating a geometric characteristic relation for N touch points touched by an electrostatic touch screen according to an embodiment of the present invention.
11 is a diagram illustrating a process of authenticating a code value associated with N touch points touched on an electrostatic touch screen according to an embodiment of the present invention.
12A and 12B are diagrams illustrating a module touch authentication-based value data providing process according to the first embodiment of the present invention.
13A and 13B are diagrams illustrating a process of providing module-touch authentication-based value data according to a second embodiment of the present invention.
14A and 14B are diagrams illustrating a process of using the module touch authentication-based value data according to the first embodiment of the present invention.
15A and 15B are diagrams illustrating a process of using the module touch authentication-based value data according to the second embodiment of the present invention.
16 is a diagram illustrating a process of using the module touch authentication-based value data according to the third embodiment of the present invention.
17A and 17B are diagrams illustrating a process of using the module touch authentication-based value data according to the fourth 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 schematic diagram of a system configuration using a touch module 200 according to an embodiment of the present invention.

1, a touch module 200 having a plurality of touch units 205 and having a unique touch characteristic according to a design is connected to an electrostatic touch screen 305 of a recognition apparatus 300 carried by the user When the touch module 200 (or the touch module 200 equipped with the touch module 200) which has been designed according to the design of the touch characteristic including the geometric relationship of the designated number of touch points touched to the electrostatic touch screen 305 When the touch module 200 of the value provider receives touch / authentication of the touch module 200 held by the value provider, the touch module 200 of the value provider touches the touch Providing the user of the recognition device 300 having the electrostatic touch screen 305 with the value data available in the value place provided by the value provider, And the value data provided from the value provider is used by using the recognition device 300 having the electrostatic touch screen 305. [ Meanwhile, when the touch module 200 held by the value application of the value data is touch-recognized / authenticated on the capacitive touch screen 305 of the recognition device 300 held by the user, The value data provided from the value provider may be used in the value place where the value source is held.

The system of the present invention includes a touch module 200 manufactured by providing a plurality of touch portions 205 in one side region 215 according to a designed geometric relationship and a plurality of touch modules 200 provided in the touch module 200 And a recognition device 300 having a capacitive touch screen 305 capable of electrostatically touching the touch part 205. [ Hereinafter, in order to distinguish between the electrostatic touch by the human finger and the electrostatic touch by the plurality of touch units 205 provided in the touch module 200, the electrostatic touch using the touch module 200 is referred to as' Module touch '.

The recognition device 300 is a generic term of the device having the capacitive touch screen 305 and preferably includes a wireless terminal (e.g., an electrostatic touch screen 305) Various smart phones, various tablet PCs, various PDAs, various mobile phones, etc.). However, it should be understood that the recognition device 300 indicated in the present invention is not limited to the wireless terminal and may include any device (e.g., laptop, smart TV, navigation device, etc.) with an electrostatic touch screen 305 I will make it clear.

The touch module 200 includes a plurality of touch units 205 having a predetermined number of electrostatically touchable capacitive touch screens 305 provided in the recognition apparatus 300, The touch module 200 is preferably provided (or retained) on the service provider side providing the module touch-based service (provided that the user carries the touch module 200 according to the service type, It is also possible for the reader / writer 300 to include the recognizing device 300). Hereinafter, the service provider side having or holding the touch module 200 will be referred to as a " module usage destination ".

The module usage destination may include a person who has (or has) the touch module 200, a franchisee, an organization, an enterprise, and the touch module 200 provided (or held) Means for identifying and / or authenticating the module use destination, means for identifying and / or authenticating a service provided by the module use destination, means (for example, information, card, etc.) And means for identifying and / or authenticating the user. According to the embodiment of the present invention, the module user may use the terminal device 110 to provide the service, and the user may use the module 300 (For example, a wireless terminal owned by the user) is used as a device for providing a service (i.e., a module use destination does not need a separate terminal device 110 other than the touch module 200).

According to the embodiment of the present invention, a module usage destination providing a value providing service for providing value data using the touch module 200 among module usage destinations having the touch module 200 is called a 'value provider' An agency, an organization, a company, or the like that provides value service using the provided value data using the touch module 200, or a value that uses the value data provided using the touch module 200 among the module usage destinations The use of the module that provides the service to use will be referred to as the 'value place of use'.

According to an embodiment of the present invention, it is preferable that the value provider comprises at least one of an offline store of a value issuing institution, an offline store of a value distributing agency affiliated with a value issuing institution, and a value distributor, The module 200 includes a touch module 200 provided in an off-line store of a value issuing organization, a touch module 200 provided in an off-line store of a value distribution agency affiliated with a value issuing organization, a touch module 200 And the like).

According to an embodiment of the present invention, it is preferable that the value usage destination includes at least one of an offline store and an employee of the offline store that can use the value data provided based on the module touch authentication, 200 may include at least one of a touch module 200 provided in the off-line store and a touch module 200 held by an employee of the offline store.

It is preferable that the touch module 200 of the value provider and the touch module 200 of the value use place are fabricated with the same design rule, but the geometric property relations of the touch modules 200 are different. If at least one of the auxiliary identification means or the auxiliary authentication means is used, the geometric characteristics of the touch module 200 of the value provider and the touch module 200 of the value application may be similar (or the same).

According to an embodiment of the present invention, the value data may include at least one of coupon data, gift coupon data, coupon data, voucher data, and point data available at a specified value provider and available at one or more designated value usage destinations. That is, in the present invention, it is preferable that the value provider and the value uses are separated, and as the means for associating the value data provided by the separated value provider for use in the separated value place of use, / The touch module 200 to be authenticated is used.

The geometrical arrangement relationship of the N touch units 205 provided in the touch module 200 may be determined by the N touch units 205 or the N touch units 305 touched to the capacitive touch screen 305 Is defined as a 'geometric relationship' for a touch point, and a relation that can further include at least one design property given to the touch module 200 so that the geometric relationship is expressed at a touch point is defined as a 'geometric property relationship'.

According to the first module touch recognition / authentication embodiment of the present invention, the module touch recognition process using the touch module 200 is performed through the recognition device 300 having the electrostatic touch screen 305, The authentication procedure may be performed through the touch authentication system 400 implemented through the server on the network associated with the recognition apparatus 300. [ In this case, the recognizing device 300 recognizes a specified number of touch points touched on the capacitive touch screen 305, and calculates a component value for reading the geometric characteristic relationship of the recognized touch points. Here, the geometric characteristic relationship includes a geometric relation with respect to a plurality of touch units 205 disposed on one side area 215 of the touch module 200, and the touch module 200 may be touch- Characteristic information (e.g., simultaneous touch characteristic information, progressive touch characteristic information, sound, code value using NFC, etc.) expressed by the touch module 200 at the time of touching the screen 305. [ The recognition device 300 includes a component value for reading out the calculated geometric characteristic relationship and interlocks with the module touch at the time when the touch module 200 is touched by the electrostatic touch screen 305 according to the execution method (E.g., location information, sound, or code value using NFC) generated by the user, and transmits the configured touch characteristic information through a designated path. The touch characteristic information is received by the server on the network on which the touch authentication system 400 is implemented through the designated path. Hereinafter, a server (or a combination of one or more servers) on the network implementing the touch authentication system 400 is referred to as an 'operation server 100' for convenience. The touch characteristic information may be received by the touch authentication system 400 through a communication channel between the recognition device 300 and the operation server 100 or may be received via a designated relay server (e.g., a value operation system 500) To the touch authentication system 400 via the relay path.

According to an embodiment of the present invention, the at least one characteristic information included in the touch characteristic information is a geometric characteristic relationship corresponding to a geometric characteristic relation corresponding to a component value included in the touch characteristic information among a plurality of pre- (For example, to reduce the range of comparison), and / or to verify the falsification or modulation of the geometric property relationship corresponding to the component values contained in the touch characteristic information For example, the touch point may be used as a verification means for verifying whether a touch point is a touch point touched to the electrostatic touch screen 305 or a touch point imitating the same, and / The authentication error due to the error of the geometrical characteristic relation corresponding to the component value included in the touch characteristic information It can be used as an auxiliary authentication means for canceling the authentication.

The operating server 100 is a collective term for a server (or a combination of one or more servers) that implements the touch authentication system 400 on a network. The operating server 100 is configured to connect a plurality of touch units 205 provided in the touch module 200, (Or interlocks) the storage medium 410 for storing touch authentication conditions including one or more condition information for authenticating the module touch touched on the screen 305. [ The touch authentication system 400 includes a configuration for interlocking with the storage medium 410, a configuration for interlocking with the recognition device 300 through a designated path, a module touch authentication process for authenticating a module touch, And a configuration for performing an authentication procedure interlocked with the authentication process. Each of the above configurations may be implemented through one server or may be distributed to two or more servers, and thus the present invention is not limited thereto. For convenience of explanation, the present invention is characterized in that a component value for a specified number of touch points included in the touch characteristic information among the configurations of the touch authentication system 400 is checked, and a specified number of touch points corresponding to the component value The geometric characteristic relation of the touch point is confirmed and the geometric characteristic relationship is matched with any one of the geometric characteristic relations on the design of the touch authentication condition registered in the storage medium 410 The touch authentication module 420 will be referred to as a 'touch authentication module 420'.

If the geometric characteristic relation for the designated number of touch points is matched with any geometrical characteristic relation among the geometric characteristic relations on the pre-registered design, the touch authentication system 400 corresponds to the geometric characteristic relation on the previously registered design The touch module 200 of the module use destination corresponding to the matched geometric characteristic relationship among the plurality of module use destinations identified as the touch target on the electrostatic touch screen 305 The service provided by the module use destination and the service using the touch module 200 using the module are automatically identified by the touch module 200 and the touch module 200 of the identified module use destination (For example, the service provided by the module use destination or the service using the touch module 200, approval of the service using the touch module 200, At least one of a fee can be authenticated).

According to the embodiment of the present invention, when the geometric characteristic relation of the designated number of touch points is matched with any one of the geometric characteristic relations of the previously registered design geometric characteristic relations, the touch authentication system (400) The touch module 200 of the value provider corresponding to the matched geometric characteristic relationship among the plurality of module usage destinations corresponding to the geometric characteristic relationship in the designed design is identified (e.g., value A value providing service provided by a value provider, and a value providing service using a touch module 200 of a value provider), and at the same time, a value providing service provided by the touch module 200 of the value provider When the touch module 200 is authenticated as being touched by the electrostatic touch screen 305 (for example, Service, or at least one of initiation, approval, and termination of a value providing service using the touch module 200).

Alternatively, when the geometric characteristic relation for the designated number of touch points is matched with any one of the geometric characteristic relations among the previously registered geometrical characteristic relations, the touch authentication system 400 determines the geometric characteristic relationship The touch module 200 of the value use destination corresponding to the matched geometric characteristic relationship among the plurality of module usage destinations corresponding to the touch point is identified as being touched by the capacitive touch screen 305 The touch module 200 automatically identifies one or more of the value usage service provided by the module 200, the value use service provided by the value user, and the value service using the touch module 200 using the value) (For example, a value use service provided by a value use place or a touch module 200) by touching the electrostatic touch screen 305, Authorization, or termination of a value-based service using the service).

Meanwhile, the recognition device 300 may select a module usage destination of the touch module 200 to be touched by the capacitive touch screen 305 before or during transmission of the touch characteristic information (for example, (For example, by driving an application at the user's destination or by driving a module touch app), and / or selecting a service using a module touch Service or the service using the touch module 200), and then transmits the touch characteristic information through the designated path including the target identification value for identifying the module use destination or the service to the touch characteristic information. In this case, 400 confirms the geometric property relationship of the touch authentication condition corresponding to the object identification value among a plurality of geometric property relations registered in the storage medium 410, The touch module 200 corresponding to the object identification value is authenticated as being touched by the electrostatic touch screen 305 (for example, authentication is performed at the module use destination Authentication of at least one of the service provided or the service using the touch module 200, the authentication, and the termination). According to an embodiment of the present invention, the recognizing device 300 selects (for example, a touch screen) a value source of the touch module 200 that is touched by the capacitive touch screen 305 before or during transmission of the touch characteristic information, Or selecting a specific value provider from among a plurality of value providers after driving a module touch app), and / or selecting a value providing service using a module touch, The touch authentication system 400 may transmit a plurality of geometric characteristic relationships registered in the storage medium 410. In this case, the touch authentication system 400 may transmit the plurality of geometric characteristic relationships registered in the storage medium 410, After confirming the geometric characteristic relationship of the touch authentication condition corresponding to the object identification value among the geometric characteristic relationships included in the touch characteristic information The touch module 200 corresponding to the target identification value is authenticated as being touched by the capacitive touch screen 305 (for example, a value providing service or a touch module provided by a value provider) 200) to authenticate at least one of initiation, approval, and termination of the value providing service. Alternatively, the recognition device 300 may select a value usage place of the touch module 200 that is touched by the capacitive touch screen 305 (for example, Or by selecting a specific value usage destination among a plurality of value usage destinations after driving the module touch app), and / or selecting a value use service using the module touch, The touch authentication system 400 may correspond to the object identification value among a plurality of geometric property relations registered in the storage medium 410. In this case, It is possible to confirm whether or not the geometric characteristic relation included in the touch characteristic information matches with the geometric characteristic relation included in the touch characteristic information The touch module 200 corresponding to the target identification value is authenticated as being touched by the electrostatic touch screen 305 (for example, a value use service provided by the use place of value or a value using the touch module 200 using the touch module 200) Authentication of at least one of initiation, approval, and termination of a service).

The touch authentication system 400 generates a touch authentication result including one or more authentication values obtained by authenticating the module touch using the touch characteristic information, and transmits the result through a designated path. If the touch module 200 is used as an identification means for identifying a value provider (or a value providing service), the touch authentication result may further include a target identification value for identifying a value provider (or a value providing service) have. Or when the touch module 200 is used as an identification means for identifying a value usage place (or a value use service), the touch authentication result may further include a target identification value for identifying a value use place (or value use service) have. However, if the target identification value is selected before the touch characteristic information is transmitted (that is, when the touch module 200 is used as the authentication means), the target identification value may be omitted in the touch authentication result.

Meanwhile, when the module touch is a module touch using the touch module 200 of the value provider and the value providing service is provided immediately after the module touch is successfully authenticated, the touch authentication system 400 (or the value operation system 500) May further include (or link) the value data for the instant value providing service using the module touch to the touch authentication result.

(Or the value operation system 500) when the module touch is a module touch using the touch module 200 of the value use place and provides the value use service immediately when the module touch is successfully authenticated, ) May further include (or link with) the use object value data for immediate value use service or the value use permission information for the use object value data using the module touch in the touch authentication result.

When the module touch using the touch module 200 of the value provider is authenticated as the authentication result of the module touch performed through the touch authentication system 400, the value operation system 500 provides the value service And the value data usable in the use place is provided to the user of the recognizing device 300 having the electrostatic touch screen 305 to which the touch module 200 of the value provider is touched, When the module touch using the touch module 200 corresponding to the provided value data is authenticated, the value data provided from the value provider is used in the value use place holding the authenticated touch module 200 As a general term, the touch authentication system 400 may be implemented through the implemented operation server 100, or may be implemented through the touch authentication system 400 And a separate service providing server 105 associated with the service providing server 105.

According to the second module touch recognition / authentication embodiment of the present invention, the module touch recognition process using the touch module 200 and the module touch authentication process are performed through the recognition device 300 having the electrostatic touch screen 305 . Preferably, a part or all of the touch authentication module 420 included in the touch authentication system 400 in the first module touch recognition / authentication embodiment is implemented in the recognition device 300, 300, a module touch recognition procedure and a module touch authentication procedure may be performed.

In the following embodiments, the feature of the present invention will be described with the number of touch parts 205 provided in the touch module 200 as N for the sake of convenience. However, when the number N of the touch parts 205 is limited to a specific value It is to be understood that the touch module 200 may be modified in accordance with the method of operation within the maximum number of recognizable multi-touches of the recognition device 300 to which the touch module 200 is touched, and that the present invention covers all such right ranges Come on. The embodiment of the present invention will be described with reference to the technical features of the present invention based on an embodiment in which the number of touch units 205 provided in the touch module 200 for electrostatic touch is 'N = 5' The number of the touch portions 205 of the present invention is not limited.

2a to 2c show a touch module 200 according to an embodiment of the present invention.

2a through 2c show a plurality of touch portions 205 including an electrostatic change inducing material for the electrostatic touch screen 305 and a plurality of touch portions 205 arranged in a predetermined geometric relationship The touch module 200 according to an embodiment of the present invention will be described with reference to FIGS. 2a through 2c. FIG. It is to be understood that the invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. Features are not limited.

Referring to FIGS. 2A and 2C, the touch module 200 includes a plurality of touch units 205 including an electrostatic change induction material for the electrostatic touch screen 305, And a frame unit 210 for arranging the frames in a specified geometric relationship.

Preferably, FIG. 2a illustrates a method of disposing a plurality of (e.g., five) touch portions 205 comprising electrostatic change inducing materials in any unique geometric relationship (i.e., different geometric relationships for each touch module 200) FIG. 2b illustrates an embodiment of a touch module 200, in which twelve touch units 205 are arranged in a geometric relationship in the form of a lattice structure, wherein the electrostatic induction material of the twelve touch units 205 of the lattice structure (For example, two to five) touch units 205 including a plurality of touch units 205 including a plurality of touch units 205 including a plurality of touch units 205. FIG. However, it should be understood that the embodiment of the touch module 200 of the present invention is not limited to the shapes of FIGS. 2a through 2c, but may be modified in various embodiments (for example, FIG. An embodiment in which the touch portion 205 is provided in a lattice structure in the form of a rectangular honeycomb, etc.), and the present invention clearly encompasses all embodiments that can be modified as such.

The touch unit 205 is a collective term for inducing a change in electrostatic force to the electrostatic touch screen 305 among the configurations of the touch module 200. When a plurality of designated number of touch units 205 are connected to the frame unit 210 (For example, a region in which the touch portion 205 to be touched to the capacitive touch screen 305 among the regions of the touch module 200 is exposed) of the touch module 200 in a predetermined geometric relationship.

The frame unit 210 is a collective term for arranging a plurality of touch units 205 in a specified geometric relationship among the configurations of the touch module 200 and arranging the plurality of touch units 205 in a specified geometric relationship One side area 215 is formed. One side region 215 of the frame portion 210 may be formed in a variety of plate structures such as a flat plate structure and / or a curved plate structure.

The touch module 200 may be formed in a paint form by connecting a handle to the frame 210, or may be mounted on a paint having the handle. Alternatively, the touch module 200 may be mounted on a card-shaped object or in the form of a card by forming the thickness of the frame portion 210 and the touch portion 205 to be thin. The shape of the object to which the touch module 200 is attached or the shape of the object including the touch module 200 may be variously modified or applied according to the intention of a person skilled in the art or the service field. I clarify it clearly.

According to the method for performing the first touch part 205 of the present invention, the plurality of touch parts 205 include a conductive material, and the frame part 210 is formed on the surface of the human body in contact with the touch module 200 And at least one conductive region for transmitting a capacitance to the touch portion 205. [

According to the first conductive touch unit 205 of the present invention, the plurality of touch units 205 may include a conductive rubber material or a conductive plastic material. The conductive rubber may be produced by mixing conductive rubber (for example, conductive carbon or metal powder, conveniently referred to as conductive carbon) and rubber at a calculated ratio. The touch portion 205 including the conductive rubber material may be manufactured by compressing or injection molding the conductive rubber into a specified shape, and / or cutting the conductive rubber. The rubber may comprise one or more additives (e.g., at least one of a reinforcing agent, a filler, a plasticizer, an accelerator, a vulcanizing agent, a flame retardant, an antioxidant, a blending oil) for specified physical and / or chemical properties. On the other hand, the conductive rubber material is preferably formed to have a hardness of 30 or more and less than 90 on a Shore A hardness scale by mixing the conductive carbon and rubber, but is not limited thereto. When the hardness of the conductive rubber is 90 or more, a slight shock generated during the electrostatic touch (provided that the electrostatic touch does not cause touch due to the impact, but the electrostatic touch screen 305 is made of a hard glass material The probability of breakage may be increased. When the touch pressure is less than 30, a slight touch pressure generated during the electrostatic touch (however, the touch does not occur due to the pressure but the touch pressure The touch area of the conductive rubber is changed by the contact force of the conductive rubber, and the touch point is separated from the touch point due to the characteristic of the electrostatic touch recognition algorithm that calculates the touch point as the touch point. Preferably, the conductive rubber material can be produced with a hardness of 60 to 70 on a Shore A hardness scale by mixing the conductive carbon with rubber. On the other hand, when the hardness of the conductive rubber material is made to be a hardness of 60 to 70 on a Shore A hardness scale, the electrical resistance of the conductive rubber (for example, The measurement resistance value measured by measuring the resistance between the contact portion contacting the conductive region and the contact surface of the touch portion 205) is preferably 120 ohms or less, and as the electrical resistance of the conductive rubber is lower, 205), the probability of success in recognizing all touches is increased, but it is possible to have an electrical resistance of not less than 80? In proportion of the rubber constituting the conductive rubber. It is preferable that the electrical resistance of the conductive rubber is kept to 250 Ω or less (preferably 200 Ω or less) even if the hardness of the conductive rubber is lowered to 60 or less. If the electrical resistance of the conductive rubber exceeds 300 Ω, It is preferable that the conductive rubber of 300? Or more is excluded because the probability of successful completion of all-touch recognition for the touch part 205 is significantly reduced (however, in the case of the touch pen having one touch part 205, It is preferable that the touch module 200 does not exceed 300 [Omega] in the characteristics of the touch module 200 accompanied by all touches to the plurality of touch parts 205).

According to the second conductive touch unit 205 of the present invention, the plurality of touch units 205 may include a carbon nanotube material or a single wall carbon nanotube material. The carbon nanotube material or the single wall carbon nanotube material has an extremely small electrical resistance and a very high electrical conductivity (for example, about 1,000 times that of copper) as compared with the conductive rubber material or the conductive plastic material, and has excellent electrical conductivity. It is possible to manufacture the touch portion 205 without limitation of the electric conductivity.

According to the method of performing the second touch part 205 of the present invention, the plurality of touch parts 205 may include a dielectric material made of a solid dielectric material. Preferably, the dielectric may comprise nonconductive material properties, or vice versa, including conductive material properties.

The dielectric material in the present invention refers to a material that is polarized by a voltage or an electric field to generate a bound charge on the surface. In the present invention, the dielectric material refers to a material that is polarized by a voltage or an electric field applied to the surface of the electrostatic touch screen 305, (For example, barium titanate, rhodium salt, or the like) having a dielectric constant that generates an unbound electric charge capable of inducing a change in electrostatic force of the electrostatic touch screen 305 due to the occurrence of the electrostatic touch screen 305. Preferably, the ferroelectric material has properties of electrically non-conductive (i.e., free of charge), and it is possible to have a specific conductivity.

The term " dielectric " as used herein refers to a general term of a material including the dielectric material and including a body manufactured in a geometric shape of the touch unit 205 according to the present invention. The dielectric refers to a voltage applied to the surface of the electrostatic touch screen 305 Or an electric field is generated to generate an excessive bond charge capable of inducing a change in electrostatic force of the electrostatic touch screen 305 on a contact surface that is in contact with (or within a predetermined distance from) the electrostatic touch screen 305 (Or a body that can take over the electrical characteristics of the captive charge by the electrostatic touch screen 305).

The dielectric made of a solid dielectric material is preferably ferroelectric enough to induce electrostatic changes in the electrostatic touch screen 305 without directly contacting or contacting the electrostatic touch screen 305. For example, the dielectric may be made of a ferroelectric material in the form of a solid (such as barium titanate or rochelite), or may be made by compressing and storing the solid ferroelectric material in a container, (E.g., less than or equal to 30 on the Shore A hardness scale, less than 90) (e.g., direct contact to the electrostatic touch screen 305 or induction of electrostatic change of the electrostatic touch screen 305 within a certain distance) The ferroelectric material may be prepared by mixing the solid ferroelectric material with a dielectric material having a permittivity of at least a permittivity as high as possible, or may be manufactured by laminating a material having a calculated hardness and the solid ferroelectric material, and then rolling the material in a specific direction.

According to the method for performing the third touch part 205 of the present invention, the plurality of touch parts 205 may include a dielectric including a liquid dielectric material and a container for storing the liquid dielectric material. Preferably, the container for containing the liquid dielectric material may be made of a nonconductive material, or conversely, it may be made of a conductive material. As a result, the surface of the plurality of touch portions 205 including the liquid dielectric material may be made of a nonconductive material, or conversely, it may be made of a conductive material.

The liquid dielectric material may be applied to the capacitive touch screen 305 (e.g., within a predetermined transaction) without touching the capacitive touch screen 305 (e.g., even if the container containing the liquid dielectric material is made of a nonconductive material) ) Of the ferroelectric layer to induce a change in electrostatic capacitance. For example, the liquid dielectric material may be prepared by dissolving a ferroelectric material having ferroelectric properties in a solvent such as water or alcohol. On the other hand, the container may be made of a material having a calculated hardness (e.g., rubber, silicone, plastic, etc.) according to the method of operation. For example, the hardness is preferably 30 or more and less than 90 on a Shore A hardness scale, but is not limited thereto, and may be 90 or more, depending on the material.

The touch unit 205 manufactured in the method of performing the first to third touch units 205 includes a contact surface having a contact area calculated to be touched with the capacitive touch screen 305. [ Preferably, the contact surface of the touch portion 205 is formed in a circular shape having a diameter of 3 mm to 7 mm, or an elliptic or polygonal shape having a contact area corresponding to the circular area having a diameter of 3 mm to 7 mm.

The feature of the present invention will be described in the embodiment of the present invention in which the number of the plurality of touch parts 205 provided in the one area 215 of the touch module 200 satisfying the above conditions is N , The number N of the touch units 205 is not limited to a specific value. For example, in the embodiment of FIG. 2a, the number of touch units 205 is 'N = 5' in the touch module 200. In the embodiment of FIG. 2b, the touch module 200 has a grid structure 12 The number of the touch units 205 capable of performing the electrostatic touch is' N < 12 ".

It is preferable that the N touch units 205 fixed to the frame unit 210 of the touch module 200 have uniqueness to form unique unique geometric relationships for the respective touch modules 200. [ In addition to the geometric relationship formed by the N touch units 205, the touch module 200 may be provided with an identification and / or authentication characteristic, or the touch module 200 (or the touch module 200 may be mounted When the N touch units 205 are provided with the authentication means associated with the geometric relationship of the N touch units 205, the geometric relationship formed by the N touch units 205 The uniqueness of a relationship does not necessarily have to be respected.

The area of one side area 215 of the frame part 210 provided in the touch module 200 is finite and the N touch parts 205 disposed in the one side area 215 are also designed The number of cases in which the N touch portions 205 can be arranged in different geometrical relationships in the one side region 215 is limited. According to the present invention, in the course of designing the position where the N touch parts 205 are arranged in the one area 215 of the touch module 200, N touch parts 205 ) Is set to a different geometric relationship, the minimum distinction distance is set to derive the maximum number of cases.

The minimum distinction recognition distance may be determined by touching two or more touch units 205 on the electrostatic touch screen 305 with touch points of two or more touch units 205 at different touch points And the minimum distance that can be recognized and recognized. For example, when the distance between the two touch points of the electrostatic touch screen 305 is less than 7 mm, the two touch points are recognized as one touch point, and when 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 305 corresponding to the touch module 200, the minimum distinguishable distance distinguishes two touch points that are multi-touched from two or more electrostatic touch screens 305 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 unit 205. That is, the minimum distinction recognition distance may be a value set in the electrostatic touch screen 305, 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 305, the minimum discrimination recognition when the contact area of the touch portion 205 is 25 mm 2 (for example, a contact surface produced in a square shape of 5 mm * 5 mm) The minimum distinction recognition distance in the case where the distance and the contact area of the touch portion 205 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, the minimum distinction recognition distance is preferably set based on the experimental data of the plurality of electrostatic touch screens 305 based on the contact area of the touch unit 205. [ At this time, the minimum distinction recognition distance is preferably set to a distance between an outline and an outline of a graphic object which realizes a contact surface of the touch unit 205. 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, different geometric relationships formed by the N touch units 205 included in each touch module 200 of the same type can be identified in different geometric relationships even if they touch the electrostatic touch screen 305 It must have the identifiable identity. The operating system of the apparatus having the electrostatic touchscreen 305 calculates the touch point as the touch point, and the touch surface of the touch screen 305 is touch point It is calculated that the movement of the center point must be moved. Therefore, in order to allow the N touch portions 205 having different geometric relations to be distinguished in the geometric relationship in the frame portion 210 of the touch module 200 even when the N touch portions 205 are touched on the electrostatic touch screen 305, An identification distance is set.

The minimum identification distances are designed to have different geometric relationships so that the N touch parts 205 disposed in the frame part 210 of the touch module 200 can be arranged in different geometric relationships even when touched on the electrostatic touch screen 305 The N touch units 205 provided in the different touch modules 200 must be apart from each other. For example, when the touch surface of the same area is moved by 3.5 mm or more to touch the capacitive touch screen 305, the operating system of the apparatus having the capacitive touch screen 305 is moved If recognized as a touch point, the minimum identification distance may be set to a value greater than or equal to 3.5 mm. It is preferable that the minimum identification distance includes a center distance of the comparison target touch unit 205 provided on one side area 215 of the frame unit 210 of the other touch module 200 of the same type.

According to an embodiment of the present invention, the minimum identification distance may be a value set in the electrostatic touch screen 305, but is a value experimentally obtained using an assumed threshold based on an allowable error. Meanwhile, if there are two or more capacitive touch screens 305 corresponding to the touch module 200, the minimum identification distance may be set so that two or more electrostatic touch screens 305 can detect a shift of the touch surface And may be set to a larger spacing distance among the minimum spacing distances.

According to the present invention, the touch module 200 does not need to align the N touch units 205 provided in the frame unit 210 to specific directions or specific areas of the electrostatic touch screen 305, If the N touch units 205 provided in the module 200 are touched by the electrostatic touch screen 305 and N touch points are recognized, the geometric relationship formed by the N touch points is designed geometrically And have authentic readability that matches within the specified tolerance.

For the readability of the N touch units 205 provided in the touch module 200 of the present invention, the N touch units 205 are touched to the N touch points recognized by touching the capacitive touch screen 305 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 to the electrostatic touch screen 305. However, in a situation where the touch module 200 is aligned in a specific direction of the electrostatic touch screen 305 so as to be touched in advance or 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 205 provided in the touch module 200 to any direction of the electrostatic touch screen 305, it is possible to specify at least one reference point previously designated among the N touch points One or more general touch units 205 other than the reference point among the N touch units 205 provided in the touch module 200 may be provided in one area 215 of the touch module 200 under the same condition, The at least one designated touch unit 205 may be provided in one area 215 of the touch module 200 under different conditions from other general touch units 205 so that N touch points touching the capacitive touch screen 305 At least one touch point provided under different conditions is detected and specified as a reference point. Here, the reference point specifying condition for specifying the reference point among the N touch points includes a condition that the designated touch unit 205, which is a reference point, is provided on one side area 215 of the frame unit 210, And / or a condition for designing the geometric characteristics of the designated touch unit 205 itself to be different from the geometric characteristics of other general touch units 205 (for example, a condition for designing the designated touch unit 205 205 and the general touch portion 205 may be designed and manufactured in different shapes or areas).

According to a preferred embodiment of the present invention, in order to specify at least one reference touch point among the N touch points, one side region 215 of the touch module 200 is divided into a plurality of divided regions 220 smaller than N (Here, the divided region 220 includes a divided region 220 divided into a lattice structure, a divided region 220 divided into concentric circles based on the center point of the one side region 215, (For example, a divided area 220 divided by a specified angle), and a general touch portion 205 assigned to a calculated position on each of the divided regions 220 (e.g., one for each divided region 220) The designated touch unit 205 serving as the reference point is provided at a designated position (for example, a corner portion or the like) on one of the divided regions 220 of the divided region 220, A condition for providing the designated touch unit 205 as a reference point and a condition for providing the remaining general touch unit 20 The touch unit 205 provided at a designated position on the divided area 220 having the touch unit 205 exceeding the designated number of the divided areas 220 can be designed and manufactured differently. Can be specified as the reference point of geometric relationship reading or coordinate rotation. For example, when the touch module 200 is manufactured by providing N touch units 205 on one side area 215 of the touch module 200, the one side area 215 is designed to have n (2? N N pieces of divided regions 220 and then one general touch portion 205 at a calculated position on the n divided regions 220. One of the n divided regions 220, The frame section 210 can be manufactured by setting the area of the designation area 225 as a designation area 225 and providing one designation touch part 205 at a designated position (e.g., corner part) of the designation area 225. [ In this case, the touch authentication module 420 for authenticating the geometric relationship formed by the N touch points and the design geometric relationship is constructed by touching the touch module 200 designed as described above to the N touch (N) of the n divided regions 220, and then determines at least one designated region 225 in which there are two touch points of the n divided regions 220. Then, The touch point existing at the designated position of the specified area 225 can be determined as the reference touch point.

According to the present invention, the readability of the touch module 200 is determined by the fact that any one of the N touch units 205, even if N touch units 205 are touched in any direction on the electrostatic touch screen 305 ) As a reference point.

According to an embodiment of the present invention, in order to ensure readability of the geometric relationship of the N touch units 205, one side area 215 of the touch module 200 is divided into n (2? N <N) The divided area 220 is divided into a divided area 220 and a divided area 220 divided into concentric circles based on the center point of the one side area 215 (For example, one divided area 220 divided into a plurality of divided areas 220), a divided area 220 divided by a specified angle with respect to the center point, and the like) The designated touch unit 205 having the touch unit 205 and the designated touch unit 205 is provided at a designated position (e.g., a corner part) on one of the divided areas 220 of the divided area 220, A condition for providing a designated touch portion 205 which is a reference point in one side region 215 of the touch panel 200, The conditions including a tooth (205) different from the design can be manufactured.

The embodiment of FIG. 2c divides one side region 215 of the touch module 200 into n grid structures by design and then calculates the n calculated touch portions 205 on the n divided regions 220, (For example, one touch portion 205 for each of the divided regions 220), and a predetermined design position (for example, a corner portion) of the n number of the divided regions 220 And a single designation touch unit 205 is provided in the display unit 205. As shown in FIG. However, it should be understood that the embodiment of the present invention is not limited to the embodiment shown in FIG. 2C but can be variously modified or applied, and that the present invention covers all such embodiments.

Referring to FIG. 2C, in the process of designing a position for disposing the N touch units 205 on one side area 215 of the frame unit 210 of the touch module 200, One side area 215 of the actual frame part 210 is divided into n divided areas 220 by design (the divided area 220 is designed so as to exist on one side area 215 of the actual frame part 210) It does not have to be displayed). In order to form a geometric relationship in the n divided regions 220, one touch unit 205 is disposed at a design calculated position, and one of the n divided regions 220 is assigned to one of the designated regions 225 And is designed to dispose one touch portion 205 corresponding to the reference point at a design designated position. That is, one touch unit 205 is disposed in (n-1) divided areas 220 of the n divided areas 220, and two touch units 205 are provided in one designated area 225, Respectively. Preferably, the designated position may be specified at a position tangent to a figure outline of the side area 215 or at an edge position of the figure outline.

When the N touch units 205 are disposed in the n divided regions 220 to touch the capacitive touch screen 305, the touch authentication module 420 determines whether the N touch units 205 are provided (N) of the n divided regions 220 to the N touch points to identify one of the two designated regions 225 recognized as the touch points of the n divided regions 220, A touch point provided at a designated position on the touch point can be defined as a reference point of the N touch points. If the N touch units 205 are touched in any direction on the electrostatic touch screen 305, it is possible to compare them with the geometric relationship of the previously registered touch authentication conditions.

Referring to FIG. 2C, when one side area 215 of the frame part 210 of the touch module 200 is divided into n divided areas 220, There may be a certain margin between the divided regions 220. Preferably, the margins include an interval corresponding to the minimum distinction recognition distance. In this case, even if the touch portion 205 is provided at any position on each of the divided regions 220, The touch units 205 are always kept at a state distant from the minimum distinction recognition distance. 2C, when the margins are designed between the divided regions 220, the area of one side region 215 where the position where the N touch units 205 are arranged can be reduced do. According to another embodiment of the present invention, in order to secure the area for positioning the N touch units 205, the margin is omitted and the divided area 220 is divided, and N touch units 205 are arranged It is possible to calculate each touch unit 205 to be less than the minimum discrimination recognition distance in the process of calculating the position.

The touch module 200 of the present invention may be a touch card or a frame unit 210 mounted on a card-shaped object or formed in a card shape by forming the thickness of the frame unit 210 and the height of the touch unit 205 to be thin, Or may be mounted on various types of objects such as a touch paint made in a paint form, or may be manufactured in various forms.

3 is a functional block diagram of a recognition apparatus 300 according to an embodiment of the present invention.

3, when N touch points are touched to the capacitive touch screen 305, touch characteristic information including component values for the N touch points is transmitted to the designated operation server 100, The function configuration of the program 315 for processing whether the touch characteristics of the touch point match the touch characteristics of the touch module 200 (or the object equipped with the touch module 200) The recognition apparatus 300 according to an embodiment of the present invention will be described with reference to FIG. 3 and / or modified by those skilled in the art. It will be appreciated that various implementations of the functional configuration (e.g., some configuration portions may be omitted, or subdivided, or combined implementation methods) may be inferred, It is made, including, to which the technical feature that is not limited to the exemplary method shown in the figure 3. For the sake of convenience, FIG. 3 shows 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 305 as an embodiment of the recognition device 300 It will be appreciated that the recognition device 300 of the present invention is not limited to the wireless terminal of the embodiment of FIG. 3 and that any device with an electrostatic touch screen 305 is possible I will reveal.

In the embodiment of FIG. 3, the recognition apparatus 300 recognizes N touch points touched on the capacitive touch screen 305, calculates component values for determining a geometric characteristic relationship of N touch points, And transmits the touch characteristic information including the calculated component value (which may further include at least one characteristic information according to the method of operation) to the designated operating server 100, The touch module 200 (or the touch module 200), which is designed according to the design of the touch characteristic including the geometric characteristic relation for the N touch points touched on the electrostatic touch screen 305 through the touch panel 400, (E.g., an object to be mounted), and then transmits the touch authentication result to the operation server 100. Upon receiving the touch authentication result, the operation server 100 receives the touch authentication result, And processes the service selectively. However, the method of the present invention is not limited to the embodiment of FIG. 3, and a part (or all) of the touch authentication system 400 implemented through the operation server 100 may be connected to the recognition device 300, The present invention can be embodied through the control unit 301 of the recognizing apparatus 300 or the program 315 mounted on the recognizing apparatus 300 and the present invention covers the scope of the present invention.

3, the recognition apparatus 300 includes a control unit 301, a memory unit 314, a screen output unit 303, a touch input unit 304, and at least one communication module. A sound output unit 306, a sound input unit 307, an NFC module 311, a position measurement module 312 and a USIM reader unit 313, and a battery 308 . The communication module may include a short range wireless communication module 309 and a wireless network communication module 310.

The control unit 301 is a general term for a configuration for controlling the operation of the recognition device 300. [ The control unit 301 includes at least one processor and an execution memory in hardware, and is connected to each component of the recognition apparatus 300 through a bus (BUS). The control unit 301 loads the program code provided in the memory unit 314 of the recognizing apparatus 300 into the execution memory through software and executes the calculation and transmits the result to the respective constituent units via the bus The operation of the recognition device 300, and can receive data necessary for the calculation from each component as needed.

The memory unit 314 is a generic term of the nonvolatile memory included in the recognition apparatus 300 and includes at least one program code executed through the control unit 301 and at least one data set used by the program code And stores it. The memory unit 314 stores a program 315 implemented in the form of a program code. The program 315 is loaded into the controller 301 as it is activated or activated. Hereinafter, the functional configuration of the program 315 loaded into the control unit 301 will be described in the control unit 301 for convenience.

The key input unit 302 includes at least one of a key button, a keypad, and a keyboard provided in the recognition apparatus 300. The key input unit 302 may generate a key event for driving or activating the program 315. [ Alternatively, the key input unit 302 may generate a key event for activating the capacitive touch screen 305 so that the module touch can be performed.

The screen output unit 303 includes a display (for example, an LCD (Liquid Crystal Display)) provided in the recognition apparatus 300 and a drive module for driving the display in the recognition apparatus 300. The screen output unit 303 outputs an execution screen of the program 315 or an authentication result.

The touch input unit 304 includes a transparent electrostatic touch panel sharing a coordinate plane with the screen output unit 303 and a drive module driving the electrostatic touch panel in the recognition device 300 . The electrostatic touch screen 305 is realized by a combination of the transparent electrostatic touch panel and the display of the screen output unit 303.

The sound output unit 306 includes a speaker included in the recognition apparatus 300 and a drive module for driving the speaker in the recognition apparatus 300. The sound input unit 307 receives the recognition A microphone provided in the device 300 and a driving module for driving the microphone in the recognition device 300. When the touch module 200 has a function of outputting a sound signal, the sound input unit 307 receives the sound signal and transmits the encoded data to the program 315.

The wireless network communication module 310 and the short range wireless communication module 309 are communication resources provided in the recognition device 300. The wireless network communication module 310 accesses a wireless communication network through a base station, The wireless communication module 309 accesses the communication network through a short distance communication device or a wireless AP (Access Point).

The NFC module 311 transmits and receives radio frequency signals at a proximity distance of about 10 cm according to the NFC standard using the 13.56 Mz frequency band among the wireless communication standards of the ISO 18000 series standard. When the touch module 200 includes an NFC chip, the NFC module 311 receives a radio frequency signal transmitted through the NFC chip of the touch module 200, and transmits the NFC- Data can be transferred to the program 315.

The position measurement module 312 includes a GPS module that measures the movement position of the recognition device 300. The position measurement module 312 detects the position information of the recognition device 300 at the time when the touch module 200 having N touch units 205 is touched on the electrostatic touch screen 305, To the program (315).

According to the present invention, the program 315 may be downloaded to the recognizing device 300 and installed in the recognizing device 300 through a designated program providing server (for example, an Apple App Store or the like) (Not shown in the case where the program 315 is basically installed in the manufacturer of the computer 300). The program 315 may be manually activated or activated by the user, or may be activated or activated by watering the push notification. For the sake of convenience, the functional part of the program 315 implemented in the form of program code on the program 315 and loaded into the control part 301 to be functionalized is shown in the control part 301, .

Referring to FIG. 3, the program 315 of the recognition device 300 includes a touch module 305 having N touch units 205 made of electrostatic induction inducible materials capable of inducing electrostatic change of the electrostatic touch screen 305, And a touch recognition processor 320 for recognizing N touch points touched to the electrostatic touch screen 305 by the user.

The touch recognition processor 320 reads the touch event occurring through the operating system of the recognizer 300 at least once and transmits the N touch units 205 provided in the touch module 200 to the electrostatic touch screen 305 Recognizes N touch points touched. According to the embodiment of the present invention, since the operating system of the recognizing device 300 is optimized for electrostatic touch by human fingers, a touch event generated through the operating system is divided into multiple touches by a finger of a person, ) Is not distinguished. Meanwhile, since the touch module 200 according to the present invention includes the N touch units 205 according to a pre-designed pattern, the touch module 200 has a touch characteristic according to a pre-designed rule. In the present invention, It is possible to recognize the module touch by the touch module 200 manufactured according to the specified design rule.

The touch recognition processing unit 320 determines whether or not a module touch using the touch module 200 manufactured in accordance with a designated design rule is concretely performed based on a simultaneous touch condition, a fixed touch condition, a static touch condition, a dynamic touch condition, At least one touch recognition condition among the sensor interworking conditions may be selectively applied or a combination of two or more conditions may be additionally applied.

The simultaneous touch condition is a condition for determining whether the N touch units 205 provided on the touch module 200 are simultaneously touched by the electrostatic touch screen 305. [ The simultaneous touch condition is designed such that the N touch parts 205 provided on the flat plate area of the touch module 200 are designed to have the same height (or a similar height in an allowable error range), and the touch module 200, The touch portion 205 of the flat type touches the electrostatic touch screen 305 of the flat plate shape.

When the N touch points are recognized by applying the simultaneous touch condition, the touch recognition processor 320 reads the touch event and notifies the touch point through the electrostatic touch screen 305 that two or more touches The number of touch points at the point when the point is touched is N. If the number of the identified touch points is N, the touch recognition processor 320 uses the touch module 200 designed to satisfy the simultaneous touch condition to convert the N touch points into a touch point It can be judged.

Alternatively, when the N touch points are recognized by applying the simultaneous touch condition, the touch recognition processor 320 reads the touch event and checks whether or not two or more touch points are recognized through the capacitive touch screen 305. [ If two or more touch points are recognized through the electrostatic touch screen 305, the touch recognition processor 320 may detect two or more touch points touched on the capacitive touch screen 305 based on the touch event, Recognize at intervals. The touch recognition processor 320 determines whether the number of touch points touched by the two or more touch points within a predetermined period of time (or a certain number of times of repeated recognition) is N from the initial touch recognition time. If the number of touch points identified within the predetermined time (or a certain number of times of repeated recognition) is N, the touch recognition processor 320 determines the N touch points as a touch module 200) to determine that the touch point is touched.

The fixed touch condition is a condition for determining whether the touch module 200 is touched to the electrostatic touch screen 305 based on a behavior habit of a person who touches the touch module 200. 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 200 to the capacitive touch screen 305 may hold the touch module 200 on the capacitive touch screen 305 for a predetermined time until the capacitive touch is completed The behavioral habit may be induced in an inert manner. The fixed touch condition is a condition for determining whether the touch module 200 is touched according to the behavior habit.

When the N touch points are recognized by applying the fixed touch condition, the touch recognition processor 320 reads the touch event and checks whether the N touch points are recognized through the electrostatic touch screen 305. [ If N touch points are recognized through the electrostatic touch screen 305, the touch recognition processor 320 determines N touch points touched on the capacitive touch screen 305 based on the touch event, Recognize at intervals. The touch recognition processor 320 determines whether the number of touch points repeatedly recognized for a predetermined time (or a certain number of times of repeated recognition) is N. If the number of touch points repeatedly checked during a predetermined time (or a predetermined number of repeated recognitions) is N, the touch recognition processor 320 determines that the N touch points are the touch points touched by the touch module 200 have.

Alternatively, when the N touch points are recognized by applying the fixed touch condition, the touch recognition processor 320 reads the touch event and checks whether the N touch points are recognized through the electrostatic touch screen 305. FIG. If N touch points are recognized through the electrostatic touch screen 305, the touch recognition processor 320 determines N touch points touched on the capacitive touch screen 305 based on the touch event, Recognize at intervals. The touch recognition processor 320 repeatedly confirms the N recognized touch points and compares the N recognized touch points with respect to each touch point to determine whether the N touch points are not changed. If the N touch points are not changed, the touch recognition processor 320 may determine that the N touch points are the touch points touched by the touch module 200.

The static touch condition is a state in which the mutual geometric relations of the N touch points do not move while the N touch units 205 of the touch module 200 are touched by the electrostatic touch screen 305, It is a condition to judge whether or not to maintain. The static touch condition may be applied to a case where the N touch units 205 provided in the touch module 200 are designed so as not to move.

When the N touch points are recognized by applying the static touch condition, the touch recognition processor 320 reads the touch event and checks whether the N touch points are recognized through the electrostatic touch screen 305. [ If N touch points are recognized through the electrostatic touch screen 305, the touch recognition processor 320 determines N touch points touched on the capacitive touch screen 305 based on the touch event, Recognize at intervals. The touch recognition processing unit 320 repeatedly verifies the mutual geometric relationship between the N recognized touch points and compares mutually geometric relations of the N touch points repeatedly recognized to allow mutual geometric relationship of N touch points Ensure that it remains static and does not change within the error tolerance. If the mutual geometry of the N touch points maintains a static state, the touch recognition processor 320 touches the N touch units 205 fixedly mounted on the touch module 200 by the N touch points It can be judged as a touch point.

The dynamic touch condition is a condition for determining whether the N touch units 205 provided in the touch module 200 move according to a rule specified in the electrostatic touch screen 305. [ The dynamic touch condition is determined by a force (for example, a pushing force) applied when the N touch units 205 provided on the one side area 215 of the touch module 200 are touched by the electrostatic touch screen 305 It can be applied to the case where it is designed to move. For example, the design and fabrication structure of the touch module 200 can be changed by pressing the touch module 200 on the electrostatic touch screen 305 while pressing the pressure in the up and down direction (i.e., the direction perpendicular to the surface of the touch screen 305) When at least one touch part 205 of the N touch parts 205 is made to slide in a designated direction on the electrostatic touch screen 305 by a slider which forms an inclination with the up and down direction when a force is applied, Dynamic touch conditions can be applied.

When the N touch points are recognized by applying the dynamic touch condition, the touch recognition processor 320 reads the touch event and checks whether N touch points are recognized through the electrostatic touch screen 305. [ If N touch points are recognized through the electrostatic touch screen 305, the touch recognition processor 320 determines N touch points touched on the capacitive touch screen 305 based on the touch event, Recognize at intervals. The touch recognition processor 320 repeatedly confirms the N recognized touch points and compares the N recognized touch points with respect to each touch point so that the mutual geometric relationship of the N touch points is changed according to a specified rule Is in a dynamic state. If the mutual geometric relationship of the N touch points is changed in accordance with a specified rule, the touch recognition processor 320 determines N touch points (205 The touch point can be determined as a touched point.

The sequential touch condition is a condition for determining whether the N touch units 205 provided in the touch module 200 are sequentially touched according to a rule specified in the electrostatic touch screen 305. [ The sequential touch condition is a condition in which at least one touch portion 205 of the N touch portions 205 provided on the one side region 215 of the touch module 200 is different in height from the N touch portions 205, May be sequentially touched to the electrostatic touch screen 305 in a designated order. For example, five touch units 205 are provided on one side area 215 of the touch module 200. If one touch unit 205 among the five touch units 205 provided on the one side area 215 205 are designed to have a height of 5 mm, two touch portions 205 have a height of 3.5 mm, and two touch portions 205 have a height of 2 mm, The touch part 205 having a height of 5 mm is touched first and the touch part 205 having a height of 3.5 mm is touched first and finally the touch part 205 having a height of 2 mm is touched, The sequential touch condition may be applied to the touch module 200 designed to be sequentially touched. Or when the one side region 215 of the touch module 200 has a curved structure instead of a flat structure, the N touch portions 205 provided on one side region 215 of the curvature structure may have a flat structure, And may be applied to a touch module 200 that is designed to be sequentially touched to the touch screen 305.

When the N touch points are recognized by applying the sequential touch condition, the touch recognition processor 320 reads the touch event and reads the touch event from the time when at least one touch point is recognized through the electrostatic touch screen 305 The touch point touched on the electrostatic touch screen 305 is repeatedly recognized at a specified time interval and the number of touch points and touch points during repeated recognition of the touch point are repeatedly confirmed. The touch recognition processor 320 confirms the change in the number of touch points during the repeated recognition and repeatedly confirms the touch point according to the change in the number of touch points. For example, when the height of the touch module 200 provided on one side area 215 of the touch module 200 is different, a force (for example, a force of touching the touch module 200 on the electrostatic touch screen 305) The number of touch points increases to reach N. In this case, the number of touch points that maintain the touch state is increased to the designed N, but should not decrease in the middle. On the other hand, when the one side region 215 of the touch module 200 is designed and manufactured with a curvature structure, the touch portion 205 provided on one side of the curvature structure is touched and then the touch portion 205 provided on the other side The number of touch points that maintain the touch state at a specific point in time may not be N, but the number of touch points sequentially touched for a predetermined period of time Is N. The touch recognition processor 320 checks whether the N touch points are sequentially touched according to a specified rule by checking whether the number of repeatedly confirmed touch points and the touch point have the characteristics of the sequential touch condition as described above. If the N touch points are sequentially touched according to a specified rule, the touch recognition processor 320 includes N touch units 205 designed to sequentially touch the N touch points according to a specified rule It can be determined that the touch point is touched by using the touch module 200. However, since the pushing force or the speed at which the user touched the touch module 200 are different from each other, it is preferable that the time difference between successive touches in the sequential touch condition is not specified. Meanwhile, according to the extended embodiment of the present invention, the sequential touch may be performed by mechanical control (e.g., by controlling the mechanically designated touch portion 205 to be sequentially touched to the electrostatic touch screen 305) and / (For example, by sequentially applying a static electricity to a designated touch unit 205 among a plurality of touch units 205 touched to the electrostatic touch screen 305 and sequentially touching the touch unit 205) You can specify up to the time difference that is touched with the order being touched.

The sensor interlocking condition is established when the N touch units 205 provided on the touch module 200 are touching the electrostatic touch screen 305 and a specific sensing signal is transmitted through the sensor provided in the recognition apparatus 300 Is detected. The sensor interlocking condition may relate to a sensor type of the recognizing device 300, a type of a sensing target module included in the touch module 200, and / or a behavior habit of touching the touch module 200. For example, when the sensing device 300 is provided with a sensor (e.g., a geomagnetic sensor) for measuring a magnetic field and a magnet for forming a magnetic field of a size designated by the touch module 200 is provided as a sensing target module, The sensor of the recognition device 300 (for example, the geomagnetic sensor) does not effectively detect the magnetic field of the magnet provided to the touch module 200 before the touch module 200 approaches the recognition device 300 (For example, the magnitude of the magnetic field is inversely proportional to the square of the distance, it is not detected as an effective magnetic field if the distance is not more than a certain distance), and when the touch module 200 is proximate to touch the electrostatic touch screen 305, The sensor of the recognition device 300 (for example, a geomagnetic sensor) effectively detects the magnetic field of the magnet provided on the touch module 200, and the touch module 200 detects the magnetic field of the magnet on the electrostatic touch screen 305 The sensors (for example, geomagnetic sensor) of the recognition device 300 do not effectively detect the magnetic field of the magnet provided to the touch module 200. The sensor interlocking condition is determined by the touch module 200 (For example, an effective magnetic field is detected at the touch time point without the detection of the effective magnetic field) through the sensor provided in the recognition device 300 at the time of touching the electrostatic touch screen 305 , Or whether there is no effective magnetic field detection, and whether the effective magnetic field is detected at the touch time and the effective magnetic field detection is lost within a predetermined time). Alternatively, even if the touch module 200 is not equipped with a separate sensing target module, the sensor interlock condition may be satisfied when the sensing device 300 is provided with a sensor (e.g., a gyro sensor or an acceleration sensor) (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 200) to touch the touch module 200 to the electrostatic touch screen 305, May be included.

When the N touch points are recognized by applying the sensor interlocking condition, the touch recognition processor 320 interlocks with the sensor corresponding to the sensor interlock condition among the sensors provided in the recognition device 300, The screen 305 is activated and ready to read a sensing signal from a time point at which the touch recognition is enabled, and based on the touch event, before and after a time point when N touch points are recognized through the electrostatic touch screen 305 It is possible to determine whether the touch module 200 designed and manufactured so as to be interlocked with the sensor provided in the recognition device 300 is touched by the electrostatic touch screen 305 by reading the sensing signal (or the sensing signal change) . If the sensing signal (or sensing signal change) before and after the N touch points are recognized is a sensing signal (or a sensing signal change) that occurs at the touch point of the touch module 200, the touch recognition processor 320 The N touch points can be determined as a touch point at which the touch module 200 is touched.

Referring to FIG. 3, the program 315 of the recognizing device 300 may be realized by touching the N touch units 205 provided in the touch module 200 to the electrostatic touch screen 305, And a touch reading processing section 325 for calculating a component value for determining the geometric characteristic relationship of the points.

According to an embodiment of the present invention, N touch parts 205 are arranged in a specified geometrical relationship in one side area 215 of the touch module 200, and N touch parts 205 arranged in the specified geometric relationship Is preferably touched to the electrostatic touch screen 305 in accordance with at least one touch characteristic corresponding to the touch recognition condition and the component value is determined by N touch units 205 of the touch module 200 And a component value that includes a geometric relationship with respect to N touch points corresponding to the geometric relationship of the touch points, and further includes a component value for determining a touch characteristic corresponding to the touch recognition condition according to an embodiment method . Here, the geometric relationship refers to a geometrical arrangement relationship of the N touch units 205 provided in the touch module 200, and the geometric characteristic relation is given to the touch module 200 so that the geometric relationship is expressed at the touch time Quot; refers to a relationship that can further include one or more design touch characteristics. Accordingly, the geometric characteristic relationship includes the geometric relationship, and may further include one or more design touch characteristics given to the touch module 200 according to the method.

When N touch points are touched by touching the touch module 200 to the electrostatic touch screen 305 through the touch recognition processing unit 320, the touch reading processing unit 325 reads the geometric relationship formed by the N touch points And calculates a component value capable of reading the touch characteristics of the N touch points according to the method of operation.

The module touch according to the present invention does not require the touch module 200 to be aligned in a specific direction or a specific area of the electrostatic touch screen 305 but allows the N touch parts 205 provided in the touch module 200 As long as N touch points are recognized by touching the electrostatic touch screen 305, the geometric characteristic relationship formed by the N touch points is designed according to the designed geometrical characteristic relationship between the designed touch module 200 and the designated tolerance And is authentic whether it is matched within the range.

According to the module touch characteristic of the present invention, the geometric characteristic relation formed by the N touch points touched to the electrostatic touch screen 305 is read out regardless of the touch direction of the touch module 305 in any direction of the touch screen module 305 , The coordinate rotation about the N touch points must be accompanied by the coordinate rotation, and the geometric characteristic relation for 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 the geometric characteristic relationship or coordinate rotation among the N touch points, must be identified by using N touch points touched to the electrostatic touch screen 305. [ However, in a situation where the touch module 200 is aligned in a specific direction of the electrostatic touch screen 305 so as to be touched in advance or 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.

The touch module 200 may include at least one N touch point in the touch module 200 in order to specify at least one reference point previously designated among the N touch points, One or more general touch units 205 that are not reference points of the touch units 205 are provided in one area 215 of the touch module 200 under the same condition and at least one designated touch unit 205 serving as a reference point It is possible to provide at least one of the N touch points provided with different conditions among the N touch points touched to the electrostatic touch screen 305 by providing the one touch area on one side area 215 of the touch module 200, And a point is detected and specified as a reference point. Here, the reference point specifying condition for specifying the reference point among the N touch points is a condition for providing the designated touch portion 205, which is a reference point, in one area 215 of the touch module 200, 205), and / or a condition for designing the geometric characteristics of the designated touch portion 205 itself to be different from the geometric characteristics of other general touch portions 205 (for example, A condition for designing and manufacturing the shape or area of the general touch portion 205 and the general touch portion 205).

According to a preferred embodiment of the present invention, in order to specify at least one reference touch point among the N touch points, one side region 215 of the touch module 200 is divided into a plurality of divided regions 220 smaller than N (Here, the divided region 220 includes a divided region 220 divided into a lattice structure, a divided region 220 divided into concentric circles based on the center point of the one side region 215, (For example, a divided area 220 divided by a specified angle), and a general touch portion 205 assigned to a calculated position on each of the divided regions 220 (e.g., one for each divided region 220) The designated touch unit 205 serving as the reference point is provided at a designated position (e.g., a corner position or the like) on one of the divided regions 220 of the divided region 220, A condition for providing the designated touch unit 205 as a reference point and a condition for providing the remaining general touch unit 20 The touch unit 205 provided at a designated position on the divided area 220 having the touch unit 205 exceeding the designated number of the divided areas 220 can be designed and manufactured differently. Can be specified as a reference point of geometric characteristic relation reading or coordinate rotation. For example, when the touch module 200 is manufactured by providing N touch units 205 on one side area 215 of the touch module 200, the one side area 215 is designed to have n (2? N N pieces of divided regions 220 and then one general touch portion 205 at a calculated position on the n divided regions 220. One of the n divided regions 220, The touch module 200 can be manufactured by setting the area of the designation area 225 as the designation area 225 and providing one designation touch part 205 at a designated position (e.g., edge position, etc.) At this time, the touch authentication module 420 divides the component values of the N touch points touched by the electrostatic touch screen 305 into the n divided areas 220 in the design, At least one designation area 225 in which two touch points are present among the n divided areas 220 is discriminated and a touch point existing at a designated position of the discriminated area 225 is discriminated It can be discriminated by the reference touch point.

In the present invention, the touch characteristics of the N touch points touched to the capacitive touch screen 305 are authenticated by touching the N touch points on the capacitive touch screen 305, And touches the electrostatic touch screen 305 with the touch module 200 (or the object having the touch module 200) manufactured with the touch panel unit 205 to authenticate the recognized touch point. Preferably, the touch characteristic authentication for the N touch points is performed based on the time-space characteristics of the geometric relationship of the N touch points (e.g., the number of touch points, the geometry of the touch points (e.g., The touch module 200 manufactured according to the pre-designed design of the touch point at a predetermined calculated position, the characteristic having the structure of the divided area 220, etc.), the simultaneous touch characteristic, the sequential touch characteristic, And geometric property relationship authentication that authenticates whether the predicted space-time characteristics when matched within the allowed error range when touched by the user 305 are matched. However, the touch characteristic authentication of the present invention is not limited to the geometric characteristic relationship authentication, and it is possible to use the characteristic (e.g., the simultaneous touch characteristic) imparted to the touch module 200 (or the object to which the touch module 200 is mounted) (E.g., a sound signal generation characteristic, a radio frequency signal transmission characteristic, and the like) assigned to a space for operating the touch module 200, May be authenticated whether the touch module 200 is displayed at the time of touching the electrostatic touch screen 305. [

The touch read processing unit 325 is a unit for performing the geometric property relationship authentication for the N touch points touched by the capacitive touch screen 305 regardless of which direction the touch module 200 touches in the direction of the capacitive touch screen 305 The component value is calculated. For example, the touch reading processing unit 325 may include an element value for determining a reference point of a geometric characteristic relation for 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 an embodiment of the present invention, in order to enable the touch reading processor 325 to determine the number of touch points and the geometric structure characteristics of N touch points among the space-time characteristics of the geometric relationship of the N touch points, A component value can be calculated in the form of a combination of at least one or more of coordinate values, scalar values, and vector values on a coordinate system specified for N touch points. The coordinate system for calculating the component value may include an orthogonal coordinate system applied to the electrostatic touch screen 305. The designated coordinate system may include a coordinate system applied to the electrostatic touch screen 305, It is possible to include other coordinate systems defined for interpreting the characteristic relationship with respect to the coordinate system. For example, the component value may be a coordinate value on a designated coordinate system such as A (31, y1), B (32, y2), C (33, y3), D (34, y4) . &Lt; / RTI &gt; 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 the N touch points. Also, in order to enable the simultaneous touch characteristics or the sequential touch characteristics among the space-time characteristics of the geometric relationships of the N touch points to be distinguished, the touch read processing unit 325 may calculate touch time values for the N touch points, A touch sequence value, and the like can be calculated.

In this connection, the geometric characteristic relation authentication for the N touch points in the present invention is performed such that the geometric characteristic relationship of the N touch points touched to the electrostatic touch screen 305 corresponds to the N touch parts 205 provided in the touch module 200 , And preferably includes an analog type authentication that verifies whether the geometric property relationship of the N touch points is within a specified geometric property relationship and within a specified tolerance range (or probability distribution). do. That is, even if the same place of the electrostatic touch screen 305 is touched by using the touch part 205 (or a finger of a person) provided on the touch module 200, the same coordinate value is always recognized as a touch point . This is because the electrostatic touch using the electrostatic touch screen 305 is a touch as long as it is not a point touch and the central point of the touched surface is calculated as a touch point so that the electrostatic touch is recognized on the electrostatic touch screen 305 The calculated touch point is different even if the area of one surface or the outline of the touched surface is slightly deformed by noise. For example, the electrostatic touch may be a touch of the surface of the electrostatic touch screen 305 (or the touch portion 205 of the touch module 200), the disturbance of the electromagnetic field around the electrostatic touch portion 205, The same coordinate value is not always recognized as a touch point every time the user touches the same place of the electrostatic touch screen 305 due to various reasons such as a change in the electrostatic touch pressure applied to the touch screen 305. [ Therefore, simply by comparing the touch point touched on the electrostatic touch screen 305 with the previously registered coordinate value, the authentication success rate of the module touch can only stay at several percent. At the same time, the number of touch points to be touched increases The success rate of authentication becomes even lower. Particularly, when coordinate rotation is performed in order to recognize and authenticate the touch module 200 even if the touch module 200 is touched in any direction of the electrostatic touch screen 305, as compared with the case where it is not due to a calculation error occurring at the time of coordinate rotation The authentication success rate is further lowered. Further, when the touch units 205 provided in the touch module 200 are close to each other, a touch point 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 205 of the touch module 200 is arranged in accordance with a preset minimum distinction distinction distance and a minimum distinction distance, and the touch interpretation processing unit 325 An element value including a touch recognition error specified in the recognition device 300 having the electrostatic touch screen 305, an element value mapped with the touch recognition error designated in the recognition device 300, a probability of the touch recognition error A component value can be calculated in the form of at least one of an element value including a distribution (e.g., a Gaussian probability distribution), and an element value mapped with the probability distribution. Preferably, the touch recognition error or probability distribution may be applied to read geometric feature relationships for the N touch points or to compare and analyze geometric feature relationships with the design.

Meanwhile, the touch characteristic authentication of the present invention is not limited to the above-mentioned geometric characteristic relationship authentication. The touch characteristic authentication of the present invention is performed by the touch module 200 (or the object to which the touch module 200 is mounted) (E.g., positional characteristics, sound characteristics, etc.) imparted to the space in which the touch module 200 is operated, and a characteristic (e.g., simultaneous touch, sequential touch, magnetic field change, sound signal generation, A signal generation characteristic, a radio frequency signal transmission characteristic, and the like) is displayed at the time of touching the touch module 200 to the electrostatic touch screen 305. [

Referring to FIG. 3, the program 315 of the recognizing device 300 displays touch property information including component values for N touch points touched by the capacitive touch screen 305, through a designated path And an authentication result receiving unit 350 for receiving the touch authentication result transmitted from the operation server 100 through a designated path, And a location confirmation unit 330 for confirming the location information of the recognition device 300. [

When the component values for the N touch points are calculated through the touch reading processing unit 325, the authentication procedure performing unit 345 performs the authentication process using the touch module 200 as characteristic information for authenticating the touch characteristics of the module touch using the touch module 200 And composes the touch characteristic information including the calculated component value. When only the component value is used as the characteristic information for authenticating the touch characteristic of the module touch according to an embodiment of the present invention, the authentication procedure performing unit 345 may receive the authentication information from the memory unit 314 and / (E.g., medium identification information) that uniquely identifies the program 315, constructs touch property information including the calculated component value and the unique information, and transmits the touch property information to the designated operation server 100 .

When the position information of the recognizing device 300 is used as one of the characteristic information for the touch property authentication of the module touch, the position determining unit 330 determines that the N touch points The position information of the recognition device 300 positioned through the position measurement module 312 at any specified time before, during, or after the touch is confirmed. In this case, the authentication procedure performing unit 345 may process the touch characteristic information including the calculated component value, the position information, and the unique information to the designated operation server 100.

Meanwhile, according to another embodiment of the present invention, before or during transmission of the touch characteristic information, a module use destination of the touch module 200 that is touched to the capacitive touch screen 305 is selected (for example, (For example, a value providing service or a service using a module touch), and / or selecting a service using a module touch In this case, the authentication procedure performing unit 345 checks the target identification value for identifying the module use destination or the service, and then adds the target identification value , And can be transmitted over the designated path. For example, before or during transmission of the touch characteristic information, a value provider of the touch module 200 to be touched by the capacitive touch screen 305 is selected and / or a value providing service using the module touch is selected In this case, after the authentication procedure performing unit 345 confirms the target identification value for identifying the value providing unit or the value providing service, the authentication procedure executing unit 345 may further include the target identification value in the touch characteristic information Path. &Lt; / RTI &gt; Or a process of selecting a value use place of the touch module 200 to be touched by the capacitive touch screen 305 and / or selecting a value use service using the module touch before or during transmission of the touch characteristic information In this case, the authentication procedure performing unit 345 may check the target identification value for identifying the value usage destination or the value usage service, and then, after including the target identification value in the touch property information, Lt; / RTI &gt;

Referring to FIG. 3, the program 315 of the recognition device 300 includes a unique code or a disposable code encoded in the sound signal when the touch module 200 recognizes a sound signal at a time when the touch module 200 is touched And a sound recognition unit 335 for recognizing a code value for performing a sound recognition.

When the code value including the unique code or the one-time code encoded in the sound signal is used as one of the characteristic information for authentication of the touch property of the module touch, the touch module 200 stores the designated unique code, Dynamically generates disposable codes using rules (e.g., a code generation algorithm that generates one-off codes and / or fixed seed values and dynamic seed values (e.g., time, random number, etc.) And outputting the code value to the sound signal and outputting the code value. The electronic module and the speaker for outputting the sound signal according to an embodiment of the present invention include a cradle for holding the touch module 200, various devices or terminals 110 provided around the touch module 200, 200, or the like, for placing the recognizing device 300 to touch the touch panel 200, or 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, 941 Hz) and a sound frequency of a high frequency range (for example, 1209 Hz, 1336 Hz, 1477 Hz, . &Lt; / RTI &gt; 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.

The sound input unit 307 receives the sound signal having the code value encoded at the time when the N touch units 205 provided in the touch module 200 are touched through the capacitive touch screen 305. The sound recognition unit 335 reads the sound signal input through the sound input unit 307 and extracts a code value encoded in the sound signal. According to the method 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 200 is touched to the electrostatic touch screen 305 And the sound recognition unit 335 reads out the sound signal input through the sound input unit 307 at a time point when N touch points are touch-recognized through the electrostatic touch screen 305 So as to extract a code value encoded in 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 307.

When the code value encoded in the sound signal is extracted through the sound recognition unit 335, the authentication procedure performing unit 345 compares the code value with the code value included in the characteristic information included in the touch characteristic information And can be processed so as to be transmitted to the designated operation server 100.

3, when the NFC communication is activated at the time when the touch module 200 is touched, the program 315 of the recognition device 300 transmits a unique ID included in a radio frequency signal received through the NFC And an NFC recognition unit 340 for recognizing a code value including a code or a disposable code.

When the code value including the unique code or the one-time code received through the NFC is used as one of the characteristic information for the touch property authentication of the module touch, the touch module 200 stores the designated unique code, Dynamically generates one-off codes using rules (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.)) and includes the unique code or one- (For example, an NFC chip) for transmitting a code value through an NFC-based radio frequency signal and an antenna. An electronic module and an antenna for transmitting the NFC-based radio frequency signal according to an embodiment of the present invention include a cradle for holding the touch module 200, various devices or terminals 110 provided around the touch module 200, (For example, within 10 cm) of the NFC module 311 of the recognition device 300 in which the module touch is performed in a space where the module touch is performed, such as a pad for mounting the recognition device 300 to touch the touch module 200, Lt; / RTI &gt;

The NFC module 311 transmits an NFC-based radio frequency signal including the code value to the N touch units 205 of the touch module 200 through the capacitive touch screen 305 . According to an embodiment of the present invention, an NFC-based radio frequency signal including the code value is transmitted continuously (or periodically) through the electronic module, or the touch module 200 is transmitted to the electrostatic touch screen 305, The NFC recognizing unit 340 recognizes that N touch points are recognized by touching the NFC module 311 at a time point when N touch points are recognized through the capacitive touch screen 305, Based radio frequency signal to extract the code value. Preferably, the touch recognition of the N touch points receives an NFC-based radio frequency signal through the NFC module 311 or a code included in an NFC-based radio frequency signal received through the NFC module 311 It can be used as a trigger to extract the value. When the code value included in the NFC-based radio frequency signal is extracted through the NFC recognition unit 340, the authentication procedure performing unit 345 extracts the code value included in the touch characteristic information for the touch characteristic authentication And may be further included in one of the property information and transmitted to the specified operation server 100.

The operation server 100 determines the geometric characteristics of the N touch points based on the component values included in the touch characteristic information as the geometric characteristics of the N touch parts 205 provided in the touch module 200 (For example, proximity) within a specified tolerance range (or a probability distribution), and further performs an authentication procedure for the code value according to an implementation method Generating a touch authentication result including the authentication result of the geometric characteristic relation for the N touch points or combining the authentication result of the geometric characteristic relation and the authentication result for the code value according to the method, Lt; / RTI &gt; On the other hand, if the touch authentication system 400 (or the value operation system 500) provides the value providing service at the same time as the successful touch authentication, the touch authentication system 400 further includes the value data for the instant value providing service ). The touch authentication system 400 (or the value operation system 500) may provide the touch authentication result with the use target value data for the immediate value use service or the use target value (Or linking) the value usage authorization information to the data.

The authentication result receiving unit 350 receives the touch authentication result through the communication resource. The touch authentication result includes an authentication result including the authentication result of the geometric characteristic relationship as an authentication result of module touch or an authentication result of the geometric property relationship and an authentication result of the code value as an authentication result of module touch And the authentication value. If the touch module 200 is used as an identification means for identifying a value provider (or a value providing service), the touch authentication result may further include a target identification value for identifying a value provider (or a value providing service) have. Or when the touch module 200 is used as an identification means for identifying a value usage place (or a value use service), the touch authentication result may further include a target identification value for identifying a value use place (or value use service) have. However, if the target identification value is selected before the touch characteristic information is transmitted (that is, when the touch module 200 is used as the authentication means), the target identification value may be omitted in the touch authentication result.

On the other hand, if the module touch is a module touch using the touch module 200 of the value provider and the module touch is provided with a value providing service immediately after the authentication success of the module touch, (Or linkage) with the value data for the first time.

Or if the module touch is a module touch using the touch module 200 of the value use destination and immediately provides the value use service simultaneously with authentication of the module touch and the touch authentication result is an instant value service using the module touch (Or linking) the value usage approval information with respect to the usage target value data or the usage target value data.

Referring to FIG. 3, the program 315 of the recognition device 300 includes a service identification unit 355 for identifying a service of either a value providing service or a value use service based on the success of module touch authentication .

The service identification unit 355 reads the authentication value of the touch authentication result received through the authentication result receiving unit 350 and determines whether the module touch using the touch module 200 is successfully authenticated. If the module touch is successfully authenticated, the service identification unit 355 reads out the target identification value included in the touch authentication result, and determines which one of the value providing service and the value use service to provide in response to the successful module touch authentication Of the service. Meanwhile, according to another embodiment of the present invention, when a dynamic identification value is selected before or during authentication of the module touch, the service identification unit 355 reads the selected object identification value, It is possible to identify any one of the services to be provided in response to module touch authentication success.

Referring to FIG. 3, the program 315 of the recognizing device 300 determines whether or not a value providing service is provided based on the module touch authentication success, A value data acquisition unit 360 for acquiring the value data, and a value data storage unit 365 for storing the acquired value data.

If it is identified through the service identification unit 355 that the value providing service is provided, the value data obtaining unit 360 obtains the touch module 200 of the value provider based on the success of the module touch authentication To obtain the value data to be provided to the user using the recognition device 300 having the capacitive touch screen 305. [

According to the first value data acquiring method of the present invention, the touch authentication result includes an authentication value corresponding to authentication success of the module touch, and an object identification value for identifying a value provider (or a value providing service) In this case, the value data acquisition unit 360 requests value data corresponding to the object identification value to the value operation system 500 that manages the value data provided by the value provider, 500) corresponding to the object identification value.

According to the second value data acquisition method of the present invention, the touch authentication result includes an authentication value corresponding to authentication success of the module touch, and further includes an object identification value for identifying a value provider (or a value providing service) The value data acquiring unit 360 may include the value data to be provided to the user of the recognizing device 300 at the value provider. In this case, the value data acquiring unit 360 may acquire the value data .

When the value data is obtained, the value data storage unit 365 stores the obtained value data in a designated storage area of the memory unit 314 (or a memory available in the USIM). The value data may include at least one of coupon data, gift coupon data, coupon data, voucher data, and point data that can be used in the specified one or more value usage destinations. The value data storage unit 365 stores the value data, Or it is desirable to maintain the storage state of the value data until the value data is used at the specified value location.

According to an embodiment of the present invention, the value data is also stored in a database associated with the service providing server 105 in which the value operating system 500 is implemented. In this case, the user identification information for identifying the user and / It is preferably mapped and stored with medium identification information identifying the device 300 (or program 315).

According to the device-side first value data usage method of the present invention, the value data provided from the designated value provider in accordance with the user's operation in the program 315 of the recognition device 300 is displayed through the screen output unit 303 The value data is used and / or the program 315 of the recognition device 300 is used by the terminal device 110 of the value-use place (or input) The value data provided from the designated value provider in accordance with the user's operation is converted into a sound code form and output through the sound output unit 306. The terminal device 110 of the value use place recognizes the value data and performs the use approval procedure, Data is used and / or provided from a designated value provider in accordance with a user operation in the program 315 of the recognizing device 300 The value data can be used by transmitting the value data through the NFC module 311 and receiving the value data from the terminal device 110 and using the value data.

According to the apparatus-side second value data usage method of the present invention, the value data may be transmitted to the terminal device of the value usage destination, based on the authentication of the module touch that touches the touch module 200, (110). If the value data usable in the value place of use is confirmed as the module touch is successfully authenticated by touching the touch module 200 of the value place of use to the capacitive touch screen 305, 315 may process the identified value data to be used through the device-side first value data usage method.

According to the apparatus-side third value data usage method of the present invention, the value data is transmitted to the recognizing device 300 based on that the module touch, which is touched to the electrostatic touch screen 305, Lt; RTI ID = 0.0 &gt; 315 &lt; / RTI &gt; Hereinafter, an embodiment will be described in which the value data is used based on the module touch authentication using the touch module 200 of the value use destination according to the device second or third value data usage method.

Referring to FIG. 3, the program 315 of the recognizing device 300 determines whether or not the value of the usage target value to be used in the value user in response to the success of the module touch authentication And a value usage processing unit (380) for processing the usage target value data identified by the value usage destination to be used. The value usage data processing unit (380) And a value usage request unit 375 for requesting permission to use the usage target value data.

If it is identified through the service identification unit 355 that the value use service is provided, the value data checking unit 370 determines that the touch module 200 of the value use destination is touch recognition Of the one or more pieces of value data provided to the user using the recognition device 300 having the electrostatic touch screen 305 having the electrostatic touch screen 305.

According to the device-side second or third value data usage method, the touch authentication result includes an authentication value corresponding to authentication success of the module touch and an object identification (ID) identifying a value usage place In this case, the value data verifying unit 370 may obtain usage target value data usable in the value usage place corresponding to the target identification value from the value data stored in the designated storage area of the memory unit 314 Can be confirmed. Alternatively, the value data verifying unit 370 may receive usage target value data available from a value usage place corresponding to the target identification value from the value operating system 500. [ If the value data usable in the value place corresponding to the authenticated touch module 200 among the value data provided to the user of the recognizing device 300 having the electrostatic touch screen 305 with which the touch module 200 is touched, The value data verifying unit 370 may provide an interface for displaying a list of a plurality of value data and selecting the use object value data to use.

In the case of the device-side second value data using method, the use object value data confirmed (or selected) by using the module touch can be used in conjunction with the terminal device 110 provided in the value use place corresponding to the module touch have. For example, when the value use processing unit 380 displays the use object value data through the screen output unit 303 (for example, barcode display, etc.) using the module touch, The usage target value data can be used by recognizing (or inputting) the usage approval procedure and performing the usage approval procedure. Alternatively, the value use processing unit 380 converts the use object value data into a sound code form using the module touch and outputs the converted value to the sound output unit 306. Then, the value use processing unit 380 recognizes the usage object value data The usage target value data can be used. Alternatively, if the value usage processing unit 380 transmits the usage object value data through the NFC module 311 using the module touch, the terminal 110 of the value usage destination receives the usage object value data, Target value data can be used.

In the case of the apparatus-side third value data using method, the use object value data confirmed (or selected) by using the module touch can be used through the program 315 of the recognizing apparatus 300. The value use request unit 375 requests the value operation system 500 to approve the usage target value data by transmitting the usage target value data to the specified value operating system 500, The processing unit 380 may receive the value use approval information for the use object value data from the value operating system 500 and output the value use approval information. If the value usage approval information for the value data is received, the value operation system 500 and the value usage terminal (not directly connected to the program 315 of the recognition device 300 and the terminal device 110 of the value usage destination) (E.g., a payment server, a credit card company server, a financial company server, a van server, a PG server, a payment server, etc.) that performs a settlement procedure associated with value use interlocked with the terminal device 110 Etc.) can interoperate with each other and perform the use approval procedure using the use object value data.

Meanwhile, according to another embodiment of the present invention, the value use confirmation unit may determine whether or not the value of the value of the value use service is changed before or during the module touch authentication request (for example, during the process of selecting the value- It is possible to confirm the use object value data to be used in the value use place corresponding to the object identification value among the value data provided from the provider. In this case, it is possible to request approval of use of the usage target value data in cooperation with the module touch authentication request (for example, transmission of the touch characteristic information) performed through the authentication processing unit 345 using the value The touch authentication result may include value use approval information for use target value data usable in the value use place. In this case, the value use processing unit 380 can confirm and output the value use approval information of the touch authentication result. If the value usage approval information is received in the touch authentication result, the value operation system 500 and the value (not directly linked with the program 315 of the recognition apparatus 300 and the terminal 110 of the value use destination) (E.g., a payment server, a credit card company server, a financial company server, a van server, a PG server, a payment server, and the like) that performs a settlement procedure associated with the use of value in cooperation with the terminal device 110 Etc.) can interoperate with each other and perform the use approval procedure using the usage target value data.

4 is a diagram showing a configuration of a touch authentication system 400 according to an embodiment of the present invention.

4 illustrates the touch module 200 (or the touch module 200) manufactured according to the designed touch characteristics of the N touch points touched on the capacitive touch screen 305 of the recognition device 300, The touch authentication system according to the present invention will be described with reference to FIG. 4 and / or modified by those skilled in the art. It is to be understood that the invention may be embodied in many different ways (e.g., some of the components may be omitted, or subdivided, or combined) with respect to the configuration of the apparatus 400, The technical features thereof are not limited only by the method shown in FIG.

The touch authentication system 400 of the present invention is a touch authentication system 400 that receives touch characteristic information transmitted from a program 315 of the recognition device 300 shown in FIG. Or may be implemented in the form of program modules that are (or are linked to) the program 315 of the recognition device 300.

Referring to FIG. 4, the touch authentication system 400 includes a touch authentication condition including a design geometric relationship with respect to N touch units 205 provided in a touch module 200 designed with a specified rule And an authentication condition storage unit 405 for storing the authentication condition.

According to an embodiment of the present invention, N touch units 205 are provided on one side area 215 of the touch module 200, and the N touch units 205 are provided with at least one N (2? N < N) touch units 205 to be subjected to a geometrical property relationship with the designated touch unit 205 are provided. According to an embodiment of the present invention, the touch module 200 may include two or more designated touch units 205, and thus the present invention is not limited thereto. The designated touch unit 205 recognizes N touch units 205 provided in the one side area 215 as a touch unit 205 provided at a designated position on one side area 215 of the touch module 200 Is a touch unit 205 corresponding to a reference point for reading the N touch points recognized by touching the capacitive touch screen 305 of the apparatus 300. [ The n touch units 205 are touch units 205 except for the designated touch unit 205 among the touch units 205 provided at one side area 215 of the touch module 200, ) At a predetermined position on the wafer W. The one side region 215 having the N touch units 205 may be formed in a flat plate shape or a curved shape, and the planar view of the one side region 215 may be a rectangular shape, a circular shape (or an oval shape) ) Structure can be produced in the form of a figure.

According to the method of the present invention, the position where the n touch parts 205 are mounted on the touch module 200 is calculated by a designated designing device (not shown), and preferably, On the basis of the area of the area where the touch part 205 can be mounted on the one area 215 of the touch panel 200 and the contact area of the touch parts 205 and the minimum distinction recognition distance (and / or the minimum identification distance) It is preferable to calculate the position of each touch module 200 at different positions within the maximum number of cases. The designing device is designed to mount at least one touch portion 205 of the N touch portions 205 on a specified position (e.g., an edge portion) on the one side region 215. [ The manufacturing apparatus (not shown) manufactures one or more plate portions having n touch portions 205 at the calculated positions designed by the designing device and having at least one designated touch portion 205 at a designated position, N touch units 205 are mounted at the designated position and the calculated position of the manufactured plate.

According to the embodiment of the present invention, the designing apparatus is designed such that the plate region is divided by design into n divided regions 220, and each of the divided regions 220 is provided with one touch portion 205 . In this case, the calculated position where the n touch units 205 are provided is limited to a position on the division area 220. [ The designing device designatically designates at least one area of n divided areas 220 by design as a designation area 225 having a designation touch part 205, So that the designated touch unit 205 is provided. If one of the n divided regions 220 is designated as the designated region 225 and one specified touch portion 205 is provided at a specified position on the designated region 225, one touch portion 205 is provided in each of the (n-1) divided regions 220 of the n divided regions 220, and the designated region 225 includes the designated touch portion 205 So that two touch units 205 are provided.

The authentication condition storage unit 405 confirms a geometrical property relationship in design formed by the N touch units 205 included in the touch module 200 designed as described above, And stores the authentication condition in the designated storage medium 410. [ Preferably, the authentication condition storage unit 405 stores the calculated calculated position for providing the N touch units 205 in the plate unit during the design or manufacture of the touch module 200, The touch authentication condition including the geometric property relationship in the design can be stored in the designated storage medium 410 after confirming the geometric characteristic relationship, receiving input from the designated terminal, or receiving from the design apparatus. Since at least one calculated position among the calculated positions on which the n touch parts 205 are mounted within the number of allowable times for each touch module 200 is designed differently, It is preferable that each touch module 200 has a different relationship within each number.

According to the method of the present invention, the geometric characteristic relationship in the design may include a coordinate relationship that includes the relative coordinate values of the N touch units 205 provided in the touch module 200 on the basis of a preset designated coordinate system, (For example, the coordinates of any one of the N touch units 205) on the basis of the coordinate values on the designated coordinate system and / or the distance between the N touch units 205 on the basis of the coordinate values on the designated coordinate system, A reference point on the specified coordinate system, or an arbitrary reference point on the designated coordinate system, and the like. The angle relationship is defined by an angle formed by a line segment connecting the reference point and the two touch units 205 or an angle formed by each touch unit 205 with the reference point based on a reference line passing through the reference point . Here, the designated coordinate system is a coordinate system serving as a reference for interpreting the geometric characteristic relation formed by the N touch units 205, and is preferably made up of real world metrology units (e.g., 탆, mm, It is preferable to include a coordinate system. However, it is possible to include the coordinate system of the touch screen 305 of the recognizing device 300 according to an implementation method. Preferably, the geometric property relationship in the design is set based on the center of each touch portion 205.

According to the embodiment of the present invention, each touch part 205 provided in the touch module 200 has a constant contact area, and the center of the touch point touched on the capacitive touch screen 305 of the recognition device 300 The touch of the N touch units 205 may be determined according to the noise generated in the touch recognition process of the electrostatic touch screen 305 or the contamination state of the touch screen 305, The geometric characteristic relationship formed by the recognized N touch points by touching the electrostatic touch screen 305 and the geometric characteristic relationship between the design of the N touch units 205 provided in the touch module 200 are always in agreement I can not. Thus, the geometric characteristic relationship in the design is such that the design error information corresponding to the designed tolerance range (for example, within the 95% matching range of the Gaussian probability distribution) for authenticating the geometric characteristic relationship of the N touch points is . The authentication condition storage unit 405 confirms (or determines) the design error information about the geometric characteristic relationship in the design, and stores the touch authentication condition including the geometric characteristic relationship in the design and the design error information in the designated storage medium (410). If a real metrological geometric relationship is not confirmed, the touch authentication condition can be used for authentication.

Meanwhile, according to an embodiment of the present invention, one side region 215 of the touch module 200 is divided into n divided regions 220 in a design manner, and each of the calculated positions on the n divided regions 220 is divided into one When the touch unit 205 is provided and one designated touch unit 205 is provided in one of the n divided areas 220, the authentication condition storage unit 405 stores It is possible to confirm the geometrical characteristic relationship in design corresponding to the distance relation and the angle relation formed by one designated touch unit 205 and the n touch units 205, A touch authentication condition including information on the divided area 220 for the storage unit 220 may be configured and stored in the designated storage medium 410.

According to the embodiment of the present invention, the design geometrical property relationship for the touch module 200 having at least one designated touch portion 205 and n touch portions 205 is determined based on a preset designated coordinate system as a reference touch And the coordinate values of the n number of touch units 205 and the n number of touch units 205 are calculated based on the coordinate values on the designated coordinate system and / 205 and the angular relationship formed by the n touch units 205 on the basis of the designated touch unit 205 on the designated coordinate system.

When the touch module 200 designed as described above is manufactured, the authentication condition storage unit 405 confirms a serial code assigned to the touch module 200 having the N touch units 205, Or after receiving the input from the authoring device, the touch authentication condition and the serial code may be mapped and stored in the designated storage medium 410. [

According to the embodiment of the present invention, after the touch module 200 is designed and manufactured, the relationship between the geometric characteristics of the touch module 200 and the N touch parts of the touch module 200, It is possible to perform a procedure of verifying whether the geometric characteristic relation when touching the electrostatic touch screen 305 with the touch panel 205 matches within a specified tolerance range. In this case, the authentication condition storage unit 405 stores N-number of touches that are repeatedly touched a predetermined number of times or more on the capacitive touch panel of the device designated to register the geometric characteristic relation with respect to the touch unit 205 of the touch module 200 (E.g., within a 95% match range of a Gaussian probability distribution) within a specified tolerance range after matching the repetitive touched component value with the design geometric feature relationship It is determined whether or not N touch points are matched. If the repeatedly touched component value coincides with or approximates the geometric characteristic relationship in the design within the specified tolerance, the authentication condition storage unit 405 stores the actual measurement error information based on the repeatedly touched component value And generate a geometric characteristic relation including the geometrical characteristic relation in the design and the actual measurement error information, and then store the touch authentication condition including the generated geometric characteristic relation. On the other hand, when the relation between the repeatedly touched component value and the design geometric characteristic exists within the specified tolerance, the actual measurement error is included in the design error. Therefore, the authentication condition storage unit 405 stores The touch authentication condition to be used for authentication can be stored including the geometric characteristic relationship and the error information on the design.

According to the embodiment of the present invention, the authentication condition storage unit 405 receives the serial code assigned to the registration target touch module 200 from the device designated for registration, and outputs the error information using the received serial code Confirm the relationship between the geometric characteristics of the design to be calculated. The authentication condition storage unit 405 confirms the value of the repeatedly touched component element over the number of times specified in the capacitive touch panel of the registration device through the touch point confirmation unit 425 described below, 435 to check whether the mutual geometrical relationship between the touch points is valid, and the touch point is identified by the touch point discrimination unit 440 and the characteristic relation calculation unit 445, And the distance relation and the angle relation included in the geometrical characteristic relation corresponding to the touch authentication condition confirmed through the serial code and the distance relation and the angle relation included in the real measurement geometric relationship are compared with each other And determines whether the actual measurement geometric relationship exists within the specified tolerance range based on the geometric property relationship in the design. If the actual measurement geometrical relationship is out of the specified error tolerance range, it is preferable that the prepared touch module 200 is subjected to a procedure of correcting the error to fall within the specified error tolerance range or re- The authentication condition storage unit 405 outputs information necessary for error correction or re-production of the manufactured touch module 200, and can direct the task to be performed. On the other hand, if the repeatedly touched component value in the capacitive touch screen 305 of the registering device is within the specified tolerance range, the authentication condition storage unit 405 stores the error information based on the repeatedly touched component value (For example, actual measurement error information or design error information), generating a geometric characteristic relation including the geometric characteristic relationship between the design and the identified error information, and then generating a touch authentication including the generated geometric characteristic relation You can save the condition.

Meanwhile, when the manufactured touch module 200 is supplied to a module use destination of a specific location (or area) (for example, an affiliated store that provides a designated service using the touch module 200) The module utilization unit 405 identifies the serial code of the touch module 200 held by the module use destination and the module usage destination holding the touch module 200 from the terminal device 110 provided in the module usage destination (E. G., Address information, area information, and the like) of the module use destination, and receives the serial code The touch authentication condition corresponding to the touch module 200 provided to the module use destination is confirmed. If the touch authentication condition mapped with the serial code is not confirmed, the authentication condition storage unit 405 stores an unregistered error (unregistered error) for the touch module 200 corresponding to the serial code in the terminal unit 110 . Meanwhile, when the touch authentication condition mapped to the serial code is confirmed, the authentication condition storage unit 405 maps the confirmed touch authentication condition, the module usage destination information, and the location area information of the module usage destination to the storage medium 410).

According to the embodiment of the present invention, the touch authentication condition is encoded in a sound signal output through the touch module 200 or an electronic module provided in various devices (or media) provided in the module use place, And a code authentication condition for authenticating a code value included in the NFC-based radio frequency signal transmitted through the base station. The code authentication condition is included in the touch authentication condition at the time when the electronic module is provided and initialization is set in the touch module 200 or when the touch module 200 is registered through the terminal device 110 The touch authentication condition may be included in the touch authentication condition. Preferably, the code authentication condition includes a comparison code to be compared with the unique code, or a code generation rule for dynamically generating a verification code to be compared with the one-time code (e.g., a code generation algorithm for generating a one- (E.g., time, random number, etc.)), or may include information about a separate code authentication server (not shown) that authenticates the validity of the code value.

Referring to FIG. 4, the touch authentication system 400 receives touch characteristic information including component values of N touch points touched through the capacitive touch screen 305 of the recognition device 300 And an information receiving unit 415.

The information receiving unit 415 receives the touch characteristic information transmitted from the program 315 of the recognizing device 300 through a designated path. The touch characteristic information includes a geometric relationship with respect to N touch points touched to the capacitive touch screen 305 of the recognition device 300. The touch characteristic information includes touch characteristics expressed by the touch module 200 And may further include unique information and / or location information of the recognizing device 300 according to an embodiment of the present invention. Alternatively, the touch characteristic information may further include a code value included in the sound signal or the NFC-based radio frequency signal recognized at the touch recognition time through the capacitive touch screen 305 of the recognizing device 300.

According to the embodiment of the present invention, the touch characteristic information is received through a communication channel connected between the recognition apparatus 300 and the operation server 100, or via the relay server (e.g., the service providing server 105) Lt; / RTI &gt;

Referring to FIG. 4, the touch authentication system 400 includes a touch point confirmation unit 425 for confirming a component value included in the touch characteristic information, The touch point confirmation unit 425 and the position information verification unit 430 may be implemented in the form of a touch authentication module 420.

The touch point check unit 425 checks the component values of the 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 305, the touch point check unit 425 converts the component value into a coordinate system corresponding to the geometric characteristic relation included in the touch authentication condition Can be converted. Meanwhile, the coordinate transformation may be performed by the touch point authenticating unit 435, the reference point identifying unit 440, or the characteristic relation calculating unit 445 described below.

The position information verification unit 430 confirms the position information of the recognition device 300 for the N touch points included in the touch characteristic information. If the location information of the recognizing device 300 is not included in the touch characteristic information, the location information verifying unit 430 determines the location information of the recognizing device 300 based on the location calculated using the base station or the wireless AP, Cell-based position information corresponding to the cell (Cell).

Referring to FIG. 4, the touch authentication system 400 reads mutual geometric relationships among N touch points using element values included in the touch characteristic information, And a touch point authentication unit (435) for authenticating whether or not the touch unit (205) of the touch module (200) includes a geometric relationship that can be formed by touching the electrostatic touch screen (305) (435) may be implemented in the form of a touch authentication module (420).

The touch point authenticating unit 435 reads the component values confirmed through the touch point confirming unit 425 and controls the N touch points by the N touch units 205 included in the valid touch module 200 Authenticate that the touch point is a valid touch point.

According to the embodiment of the present invention, the touch point authenticating unit 435 calculates the distance between the N touch points, and determines whether or not the calculated touch point distance is smaller than the minimum distinction recognition distance set for the effective touch module 200 The N touch points can be authenticated as the touch point of the valid touch module 200 designed and manufactured according to the designing 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 200. If the N touch units 205 included in the touch module 200 include at least one designated touch unit 205 and n touch units 205, the touch point authenticator unit 435 may determine that the n The distance between the touch units 205 is calculated and compared with the minimum distinction recognition distance, the N touch points can be authenticated as the touch point of the valid touch module 200 designed and manufactured according to the design method according to the present invention .

According to the method of the present invention, the touch point authentication unit 435 sets and maintains an N-ary structure condition formed by line segments connecting N touch points. If the N touch units 205 included in the touch module 200 are composed of at least one designated touch unit 205 and n touch units 205, (N-1) number of divided regions 220 among n divided regions 220 in which one side region 215 of each of the plurality of divided regions 220 is divided is provided with one touch portion 205 having a specified contact area, (225) includes at least one condition for reading the geometric characteristic of the N-type by providing two touch units (205) including the designated touch unit (205). For example, the N-type structure condition may include a contact area size of the touch unit 205, a minimum distinction recognition distance, a minimum identification distance, a method of dividing one side area 215, Conditions for the geometric properties for the n angles that can be formed based on the area, etc., and / or conditions for the non-configurable geometric properties. When the N-type structure condition is set, the touch point authentication unit 435 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 the touch point of the valid touch module 200 designed and manufactured according to the design method according to the present invention.

According to the method of the present invention, the touch point authenticating unit 435 can confirm whether or not the touch point authenticating unit 435 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 so as to avoid (or exclude) a linear arrangement structure for three or more touch points, and the touch point authenticating unit 435 may determine, 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 a third through Nth touch points are arranged at positions below or below 3.5 mm , And the touch module 200 of the present invention is desirably designed to avoid (or exclude) such a row arrangement structure.

When the component values are coordinate-converted into the designated coordinate system, the touch point authenticating unit 435 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 value is not coordinate-transformed to the designated coordinate system, the touch point authenticating unit 435 can coordinate the component values into the designated coordinate system, and then read the mutual geometric relationship.

Referring to FIG. 4, the touch authentication system 400 includes a reference point identification unit 440 for identifying a reference point for reading a geometric characteristic relationship of N touch points, A geometric characteristic relation of the touch authentication condition stored through the authentication condition storage unit 405 and a relationship between the calculated geometric characteristic of the authentication object and the calculated geometric characteristic relationship, And a touch authentication processing unit (450) for authenticating whether a geometric characteristic relation of the N touch points matches within a specified tolerance range (or probability distribution) with respect to a geometric characteristic relationship in design included in the touch authentication condition, And an authentication result providing unit 465 for generating and providing a touch authentication result including the authentication result of the geometric characteristic relation with respect to the touch point. The reference point identifying unit 440, the characteristic relation calculating unit 445, and the touch authentication processing unit 450 may be implemented in the form of a touch authentication module 420.

If the N touch units 205 included in the touch module 200 are composed of at least one designated touch unit 205 and n touch units 205, A reference point identification unit 440 for reading the component value through the information on the divided area 220 of the divided areas 220 to identify a designated touch point provided at a designated position of the designated area 225, A characteristic relationship calculating unit (445) for calculating an authentication target geometric characteristic relationship between the identified designated touch point and each of n touch points; a geometric characteristic relationship storing unit (405) And a touch authentication processing unit (450) for matching and analyzing the calculated geometrical characteristic relationship between the calculated designated touch point and each of the n touch points. For convenience of explanation, the N touch units 205 included in the touch module 200 may be classified into the N touch points geometrically based on the embodiment including at least one designated touch unit 205 and n touch units 205 Technical characteristics for authenticating the characteristic relationship will be described. However, it should be understood that the technical features of the present invention are not limited to the following embodiments, and that any method of determining a reference point and authenticating a geometric characteristic relation for N touch points is included in the scope of the present invention.

In order to read the geometric characteristic relationship of the N touch points, the reference point identifying unit 440 identifies the touch point 205 provided in the touch module 200 under a condition different from the other touch points of the N touch points At least one reference point corresponding to the touch point touched on the electrostatic touch screen 305 is identified.

According to the embodiment of the present invention, the reference point identification unit 440 identifies a component value confirmed through the touch point check unit 425 or a component value authenticated through the touch point authentication unit 435, with the information of the divided area 220 for the n divided areas 220. If the information of the divided area 220 is set as the coordinate area information on the designated coordinate system, the reference point identifying part 440 matches the coordinate value converted by the designated coordinate system with the information of the divided area 220 The component value is coordinate-transformed to the designated coordinate system through the touch point identifying unit 425 or the touch point authenticating unit 435, or the reference point identifying unit 440 identifies the component value as the designated coordinate system Coordinate transformation.

According to the first reference point identification method of the present invention, the reference point identification unit 440 identifies any one of the N touch points to be virtual in order to match the component value with the information of the division area 220 The touch points are mapped to the virtual designated touch point and the divided area 220, and then coordinate rotation of n touch points is performed based on the virtual designated touch point. Thus, It can be confirmed whether there are two touch points on the designated area 225 where the virtual designated touch point is located in the divided area 220 and one touch point exists in the remaining (n-1) divided areas 220. [ If there are two touch points in the designated area 225 where the virtual designated touch point is located and one touch point exists in the remaining (n-1) divided areas 220, the virtual designated touch point is determined according to the present invention And can be identified by the designated touch point provided at the designed designated position.

According to the embodiment of the present invention, the reference point identification unit 440 identifies the N points of the N-shaped geometric characteristic formed by the N touch points in order to shorten the process of matching the information of the divided region 220 with the component values, A touch point having a high probability of a designated touch point among the N touch points is predicted based on the predicted touch point, and matching is performed by predetermining a predicted touch point to be a virtual designated touch point. For example, when a vertex greater than 180 ° is present among the interior angles of the vertexes of the N-ary shape, the reference point identifying unit 440 can estimate the touch points on both sides of the vertex with a virtual designated touch point have.

According to the second reference point identification method of the present invention, the reference point identification unit 440 matches the virtual origin of design and information of the divided region 220, and designates one of the N touch points as a virtual origin reference The touch points are matched to the virtual origin and then the coordinate points of the N touch points are rotated at least once. Thus, two touch points exist in the designated area 225 of the n divided areas 220 And one touch point exists in each of the remaining (n-1) divided regions 220. If two touch points exist in the designation area 225 and one touch point exists in the remaining (n-1) division areas 220, a virtual designation touch point is provided at a designated position designed according to the present invention Can be identified by the designated touch point.

If the designated touch point among the N touch points is identified, the characteristic relation calculating unit 445 calculates the distance between the identified designated touch point and each of n touch points provided in the n divided regions 220, And the relationship between the designated touch point and each of the n touch points including the angle relationship formed by the n touch points on the basis of the designated touch points.

The distance relation includes a coordinate distance on the 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 method.

The angle relationship includes a coordinate angle on the designated coordinate system. Wherein the coordinate angle includes an angle on a coordinate system formed by two touch points of the n touch points with the designated touch point as a reference point, or includes the specified touch point and each of n touch points on the basis of a specified reference line on the designated coordinate system And the angle formed by the connected line segment.

According to the method of the present invention, it is preferable that the characteristic-relation calculating unit 445 calculates the geometrical characteristic relationship of the object to be authenticated between the designated touch point and each of the n touch points based on the coordinate value on the designated coordinate system. According to the method, the characteristic relation calculating unit 445 can calculate the geometric characteristic relation corresponding to the simultaneous touch characteristic or the sequential touch characteristic.

The touch authentication processing unit 450 determines a geometric characteristic relationship of at least one touch authentication condition stored by the authentication condition storage unit 405, The calculated geometric relationship between the designated touch point and each of the n touch points is matched for each touch point, and then the distance and the angle are compared and it is confirmed whether they are close to each other or within a specified error range. Meanwhile, according to the embodiment, the touch authentication processing unit 450 can further check whether the geometric characteristic relation corresponding to the simultaneous touch characteristic or the sequential touch characteristic of the N touch points matches the geometric characteristic relation of the stored touch authentication condition. If one of the geometric characteristic relations of the one or more touch authentication conditions stored by the authentication condition storage unit 405 matches any one of the geometric characteristic relations calculated to match the calculated geometrical characteristic relationship to be calculated or close to a specified error range, (I.e., the module touch using the touch module 200 is used as an identification means for identifying a module use destination (or a module touch based service)), the touch authentication processing unit 450 selects one of the stored one or more touch authentication conditions The touch module 200 of the module use destination is connected to the capacitive touch screen 305 of the recognition device 300 and the touch module 200 is connected to the module using the touch authentication condition including the matched geometrical relationship of the design, (That is, authentication success of the module touch using the module 200 using the module).

Meanwhile, when the touch authentication condition stored in the storage medium 410 is mapped and stored with the location area information of the module use destination and the location information of the recognition device 300 is confirmed through the touch property information, The processing unit 450 confirms one or more comparison target touch authentication conditions mapped with the location area information matched with the received location information among the touch authentication conditions stored in the storage medium 410, It is possible to determine whether or not each of the touch module 200 stored in the storage medium 410 and the authentication target geometric characteristic relationship stored in the storage medium 410 is identical to the calculated geometric characteristic relationship, It is possible to shorten the time required for comparing and authenticating the geometric characteristics of the star-touch authentication conditions.

According to another embodiment of the present invention, when the touch characteristic information includes an object identification value for identifying a service using the module or the touch module 200, 450 confirms a touch authentication condition corresponding to the object identification value among the touch authentication conditions stored in the storage medium 410 and determines whether the geometric property relationship included in the touch property information is a touch authentication condition corresponding to the object identification value The touch module 200 of the module use destination corresponding to the object identification value touches the capacitive touch screen 305 of the recognition device 300 by comparing the geometric characteristic relationship of the recognition object 300 with the object identification value (I.e., successful authentication of the module touch using the module 200 using the module).

The authentication result providing unit 465 receives an authentication result (for example, an authentication error result or an authentication success result) of the geometric characteristic relation for the N touch points using the component value as an authentication result of the module touch And generates a touch authentication result including the authentication result. If the touch module 200 is used as an identification means for identifying a value providing service (or a value providing service), the authentication result providing unit 465 determines whether the touch module 200 has the authentication value of the module touch, And generate a touch authentication result that includes a target identification value that identifies a value provider (or module touch-based value offering service). Or when the touch module 200 is used as an identification means for identifying a value use place (or a value use service), the authentication result providing unit 465 determines whether the touch module 200 has the authentication value of the module touch, And generate a touch authentication result that includes a target identification value that identifies a value usage location (or module touch based value usage service). The authentication result providing unit 465 transmits the generated touch authentication result through a designated path. The touch authentication result may be transmitted to the program 315 of the recognition device 300 via the communication channel between the recognition device 300 and the operation server 100 or may be transmitted to the program 315 via the service providing server 105 May be transmitted to the program 315 of the recognition device 300 via a relay path.

Referring to FIG. 4, when the touch characteristic information includes a sound signal or a code value recognized through NFC, the touch authentication system 400 may include a code checking unit for checking a code value included in the touch characteristic information, And a code authentication unit (460) for authenticating the validity of the code value using the touch authentication condition. The touch authentication unit (450) And an authentication result providing unit 465 for generating and providing a touch authentication result combining the authentication result of the relationship and the authentication result of the code value using the code authentication unit 460. Meanwhile, the code verification unit 455 and the code authentication unit 460 may be embodied as being included in the touch authentication module 420, and thus the present invention is not limited thereto.

Before or after the procedure for verifying whether the geometric characteristic relation for the N touch points matches the geometric characteristic relationship in design with respect to the N touch units 205 provided in the touch module 200, The code checking unit 455 checks whether the touch characteristic information includes a code value recognized through a sound signal or NFC and extracts the code value from the touch characteristic information.

The code authenticating unit 460 identifies a comparison code to be compared with the unique code in a digital manner through a code authentication condition included (or mapped) in the touch authentication condition, or a code generation rule for authenticating the one- (For example, a code generation algorithm for generating a disposable code and / or a fixed seed value and a dynamic seed value (e.g., time, random number, and the like)) and then confirmed through the code checking unit 455 The validity of the code value included in the touch characteristic information is determined by comparing digitally the code value and the comparison code digitally or comparing the verification code generated using the code generation rule with the one- You can authenticate. According to an embodiment of the present invention, the code value may be authenticated by a code authentication server (not shown). In this case, the code authentication unit 460 may request the code value authentication server to authenticate the code value, The result can be received.

The authentication result providing unit 465 receives the authentication result of the geometric characteristic relation for the N touch points identified through the touch authentication processing unit 450 and the authentication result of the code value performed through the code authentication unit 460 Is generated as the module touch authentication result. If the touch module 200 is used as an identification means for identifying a value providing service (or a value providing service), the authentication result providing unit 465 determines whether the touch module 200 has the authentication value of the module touch, And generate a touch authentication result that includes a target identification value that identifies a value provider (or module touch-based value offering service). Or when the touch module 200 is used as an identification means for identifying a value use place (or a value use service), the authentication result providing unit 465 determines whether the touch module 200 has the authentication value of the module touch, And generate a touch authentication result that includes a target identification value that identifies a value usage location (or module touch based value usage service). The authentication result providing unit 465 transmits the generated touch authentication result through a designated path. The touch authentication result may be transmitted to the program 315 of the recognition device 300 via the communication channel between the recognition device 300 and the operation server 100 or may be transmitted to the program 315 via the service providing server 105 May be transmitted to the program 315 of the recognition device 300 via a relay path.

FIG. 5 is a diagram illustrating a configuration of a value operation system 500 according to an embodiment of the present invention.

5 is a flowchart illustrating a touch authentication system 400 according to an exemplary embodiment of the present invention. Referring to FIG. 5, The module 200 may be provided to the user of the recognition device 300 having the touched electrostatic touch screen 305 and / or the touch module 200 of the value location corresponding to the value data may be touched by the touched electrostatic The system for processing the value data using the recognition device 300 having the touch screen 305 is shown in FIG. 5. As a person skilled in the art, (E.g., some configuration portions may be omitted, or subdivided, or aggregated implementation operations may be performed on the configuration of the value operating system 500) ) Would be able to infer, the present invention is made, including any exemplary way in which the inference, to which the technical feature that is not limited to the exemplary method shown in the figure 5.

The value operation system 500 of the present invention may be configured to perform the touch authentication result (or the touch authentication module 420 included in the recognition device 300 according to the method of performing the touch authentication performed through the touch authentication system 400 shown in FIG. The touch module 200 of the value provider may provide value data to the user of the recognition device 300 having the electrostatic touch screen 305 touched based on the touch authentication result The one or more servers (for example, an operating server) for processing the value data using the recognition device 300 having the capacitive touch screen 305 with which the touch module 200 of the value use data corresponding to the value data is touched (E.g., server 100 and / or service provider).

5, the value management system 500 includes a recognition device 300 (or a program (or a program) having a touch screen 305 on which a touch module 200 is to be touched and a program 315 for recognizing the touched touch screen. 315), and / or identifying the media identification information identifying the recognition device 300 and / or the program 315 of the recognition device 300 to determine value operations D / B (510).

The identification information storage unit 505 interlocks with the program 315 of the recognition device 300 including the electrostatic touch screen 305 to which the touch module 200 is to be touched and a program 315 for recognizing the same, May receive user identification information identifying a user using device 300 (or program 315) and store the received user identification information in value operations D / B 510.

The identification information storage unit 505 interlocks with the program 315 of the recognition device 300 having the electrostatic touch screen 305 to which the touch module 200 is to be touched and a program 315 for recognizing the same, The medium identification information that uniquely identifies the device 300, the media identification information that uniquely identifies the program 315 of the recognition device 300, the media identification that uniquely identifies the combination of the recognition device 300 and the program 315, And store the received media identification information in a value operation D / B 510. [

According to an embodiment of the present invention, the identification information storage unit 505 may store identification information of the user identification information and the medium identification information, or may store the user identification information and the medium identification information.

Referring to FIG. 5, the value management system 500 includes an authentication result confirming a touch authentication result for a touched module touch on the capacitive touch screen 305 of the recognition device 300 corresponding to the medium identification information A verification unit 515 and a service identification processing unit 520 for reading the touch authentication result and identifying any one of a value providing service and a value use service.

The authentication result confirming unit 515 confirms the touch authentication result obtained by authenticating the touch of the touched module to the capacitive touch screen 305 of the recognizing device 300 corresponding to the medium identification information.

According to the first authentication result confirmation method of the present invention, the value operation system 500 is implemented on a relay path between the recognition device 300 having the electrostatic touch screen 305 and the touch authentication system 400 In this case, the authentication result confirmation unit 515 can confirm the touch authentication result transmitted from the touch authentication system 400 to the program 315 of the recognition device 300.

According to the second authentication result confirmation method of the present invention, the value operation system 500 can be implemented in the same server (or group of servers) as the touch authentication system 400. In this case, the authentication result confirmation unit 515, Can confirm the touch authentication result of the module touch performed through the touch authentication system (400).

According to the third authentication result confirmation method of the present invention, the value operation system 500 can communicate with the program 315 of the recognition device 300 having the electrostatic touch screen 305, The authentication result confirmation unit 515 can confirm the touch authentication result of the module touch touched on the electrostatic touch screen 305 from the program 315 of the recognition device 300. [ At this time, the authentication process of the module touch may be performed through the touch authentication system 400 on the network, or may be performed through the touch authentication module 420 provided on the recognition device 300.

The service identification processing unit 520 reads the authentication value of the touch authentication result confirmed through the authentication result confirmation unit 515 and determines whether the module touch using the touch module 200 is successfully authenticated. If the module touch is successfully authenticated, the service identification processing unit 520 reads the target identification value included in the touch authentication result, and determines which one of the value providing service and the value use service to provide in response to the successful module touch authentication Of the service. Meanwhile, according to another embodiment of the present invention, when a dynamic identification value is selected before or during authentication of the module touch, the service identification processing unit 520 identifies the object identification value selected from the program 315 of the recognition apparatus 300 as And can identify any one of the value providing service and value providing service to provide in response to the module touch authentication success.

5, when the value providing system 500 provides the value providing service based on the module touch authentication success, the value operating system 500 provides the touch module 200 corresponding to the module touch authentication success Value data for determining the providing value data to be provided to the user of the recognizing device 300 having the electrostatic touch screen 305 to which the touch module 200 of the value provider is touched, Determining value 525 for providing the determined target value data to the program 315 of the recognition device 300 having the electrostatic touch screen 305 in which the touch module 200 of the value provider is touched, The data providing unit 530 and the providing object value data provided by the program 315 of the recognizing device 300 having the electrostatic touch screen 305 to the user identification information And a providing value storage unit 535 for storing the mapped information.

In the case of providing the value providing service based on the module touch authentication success, the value data determining unit 525 provides the touch module 200 corresponding to the success of the module touch authentication at the value provider having the value, Target value data to be provided to the user of the recognizing device 300 having the electrostatic touch screen 305 with which the touch module 200 of the value provider is touched, 530 provides the determined provision target value data to the program 315 of the recognition device 300 having the electrostatic touch screen 305 to which the touch module 200 of the value provider is touched.

The value data determination unit 525 determines whether or not the touch module 200 of the value provider has been touched in response to the module touch authentication success using the touch module 200 of the value provider, And may map and store the provided value data to be provided to the user of the device 300 and the value provider information, and may store the value of the value provider information mapped to the value provider information on the basis of the module touch authentication success using the touch module 200 of the value provider Target value data to be provided to the user of the recognizing device 300 having the electrostatic touch screen 305. [ If there are a plurality of value data mapped to the value provider information, the value data providing unit 530 transmits a value data list including the plurality of value data to a recognition device 300 having the electrostatic touch screen 305 The value data determination unit 525 may provide the program 315 of the recognition apparatus 300 among the plurality of value data provided to the program 315 of the recognition apparatus 300. [ May provide the selected value data as the provision target value data.

According to another embodiment of the present invention, the value data determination unit 525 determines whether the touch module 200 of the value provider is touched to the capacitive touch screen 305 of the recognition apparatus 300 corresponding to the medium identification information It is possible to determine, in real time, the provision target value data to be provided to the user of the recognition device 300, which is touched by the touch module 200 of the value provider, in cooperation with the terminal device 110 of the value provider at the time point The present invention is not limited thereto.

The provided value storage unit 535 stores the provided object value data provided in the program 315 of the recognition apparatus 300 having the electrostatic touch screen 305 in which the touch module 200 of the value provider is touched, And may manage the value data provided to the program 315 of the recognition device 300 by mapping the identification information (and / or the medium identification information) to the value operation D / B 510. According to an embodiment of the present invention, the providing value storage unit 535 may further map and store the value providing place information of the providing object value data and the providing object value data provided by the program 315 of the recognizing apparatus 300, and / The provision target value data may be further mapped and stored with available usable value information and provision target value data provided by the program 315 of the recognizing device 300. [

Referring to FIG. 5, the value management system 500 may be configured to perform a touch operation on the basis of the module touch authentication success, A usage target value verification unit 540 for checking usage target value data usable in a value usage place having the touch module 200 corresponding to the success of module touch authentication among the value data provided to the user of the device 300, And a value use approval processing unit 555 for approving the use of the target value data. In accordance with the execution method, the usage target value data usable in the value usage place having the touch module 200 corresponding to the success of the module touch authentication, The use object provided by the program 315 of the recognition device 300 having the electrostatic touch screen 305 corresponding to the successful touch authentication (545), and / or a value for the usage target value data from the program (315) of the recognition device (300) with the electrostatic touch screen (305) corresponding to the module touch authentication success And a value use request confirmation unit 550 for receiving usage approval request information.

When the value providing service is provided based on the success of the module touch authentication, the usage object value verifying unit 540 determines whether the module touch authentication succeeds From the value data provided to the user, usage target value data usable in the value usage place having the touch module 200 corresponding to the module touch authentication success.

According to the first usage target value verification method of the present invention, the value operation system 500 may be provided on a relay path between the recognition device 300 and the touch authentication system 400, The touch module 200 of the place where the value is used is touched to the electrostatic touch screen 305 of the touch terminal 300 and the authentication process of the module touch using the touch module 200 of the value use place is performed in the touch authentication system 400, When the touch authentication result transmitted from the touch authentication system 400 to the recognition device 300 is relayed to the value operation system 500 and the module touch authentication is confirmed to be successful, The use target value data usable in the value usable place corresponding to the target identification value of the touch authentication result from the value source provided from the value source to the recognizing device 300 corresponding to the medium identification information .

According to the second usage target value verification method of the present invention, the value management system 500 includes a recognizing device 300 that confirms the touch authentication result of the touched module touch on the capacitive touch screen 305 of the recognizing device 300 (Or user identification information) corresponding to the authentication result of the module touch (for example, the authentication result of the module touch, the value use place (or value use service)) from the program 315 of the module touch In this case, the use-object-value verifying unit 540 identifies, from among the value data provided to the recognizing device 300 corresponding to the medium identification information, Value corresponding to value You can check available value data for use at the place of use.

According to the first value usage method associated with the first or second usage target value verification method, the usage target value providing unit 545 determines whether or not the usage target value (Or a list of a plurality of values of value-to-be-used data) to the program 315 of the recognition device 300 having the electrostatic touch screen 305. [ If the usage target value data (or list) is confirmed according to the first usage target value verification method, the usage target value providing unit 545 adds the usage target value data (or list) to the touch authentication result If the usage object value data is confirmed according to the first or second usage object value verification scheme, the usage subject value providing unit 545 may transmit the usage object value data to the recognition device 300 (Or list) of the usage target value data as the program 315 of the usage target value data (or list).

The program 315 of the recognition device 300, which has received the usage target value data (or the list), can transmit usage approval request information for the usage target value data (or the usage target value data selected from the list) The value use request confirmation unit 550 receives the use approval request information from the program 315 of the recognition apparatus 300 and the value use approval processing unit 555 determines whether the value It is possible to perform a procedure for approving use of the usage target value data requested for use approval. The value usage approval processing unit 555 may be a server that uses a value (eg, a billing server, a billing server, a billing server, a billing server, (For example, a credit card company server, a financial company server, a van server, a PG server, a payment relay company server, etc.) to generate the value use approval information for the use object value data, 300 to the program 315 of FIG.

According to the second value usage method associated with the first or second usage target value verification method, the usage target value verification unit 540 determines whether the usage target value that can be immediately used in the first or second usage target value verification process You can see the data. Preferably, the usage target value verifying unit 540 identifies the usage target value data that is immediately available (e.g., one), and / or uses a specified policy (e.g., a priority policy, Or the optimum value data selection policy associated with the payment being carried out via the touch screen 305 of the recognition device 300), and / or by touching the capacitive touch screen 305 of the recognition device 300 (Or the category of the value data) is designated by the touch module 200 of the use value place where the value is used (for example, the touch module 200 of the use place of the value is also used as the identification means for identifying the use object value data) The touch screen 305 of the recognizing device 300 may be used to confirm the use target value data corresponding to the touch module 200 (Or the value data category) that is immediately usable by the user operation is determined before or during the touching of the recognition device 300 and / Based on the result of interoperation of the value operation system 500 and the terminal device 110 of the value use destination before, during, or after the touch module 200 of the value use destination is touched on the screen 305, You can see the data.

When the usable value data that can be immediately used is confirmed through the usage target value verifying unit 540, the value use approval processing unit 555 obtains the usage target value data Approval of the usage target value data confirmed according to the first or second usage target value verification method based on the authentication success of the module touch (without needing to provide the program 315 of the recognition device 300) Can be performed. The value usage approval processing unit 555 may be a server that uses a value (eg, a billing server, a billing server, a billing server, a billing server, (For example, a credit card company server, a financial company server, a van server, a PG server, a payment relay company server, etc.) to generate the value use approval information for the use object value data, 300 to the program 315 of FIG. If the usage target value data is confirmed according to the first usage target value verification method, the value usage approval processing unit 555 uses the value of the touch authentication result to be relayed to the program 315 of the recognition device 300 Authorization information, and if the value-of-use value data is confirmed according to the first or second usage target value verification method, the value use approval processing unit 555 determines, The value usage approval information may be transmitted to the program 315 of the terminal 300.

The program 315 of the recognition device 300 that has confirmed the touch authentication result of the touched module touch on the capacitive touch screen 305 of the recognition device 300 according to the third usage target value verification method of the present invention, The method includes verifying usage target value data usable in a value usage place corresponding to authentication success of the module touch among value data provided from a value source based on authentication success of module touch, The value use request confirmation unit 550 may receive the use approval request information and the medium identification information (or the user identification information) from the program 315 of the recognition apparatus 300 Or the user identification information) from the predetermined value provider, and transmits the value data provided to the recognition device 300 corresponding to the medium identification information The usage target value data corresponding to the usage approval request information can be confirmed.

When the use object value data corresponding to the use approval request information is confirmed, the value use approval processing unit 555 can perform a procedure for approving use of the use object value data requested for use approval. The value usage approval processing unit 555 may be a server that uses a value (eg, a billing server, a billing server, a billing server, a billing server, (E.g., a credit card company server, a financial company server, a van server, a PG server, a payment relaying company server, etc.) in order to use the value data, generates value use approval information for the use object value data, To the program 315 of the recognition device 300. [

6 is a diagram illustrating a process of registering a touch authentication condition for the touch module 200 according to an embodiment of the present invention.

6 is a diagram illustrating the relationship between the design geometric characteristics of the N touch units 205 provided in the touch module 200 and the touch authentication conditions including the error information in the touch authentication system 400 6, it is possible to refer to and / or modify the FIG. 6 in order to perform various operations for the touch authentication condition registration process (for example, some steps are omitted , Or an embodiment in which the order is changed). 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.

Referring to FIG. 6, the touch authentication system 400 includes a touch module 200 for designing the N touch parts 205 disposed on one side area 215 of the touch module 200, (600) a geometric relationship including a geometric relationship and further including characteristic information corresponding to a touch characteristic imparted to the touch module (200) in accordance with an operation method, (605), and the geometric property relationship may include design error information. If the actual measurement verification is not performed on the geometric property relationship in the design, a touch authentication condition including the geometric characteristic relationship and the design error information is generated (625), and the generated touch authentication condition and the touch The serial code of the module 200 may be mapped and stored in the storage medium 410 (630).

Meanwhile, if real measurement verification is performed on the geometrical property relationship in the design, the touch authentication system 400 can display N touch units 205 provided on the touch module 200 on the designated electrostatic touch screen 305 (610), the relationship between the actual measurement geometric characteristics repeatedly touched a predetermined number of times or more is confirmed. If the actual measurement geometric property relationship with respect to the N touch units 205 is confirmed, the touch authentication system 400 determines whether the actual measurement geometric property relationship exists within the tolerance range of the geometric property relationship in the design ( 615). If the actual measurement geometric relationship does not exist within the error tolerance range, the touch authentication system 400 performs a process of correcting N touch units 205 included in the touch module 200 ) Or a process of re-manufacturing the touch module 200 (620).

On the other hand, if the actual measurement geometric relationship exists within the error tolerance range, the touch authentication system 400 generates a touch authentication condition including the relationship between the geometric characteristics of the touch module 200 and the error information 625), the serial code of the touch module 200 and the touch authentication condition are mapped and stored in the storage medium 410 (630). The touch authentication condition may include at least one of information on a divided area 220, a minimum distinction recognition distance, and a minimum identification distance, or the touch authentication system 400 may include at least one of a touch area of the touch module 200 205 to touch the N touch points. The touch authentication system 400 may transmit the recognized touch authentication condition to a recognition device 300 having a capacitive touch screen 305 such as a recognition device 300 having a touch authentication module 420 ) So that the authentication process (or at least a part of the authentication process) of the module touch can be performed through the recognition device 300.

7 is a diagram illustrating a process of registering a value provider of the touch module 200 according to an embodiment of the present invention.

In more detail, FIG. 7 illustrates a relationship between a design geometric characteristic of N touch units 205 included in the touch module 200 and a touch authentication condition including error information in the touch authentication system 400, [0040] FIG. 4A illustrates a process of registering and storing location area information of a value provider from a terminal 110 of a value provider provided with the touch module 200. As shown in FIG. 3, 7 may be referred to and / or modified to derive various implementations of the value provider registration process (e.g., omitting some steps or changing the order), but the invention is not limited thereto And the technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 7, the touch authentication system 400 receives from the terminal device 110 of the value provider, which is provided with the touch module 200, value source information that identifies the serial code of the touch module 200 and the value source, The location area information of the value provider is received (700). The touch authentication system 400 confirms the touch authentication condition mapped with the received serial code among the touch authentication conditions registered in the storage medium 410 (705).

If the touch authentication condition mapped with the serial code is not confirmed, the touch authentication system 400 constructs and transmits unregistered error information for the touch module 200 to the terminal device 110 (710). Meanwhile, if the touch authentication system mapped with the serial code is confirmed, the touch authentication system 400 maps the received touch authentication condition, the received value provider information, and the location information of the value provider to the storage medium 410, (715). According to an embodiment of the present invention, the touch authentication system 400 transmits the recognized touch authentication condition (or the touch authentication condition and the position area information) to the recognition device 300 having the electrostatic touch screen 305 (Or the recognition device 300 having the authentication module 420), it is possible to cause the recognition device 300 to perform the module touch authentication process (or at least a part of the authentication process).

8 is a diagram illustrating a process of registering a value usage destination of the touch module 200 according to an embodiment of the present invention.

More specifically, FIG. 8 illustrates a relationship between a design geometric characteristic of N touch units 205 included in the touch module 200 and a touch authentication condition including error information in the touch authentication system 400, The location information of the place where the value is used is registered and stored from the terminal 110 of the value use place provided with the touch module 200. It should be understood by those skilled in the art that, It is possible to refer to and / or modify the FIG. 8 to derive various implementation methods (for example, omitting some steps or changing the order) for the value place registration process, And the technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 8, the touch authentication system 400 receives the serial number of the touch module 200 and the value usage information for identifying the value usage destination from the terminal device 110, The location area information of the value use destination is received (800). The touch authentication system 400 confirms the touch authentication condition mapped with the received serial code among the touch authentication conditions registered in the storage medium 410 (805).

If the touch authentication condition mapped with the serial code is not confirmed, the touch authentication system 400 configures and transmits the unregistered error information for the touch module 200 to the terminal device 110 (810). On the other hand, if the touch authentication condition mapped with the serial code is confirmed, the touch authentication system 400 maps the received touch authentication condition, the received value usage location information and the location area information of the value usage location to the storage medium 410, (815). According to an embodiment of the present invention, the touch authentication system 400 transmits the recognized touch authentication condition (or the touch authentication condition and the position area information) to the recognition device 300 having the electrostatic touch screen 305 (Or the recognition device 300 having the authentication module 420), it is possible to cause the recognition device 300 to perform the module touch authentication process (or at least a part of the authentication process).

9 is a diagram illustrating a process of recognizing a module touch using the touch module 200 in the program 315 of the recognition device 300 according to an embodiment of the present invention.

9 is a block diagram showing a configuration of the recognition device 300 when the touch module 200 having N touch parts 205 is touched on the capacitive touch screen 305 of the recognition device 300 315 to recognize the module touch using the touch module 200 and configure the touch characteristic information for authenticating the module touch and transmit the touch characteristic information to the touch authentication system 400. [ It is possible to refer to and / or modify the FIG. 9 to infer various implementations of the module touch recognition process (e.g., omitting some of the steps or changing the order) 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. 9, the recognition apparatus 300 confirms (900) a touch event on a touch point touched on the capacitive touch screen 305 as the touch function of the capacitive touch screen 305 is activated (900) 905). In step 910, the touch event is read and it is determined whether a module touch that touches the N touch units 205 provided in the touch module 200 is recognized. Preferably, the program 315 of the recognizing device 300 recognizes that N touch points are touched through the electrostatic touch screen 305, and when the touch module 200 is designed, It is possible to selectively apply at least one of the touch recognition conditions of the condition, the static touch condition, the dynamic touch condition, the sequential touch condition, and the sensor interlock condition, or to confirm whether the module touch is recognized by combining two or more conditions.

If the module touch using the touch screen is recognized, the program 315 of the recognizing device 300 determines that the touch module 200 has the geometric property relationship of the N touch points touched on the electrostatic touch screen 305 (915) a component value for authenticating whether or not it matches the geometric characteristic relationship in design with respect to the N touch units (205). The module touch of the present invention allows the N touch units 205 provided in the touch module 200 to be turned on and off even when the touch module 200 is touched without any need to align the touch module in a specific direction or a specific area of the electrostatic touch screen 305, As long as the N touch points are recognized by touching the touch screen 305, the geometric characteristic relationship formed by the N touch points is designed according to the designed geometrical property relationship between the designed touch module 200 and the designated tolerance range Wherein the touch feature authentication for the N touch points is performed based on a time-space characteristic of the geometric relationship of the N touch points (e.g., the number of touch points, the geometry of the touch points (e.g., A characteristic in which at least one reference point is set and the remaining touch points are provided in arbitrary calculated positions, a characteristic having a divided area 220 structure, etc.) A geometric characteristic for certifying whether the predicted space-time characteristic is matched within an allowable error range when the touch module 200 manufactured according to the pre-designed touch screen 305 is touched to the electrostatic touch screen 305 Includes relationship authentication. Therefore, the component values for the N touch points include all the element values defined as necessary for the geometric characteristic relation authentication.

On the other hand, when the position information of the recognition device 300 is used for the authentication of the N touch points, the program 315 of the recognition device 300 can confirm the position information of the recognition device 300 920). The program 315 of the recognizing device 300 configures 925 the touch characteristic information including the component values of the N touch points and the position information of the recognizing device 300. If the touch module 200 is provided with a function of outputting a sound signal to the touch module 200 or an NFC chip and is encoded into the sound signal at the time when the touch module 200 is touched by the capacitive touch screen 305, When recognizing the code value included in the radio frequency signal received from the chip, the program 315 of the recognizing device 300 checks 920 the code value recognized through the sound signal or the NFC, The code value may be included in the touch characteristic information (925).

The program 315 of the recognizing device 300 includes the component values of the N touch points as characteristic information for touch characteristic authentication and further includes the position information of the recognizing device 300 And / or transmit the touch characteristic information including the sound signal or the code value included in the NFC-based radio frequency signal through the designated path (930), and transmit the touch characteristic information to the designated operating server 100 .

Meanwhile, according to another embodiment of the present invention, the program 315 of the recognition device 300 identifies a module usage destination (for example, a value provider or a value usage location) before transmitting the touch property information, (For example, a value providing service or a value use service) using the touch characteristic information, and transmits the touch characteristic information including the object identification value.

FIG. 10 is a diagram illustrating a process of authenticating a geometric characteristic relation for N touch points touched by the electrostatic touch screen 305 according to an embodiment of the present invention.

10 illustrates a case where the N touch units 205 included in the touch module 200 are touched in the touch authentication system 400 to the capacitive touch screen 305 of the recognition apparatus 300 and N recognized And the geometric characteristic relation of the touch point is matched with the geometric characteristic relationship in the design included in the pre-registered touch authentication condition. If the person skilled in the art is familiar with the present invention, 10 may be referenced and / or modified to infer various implementations of the geometric feature relationship authentication process (e.g., omitting some of the steps or changing the order), but the present invention is not limited to any of the above- And the technical features thereof are not limited only by the method shown in FIG. For example, the module touch authentication process (or a part of processes) of FIG. 10 may be performed through the recognition device 300, and thus the present invention is not limited thereto.

Referring to FIG. 10, the touch authentication system 400 receives (1000) the touch characteristic information transmitted from the program 315 of the recognition device 300 through the process shown in FIG. 9 through a designated path, The component values for the N touch points included in the touch characteristic information are confirmed (1005).

The touch authentication system 400 reads the inter-geometric relationship between the N touch points based on the component values, thereby obtaining N touch points corresponding to the component values, (1010). If the N touch points are not the touch points of the valid touch module 200, the touch authentication system 400 checks (1040) a touch authentication error with respect to the N touch points, Generates an authentication result (1045), and transmits the generated touch authentication result through a designated path (1050).

If the N touch points are the touch points of the effective touch module 200, the touch authentication system 400 may be configured to divide the divided regions 220 of the n divided regions 220, which are designed in the process of manufacturing the touch module 200, The component value is read through the information on the touch panel 220 to identify a designated touch point corresponding to the touch unit 205 provided at a designated position on the designated area 225 among the n divided areas 220 in operation 1015. If the designated touch point is not identified, the touch authentication system 400 checks (1040) a touch authentication error with respect to the N touch points, generates a touch authentication result corresponding to the touch authentication error (1045) , And transmits the generated touch authentication result through the designated path (1050).

If the designated touch point among the N touch points is identified, the touch authentication system 400 calculates 1020 an authentication target geometric characteristic relationship between the identified designated touch point and each of n touch points. Meanwhile, if the touch authentication condition and the location area information of the paint use destination are mapped through the process shown in FIG. 7 or FIG. 8, the touch authentication system 400 determines And compares the position information of the recognizing device 300 with the position area information of the touch authentication condition to compare the calculated geometry relationship with the calculated authentication target among a plurality of touch authentication conditions stored in the storage medium 410 (1025), and the calculated geometric characteristic relationship calculated is matched within a specified tolerance range with a design geometric characteristic relationship included in the identified one or more comparison target touch authentication conditions (For example, if the geometric characteristic relationship to be certified matches the geometric characteristic relationship in the design, (Step 1030). Preferably, the analysis procedure further comprises the steps of: confirming a geometric characteristic relationship in design that matches the authentication target geometric characteristic relationship among the geometric characteristic relations on the design of the identified one or more comparison target touch authentication conditions, It is preferable to repeat the relationship between the geometric characteristics included in the design and the geometric characteristics of the objects to be analyzed. On the other hand, if the touch authentication condition is not matched with the location area information of the paint use destination, the touch authentication system 400 compares the geometric characteristic relationship with all the touch authentication conditions stored in the storage medium 410 Can be performed.

The touch authentication system 400 performs a process of confirming the geometric characteristic relationship between the design target geometric characteristic relationship and the design geometric characteristic relationship among the geometric characteristic relations on the design of the identified one or more comparison target touch authentication conditions (1035).

According to the embodiment of the present invention, the geometric characteristic relation authentication of the present invention does not authenticate whether geometric characteristic relations on the registered design are extracted and matched with the geometrical characteristic relation to be authenticated, It is possible to simultaneously use the touch module 200 as the identification means and the authentication means by checking whether there is a geometrical characteristic relation in design matching with the geometric characteristic relation. Meanwhile, when a unique code that can specify any one of the geometric characteristic relations among a plurality of design geometric characteristic relations registered in the touch characteristic information is received and received, the geometric characteristic relationship among the geometric characteristic relations on the registered design The touch module 200 can be used as an authentication unit and the unique code can be used as an identification unit. If the inherent code is provided through the electronic module built in the touch module 200, the touch module 200 can be used as the identification means and the authentication means at the same time.

According to another embodiment of the present invention, when the touch characteristic information includes an object identification value for identifying a service using the module or a service using the touch module 200, the touch authentication system 400 identifies a touch authentication condition corresponding to the object identification value among the touch authentication conditions stored in the storage medium 410 and determines whether the geometric property relationship included in the touch property information is a touch authentication condition corresponding to the object identification value The geometric relationship between the target geometric characteristic and the calculated geometrical characteristic relationship can be authenticated.

If the process of comparing and analyzing the relationship between the geometrical characteristics to be authenticated and the geometrical characteristics of the design is completed (i.e., the geometric characteristics matched to the authentication target geometric characteristic is not matched) The touch authentication system 400 confirms (1040) a touch authentication error with respect to the N touch points, generates a touch authentication result corresponding to the touch authentication error (step 1045) , And transmits the generated touch authentication result through the designated path (1050).

Meanwhile, before the calculated geometric characteristic relationship is compared with the geometric characteristic relationship in the designed geometric characteristic included in the identified one or more compared touch target authentication conditions, The touch authentication system 400 determines that the N touch points corresponding to the authentication target geometric characteristic relationship are in accordance with the matched geometrical characteristic relationship in the matched design The designed touch module 200 can be authenticated as a touch point touched to the electrostatic touch screen 305 (1055).

On the other hand, if the touch characteristic information does not include a separate code value, the touch authentication system 400 determines that the matching geometric characteristic relationship is matched with the matched geometrical characteristic relationship in the design, It is determined that the touch module 200 having the N touch units 205 according to the characteristic relationship has successfully authenticated the touch property touched to the electrostatic touch screen 305 and corresponds to the touch authentication success of the N touch points And generates a touch authentication result further including an object identification value corresponding to the touch module 200 touched to the capacitive touch screen 305 of the recognition device 300 according to the method of operation 1060 ), And transmits the generated touch authentication result through the designated path (1050).

11 is a diagram illustrating a process of authenticating a code value associated with N touch points touched on the electrostatic touch screen 305 according to an embodiment of the present invention.

More specifically, FIG. 11 illustrates a process of authenticating validity of a code value recognized at a time point when N touch points are touch-recognized on the capacitive touch screen 305 of the recognizing device 300, Those skilled in the art will be able to refer to and / or modify this drawing 11 to infer various implementations of the code value authentication process (e.g., omitting some steps or changing the sequence) However, the present invention is not limited to 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 authentication process (or a part of processes) of FIG. 11 may be performed through the recognition device 300, and thus the present invention is not limited thereto. For example, the process of FIG. 11 may be performed before the process of FIG.

Referring to FIG. 11, the touch authentication system 400 checks the code value included in the received touch characteristic information through the process shown in FIG. 10 (1100) (1105) a code authentication condition included in (or linked to) the touch authentication condition including the geometric property relationship with respect to the point and the geometric characteristic relationship with the design that is confirmed to be matched.

The touch authentication system 400 performs a procedure of checking a comparison code for authenticating the code value using the code authentication condition or generating a verification code for authenticating the code value 1110, The validity of the code value is authenticated using the comparison code identified through the code authentication condition or the validity of the code value is verified using the verification code generated through the code authentication condition (1115). According to an embodiment of the present invention, the authentication of the code value can be performed through a separate code authentication server.

If the validity of the code value is not authenticated, the touch authentication system 400 checks (1120) a touch authentication error for the N touch points, generates a touch authentication result corresponding to the touch authentication error ( 1125), and transmits the generated touch authentication result through the designated path (1135).

Meanwhile, when the validity of the code value is authenticated, the touch authentication system 400 obtains the authentication result obtained by combining the authentication result of the geometric characteristic relation for the N touch points performed in the process of FIG. 10 with the authentication result of the code value And generates a touch authentication result that further includes an object identification value corresponding to the touch module 200 touched in the capacitive touch screen 305 of the recognition device 300 according to an embodiment (1130). If the geometric characteristic relation for the N touch points is successfully authenticated and the code value is authenticated successfully, the touch authentication system 400 may include N touch units 205 according to the matched geometric property relationship The touch module 200 may determine that the touch property touched on the electrostatic touch screen 305 has been successfully authenticated and generate a touch authentication result corresponding to the successful touch authentication of the N touch points. The touch authentication system 400 transmits the generated touch authentication result through a designated path (1135).

12A and 12B are diagrams illustrating a module touch authentication-based value data providing process according to the first embodiment of the present invention.

12A and 12B illustrate a case where the touch module 200 of the value provider is touched to the capacitive touch screen 305 of the recognition device 300 and the process of FIG. When the authentication procedure is performed, the value management system 500 receives the touch authentication result of the module touch, confirms the provision object value data, and incorporates (or associates) the touch object authentication result with the touch authentication result 315, the program 315 of the recognition apparatus 300 confirms and stores the provision target value data, and FIG. 12a illustrates an operation process of the value management system 500 And FIG. 12B shows an operation process of the program 315 of the recognizing device 300. As shown in FIG. Those skilled in the art will be able to refer to and / or modify the figures 12a and 12b in order to provide a description of the various methods of providing the value data (e.g., some steps may be omitted, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. For example, those skilled in the art can refer to and / or modify the drawings 12a and 12b to determine the program 315 of the recognition device 300 having the touch authentication module 420 The process of providing the value data on the basis of the touch authentication result of the module touch performed through the authentication process can be inferred and it is evident that the present invention includes all possible embodiments.

Referring to FIG. 12a, the value operating system 500 may be implemented on a relay path between the touch authentication system 400 of FIG. 4 and the recognition device 300 of FIG. 3, A touch authentication result of the module touch authentication procedure performed through the process shown in FIG. 10 or FIG. 11 from the touch authentication system 400 may be received 1200. If the touch authentication system 400 provides the touch authentication result to the program 315 of the recognition device 300 according to the embodiment of the present invention, the value operation system 500 determines the program 315 of the recognition device 300, The touch authentication result may be received (1200). When the module touch authentication process is performed through the program 315 of the recognition device 300 having the touch authentication module 420 according to another embodiment of the present invention, It is possible to receive the touch authentication result from the program 315 of the terminal 300, and thus the present invention is not limited thereto.

The value management system 500 reads the authentication value of the touch authentication result and notifies the touch property of the touch module 200 that touches the capacitive touch screen 305 of the recognition device 300 to the touch module 200 (Step 1205). The module touch touched the touch module 200 of the value provider is verified at step 1205.

If the module touch using the touch module 200 of the value provider has failed in authentication, the value operation system 500 relays the touch authentication result to the program 315 of the recognition device 300 as it is ). However, even if the value operating system 500 does not transmit the touch authentication result from the program 315 of the recognizing device 300 when the touch authentication result is received from the program 315 of the recognizing device 300 It is acceptable.

On the other hand, if the module touch using the touch module 200 of the value provider is successfully authenticated, the value operation system 500 determines that the touch module 200 of the value provider is touched based on the target identification value of the touch authentication result (1215) the provision object value data to be provided to the user of the recognition device 300 having the electrostatic touch screen 305 and transmits the confirmed provision object value data to the recognition device 300 (and / (315), and / or user identification information for identifying the user of the recognition device (300), and stores (1220) the program identification information Transmits the touch authentication result including (or linking) the providing object value data (1225). If the touch authentication result is received from the program 315 of the recognition device 300, the value management system 500 can transmit the provided target value data to the program 315 of the recognition device 300 (1225).

Referring to FIG. 12B, the program 315 of the recognition device 300 receives the touch authentication result through the designated path (1230), reads the authentication value of the result of the touch authentication, The touch characteristics of the touch module 200 touched on the screen 305 are matched with the touch characteristics of the touch module 200 of the value provider by touching the touch module 200 of the value provider, (1235).

If the module touch using the touch module 200 of the value provider fails authentication, the program 315 of the recognition device 300 outputs a module touch error message (1240).

On the other hand, if the module touch using the touch module 200 of the value provider is successfully authenticated, the program 315 of the recognition device 300 generates the target value data of the value provider included (or linked to) (1245), and stores the value data provided from the value provider in a designated storage area and displays it on the screen (1250).

FIGS. 13A and 13B are diagrams illustrating a module touch authentication-based value data providing process according to a second embodiment of the present invention.

13A and 13B illustrate a case where the program 315 of the recognizing device 300 receives (or confirms) the touch authentication result and then requests, receives, and stores the value data to the value operating system 500 FIG. 13A illustrates an operation process of the program 315 of the recognition apparatus 300, and FIG. 13B illustrates an operation process of the value operation system 500. Referring to FIG. Those skilled in the art will be able to refer to and / or modify the drawings 13a and 13b in order to understand the various ways of providing the value data (e.g., some steps may be omitted, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. For example, those skilled in the art will be able to refer to and / or modify the drawings 13a and 13b to determine the program 315 of the recognition device 300 having the touch authentication module 420 The process of requesting and receiving the value data on the basis of the touch authentication result of the module touch performed through the authentication process can be inferred. It is clear that the present invention includes all possible embodiments.

Referring to FIG. 13A, the value operation system 500 may receive the touch authentication result of the module touch authentication procedure performed through the process shown in FIG. 10 or FIG. 11 through the designated path (1300). The program 315 of the recognizing device 300 may be used when a module touch authentication process is performed through the program 315 of the recognizing device 300 having the touch authentication module 420 according to another embodiment of the present invention. A touch authentication result of the module touch authentication process performed through the touch authentication module 420 may be checked (1300).

The program 315 of the recognition device 300 reads the authentication value of the touch authentication result and notifies the touch characteristic of the touch module 200 that the touch property of the touch module 200 touches the capacitive touch screen 305 of the recognition device 300, In step 1305, it is determined whether the module touch that touches the touch module 200 of the value provider matches the touch characteristic of the touch module 200.

If the authentication of the module touch using the touch module 200 of the value provider is failed, the program 315 of the recognition device 300 outputs a module touch error message (1340).

Meanwhile, if the module touch using the touch module 200 of the value provider is successfully authenticated, the program 315 of the recognizing device 300 receives the value of the touch module 200 corresponding to the module touch authentication success using the touch module 200 of the value provider, (1315). &Lt; / RTI &gt; The object identification value can be confirmed by reading the touch authentication result, or can be confirmed through a user operation.

The program 315 of the recognition apparatus 300 requests 1320 the value data to be provided from the value provider corresponding to the object identification value to the value operation system 500.

Referring to FIG. 13B, the value management system 500 receives (25) a value data request corresponding to the object identification value from the program 315 of the recognition apparatus 300, The touch module 200 of the value provider checks the provision target value data to be provided to the user of the recognition device 300 having the touched electrostatic touch screen 305 in operation 1330, (1335) with the medium identification information that uniquely identifies the recognition device 300 (and / or the program 315) and / or the user identification information that identifies the user of the recognition device 300, The provision target value data is transmitted to the program 315 of the device 300 (1340).

Referring to FIG. 13A, the program 315 of the recognition device 300 determines whether the provided value data is received from the value operating system 500 (1345) The value data provided from the value provider is stored in a designated storage area and displayed on the screen (1350).

According to another embodiment of the present invention, the program 315 of the recognizing device 300 transmits the touch authentication result to the value operating system 500 when the module touch authentication of the reading result value source of the touch authentication result is successful (1355). In this case, the provision target value data can be provided through the process shown in FIG.

14A and 14B are diagrams illustrating a process of using the module touch authentication-based value data according to the first embodiment of the present invention.

14A and 14B illustrate a case where the touch module 200 of the use place of the value is touched to the capacitive touch screen 305 of the recognizing device 300 and the module touch is performed through the process shown in FIG. When the authentication operation procedure is performed, when the value operation system 500 receives the touch authentication result of the module touch and confirms the use object value data on the basis of the touch authentication result, the value operation data 500 provides the program object 315 of the recognition device 300, The program 315 of the device 300 requests the value management system 500 to request the use of the usage target value data to be used and preferably uses the value operating system 500 FIG. 14B illustrates an operation process of the program 315 of the recognition apparatus 300. FIG. Those skilled in the art will be able to refer and / or modify Figures 14a and 14b to illustrate various implementations of the value data usage process (e.g., some steps may be omitted, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. For example, those skilled in the art will be able to refer to and / or modify the drawings 14a and 14b to determine the program 315 of the recognition device 300 having the touch authentication module 420 The process of using the value data on the basis of the touch authentication result of the module touch performed through the authentication process can be inferred and it is clear that the present invention includes all possible embodiments.

Referring to FIG. 14a, the value operating system 500 may be implemented on a relay path between the touch authentication system 400 of FIG. 4 and the recognition device 300 of FIG. 3, A touch authentication result of the module touch authentication procedure performed through the process shown in FIG. 10 or FIG. 11 from the touch authentication system 400 may be received (1400). If the touch authentication system 400 provides the touch authentication result to the program 315 of the recognition device 300 according to the embodiment of the present invention, the value operation system 500 determines the program 315 of the recognition device 300, The touch authentication result may be received (1400). When the module touch authentication process is performed through the program 315 of the recognition device 300 having the touch authentication module 420 according to another embodiment of the present invention, It is possible to receive the touch authentication result from the program 315 of the terminal 300, and thus the present invention is not limited thereto.

The value management system 500 reads the authentication value of the touch authentication result and notifies the touch property of the touch module 200 that touches the capacitive touch screen 305 of the recognition device 300 to the touch module 200 (1405) whether the module touch which touches the touch module 200 of the value use place has been successfully authenticated.

If the module touch using the touch module 200 is failed, the value operation system 500 relays the touch authentication result to the program 315 of the recognition device 300 as it is ). However, even if the value operating system 500 does not transmit the touch authentication result from the program 315 of the recognizing device 300 when the touch authentication result is received from the program 315 of the recognizing device 300 It is acceptable.

On the other hand, if the module touch using the touch module 200 of the value use destination is successfully authenticated, the value operation system 500 determines whether the value From the value usage destination corresponding to the object identification value among the value data previously provided to the user of the recognition device 300 having the electrostatic touch screen 305 in which the touch module 200 of the value use destination is touched, The available usage target value data is confirmed (1415). According to an embodiment of the present invention, the value management system 500 can check a list of value data corresponding to the object identification value (1415).

The value management system 500 transmits the touch authentication result including the use target value data (or the list of value data) to the program 315 of the recognition device 300 (1420). If the touch authentication result is received from the program 315 of the recognizing device 300, the value operating system 500 transmits the usage target value data (or value (E.g., a list of data).

Referring to FIG. 14B, the program 315 of the recognition apparatus 300 receives the touch authentication result through the designated path (1425), reads the authentication value of the touch authentication result, The touch characteristics of the touch module 200 touched on the touch screen 305 are matched with the touch characteristics of the touch module 200 to which the value is to be used, (1430).

If the authentication of the module touch using the touch module 200 is failed, the program 315 of the recognition device 300 outputs a module touch error message 1435.

On the other hand, if the module touch using the touch module 200 is successfully authenticated, the program 315 of the recognizing device 300 determines whether or not to use the value data (or value data) included in the touch authentication result (1440), and confirms whether the value-to-be-used value data to be used for approval of use is determined (or selected) in the value operating system 500. The program 315 of the recognizing device 300 determines whether or not the value management system 500 determines whether or not the value to be used is to be determined (or selected) (1445) to approve the use of the used value data.

Referring to FIG. 14A, the value management system 500 checks whether usage approval value data is approved for use by the program 315 of the recognition apparatus 300 (1450) When the approval is requested, the use authorization process of the use object value data is performed in cooperation with the terminal 110 (or the server associated with the value use terminal 110) of the value use destination (step 1455). The terminal device 110 (or the server associated with the value-added terminal 110) interacts with the value-usage-target value data in the state where the value-of-use data is confirmed And thus the detailed description thereof will be omitted.

If the use of the use object value data is confirmed, the value operating system 500 generates value use approval information for the use object value data that is confirmed to be used 1460, 315), the value use approval information for the use object value data is transmitted (1465).

Referring to FIG. 14B, the program 315 of the recognizing device 300 checks whether the value usage approval information for the usage target value data is received from the value operating system 500 (step 1470) When the approval information is received, the value usage approval information for the usage target value data used in the value usage destination is displayed on the screen (1475).

FIGS. 15A and 15B illustrate a process of using the module touch authentication-based value data according to the second embodiment of the present invention.

15A and 15B illustrate a case where the touch module 200 of the place where the value is used is touched to the capacitive touch screen 305 of the recognizing device 300 and the process of FIG. When the authentication procedure is performed, the value operation system 500 receives the touch authentication result of the module touch, identifies the immediately available usable value data based on the touch authentication result, Figure 15b illustrates the operation of the value operating system 500 and Figure 15b illustrates the operation of the program 315 of the recognition device 300. Figure 15b illustrates the operation of the value management system 500, FIG. Those skilled in the art will be able to refer and / or modify Figures 15a and 15b to illustrate various implementations of the value data usage 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 to those of the embodiments shown in FIGS. 15A and 15B. For example, those skilled in the art will be able to refer to and / or modify the drawings 15a and 15b to determine the program 315 of the recognition device 300 having the touch authentication module 420 The process of using the value data on the basis of the touch authentication result of the module touch performed through the authentication process can be inferred and it is clear that the present invention includes all possible embodiments.

Referring to FIG. 15a, a value operating system 500 may be implemented on a relay path between the touch authentication system 400 of FIG. 4 and the recognition device 300 of FIG. 3, A touch authentication result of the module touch authentication procedure performed through the process shown in FIG. 10 or FIG. 11 from the touch authentication system 400 may be received (1500). If the touch authentication system 400 provides the touch authentication result to the program 315 of the recognition device 300 according to the embodiment of the present invention, the value operation system 500 determines the program 315 of the recognition device 300, The touch authentication result may be received (1500). When the module touch authentication process is performed through the program 315 of the recognition device 300 having the touch authentication module 420 according to another embodiment of the present invention, It is possible to receive the touch authentication result from the program 315 of the terminal 300, and thus the present invention is not limited thereto.

The value management system 500 reads the authentication value of the touch authentication result and notifies the touch property of the touch module 200 that touches the capacitive touch screen 305 of the recognition device 300 to the touch module 200 (1505) whether the module touch that touches the touch module 200 of the value use place has been successfully authenticated.

If the module touch using the touch module 200 is failed, the value operation system 500 relays the touch authentication result to the program 315 of the recognition device 300 as it is ). However, even if the value operating system 500 does not transmit the touch authentication result from the program 315 of the recognizing device 300 when the touch authentication result is received from the program 315 of the recognizing device 300 It is acceptable.

On the other hand, if the module touch using the touch module 200 of the value use destination is successfully authenticated, the value operation system 500 determines whether the value From the value usage destination corresponding to the object identification value among the value data previously provided to the user of the recognition device 300 having the electrostatic touch screen 305 in which the touch module 200 of the value use destination is touched, The immediately available usable value data is confirmed (1515). Preferably, the value operating system 500 may identify an immediately available number of usage target value data (e.g., 1) and / or identify a policy (e.g., a priority policy, (For example, an optimal value data selection policy associated with the payment being performed via the touch screen 305 of the recognition device 300), and / (Or a state in which the touch module 200 that uses the value is also used as an identification means for identifying the use object value data) in a state in which value data (or category of value data) ), And / or by touching the touch module (200) of the place of value use to the capacitive touch screen (305) of the recognition device (300) (Or a value data category) that is immediately usable by a user operation is determined before or during the recognition process of the recognition device 300 and / 305, which are used before, during, or after the touch module 200 of the value-used user is touched, the value-of-use value data that can be used immediately based on the result of mutual interoperation of the value-operating system 500 and the terminal device 110 Can be confirmed.

If the immediately usable use target value data is not confirmed, the value operating system 500 transmits the use target value data (or a list of value data) to the recognizing device 300 through the process shown in FIGS. 14A to 14B, The program 315 of FIG.

On the other hand, if the value data of the usage target that can be immediately used is confirmed, the value operation system 500 transmits the value of the terminal device 110 (or the server associated with the value usage terminal device 110) (Step 1520). In step 1520, the usage object value data is used in cooperation with the user. The terminal device 110 (or the server associated with the value-added terminal 110) interacts with the value-usage-target value data in the state where the value-of-use data is confirmed And thus the detailed description thereof will be omitted.

If the use of the usage target value data is confirmed, the value operating system 500 generates 1525 the value usage approval information for the usage target value data that is confirmed to be used, 315) transmits the touch authentication result including the value use approval information to the use object value data (1530). If the touch authentication result is received from the program 315 of the recognition device 300, the value operation system 500 can transmit the value usage approval information to the program 315 of the recognition device 300 (1530).

Referring to FIG. 15B, the program 315 of the recognition device 300 receives the touch authentication result through the designated path 1535, reads the authentication value of the touch authentication result, The touch characteristics of the touch module 200 touched on the touch screen 305 are matched with the touch characteristics of the touch module 200 to which the value is to be used, (1540).

If the authentication of the module touch using the touch module 200 is failed, the program 315 of the recognition device 300 outputs a module touch error message (1545).

On the other hand, if the module touch using the touch module 200 of the value use place is successfully authenticated, the program 315 of the recognizing device 300 confirms the value use approval information included (or linked) in the touch authentication result 1550). If the value use approval information is confirmed, the program 315 of the recognizing device 300 displays the value use approval information on the usage target value data used in the value usage place on the screen (1555).

FIG. 16 is a diagram illustrating a process of using the module touch authentication-based value data according to the third embodiment of the present invention.

In more detail, FIG. 16 illustrates a process of touching the touch module 200 of the value use destination to the electrostatic touch screen 305 of the recognizing device 300, and authentication of the module touch is performed through the process shown in FIG. 10 or FIG. The program 315 of the recognizing device 300 receives the touch authentication result of the module touch and requests the value operating system 500 to use the value data available in the value using place, If the person skilled in the art is familiar with the present invention, referring to and / or modifying FIG. 16, it is possible to perform various methods of using the value data It will be appreciated that methods (e.g., those in which some steps have been omitted or have been altered in order) may be deduced, but the present invention encompasses all such enumerated methods of implementation And the technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 16, the program 315 of the recognition device 300 may receive the touch authentication result of the module touch authentication procedure performed through the process shown in FIG. 10 or FIG. 11 through the designated path 1600 ). The program 315 of the recognizing device 300 may be used when a module touch authentication process is performed through the program 315 of the recognizing device 300 having the touch authentication module 420 according to another embodiment of the present invention. A touch authentication result of the module touch authentication procedure performed through the touch authentication module 420 may be checked 1600. [

The program 315 of the recognizing device 300 reads the authentication value of the touch authentication result and notifies the touch characteristic of the touch module 200 that the touch characteristic of the touch module 200, which is touched to the capacitive touch screen 305 of the recognizing device 300, In step 1605, it is confirmed whether the module touch that touches the touch module 200 of the value use destination matches the touch property of the touch module 200.

If the authentication of the module touch using the touch module 200 is failed, the program 315 of the recognition device 300 outputs a module touch error message 1640.

On the other hand, if the module touch using the touch module 200 has been successfully authenticated, the program 315 of the recognition device 300 generates a value application corresponding to the success of module touch authentication using the touch module 200, (1615). &Lt; / RTI &gt; The object identification value can be confirmed by reading the touch authentication result, or can be confirmed through a user operation.

The program 315 of the recognition apparatus 300 requests 1620 the usable value data usable in the value usage place corresponding to the object identification value to the value operation system 500 (Or a list of value data) from the value management system 500 to the program 315 of the recognition apparatus 300 through the process shown in FIG. Can be performed.

According to another embodiment of the present invention, the program 315 of the recognizing device 300 transmits the touch authentication result to the value operating system 500 when the module touch authentication of the reading result value source of the touch authentication result is successful (1625). In this case, a procedure of using the usage target value data corresponding to the touch authentication result may be performed through the process of FIGS. 14A to 14B or the process of FIGS. 15A to 15B have.

FIGS. 17A and 17B are diagrams illustrating a process of using the module touch authentication-based value data according to the fourth embodiment of the present invention.

17A and 17B, the touch module 200 of the place of use is touched to the capacitive touch screen 305 of the recognizing device 300 and the touch of the module touch is performed through the process shown in FIG. 10 or FIG. When the authentication process is performed, the program 315 of the recognizing device 300 receives the touch authentication result of the module touch, confirms the use object value data based on the result, 17A is a flowchart illustrating an operation process of the program 315 of the recognition apparatus 300 and FIG. 17B is a flowchart illustrating an operation procedure of the value operation system 500. Referring to FIG. FIG. Those skilled in the art will be able to refer and / or modify Figures 17a and 17b to illustrate various implementations of the value data usage 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 to those shown in FIGS. 17A and 17B only.

Referring to FIG. 17A, the program 315 of the recognizing device 300 may receive the touch authentication result of the module touch authentication procedure performed through the process shown in FIG. 10 or FIG. 11 via the designated path 1700 ). The program 315 of the recognizing device 300 may be used when a module touch authentication process is performed through the program 315 of the recognizing device 300 having the touch authentication module 420 according to another embodiment of the present invention. (1700) the touch authentication result of the module touch authentication procedure performed through the touch authentication module 420.

The program 315 of the recognizing device 300 reads the authentication value of the touch authentication result and notifies the touch characteristic of the touch module 200 that the touch characteristic of the touch module 200, which is touched to the capacitive touch screen 305 of the recognizing device 300, In step 1705, it is checked whether the module touch that touches the touch module 200 of the value use place is matched with the touch property of the touch module 200.

If the module touch using the touch module 200 is failed, the program 315 of the recognition device 300 outputs a module touch error message (1740).

On the other hand, if the module touch using the touch module 200 has been successfully authenticated, the program 315 of the recognition device 300 generates a value application corresponding to the success of module touch authentication using the touch module 200, (1715). &Lt; / RTI &gt; The object identification value can be confirmed by reading the touch authentication result, or can be confirmed through a user operation.

The program 315 of the recognition device 300 may include a capacitive touch screen 305 to which the touch module 200 of the value use destination is touched from a predetermined value provider through the process shown in FIG. In operation 1720, the usage target value data is provided to the user of the recognition device 300 and used in the value usage place corresponding to the target identification value among the value data stored in the designated storage area.

If the usage target value data is confirmed, the program 315 of the recognition device 300 requests the value management system 500 to approve usage of the usage target value data (1725).

Referring to FIG. 17B, the value management system 500 receives (1730) a usage approval request for use target value data corresponding to a target identification value from the program 315 of the recognition device 300, And performs a usage approval procedure of the usage target value data in cooperation with the terminal device 110 (or the server associated with the value usage terminal device 110) corresponding to the value usage destination (1735). The terminal device 110 (or the server associated with the value-added terminal 110) interacts with the value-usage-target value data in the state where the value-of-use data is confirmed And thus the detailed description thereof will be omitted.

If the use of the use object value data is confirmed, the value operating system 500 generates value use approval information for the use object value data that is confirmed to be used 1740, 315), the value use approval information for the usage target value data is transmitted (1745).

Referring to FIG. 17B, the program 315 of the recognizing device 300 checks whether the value use approval information for the use object value data is received from the value operating system 500 (1750) When the approval information is received, the value usage approval information for the usage target value data used in the value usage destination is displayed on the screen (1755).

According to another embodiment of the present invention, the program 315 of the recognizing device 300 transmits the touch authentication result to the value operating system 500 when the module touch authentication of the reading result value source of the touch authentication result is successful (1760). In this case, a procedure of using the target value data corresponding to the touch authentication result may be performed through the process of FIGs. 14a to 14b or the process of FIGS. 15a to 15b have.

100: Operation server 105: Service providing server
110: terminal device 200: touch module
205: touch portion 210: frame portion
300: recognition device 305: electrostatic touch screen
320: Touch recognition processing unit 325: Touch reading processing unit
330: position confirmation unit 335: sound recognition unit
340: NFC recognition unit 345: Authentication procedure performing unit
350: authentication result reception unit 355: service identification unit
360: Value data acquisition unit 365: Value data storage unit
370: value data verification unit 375: value use request unit
380: value use processing unit 400: touch authentication system
405: Authentication condition storage unit 410: Storage medium
415: Information receiving unit 420: Touch authentication module
425: Touch point check unit 430: Position information check unit
435: touch point authentication unit 440: reference point identification unit
445: characteristic relation calculating unit 450: touch authentication processing unit
455: code verification unit 460: code verification unit
465: Certification Result Offering 500: Value Operation System
475: Identification information storage unit 510: Value operation D / B
515: Authentication result confirmation unit 520: Service identification processing unit
525: Value data determination unit 530: Value data provider
535: Provided value storing unit 540: Used value checking unit
545: Value to be used offerer 550: Value use request confirmation part
555: Value Usage Authorization Processor

Claims (39)

A method for operating an offline value using a touch module executed in a server,
A plurality of capacitive touch units provided in a touch module are touched on an electrostatic touch screen provided in a user's device to detect a touch module holding a geometric characteristic relation for a plurality of recognized touch points at a designated value provider, The method comprising: a first step of confirming an authentication result authenticated by a touch of a touch screen with a recognized geometric characteristic;
When the geometric characteristic relation for the plurality of touch points is authenticated by the geometric characteristic relationship of the plurality of electrostatic touch parts provided in the touch module of the specified value provider, the value data provided by the value provider, A second step of providing a touch module of a value provider to a user of a device having a touched electrostatic touch screen; And
And a third step of processing the value data provided from the value provider using the device having the electrostatic touch screen at the specified value use place or confirming the result of using the value data. Way.
The method according to claim 1,
After the user of the device is provided with the value data,
A touch module having a plurality of capacitive touch units provided in a touch module and touching the capacitive touch screen provided on a user's device and having a geometric characteristic relation with respect to a plurality of recognized touch points, Further comprising the step of confirming the authentication result authenticated by the touch of the electrostatic touch screen and the recognized geometric characteristic,
Wherein the third step includes a step of, when a geometric characteristic relation for the plurality of touch points is authenticated by a geometric characteristic relationship of a plurality of electrostatic touch parts provided in the touch module of the specified value use destination, Wherein the value data provided from the value provider is used or confirmed as a result of using the touch module.
3. The touch module according to claim 2, wherein the geometric characteristics of the plurality of capacitive touch units
A value operation method using a touch module, the method comprising: identifying a value use place having a touch module touched on the electrostatic touch screen among the plurality of value use places, and authenticating the value source.
[3] The touch module of claim 2,
Wherein the value data includes at least one of a touch module provided in an offline store where the value data is available and a touch module held by an employee of the offline store.
The method according to claim 1,
A value provider having a touch module touched on the electrostatic touch screen among a plurality of value providers, and authenticating a value provider; and a method of operating an offline value service using a touch module.
The method as claimed in claim 1, wherein the geometric characteristics of the plurality of capacitive touch parts provided in the touch module of the value provider include:
Wherein the value provider having the touch module touched on the electrostatic touch screen among the plurality of value providers is identified and the value provider is authenticated.
The touch module of claim 1,
A touch module provided in an off-line store of a value issuing organization, a touch module provided in an off-line store of a value distribution agency associated with a value issuing organization, and a touch module owned by a value distributor. How to operate offline value using.
2. The method according to claim 1,
And transmitting the value data to a program of an apparatus having a touch module having a touch module touching the value provider.
2. The method according to claim 1,
And mapping the value data provided by the program of the device having the touch-enabled electrostatic touch screen with the touch module of the value provider to the user identification information that uniquely identifies the user and storing the data. Using off - line value management method.
2. The method according to claim 1,
And storing the value data provided by the program of the device having the touch-enabled electrostatic touch screen with the touch module of the value provider in association with the medium identification information that uniquely identifies the device or the program. How to operate offline value using module.
The method of claim 1, wherein the value provider and the value-
Off-line store or person separated from each other in an off-line manner.
A method for operating an offline value using a touch module executed in a server,
A first step of confirming an authentication result in which a plurality of touch units provided in a touch module held by a value provider are touched on an electrostatic touch screen provided in a user's device to authenticate a geometric characteristic relation of a plurality of recognized touch points ;
When the geometric characteristic relation of the plurality of touch units provided in the touch module of the value provider is authenticated, value data usable in the at least one value usage destination provided by the value source and the value data usable in the specified one value usage destination are transmitted to the touch screen To a user of the apparatus; And
And a third step of processing the value data provided from the value provider using the device having the electrostatic touch screen at the specified value use place or confirming the result of using the value data. Way.
13. The method of claim 12,
After the user of the device is provided with the value data,
A step of confirming an authentication result obtained by authenticating a geometric characteristic relation of a plurality of recognized touch points by touching a plurality of touch units provided in a touch module held at the designated value use place to an electrostatic touch screen provided in a user's apparatus Further comprising:
The third step may be to process the value data provided from the value provider at the value use place holding the authenticated touch module when the geometric characteristic relation of the plurality of touch parts provided in the touch module of the value use place is authenticated, And checking the result of using the offline module.
14. The touch module according to claim 13, wherein the geometric characteristic relationship of the plurality of touch parts provided in the touch module of the value-
Wherein the value usage destination having the touch module touched on the electrostatic touch screen is authenticated.
14. The touch module of claim 13,
Wherein the value data includes at least one of a touch module provided in an offline store where the value data is available and a touch module held by an employee of the offline store.
13. The method according to claim 12,
And a result of authenticating a value provider having the touch module touched on the electrostatic touch screen.
13. The touch module of claim 12, wherein the geometric characteristic relationships of the plurality of touch parts provided in the touch module of the value provider include:
And the value provider having the touch module touched on the electrostatic touch screen is authenticated.
13. The touch module of claim 12,
A touch module provided in an off-line store of a value issuing organization, a touch module provided in an off-line store of a value distribution agency associated with a value issuing organization, and a touch module owned by a value distributor. How to operate offline value using.
13. The method of claim 12,
And transmitting the value data to a program of an apparatus having a touch module having a touch module touching the value provider.
13. The method of claim 12,
And mapping the value data provided by the program of the device having the touch-enabled electrostatic touch screen with the touch module of the value provider to the user identification information that uniquely identifies the user and storing the data. Using off - line value management method.
13. The method of claim 12,
And storing the value data provided by the program of the device having the touch-enabled electrostatic touch screen with the touch module of the value provider in association with the medium identification information that uniquely identifies the device or the program. How to operate offline value using module.
13. The method of claim 12,
Off-line store or person separated from each other in an off-line manner.
A method for operating an offline value using a touch module executed in a device having an electrostatic touch screen,
A first step of authenticating or authenticating a geometric characteristic relation of a plurality of recognized touch points by touching a plurality of touch parts provided on a touch module to the electrostatic touch screen through a designated path;
When the geometric characteristic relation for the plurality of touch points is authenticated by the geometric characteristic relation of the touch module held by the specified value provider through the designated touch authentication module, the value data available from the one or more specified value users provided by the value provider A second step of receiving; And
And a third step of performing a process of using the value data provided from the value provider at the designated value usage destination or checking the result of using the value data.
24. The method of claim 23,
After receiving the value data,
A step of touching or touching a plurality of touch units provided on a touch module to the electrostatic touch screen to request or authenticate a geometric characteristic relationship of a plurality of recognized touch points through a designated path; And
When the geometric characteristic relation for the plurality of touch points is authenticated by the geometric characteristic relation of the touch module held at the value use place of the value data through the designated touch authentication module, And a step of checking whether the value data provided from the provider is used or checking the result of using the value data.
The method of claim 24, wherein the geometric property relationship of the touch module
Wherein the value usage destination having the touch module touched on the electrostatic touch screen among the plurality of value usage destinations is identified and the value usage destination is authenticated.
26. The touch module of claim 24, wherein the touch module,
Wherein the value data includes at least one of a touch module provided in an offline store where the value data is available and a touch module held by an employee of the offline store.
24. The method of claim 23, wherein the geometric property relationship of the touch module,
Wherein the value provider having the touch module touched on the electrostatic touch screen among the plurality of value providers is identified and the value provider is authenticated.
The touch module according to claim 23, wherein the touch module possessed by the value provider comprises:
A touch module provided in an off-line store of a value issuing organization, a touch module provided in an off-line store of a value distribution agency associated with a value issuing organization, and a touch module owned by a value distributor. How to operate offline value using.
24. The method of claim 23,
Confirming that the capacitive touch screen is activated; And
Further comprising: recognizing a plurality of touch points touched through the activated electrostatic touch screen.
24. The method of claim 23,
Off-line store or person separated from each other in an off-line manner.
A method for operating an offline value using a touch module executed in a device having an electrostatic touch screen,
A first step of requesting or authenticating a geometric characteristic relation of a plurality of recognized touch points by touching a plurality of touch parts provided in a touch module held by a value provider to the electrostatic touch screen through a designated path;
When the geometric characteristic relation of the plurality of touch points touched to the electrostatic touch screen by the touch module of the value provider is authenticated through the designated touch authentication module, the value data provided by the value provider and usable in the specified one or more value uses A second step of receiving; And
And a third step of performing a process of using the value data provided from the value provider at the designated value usage destination or checking the result of using the value data.
32. The method of claim 31,
After receiving the value data,
A step of touching or touching a plurality of touch units provided in a touch module held by the use place of the specified value to the electrostatic touch screen so as to request or authenticate a geometric characteristic relationship of a plurality of recognized touch points through a designated path; And
When the geometric characteristic relation for a plurality of touch points touched on the electrostatic touch screen by the touch module of the value use destination is authenticated through the designated touch authentication module, The method of claim 1, further comprising the step of checking whether the value data is used or the result of using the value data.
The method as claimed in claim 32, wherein the geometric characteristic relation for a plurality of touch points, which are touched on the electrostatic touch screen,
Wherein the value usage destination having the touch module touched on the electrostatic touch screen is authenticated.
33. The touch module of claim 32,
Wherein the value data includes at least one of a touch module provided in an offline store where the value data is available and a touch module held by an employee of the offline store.
32. The method of claim 31, wherein the geometric property relationship for a plurality of touch points touched by the touch module of the value provider to the electrostatic touch screen comprises:
And the value provider having the touch module touched on the electrostatic touch screen is authenticated.
32. The touch module of claim 31,
A touch module provided in an off-line store of a value issuing organization, a touch module provided in an off-line store of a value distribution agency associated with a value issuing organization, and a touch module owned by a value distributor. How to operate offline value using.
32. The method of claim 31,
Confirming that the capacitive touch screen is activated; And
Further comprising: recognizing a plurality of touch points touched through the activated electrostatic touch screen.
32. The method of claim 31,
Further comprising the step of confirming a value provider corresponding to the touch module to be touched on the electrostatic touch screen,
The first step may include touching the plurality of touch units provided in the touch module held by the identified value provider to the electrostatic touch screen so that the geometric property relationship of the plurality of recognized touch points is determined through an authentication request Wherein the value of the offline value is calculated using the touch module.
32. The method of claim 31,
Off-line store or person separated from each other in an off-line manner.

Images