KR102150126B1 - Method for Processing Authentication of Handstamp Touch - Google Patents

Abstract

The present invention relates to a painting touch authentication processing method, in the program of a wireless terminal having a capacitive touch screen and a method executed through a server capable of connecting a communication channel through a communication network with the wireless terminal, the program of the wireless terminal When three or more touch points are multi-touched while an effective touch point is not touched through the capacitive touch screen of the wireless terminal, one or more touch events related to recognition of the multi-touch are read and provided on one side of the touch seal. When N (N≥3) touch parts of a conductive material are touched on the capacitive touch screen, check whether the design matches the touch event, and the touch event related to the N touch points recognized through the multi-touch is applied. When the design of the wireless terminal is matched with a touch event, the program of the wireless terminal attempts a communication connection with the server to authenticate whether the N touch points are a painting touch using a specific touch stamp, and the program of the wireless terminal connects the communication When the communication channel is successfully connected, touch recognition information including component values for the recognized N touch points is transmitted through the communication channel, and if the communication connection fails, the touch recognition information is temporarily stored, When the touch recognition information is transmitted through the communication channel, the server establishes a geometric position relationship including a distance relationship and an angular relationship formed by the N touch points based on a component value included in the touch recognition information. After checking, the geometrical positional relationship formed by the N touch points is within a design geometrical positional relationship and an allowable error range including a distance relationship and angular relationship in the design formed by connecting the midpoints of the N touch units provided in the touch coating. In the case where the matching is verified at and the geometrical positional relationship formed by the N touch points is matched within the allowable error range with the geometrical positional relationship in the design of the touch painting, the server authenticates the N touch points. Program of the wireless terminal through the communication channel, the touch authentication result comprising a And the wireless terminal program receives the touch authentication result from the server through the communication channel, and the wireless terminal program authenticates the N touch points with a seal touch using a designated touch stamp. Indicate.

Description

Painting touch authentication processing method {Method for Processing Authentication of Handstamp Touch}

The present invention provides a program of a wireless terminal having a capacitive touch screen and a method executed through a server capable of connecting a communication channel through a communication network with the wireless terminal, wherein the program of the wireless terminal is a capacitive touch screen of the wireless terminal. When three or more touch points are multi-touched while an effective touch point is not touched through, N (N≥3) of a conductive material provided on one side of the touch coating by reading at least one touch event related to the recognition of the multi-touch When a touch event is matched with a touch event by design when each touch unit is touched on a capacitive touch screen, and a touch event related to the N touch points recognized through the multi-touch is matched with a touch event by design of the touch coating , When the program of the wireless terminal attempts a communication connection with the server to authenticate whether the N touch points are a stamp touch using a specific touch stamp, and the program of the wireless terminal succeeds in the communication connection and the communication channel is connected, the Transmitting touch recognition information including component values for N recognized touch points through the communication channel, and temporarily storing the touch recognition information when the communication connection fails, and the touch recognition information through the communication channel In the case of transmitting, the server checks a geometric position relationship including a distance relationship and an angular relationship formed by the N touch points based on the component value included in the touch recognition information, and the N touch points It is verified whether the formed geometrical positional relationship is matched within the tolerance range and the geometrical positional relationship in the design including the distance relationship and angular relationship in the design formed by connecting the midpoints of the N touch units provided in the touch coating. When the geometrical positional relationship formed by the touch points is matched within the allowable error range with the geometrical positional relationship in the design of the touch coating, the server communicates the touch authentication result including the authentication result of authenticating the N touch points. It is transmitted to the program of the wireless terminal through a channel, and the program of the wireless terminal is It relates to a stamp touch authentication processing method in which the touch authentication result is received from the server through the communication channel, and the program of the wireless terminal displays the result of authenticating the N touch points with a stamp touch using a designated touch stamp. .

Recently, as smart phones are activated, a capacitive touch screen is provided on a user's wireless terminal. The capacitive touch screen can provide a precise touch input by touching a finger using the capacitance accumulated in the human body without degrading the image quality compared to the pressure-sensitive touch screen.

Meanwhile, the capacitive touch screen provided in the wireless terminal is designed to use a touch by a user's finger as an input means, and is also optimized to do so. In the case of a recently released smartphone, the capacitive touch screen supports multi-touch, and is designed to use multiple touches using a finger as an input means (eg, pinch-to-zoom, etc.).

On the other hand, in order to use the geometrical positional relationship of a plurality of touch units provided in a seal as an authentication means or an identification means, the geometrical positional relationship of a plurality of touch units provided in different seals must have different uniqueness. Even if you touch in any position or direction of the capacitive touch screen, you should always have the convenience of recognizing and authenticating. However, it is difficult to provide the uniqueness and convenience of a painting to be used as an authentication means or an identification means only by the multi-touch method optimized as a conventional input means.

An object of the present invention for solving the above problems is to provide a program of a wireless terminal having a capacitive touch screen and a method executed through a server capable of connecting a communication channel to the wireless terminal through a communication network, the wireless terminal When three or more touch points are multi-touched while an effective touch point is not touched through the capacitive touch screen of the wireless terminal, the program reads one or more touch events related to the recognition of the multi-touch to one side of the touch coating. A first step of checking whether N (N≥3) touch parts of the provided conductive material are matched with a touch event by design when touching the capacitive touch screen, and a touch related to the N touch points recognized through the multi-touch When an event is matched with a touch event in the design of the touch painting, the program of the wireless terminal attempts communication connection with the server to authenticate whether the N touch points are painting touches using a specific touch painting, and the When the program of the wireless terminal succeeds in the communication connection and the communication channel is connected, touch recognition information including component values for the recognized N touch points is transmitted through the communication channel, and if the communication connection fails, the In the third step of temporarily storing touch recognition information and when the touch recognition information is transmitted through the communication channel, the server is a distance formed by the N touch points based on a component value included in the touch recognition information The geometric positional relationship including the relationship and the angular relationship is checked, and the geometrical positional relationship formed by the N touch points includes a design distance relationship and an angular relationship formed by connecting the midpoints of the N touch units provided in the touch coating. The fourth step of authenticating whether the geometrical positional relationship in the design is matched within an allowable error range, and the geometrical positional relationship formed by the N touch points are matched within the geometrical positional relationship and the allowable error range in the design of the touch coating. , The server receives a touch authentication result including an authentication result of authenticating the N touch points A fifth step of transmitting a program of the wireless terminal through the communication channel and a sixth step of receiving the touch authentication result from the server through the communication channel by the program of the wireless terminal, and the program of the wireless terminal It is to provide a painting touch authentication processing method including a seventh step of displaying a result of authenticating two touch points by painting touch using a designated touch painting.

In the painting touch authentication processing method according to the present invention, in a program of a wireless terminal having a capacitive touch screen and a method executed through a server capable of connecting a communication channel through a communication network with the wireless terminal, the program of the wireless terminal is Conductivity provided on one side of the touch coating by reading one or more touch events related to the recognition of the multi-touch when three or more touch points are multi-touched while no effective touch points are touched through the capacitive touch screen of the wireless terminal The first step of checking whether the N (N≥3) touch parts of the material are matched with a touch event by design when touching the capacitive touch screen, and a touch event related to the N touch points recognized through the multi-touch are the same. When the touch event is matched by the design of the touch painting, the program of the wireless terminal attempts a communication connection with the server to authenticate whether the N touch points are painting touches using a specific touch painting. When a program succeeds in the communication connection and a communication channel is connected, touch recognition information including component values for the recognized N touch points is transmitted through the communication channel, and if the communication connection fails, the touch recognition information When the touch recognition information is transmitted through the third step of temporarily storing and the communication channel, the server determines the distance relationship and angle formed by the N touch points based on the component values included in the touch recognition information. The geometrical positional relationship including the relationship is checked, and the geometrical positional relationship formed by the N touch points is formed by connecting the midpoints of the N touch units provided in the touch coating. When the fourth step of authenticating whether the geometrical positional relationship is matched within an allowable error range and the geometrical positional relationship formed by the N touch points are matched within the geometrical positional relationship and the allowable error range in the design of the touch painting, the server Is the communication of the touch authentication result including the authentication result of authenticating the N touch points A fifth step of transmitting to a program of the wireless terminal through a channel and a sixth step of receiving the touch authentication result from the server through the communication channel by the program of the wireless terminal, and the N touches by the program of the wireless terminal It characterized in that it comprises a seventh step of displaying a result of authenticating the point with a painting touch using a designated touch painting.
In the painting touch authentication processing method according to the present invention, the step of checking whether the number of touch points corresponding to the multi-touch is N by reading one or more touch events related to the recognition of the multi-touch by the program of the wireless terminal, and When the number of touch points corresponding to the multi-touch is N, the program of the wireless terminal comprises the step of determining the N touch points as multi-touch touch points using touch painting.
In the painting touch authentication processing method according to the present invention, the number of touch points touched by the program of the wireless terminal within a predetermined time specified from the touch recognition point by reading one or more touch events related to the recognition of the multi-touch Checking whether is N, and when the number of touch points identified within the predetermined time is N, the wireless terminal's program determines the N touch points as touch points simultaneously touched by touch painting. It characterized in that it comprises.
In the painting touch authentication processing method according to the present invention, in the first step, the number of touch points repeatedly recognized for a predetermined time by reading one or more touch events related to the recognition of the multi-touch by the program of the wireless terminal is N A step of determining whether a person is a person, and when the number of repeatedly recognized touch points is N, determining, by the program of the wireless terminal, as a touch point touched according to a habit of touching the N touch points. It features.
In the painting touch authentication processing method according to the present invention, in the first step, the program of the wireless terminal reads one or more touch events related to the recognition of the multi-touch, and the N touch points repeatedly recognized at a specified time interval. The step of repeatedly checking the location and the step of comparing the locations of the N touch points repeatedly checked by the program of the wireless terminal for each touch point to check whether the location of the N touch points is not changed, and When the position is not changed, the program of the wireless terminal is characterized in that it comprises the step of determining the N touch points as the touched touch points according to the behavior habit of stamping.
In the painting touch authentication processing method according to the present invention, in the first step, the program of the wireless terminal reads one or more touch events related to the recognition of the multi-touch, and the N touch points repeatedly recognized at a specified time interval. The step of repeatedly checking the positional relationship and comparing the positional relationship of the N touch points repeatedly checked by the program of the wireless terminal to check whether the positional relationship of the N touch points is not changed and maintains a static state, and the Including the step of determining, by the program of the wireless terminal, that the N touch points are touched by the N touch units fixedly mounted on the touch stamp, when the positional constraints of the N touch points remain static. It characterized in that it is made.
In the painting touch authentication processing method according to the present invention, in the first step, the program of the wireless terminal reads one or more touch events related to the recognition of the multi-touch, and the N touch points repeatedly recognized at a specified time interval. The step of repeatedly checking the location and the step of comparing the locations of the N touch points repeatedly checked by the program of the wireless terminal to check whether the positional relationship of the N touch points is a dynamic state in which the positional relationship of the N touch points is changed according to a specified rule, and the N In the case where the location of the touch points is in a dynamic state, the program of the wireless terminal can move the N touch points according to a specified rule, and a touch touched by using a touch seal with N touch units designed and manufactured It characterized in that it comprises the step of determining the point.
In the painting touch authentication processing method according to the present invention, in the first step, the program of the wireless terminal reads one or more touch events related to the recognition of the multi-touch, and the N touch points repeatedly recognized at a specified time interval. Checking whether the N touch points are sequentially touched according to a specified rule by repeatedly checking the location and reading the change in the number of touch points and the location of the touch points repeatedly recognized by the program of the wireless terminal, and the N touch points When sequentially touched according to a specified rule, the program of the wireless terminal is a touch point touched by using a touch stamp with N touch units designed and manufactured to sequentially touch the N touch points according to a specified rule. It characterized in that it comprises the step of determining.
In the painting touch authentication processing method according to the present invention, the program of the wireless terminal includes the step of storing a minimum distinct recognition distance that must be separated from each other in order to distinguish and recognize N touch units provided in the touch painting as different touch points. Further comprising, when the communication connection fails, the program of the wireless terminal calculates the distance between each of the N touch points using the component values for the N touch points, and the calculated N touch points The step of verifying whether the distance between the distance is greater than the minimum discrimination recognition distance, wherein the third step, when the distance between the N touch points in the program of the wireless terminal is more than the minimum discrimination recognition distance And temporarily storing the touch recognition information.
In the painting touch authentication processing method according to the present invention, the wireless terminal program further comprises the step of storing an N-shaped structure condition that can be formed by connecting the N touch units provided in the touch painting, wherein the communication connection fails. In case, the program of the wireless terminal further comprises verifying whether the N-gonal structure formed based on the component values for the N touch points matches the N-gonal structure condition, wherein the third step comprises: A program of the terminal may temporarily store the touch recognition information when the N-angle structure of the N touch points matches the N-angle structure condition.
In the stamp touch authentication processing method according to the present invention, when the N touch points are authenticated by reading the received touch authentication result and the N touch points are authenticated, the program of the wireless terminal is a geometric position of the authenticated N touch points. And generating relationship information, and storing or updating the generated geometric positional relationship information in a designated storage area of the wireless terminal by the program of the wireless terminal.
In the painting touch authentication processing method according to the present invention, when the communication connection fails after the geometric positional relationship information for the previously authenticated N touch points is stored or updated in a designated storage area of the wireless terminal, the program of the wireless terminal Checking the geometric positional relationship information for the N touch points previously authenticated from the designated storage area, and the program of the wireless terminal, based on the component values for the N touch points, the geometric position of the N touch points. The step of reading the positional relationship and pre-authentication of the geometrical positional relationship of the N touch points through the geometrical positional relationship information of the N touch points previously authenticated by the program of the wireless terminal, and the program of the wireless terminal Further comprising the step of displaying a temporary authentication result for the stamp touch using the touch stamp, wherein the third step is characterized in that the program of the wireless terminal temporarily stores the touch recognition information when the temporary authentication is successful. To do.
In the painting touch authentication processing method according to the present invention, when the communication connection fails, the program of the wireless terminal retrying the communication connection to connect a communication channel, and when the communication channel is connected, the wireless terminal And receiving, by the program, the temporarily stored touch recognition information through the communication channel, and then receiving a touch authentication result obtained by authenticating the N touch points.
In the painting touch authentication processing method according to the present invention, in the painting touch authentication processing method executed in a wireless terminal equipped with a capacitive touch screen, N (N≥3) touches of a conductive material provided on one side of the touch painting A first step of recognizing the N touch points that have touched the part on the capacitive touch screen, a second step of attempting a communication connection to authenticate whether the N touch points are a stamp touch using a designated touch stamp, and the communication connection When the communication channel is successfully connected, touch recognition information including component values for the recognized N touch points is transmitted through the communication channel, and a touch authentication result obtained by authenticating the N touch points is received, And a third step of temporarily storing the touch recognition information when the communication connection fails, and when the touch recognition result is received, a result of authenticating the N touch points with a stamp touch using a designated touch stamp is displayed. It includes 4 more steps.

According to the present invention, the painting touch authentication processing method includes the steps of checking whether the number of touch points at a point in time when two or more touch points are touched in a state in which the touch points are not touched through the capacitive touch screen is N, and the confirmation When the number of touched points is N, the step of determining the N touch points as touch points simultaneously touched by touch painting may be further included.

According to the present invention, the painting touch authentication processing method includes the steps of repeatedly recognizing at specified time intervals when two or more touch points are recognized through the capacitive touch screen, and the two or more touch points are specified from the initial touch recognition time. Checking whether the number of touch points touched within a time is N, and when the number of touch points checked within the predetermined time is N, determining the N touch points as touch points simultaneously touched by touch painting It may further include a step.

According to the present invention, the painting touch authentication processing method includes the steps of repeatedly recognizing N touch points that are touch-recognized through the capacitive touch screen at specified time intervals, and the number of touch points repeatedly recognized during the predetermined time period. The step of checking whether the number of touch points is N, and when the number of the repeatedly checked touch points is N, determining that the N touch points are touched points according to a habit of touch painting.

According to the present invention, the painting touch authentication processing method includes the steps of repeatedly recognizing N touch points that are touch-recognized through the capacitive touch screen at specified time intervals, and repeating the positions of the repeatedly recognized N touch points. Checking and comparing the positions of the N touch points repeatedly checked for each touch point to check whether the positions of the N touch points are not changed, and when the positions of the N touch points are not changed The step of determining the N touch points as the touched touch points according to the habit of applying a touch stamp may further be included.

According to the present invention, the painting touch authentication processing method includes the steps of repeatedly recognizing N touch points that are touch-recognized through the capacitive touch screen at specified time intervals, and a positional relationship between the repeatedly recognized N touch points. The step of repeatedly checking and comparing the positional relationship of the N touch points repeatedly checked to check whether the positional relationship of the N touch points is not changed and maintains a static state, and the positional interdiction of the N touch points When maintaining the hypothetical state, the step of determining the N touch points as the touch points that have touched the N touch units fixedly mounted on the touch coating may be included.

According to the present invention, the painting touch authentication processing method includes the steps of repeatedly recognizing N touch points that are touch-recognized through the capacitive touch screen at specified time intervals, and repeating the positions of the repeatedly recognized N touch points. The step of checking and comparing the positions of the repeatedly checked N touch points to determine whether the positional relationship of the N touch points is a dynamic state in which the positional relationship of the N touch points is changed according to a specified rule, and the positional boundary of the N touch points are In the case of a dynamic state, the step of determining the N touch points as the touch points touched by using a touch coating having N touch units designed and manufactured to be movable according to a specified rule.

According to the present invention, the painting touch authentication processing method includes repeatedly recognizing a touch point touched on the capacitive touch screen from a point in time at which at least one touch point is recognized through the capacitive touch screen, and the repeated recognition Steps of repeatedly checking the number of touch points and the position of the touch points during the period, and checking whether the N touch points are sequentially touched according to a specified rule by reading the change in the number of touch points and the position of the repeatedly checked touch points. And, when the N touch points are sequentially touched according to a specified rule, the N touch points are touched by using a touch stamp with N touch units designed and manufactured to sequentially touch according to a specified rule. It may further include the step of determining.

According to the present invention, the painting touch authentication processing method further comprises the step of storing a minimum distinct recognition distance that must be separated from each other in order to distinguish and recognize the N touch units provided in the touch painting as different touch points, the When the communication connection fails, the distance between the N touch points is calculated using the component values for the N touch points, and whether the calculated distance between each of the N touch points is more than the minimum discrimination recognition distance. The step of verifying may be further included, and the third step may temporarily store the touch recognition information when a distance between the N touch points is greater than or equal to the minimum discrimination recognition distance.

According to the present invention, the painting touch authentication processing method further comprises the step of storing an N-gonal structure condition that can be formed by connecting the N touch units provided in the touch painting, and when the communication connection fails, the N number of The step of verifying whether the N-gonal structure formed based on the component value of the touch point matches the N-gonal structure condition, wherein the third step is the N-gonal structure of the N touch points. When the condition is met, the touch recognition information may be temporarily stored.

According to the present invention, the painting touch authentication processing method includes the steps of generating geometric positional relationship information for the N authenticated touch points when the N touch points are authenticated as a stamp touch, and the generated geometric positional relationship. It may further include storing or updating the information.

According to the present invention, the painting touch authentication processing method comprises the steps of checking geometric positional relationship information for previously authenticated N touch points, and component values for the N touch points, when the communication connection fails. Reading the geometrical positional relationship with respect to the N touch points as a basis, and temporarily authenticating the geometrical positional relationship of the N touch points through geometrical positional relationship information with respect to the previously authenticated N touch points, The step of displaying a temporary authentication result for the stamp touch using the touch stamp may be further included, and the third step may temporarily store the touch recognition information when the temporary authentication is successful.

According to the present invention, the painting touch authentication processing method includes the steps of connecting a communication channel by retrying the communication connection when the communication connection fails, and when the communication channel is connected, the temporarily stored touch recognition information is transmitted to the communication It may further include receiving a touch authentication result obtained by authenticating the N touch points after transmitting through the channel.

According to the present invention, through the act of touching the touch stamp on the capacitive touch screen provided in the user's wireless terminal, the user authenticates that the user has performed or is scheduled to perform a specified action at a specified location or place, and provides various services corresponding thereto. There is an advantage.

According to the present invention, even if a touch coating having N touch units is freely touched in any direction of the capacitive touch screen, the geometric position of the N touch points corresponding to the N touch units is registered in advance. There is an advantage that it can be calculated and authenticated to be comparable with the relationship.

According to the present invention, even if a wireless terminal to which a touch seal is touched cannot be connected for communication, there is an advantage in that a service using the touch seal is provided after the fact.

1 is a diagram illustrating a schematic diagram of a system configuration for providing touch authentication using touch painting according to an exemplary method of the present invention.
2 is a diagram showing a functional configuration of a wireless terminal and a program according to an exemplary method of the present invention.
3A to 3F are diagrams showing the structure of a touch coating according to an exemplary method of the present invention.
4 is a diagram showing the configuration of a touch authentication system according to an exemplary method of the present invention.
5 is a diagram illustrating a process of registering a touch authentication condition of a touch coating according to an exemplary method of the present invention.
6 is a diagram illustrating a process of registering a stamp usage destination of a touch coating according to an implementation method of the present invention.
7 is a diagram illustrating a process of recognizing a painting touch using a touch painting in a program of a wireless terminal and processing an authentication result according to an implementation method of the present invention.
FIG. 8 is a diagram illustrating a process of authenticating a painting touch that has touched N touch units provided in a touch coating on a capacitive touch screen according to an implementation method of the present invention.
9 to 12 are diagrams illustrating a process of retransmitting touch recognition information in a program of a wireless terminal according to an exemplary method of the present invention.

Hereinafter, the operating principle of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. However, the drawings and the description to be described below are for a preferred implementation method among various methods for effectively describing the features of the present invention, and the present invention is not limited to the following drawings and description. For example, the configuration unit provided on the server side may be implemented on the terminal side, or conversely, the configuration unit provided on the terminal side may be implemented on the server side.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made 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 examples are a means for efficiently explaining the technical idea of the present invention to those of ordinary skill in the art to which the present invention belongs. Only.

1 is a diagram showing a schematic diagram of a system configuration for providing touch authentication using a touch coating 300 according to an exemplary method of the present invention.

In more detail, FIG. 1 shows a capacitive touch screen (300) provided with N (N≥3) touch units 350 made of a rubber-elastic conductive material. When touched on 205, the geometric positional relationship of the N touch points touched on the capacitive touch screen 205 is allowed with the geometrical positional relationship in the design for the N touch units 350 provided on the touch coating 300. It schematically shows the configuration of a system for authenticating whether it matches within the specified error range.

The system of the present invention includes a touch coating 300 in which N touch units 350 made of a conductive material are arranged and fixed in a pre-designed geometrical positional relationship, and N touch units 350 provided in the touch coating 300 It comprises a wireless terminal 200 having a capacitive touch screen 205 to be touched. The wireless terminal 200 is possessed by a user who will be provided with a service using the touch seal 300. The touch stamp 300 is provided to a stamp user who will provide a service to the user (eg, an affiliate store or a stamp buyer that provides a service using a stamp touch). Therefore, in the present invention, the touch painting 300 is used as a means for identifying or authenticating the use of the painting. Preferably, the use of the painting may use the terminal device 110 to provide a service using the touch painting 300.

According to an embodiment of the present invention, the wireless terminal 200 recognizes N touch points using the capacitive touch screen 205, and transmits touch recognition information including component values for the recognized N touch points. It can be transmitted to the designated operation server 100. The touch recognition information may be transmitted from the wireless terminal 200 to the operation server 100 through a communication network, or may be transmitted to the operation server 100 through a designated relay server 105. The operation server 100 receives the touch recognition information and checks the component values for N touch points, and the geometrical positional relationship in the design for the touch unit 350 of each of the plurality of touch seals 300 registered in advance And the geometric positional relationship of the N touch points may be compared based on the value of the component. If the geometrical positional relationship formed by the N touch points coincides with or closes within the allowable error range with any one of the geometrical positional relationships in the design of each of the plurality of previously registered touch coatings 300, operation The server 100 includes N touch units 350 provided on any one specific touch coating 300 among a plurality of touch coatings 300 previously registered with N touch points touched on the capacitive touch screen 205 You can authenticate by touching the touch point.

2 is a diagram showing the functional configuration of the wireless terminal 200 and the program 215 according to an embodiment of the present invention.

In more detail, FIG. 2 shows that when N (N≥3) touch units 350 provided in the touch coating 300 touch the capacitive touch screen 205 of the wireless terminal 200, it is recognized and communication is connected. The program 215 that attempts to perform real-time authentication through the designated operation server 100, but temporarily stores the information on the recognized N touch points when the communication connection fails, and authenticates at the next communication connection time. It shows the functional configuration and the configuration of the wireless terminal 200 in which the program 215 operates. If a person of ordinary skill in the art to which the present invention belongs, refer to and/or modify this Figure 2 to Various implementation methods for the functional configuration of the terminal 200 and the program 215 (e.g., some components are omitted, or subdivided, or combined implementation methods) may be inferred, but the present invention provides all the inferred implementations. A method is included, and the technical features are not limited only to the implementation method shown in FIG. 2. Preferably, the wireless terminal 200 of FIG. 2 may include at least one of various smart phones capable of wireless communication, various tablet PCs, various PDAs, and various mobile phones.

In the implementation method of this drawing 2, when the touch coating 300 having N (N≥3) touch units 350 touches the capacitive touch screen 205 of the wireless terminal 200, the wireless terminal 200 The touch recognition information including components for the N touch points touched on the capacitive touch screen 205 is processed to be transmitted to the designated operation server 100, and the touch stamp ( 300) by authenticating the geometrical positional relationship formed by the N touch points through a registered touch authentication condition and transmitting the result, the wireless terminal 200 receives the authentication result and provides a designated service. To process. However, the implementation method of the present invention is by no means limited to a method of authenticating the painting touch using the touch painting 300 through the operation server 100, the painting touch can be authenticated within the wireless terminal 200. In addition, the present invention clearly reveals that the embodiment of authenticating the painting touch in the wireless terminal 200 is also included in the scope of the right.

Referring to Fig. 2, the wireless terminal 200 includes a control unit 201, a memory unit 214, a key input unit 202, a screen output unit 203, a touch input unit 204, and a sound output unit 206. And a sound input unit 207, a short-range wireless communication module 209, a wireless network communication module 210, an NFC module 211, a position positioning module 212, and a USIM reader unit 213, and A battery 208 is provided. The USIM for wireless communication of the wireless terminal 200 is detached from the USIM reader 213. The wireless terminal 200 may include at least one portable device of a smart phone, a mobile phone, and a tablet PC having a capacitive touch screen 205.

The control unit 201 is a generic term for controlling the operation of the wireless terminal 200. The controller 201 is configured to include at least one processor and an execution memory in hardware, and is connected to each component of the wireless terminal 200 through a bus BUS. The control unit 201 loads the program code provided in the memory unit 214 of the wireless terminal 200 into the execution memory through the processor in software, calculates, and transfers the result to each component unit through a bus. The operation of the wireless terminal 200 is controlled, and data required for calculation may be received from each component as needed.

The memory unit 214 is a generic term for a nonvolatile memory provided in the wireless terminal 200, and includes at least one program code executed by the control unit 201 and at least one data set used by the program code. Save and keep. The memory unit 214 stores a program 215 implemented in the form of a program code. As the program 215 is driven or activated, the program 215 is loaded into the control unit 201 and calculated.

The key input unit 202 includes one or more components of a key button, a keypad, and a keyboard provided in the wireless terminal 200. The key input unit 202 may generate a key event for driving or activating the program 215. Alternatively, the key input unit 202 may generate a key event for activating the capacitive touch screen 205 to enable a painting touch.

The screen output unit 203 includes a display (eg, a liquid crystal display (LCD)) provided in the wireless terminal 200 and a driving module for driving the display in the wireless terminal 200. The screen output unit 203 outputs an execution screen or an authentication result of the program 215.

The touch input unit 204 includes a capacitive touch panel made of a transparent material that shares a coordinate plane with the screen output unit 203 and a driving module for driving the capacitive touch panel inside the wireless terminal 200. Done. The capacitive touch screen 205 is implemented by combining the capacitive touch panel made of the transparent material and the display of the screen output unit 203.

The sound output unit 206 includes a speaker provided in the wireless terminal 200 and a driving module for driving the speaker inside the wireless terminal 200, and the sound input unit 207 is It comprises a microphone provided in the terminal 200 and a driving module for driving the microphone inside the wireless terminal 200. When the touch seal 300 has a function of outputting a sound signal, the sound input unit 207 receives the sound signal and transmits data encoded in the sound signal to the program 215.

The wireless network communication module 210 and the short range wireless communication module 209 are communication resources provided in the wireless terminal 200, and the wireless network communication module 210 accesses a wireless communication network through a base station, and The wireless communication module 209 connects to a communication network through a short-range communication device or a wireless AP (Access Point) located in a short distance.

The NFC module 211 transmits and receives a radio frequency signal at a proximity distance of about 10 cm according to the NFC standard using a 13.56Mz frequency band among the wireless communication standards of the ISO 18000 series standard. When an NFC chip is provided in the touch seal 300, the NFC module 211 receives a radio frequency signal transmitted through the NFC chip of the touch seal 300, and is encoded in the NFC-based radio frequency signal. Data can be transferred to the program 215.

The position positioning module 212 includes a GPS module for positioning the moving position of the wireless terminal 200. The location positioning module 212 is location information for measuring the location of the wireless terminal 200 at the time when the touch coating 300 having N touch units 350 on the capacitive touch screen 205 is touched. Can be transferred to the program 215.

According to the present invention, the program 215 can be downloaded to the wireless terminal 200 and installed in the wireless terminal 200 through a designated program 215 providing server (eg, Apple's App Store, etc.). , Omitted when the manufacturer of the wireless terminal 200 basically installs the program 215). The program 215 may be manually driven or activated by a user, or driven or activated by a depth of push notification. Hereinafter, for convenience, a functional configuration part of the program 215 that is implemented in the form of a program 215 code on the program 215 and is loaded into the control unit 201 to be functionalized by operation is shown in the control unit 201. Let's explain the features.

Referring to Figure 2, the program 215 of the wireless terminal 200, a touch coating 300 having N (N≥3) touch units 350 made of a rubber-elastic conductive material. A touch recognition unit 220 that recognizes N touch points touched on the screen 205 is functionally provided.

The touch recognition unit 220 reads the touch event generated through the operating system of the wireless terminal 200 at least once, and transfers the N touch units 350 provided in the touch coating 300 to the capacitive touch screen 205. Recognizes N touch points touched. Typically, a touch event generated through an operating system does not distinguish between a multi-touch by a human finger and a painting touch by the touch stamp 300. Meanwhile, since the touch coating 300 of the present invention includes N touch units 350 according to a predesigned pattern, it has a touch characteristic according to a predesigned rule, and based on this, it is distinguished from multiple touches by a human finger. A touch of the touch painting 300 by the touch painting 300 may be recognized.

The touch recognition unit 220 selectively selects at least one of a simultaneous touch condition, a fixed touch condition, a static touch condition, a dynamic touch condition, and a sequential touch condition in order to clearly determine the touch of the touch coating 300 according to the designed rule. As an additional application, or a combination of two or more conditions may be additionally applied.

The simultaneous touch condition is a condition for determining whether the N number of touch units 350 provided in the touch coating 300 are simultaneously touched on the capacitive touch screen 205. The simultaneous touch condition is that the N touch units 350 provided in the flat area of the touch coating 300 are designed and manufactured with the same height (or similar height within the permitted range), and the touch coating 300 thus produced It can be applied when the touch unit 350 is touched on the flat-type capacitive touch screen 205.

When N touch points are recognized by applying the simultaneous touch condition, the touch recognition unit 220 reads the touch event and touches two or more touch points in a state in which the touch points are not touched through the capacitive touch screen 205. It is checked whether the number of touched points is N at the time point is touched. If the number of the identified touch points is N, the touch recognition unit 220 converts the N touch points into touch points that are touched using a touch stamp 300 designed and manufactured to satisfy the simultaneous touch condition. I can judge.

Alternatively, when N touch points are recognized by applying the simultaneous touch condition, the touch recognition unit 220 reads the touch event and checks whether two or more touch points are recognized through the capacitive touch screen 205. If two or more touch points are recognized through the capacitive touch screen 205, the touch recognition unit 220 determines the two or more touch points touched on the capacitive touch screen 205 based on the touch event at a designated time. Recognize repeatedly at intervals. The touch recognition unit 220 checks whether the number of touch points touched by the two or more touch points within a predetermined time (or a predetermined number of repetitive recognition) from the initial touch recognition point is N. If the number of identified touch points within the predetermined time (or the predetermined number of repetitive recognition) is N, the touch recognition unit 220 applies the N touch points to the touch coating designed and manufactured to satisfy the simultaneous touch condition ( 300) can be used to determine the touch point.

The fixed touch condition is a condition for determining whether a person touches the touch stamp 300 on the capacitive touch screen 205 based on the behavior habit of the person who paints the stamp. Normally, in the case of imprinting on paper with a stamp on paper, those who have experienced this behavior will have a habit of keeping the stamp in contact with the paper for a certain period of time until the stamp on the stamp is sufficiently printed on the paper. . Such behavioral habits may be expressed inertia even when the touch coating 300 is touched on the capacitive touch screen 205 without padding.

When N touch points are recognized by applying the fixed touch condition, the touch recognition unit 220 reads the touch event and checks whether N touch points are recognized through the capacitive touch screen 205. If N touch points are recognized through the capacitive touch screen 205, the touch recognition unit 220 determines the N touch points touched on the capacitive touch screen 205 based on the touch event at a designated time. Recognize repeatedly at intervals. The touch recognition unit 220 checks whether the number of touch points repeatedly recognized for a predetermined time (or a predetermined number of repeated recognition) is N. If the number of touch points repeatedly checked for a certain period of time (or a certain number of repeated recognition) is N, the touch recognition unit 220 touches the touch stamp 300 according to the behavior habit of stamping the N touch points. It can be judged by one touch point.

Alternatively, when N touch points are recognized by applying the fixed touch condition, the touch recognition unit 220 reads the touch event and checks whether N touch points are recognized through the capacitive touch screen 205. If N touch points are recognized through the capacitive touch screen 205, the touch recognition unit 220 determines the N touch points touched on the capacitive touch screen 205 based on the touch event at a designated time. Recognize repeatedly at intervals. The touch recognition unit 220 repeatedly checks the positions of the N touch points that have been repeatedly recognized, and compares the positions of the repeatedly identified N touch points for each touch point to see if the positions of the N touch points are not changed. Confirm. If the positions of the N touch points are not changed, the touch recognition unit 220 may determine as a touch point touching the touch stamp 300 according to a habit of stamping the N touch points.

The static touch condition is a condition for determining whether the N touch units 350 provided in the touch coating 300 do not move while being touched on the capacitive touch screen 205 and maintain a static state. The static touch condition may be applied when the N number of touch units 350 provided in the touch coating 300 are designed and manufactured so as not to move.

When N touch points are recognized by applying the static touch condition, the touch recognition unit 220 reads the touch event and checks whether N touch points are recognized through the capacitive touch screen 205. If N touch points are recognized through the capacitive touch screen 205, the touch recognition unit 220 determines the N touch points touched on the capacitive touch screen 205 based on the touch event at a designated time. Recognize repeatedly at intervals. The touch recognition unit 220 repeatedly checks the positional relationship of the N touch points that have been repeatedly recognized, and compares the positional relationship of the N touch points that have been repeatedly identified, so that the positional relationship of the N touch points is an allowable error range. Make sure it remains static and unchanged within. If the location of the N touch points maintains a static state, the touch recognition unit 220 touches the N touch points 350 fixedly mounted on the touch seal 300. It can be determined by the touch point.

The dynamic touch condition is a condition for determining whether the N touch units 350 provided in the touch coating 300 move according to a rule specified on the capacitive touch screen 205. The dynamic touch condition may be applied when the N touch units 350 provided in the flat area of the touch coating 300 are designed and manufactured to move by a force (= pressure force) to apply a seal. For example, when the design and manufacture structure of the touch coating 300 touches the touch coating 300 on the capacitive touch screen 205, a pressing force in the vertical direction (that is, the vertical direction with the touch screen surface) is applied. In the case of loss, the dynamic touch condition can be applied when one or more of the N touch units 350 are manufactured to slide in a designated direction on the flat surface by a slider that forms an inclination with the vertical direction. .

When N touch points are recognized by applying the dynamic touch condition, the touch recognition unit 220 reads the touch event and checks whether N touch points are recognized through the capacitive touch screen 205. If N touch points are recognized through the capacitive touch screen 205, the touch recognition unit 220 determines the N touch points touched on the capacitive touch screen 205 based on the touch event at a designated time. Recognize repeatedly at intervals. The touch recognition unit 220 repeatedly checks the positions of the repeatedly recognized N touch points, compares the positions of the repeatedly confirmed N touch points, and changes the positional relationship of the N touch points according to a specified rule. Make sure it is dynamic. If the position gap of the N touch points is in a dynamic state in which the positional boundaries of the N touch points are changed according to a specified rule, the touch recognition unit 220 is designed and manufactured to move the N touch points according to a specified rule. It can be determined as a touch point touched by using the touch coating 300 provided with.

The sequential touch condition is a condition for determining whether the N touch units 350 provided in the touch coating 300 are sequentially touched according to a rule designated on the capacitive touch screen 205. The sequential touch condition is that the N number of touch units 350 are electrostatically caused by the force of painting by varying the height of one or more of the N touch units 350 provided in the flat area of the touch coating 300. It can be applied when it is designed and manufactured to sequentially touch the type touch screen 205. For example, five touch units 350 made of a rubber-elastic conductive material are provided in the flat area of the flat plate part 345 provided in the touch coating 300. If the 5 touch parts are touched based on the flat area If one touch part 350 of the part 350 is 5 mm high, two touch parts 350 are 3.5 mm high, and two touch parts 350 are 2 mm high, the pressing force at the point of touch As a result, the touch unit 350 having a height of 5 mm among the five touch units 350 is first touched, and the touch unit 350 having a height of 3.5 mm is touched next, and finally, the touch unit 350 having a height of 2 mm is touched. A total of five touch units 350 are touched by being touched, and the sequential touch condition may be applied to the touch coating 300 designed and manufactured to be touched sequentially.

Alternatively, when N touch points are recognized by applying the sequential touch condition, the touch recognition unit 220 reads the touch event and starts at a point when at least one touch point is recognized through the capacitive touch screen 205. The touch points touched on the capacitive touch screen 205 are repeatedly recognized at specified time intervals, and the number of touch points and the location of the touch points are repeatedly checked while the touch points are repeatedly recognized. The touch recognition unit 220 checks the change in the number of touch points during the repetition recognition, and repeatedly checks the position of the touch point according to the change in the number of touch points. Preferably, since the number of touch points increases by the force of a person pressing the touch coating 300, the number of touch points to be changed increases to a designed N, but should not be reduced in the middle. In addition, as the number of touch points increases, the location of additionally identified touch points should be fixed without being changed. The touch recognition unit 220 checks whether the change in the number of repeatedly checked touch points and the location of the touch points have the characteristics of the sequential touch condition as described above, so that the N touch points are sequentially touched according to a specified rule. Confirm. If the N touch points are sequentially touched according to a specified rule, the touch recognition unit 220 includes N touch units 350 designed and manufactured to sequentially touch the N touch points according to a specified rule. It may be determined as a touch point touched by using the touch coating 300. However, since the stamping force or the stamping speed is different for each person who takes the touch stamp 300, it is preferable not to specify a time difference for sequentially touching in the sequential touch condition.

Referring to Fig. 2, the program 215 of the wireless terminal 200 reads the component values for the N touch points touched by using the touch stamp 300 having N touch units 350. A touch reading unit 225 is functionally provided.

When N touch points touched on the capacitive touch screen 205 using the touch stamp 300 are recognized, the touch reading unit 225 is used to check the geometric positional relationship formed by the N touch points. The component values for the touch points are extracted. The component values for the N touch points may be composed of at least one or a combination of two or more of a coordinate value, a scalar value, and a vector value on a designated coordinate system. The coordinate system for extracting the component values may include a Cartesian coordinate system applied to the capacitive touch screen 205, while the designated coordinate system includes the N touch points in addition to the coordinate system applied to the capacitive touch screen 205 It is possible to include other coordinate systems defined to interpret the positional relationship to. For example, the component value is a coordinate value in a specified coordinate system such as A(21, y1), B(22, y2), C(23, y3), D(24, y4), E(25, y5), etc. It may include. Alternatively, the component value is a line segment value such as segment AB, segment AC, segment AD, segment AE, etc. calculated based on the coordinate value on the coordinate system, and ∠BAC, ∠BAD, ∠BAE, ∠CAD, ∠CAE, ∠DAE, etc. It may include a scalar value including at least one of the same angle values. Alternatively, the component value may include a vector value calculated based on a reference point or a reference line on the coordinate system. The reference point for calculating the vector value may be an origin on a coordinate system or any one of the N touch points.

Referring to FIG. 2, the program 215 of the wireless terminal 200 is functionally provided with a location checking unit 230 for checking the location information of the wireless terminal 200.

When the location checking function is included in the program 215, the location checking unit 230 may at any point before, during, and after the N touch points are touched on the capacitive touch screen 205. 212), the location information of the wireless terminal 200 positioned through is checked. In this case, the information transmission unit 250 may include the identified location information in the touch recognition information.

Referring to Fig. 2, the program 215 of the wireless terminal 200 includes a communication connection unit 245 that attempts a communication connection to authenticate whether the N touch points are a paint touch using a designated touch seal 300, When the communication connection is successful and the communication channel is connected, information transmission for transmitting touch recognition information including component values for the recognized N touch points through the communication channel to be transmitted to the designated operation server 100 It functionally includes a unit 250 and an authentication result receiving unit 255 for receiving the authentication result transmitted from the operation server 100 through a designated path.

When the component values for the N touch points are read through the touch reading unit 225, the communication connection unit 245 is a server designated to authenticate whether the N touch points are a stamp touch using the designated touch stamp 300. Connect communication channel by attempting communication connection with. The designated server includes an operation server 100 equipped with a touch authentication system 400, or a relay server 105 linked to the operation server 100.

If the communication connection is successful through the communication connection unit 245 and the communication channel is connected, the information transmission unit 250 transmits touch recognition information for transmitting the read component value to the operation server 100. Make up. According to the implementation method of the present invention, the information transmission unit 250 checks the unique information uniquely identifying the wireless terminal 200 from the memory unit 214, and the identified unique information and the read configuration Touch recognition information including element values can be configured.

Referring to Fig. 2, the program 215 of the wireless terminal 200 is a sound for recognizing a unique code or a one-time code encoded in the sound signal when sound is output at the touch point of the touch seal 300 The recognition unit 235 may be further provided functionally.

The touch seal 300 may include a chip and a speaker for outputting a sound signal encoded with a unique code or a disposable code. The sound input unit 207 is a sound signal output through the speaker of the touch coating 300 when the N touch units 350 provided on the touch coating 300 are touched on the capacitive touch screen 205 It receives input. The sound recognition unit 235 reads the sound signal input through the sound input unit 207 and extracts a unique code or one-time code encoded in the sound signal. In this case, the information transmission unit 250 may include the identified unique code or one-time code in the touch recognition information.

Referring to Figure 2, the program 215 of the wireless terminal 200, when NFC communication is activated at the touch point of the touch stamp 300, a unique code encoded in the radio frequency signal received through the NFC Alternatively, an NFC recognition unit 240 for recognizing a disposable code may be further provided functionally.

The touch seal 300 may include an NFC chip and an antenna for transmitting an NFC-based radio frequency signal encoded with a unique code or a disposable code. When the NFC module 211 approaches the touch coating 300 within a specified range or when the N touch units 350 provided in the touch coating 300 touch the capacitive touch screen 205, the Receives an NFC-based radio frequency signal transmitted from the NFC chip of the touch seal 300. The NFC recognition unit 240 reads the NFC-based radio frequency signal received through the NFC module 211 and extracts a unique code or a disposable code encoded in the radio frequency signal. In this case, the information transmission unit 250 may include the identified unique code or one-time code in the touch recognition information.

The information transmission unit 250 transmits the configured touch recognition information to a designated relay server 105 using the communication resource, and the relay server 105 relays the touch recognition information to the operation server 100 send. Alternatively, the information transmission unit 250 may directly transmit the configured touch recognition information to the designated operation server 100 by using the communication resource.

The operation server 100 authenticates the touch recognition information, generates and transmits a touch authentication result. The authentication result receiving unit 255 receives the touch authentication result through the communication resource. Meanwhile, the touch authentication result may include service information for providing by touching the touch seal 300 to the capacitive touch screen 205. When service information is included in the touch authentication result or service information associated with the touch authentication result is received, the program 215 uses the service information to provide a designated service (e.g., a value accumulation service, a value use service). And the like) functionally provided with a service procedure execution unit 260 that performs a procedure.

Referring to Figure 2, the program 215 of the wireless terminal 200, when N touch points are authenticated as a stamp touch through the touch authentication result, geometric positional relationship information for the N touch points A location relationship storage unit 265 that is generated and stored (or updated) in a designated storage area may be functionally provided.

The location relationship storage unit 265 reads the authentication result received through the receiving unit, and N touch points touched on the capacitive touch screen 205 are converted into a painting touch using the touch stamp 300. Determine whether it is authenticated. If the N touch points are authenticated as a painting touch, the location relationship storage unit 265 stores geometric positional relationship information for the N touch points authenticated based on the component values of the N touch points. The generated geometrical positional relationship information for the N touch points is generated and stored in a designated storage area of the memory unit 214, or previously stored geometrical positional relationship information is updated. When updating the geometrical positional relationship, the positional relationship storage unit 265 calculates an average value and an error of the authenticated two or more N touch points, and a geometrical position including an average value and an error of the geometrical positional relationship You can create relationships and save them for updates. In this case, as the number of times the same touch coating 300 is touched on the capacitive touch screen 205 increases, the reliability of the stored geometrical positional relationship increases.

Referring to Fig. 2, the program 215 of the wireless terminal 200 is functionally provided with an information storage unit 275 that temporarily stores the touch recognition information when a communication connection through the communication connection unit 245 fails. And, according to the implementation method, the mutual positional relationship between the N touch points is read, and the touch unit 350 of the touch coating 300 designed and manufactured with the read mutual positional relationship is touched on the capacitive touch screen 205 A touch point verification unit 270 for verifying whether a positional relationship that can be formed is included may be further provided functionally.

If the communication connection through the communication connection unit 245 fails, the information storage unit 275 configures touch recognition information for transmitting the read component value to the operation server 100, preferably From the memory unit 214, unique information that uniquely identifies the wireless terminal 200 may be checked, and touch recognition information including the identified unique information and the read component value may be configured. Depending on the implementation method, the information storage unit 275 may further include a unique code or a disposable code recognized through a sound signal or NFC to configure touch recognition information. If the one-time code is further included in the touch recognition information, the information storage unit 275 stores synchronization information (e.g., time value) required for later authentication of the one-time code in the touch authentication system 400. You can include more. The information storage unit 275 temporarily stores the configured touch recognition information in a designated storage area of the memory unit 214.

On the other hand, the touch point verification unit 270 reads the component values, and the N touch points are touch points touched by the N touch units 350 provided on the flat plate unit 345 of the effective touch coating 300. It can be verified. In this case, when the N touch points are verified as touch points touched by the N touch units 350 provided on the flat plate 345 of the effective touch coating 300, the touch Recognition information can be temporarily stored.

According to the implementation method of the present invention, the touch point verification unit 270 calculates the distance between the N touch points, and the calculated distance between the touch points is less than the minimum discrimination recognition distance set for the effective touch coating 300. By reading whether they are greater than or equal to each other, it can be verified whether the N touch points are touch points of the effective touch coating 300 designed and manufactured according to the design method according to the present invention. The distance comparison is compared based on a coordinate distance on the same coordinate system, and coordinate transformation may be performed for this. If any one of the distances between the touch points is smaller than the set minimum discrimination recognition distance within a specified tolerance range, it may be determined that the N touch points are not valid touch points of the touch coating 300. If the N touch parts 350 provided on the flat part 345 of the touch coating 300 are composed of at least one designated touch part 350 and n touch parts 350, the touch point verification part 270 calculates the distance between the n touch units 350, and compares the distance between the n touch units 350 and the N touch points to touch the effective touch coating 300 designed and manufactured according to the design method according to the present invention. You can verify that it is a point.

According to an exemplary method of the present invention, the touch point verification unit 270 sets and maintains an N-angle structure condition formed by a line segment connecting N touch points. If the N touch parts 350 provided on the flat part 345 of the touch coating 300 are composed of at least one designated touch part 350 and n (2≦n<N) touch parts 350 In this case, the N-gonal structure condition is a designated contact area in (n-1) divided areas 370 among n divided areas 370 obtained by dividing the flat area of the flat part 345 of the effective touch coating 300. Since one touch part 350 is provided and two touch parts 350 including the designated touch part 350 are provided in one designated area 375, the geometric characteristics of the N-angle are read. It includes one or more conditions for: For example, the N-gonal structure condition is formed based on a contact area size of the touch unit 350, a minimum discrimination recognition distance, a minimum discrimination distance, a method of dividing a flat area, and a blank area that is not used on the flat area. Conditions for geometric properties for possible N-gons, and/or conditions for non-formable geometric properties may be included. When the N-gonal structure condition is set, the touch point verification unit 270 connects the N touch points to form an N-angle, and reads the geometric characteristics of the formed N-gonal structure through the set N-gonal structure condition. , It can be verified whether the N touch points are touch points of the effective touch coating 300 designed and manufactured according to the design method according to the present invention.

According to the present invention, after the touch recognition information is temporarily stored, the communication connection unit 245 is a communication connection for authenticating whether the N touch points are a stamp touch using the designated touch stamp 300 through the temporarily stored touch recognition information. Retry the process of trying. The communication connection retry may be repeated more than a specified number of times, or may be retried based on a communication related event provided by the operating system of the wireless terminal 200.

If a communication channel is connected to verify whether the N touch points are stamp touches using the designated touch stamp 300 through retrying the communication connection through the communication connection unit 245, the information transmission unit 250 is Touch recognition information is transmitted through the communication channel, and the authentication result receiving unit 255 receives a touch authentication result obtained by authenticating the N touch points.

3A to 3F are diagrams showing the structure of a touch coating 300 according to an exemplary method of the present invention.

In more detail, FIG. 3A is a diagram illustrating a cut surface of the side surface while the touch coating 300 is erected on the floor to explain the internal structure of the touch coating 300, and FIG. It is a view showing the flat plate portion 345 and the touch portion 350 shown on the bottom. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the touch coating 300 by referring to and/or modifying this Figure 3 (eg, some components are omitted or subdivided or , Or a combined implementation method) may be inferred, but the present invention includes all the inferred implementation methods, and the technical features are not limited only by the implementation method shown in FIG. 3.

The touch coating 300 of the present invention includes a handle part 305 formed to be gripped by a human hand, N (N≥3) touch parts 350 made of a rubber elastic conductive material, and designed on a flat area. A flat plate portion 345 that fixes the N touch portions 350 at a position, and the N touch portions fixed to the flat plate portion 345 while physically connecting the handle portion 305 and the flat plate portion 345 ( It includes an adapter part 315 electrically connecting the 350 and the handle part 305 to each other. According to an exemplary method of the present invention, the touch coating 300 may further include a housing part 325 that protects the touch part 350 and the flat part 345. The housing part 325 includes a guide part 320 for guiding the adapter part 315 and/or the flat plate part 345 in a vertical direction while the touch coating 300 is erected as shown in FIG. 3A, and the flat plate A spring part 310 may be provided to keep the touch part 350 fixed to the part 345 so as to float above a certain height on the floor. Depending on the implementation method, the guide part 320 and the spring part 310 may be omitted, and in this case, the N touch parts 350 fixed to the flat part 345 are exposed to the outside of the housing part 325 Can be.

The handle part 305 is made of a conductive material capable of receiving the capacitance of the human body, or a conductive material is coated or plated. The conductive material of the handle part 305 is electrically connected to the N touch parts 350. The handle part 305 may be manufactured in various designs according to a request of a painting user using the touch painting 300.

The touch unit 350 is a generic term for a component forming one touch point when the touch coating 300 is touched on the capacitive touch screen 205, and is made of a rubber-elastic conductive material. For example, the touch part 350 may be made of a conductive rubber material or a conductive plastic material.

The touch unit 350 is designed and manufactured to have a contact surface 365 in the form of a designated figure (eg, polygonal or circular). The contact surface 365 of the touch unit 350 has a contact area calculated by design so as to effectively touch the capacitive touch screen 205. The contact area is based on the capacitance of the human body transmitted to the handle part 305, and one effective capacitive touch using the touch part 350 on the plurality of capacitive touch screens 205 included in the touch target It is calculated as an area greater than or equal to the area corresponding to the touch sensitivity that can be recognized as a touch point. In the case of designing the touch unit 350 of the touch coating 300 to touch different types of capacitive touch screens 205, if the touch sensitivity of each capacitive touch screen 205 is different, the touch unit ( The contact area of 350) is calculated as an area greater than or equal to a larger area (ie, an area corresponding to a smaller touch sensitivity) among areas corresponding to each touch sensitivity that can be recognized by each capacitive touch screen 205. desirable. For example, the contact area of the touch unit 350 may be calculated as an area greater than or equal to 25 mm 2, an area greater than or equal to 28 mm 2, an area greater than or equal to 36 mm 2, an area greater than or equal to 38 mm 2, etc. have. Calculating the contact area of the touch unit 350 based on the area corresponding to the touch sensitivity of the capacitive touch screen 205 of the designated device allows the touch unit 350 to be recognized as one effective touch point. At the same time, it is to calculate the maximum number of cases in which each touch unit 350 is provided at different locations within a limited area of the flat plate area.

The contact surface 365 of the touch unit 350 is manufactured in a shape corresponding to the calculated contact area. For example, the contact surface 365 of the touch unit 350 may be manufactured in a 5mm*5mm square shape forming a contact area of 25mm2. Alternatively, the contact surface 365 of the touch unit 350 may be manufactured in a circular shape having a diameter of 6 mm forming a contact area larger than 28 mm 2. Alternatively, the contact surface 365 of the touch unit 350 may be manufactured in a 6mm*6mm square shape forming a contact area of 36mm2. Alternatively, the contact surface 365 of the touch unit 350 may be manufactured in a circular shape having a diameter of 7 mm forming a contact area larger than 38 mm 2.

The side structure of the touch unit 350 is manufactured in the form of a'T' in which the touch implementation unit 360 is formed at the center of the buried plate 355 as shown in FIG. 3C, or is one of the buried plate 355 as shown in FIG. It may be manufactured in a'Г' shape in which the touch implementation part 360 is formed biased toward the side. The flat plate part 345 supports the buried plate 355 of the touch part 350, and the upper plate part 330 electrically connecting the handle part 305 and the touch part 350, and the touch part 350 are embedded. It is composed of a middle plate part 335 into which the plate 355 is embedded and a lower plate part 340 exposing the touch implementation part 360 of the touch part 350 to the outside as shown in FIG. 3B. The buried plate 355 of the touch portion 350 is embedded in the middle plate portion 335 and supported by the upper plate portion 330, and the touch implementation portion 360 of the touch portion 350 forms a groove of the lower plate portion 340. Is exposed to the outside through. The thickness of the buried plate 355 is formed to have the same thickness as the thickness of the middle plate part 335, and the height of the touch implementation part 360 is formed larger than the thickness of the lower plate part 340 so that the contact surface of the touch part 350 ( 365) is manufactured to be exposed to the outside of the lower plate part 340.

The touch unit 350 is made of a flexible (for example, soft, semi-soft, or semi-rigid) conductive material so that an error does not occur in the geometric touch position relationship of each touch point or a minimum error occurs within the calculated range. As shown in Fig. 3C or Fig. 3D, the center part of the contact surface 365 is manufactured by rounding the structure to protrude convexly according to a certain curvature above the boundary line of the figure shape while maintaining the designated figure shape. When the touch unit 350 manufactured as described above is touched on the capacitive touch screen 205, the capacitive touch screen 205 first from the center portion protruding convexly at a certain curvature among the contact surfaces 365 of the touch unit 350 ) Is touched, and when a certain pressing force is applied to the touch unit 350 in this state, the central part is retracted by the pressing force, and as a result, the entire contact surface 365 of the touch unit 350 is calculated. While forming an area, the capacitive touch screen 205 is touched. The midpoint (= touch point) of the touch surface touched on the capacitive touch screen 205 by the touch unit 350 corresponds to, or at least, the central portion of the contact surface 365 formed on the touch unit 350. It corresponds to the central portion of the contact surface 365 within the specified error range.

The touch unit 350 forms an empty space inside a flexible conductive material as shown in Fig. 3c or 3d in order to further reduce an error in the geometrical touch position relationship of each touch point or to further reduce the error within the calculated range. Can be made. The empty space inside the touch unit 350 provides a space in which the central portion of the contact surface 365 protruding convexly at a predetermined curvature is constricted by a pressing force and can be contracted into the touch unit 350. Since the touch coating 300 is touched on the capacitive touch screen 205 while being held in a person's hand, the pressing force applied to the touch unit 350 by the person's hand is applied to the capacitive touch screen ( Not only the vertical direction component of 205) exists, but also the horizontal direction component. At this time, in the empty space inside the touch unit 350, even if the horizontal direction component is present in the pressing force, the contact surface 365 of the touch unit 350 is not distorted in either direction by the horizontal direction component and is in the vertical direction. The component is induced to contract into the interior of the touch unit 350. If the contact surface 365 of the touch unit 350 is distorted to one of the horizontal components by the pressing force, as a result, the midpoint of the touched surface on the capacitive touch screen 205 moves in the distorted direction. So the error increases. An empty space inside the touch unit 350 prevents or minimizes such an error.

The flat plate part 345 is manufactured to have a figure shape designed to fix the N touch parts 350 and a flat plate area. The same type of touch coating 300 means a coating in which the same flat plate portion 345 and the same number of touch portions 350 are provided. According to an exemplary embodiment of the present invention, N touch portions 350 are fixed to the flat area of the flat portion 345 according to a previously designed geometric positional relationship.

According to the present invention, the geometrical positional relationship in the design of the N touch units 350 is used as a touch authentication condition for authenticating a painting touch using the touch painting 300. Therefore, the N touch portions 350 fixed to the flat plate portions 345 of each painting should have uniqueness that forms a different geometrical positional relationship for each painting. However, since the flat surface area of the flat plate part 345 is finite, and the N touch parts 350 fixed thereon also have a contact area calculated by design, the N touch parts 350 are arranged in different geometric shapes. The number of cases that can be fixed in a positional relationship is limited. According to the present invention, in the process of designing a position for fixing the N touch units 350 to the flat plate 345, the N touch units 350 are fixed in different geometrical positional relationships on a finite flat surface area. The minimum discrimination recognition distance is set to derive the maximum number of possible cases.

When two or more touch units 350 are touched on the capacitive touch screen 205, the minimum discrimination recognition distance refers to a touch point by two or more touch units 350 on the corresponding capacitive touch screen 205. It includes the minimum separation distance that can be distinguished by For example, when the distance between two touch points multi-touched on the capacitive touch screen 205 is less than 6 mm, two touch points are recognized as one touch point, and when the distance is more than 7 mm, two touch points are recognized. When distinguishing and recognizing by different touch points, the minimum discrimination recognition distance is preferably 7 mm. On the other hand, if there are two or more capacitive touch screens 205 corresponding to objects to be touched with the touch coating 300, the minimum distinguishing recognition distance distinguishes between two touch points multi-touched on two or more capacitive touch screens 205 Among the recognizable minimum separation distances, a larger separation distance may be set.

According to an exemplary embodiment of the present invention, the minimum discrimination recognition distance is a value correlated with the contact area of the touch unit 350. That is, the minimum discrimination recognition distance may be a value set in the capacitive touch screen 205, but is a value experimentally obtained based on an allowable error. For example, even with the same capacitive touch screen 205, the contact area of the touch unit 350 is 25 mm2 (eg, the contact surface 365 manufactured in a square shape of 5 mm * 5 mm) The minimum discrimination recognition distance may be different from the minimum discrimination recognition distance when the contact area of the touch unit 350 is greater than 38 mm 2 (eg, the contact surface 365 manufactured in a circular shape having a diameter of 7 mm). Therefore, the minimum discrimination recognition distance is preferably set based on experimental data for a plurality of capacitive touch screens 205 based on the contact area of the touch unit 350. In this case, the minimum discrimination recognition distance is set as a distance between the central portion and the central portion of the contact surface 365 of the touch unit 350, or of a figure that implements the contact surface 365 of the touch unit 350. It can be set as the distance between the outline and the outline.

According to the implementation method of the present invention, when the number of the touch coating 300 is to be produced more than the maximum number for calculating the geometrical positional relationship, only the geometrical positional relationship is applied to the paintwork using the touch coating 300. May not be able to maintain its uniqueness. In order to solve this problem, in addition to the geometrical positional relationship of the N touch units 350, a chip provided in the touch coating 300 and a sound signal transmitted through a speaker (or buzzer) or a sound signal provided in the touch coating 300 A radio frequency signal transmitted through an NFC (Near Field Communication) chip and an antenna may be used as an additional means for maintaining the uniqueness of the touch coating 300. The sound signal can be recognized through the microphone of the wireless terminal 200 having the capacitive touch screen 205 to which the touch seal 300 is touched, and if the NFC module 211 is connected to the wireless terminal 200 If provided, it is possible to recognize the radio frequency signal of the NFC chip provided on the touch coating 300. At this time, the uniqueness of the touch seal 300 may be maintained by a combination of a geometric position relationship formed by the N touch units 350 and a sound signal, or a combination of the geometric position relationship and a radio frequency signal of an NFC chip. have. The sound signal may include a unique code stored in the chip or a disposable code dynamically generated through an algorithm designated by the chip in the form of a Dual Tone Multi-Frequency (DTMF) signal or a sound code. The radio frequency signal of the NFC chip may include a unique code stored in the NFC chip or a disposable code dynamically generated through an algorithm designated by the NFC chip according to the NFC standard.

According to the present invention, different geometrical positional relationships for the N touch units 350 provided in each of the same type of touch coating 300 can be identified as different geometrical positional relationships even if they touch the capacitive touch screen 205. Must have a distinctiveness. The touch to the capacitive touch screen 205 is not a point touch, but a surface touch, and the operating system of the wireless terminal 200 with the capacitive touch screen 205 calculates the center of the touch surface as a touch point, and a designated distance It is calculated that the midpoint has moved only when the abnormal touch surface has moved. Therefore, in the process of designing a location for fixing the N touch units 350 to the flat panel 345, different geometric positional relationships for the N touch units 350 are touched on the capacitive touch screen 205. In order to be identified by different geometric positional relationships in the state, a minimum identification distance is set.

The minimum identification distance is designed in different geometrical positional relationships so that the N touch units 350 fixed to the flat panel 345 are identified by different geometrical positional relationships while being touched on the capacitive touch screen 205 For this, it includes a distance at which the N touch units 350 provided on different flat surfaces 345 must be separated. For example, if the capacitive touch screen 205 detects that the center point has moved when the touch surface of the same area is moved by 3 mm or more, the minimum identification distance may be set to a value greater than or equal to 3 mm.

According to an exemplary method of the present invention, the minimum identification distance may be a value set on the capacitive touch screen 205, but is an experimentally obtained value based on an allowable error. On the other hand, if there are two or more capacitive touch screens 205 corresponding to the object to be touched with the touch coating 300, the minimum identification distance can detect movement of the center of the touch surface on the two or more capacitive touch screens 205. It may be set as the larger of the minimum separation distance.

According to the present invention, even if the N touch units 350 provided on the touch coating 300 are touched in any direction on the capacitive touch screen 205, they must have readability that can be read. Such readability is achieved by a rule that determines any one of the N touch units 350 as a reference point even if the N touch units 350 are touched in any direction on the capacitive touch screen 205. Can be secured.

According to an embodiment of the present invention, the N touch units 350 provided on the flat panel 345 include n touch units 350 and at least one provided at n (2≦n<N) calculated positions. And a designated touch unit 350 provided at a designated location of the N touch units 350 (or at least n touch units 350) forming a predesigned geometric positional relationship on the flat surface.

According to an exemplary method of the present invention, in the process of designing a position for fixing the N touch units 350 to the flat plate 345 in order to secure readability for the N touch units 350, the flat panel ( The flat area 345 is divided into n divided areas 370 by design (however, the divided area 370 exists by design and it is not necessary to display the flat area). One touch unit 350 is fixed to each of the n divided areas 370 at a position calculated by design to form a geometric positional relationship, and any one designated area 375 of the n divided areas 370 One touch unit 350 corresponding to a reference point is fixed at a position designated by design. That is, one touch unit 350 is fixed to each of (n-1) divided regions 370 among the n divided regions 370, and two touch units 350 are respectively fixed to one designated region 375. Is fixed. Preferably, the designated location may be designated at a location in contact with the outline of the figure in the flat area or at a location of the edge of the outline of the figure.

When touching the capacitive touch screen 205 by fixing the N touch units 350 to the n divided areas 370 as described above, the touch authentication system 400 includes the N touch units 350 Matching the n number of divided areas 370 to the N number of touch points to confirm any one designated area 375 in which two touch points are recognized among the n number of divided areas 370, and the identified designated area 375 A touch point provided at a designated position on the image may be determined as a reference point of the N touch points. And when the coordinates are rotated based on the identified reference point, even if the N touch units 350 are touched in any direction on the capacitive touch screen 205, it is possible to compare the geometric position relationship of the previously registered touch authentication condition. .

FIG. 3E illustrates a state in which the flat area of the flat part 345 is divided into four divided areas 370 by design. Referring to FIG. 3E, a certain margin may exist between each divided area 370 and the divided area 370. Preferably, the blank space preferably includes an interval equal to the minimum discrimination recognition distance, and in this case, even if the touch unit 350 is provided at any position on each divided area 370, the space is fixed to each divided area 370. The touch units 350 are always maintained at a distance of more than the minimum discrimination recognition distance. On the other hand, as shown in FIG. 3E, when the space between the divided regions 370 is fixed, the area of the flat plate for calculating the position where the touch unit 350 is to be fixed is reduced by that amount. In order to prevent this, after omitting the space illustrated in Fig. 3e and dividing the divided area 370, each touch unit 350 is separated by more than the minimum discrimination recognition distance in the process of calculating the position to fix the touch unit 350. Can be calculated.

Referring to FIG. 3F, each position at which one touch unit 350 is to be fixed is calculated in each divided area 370, and one touch unit 350 is designated by designating any of the divided areas 370. The position to further fix is designated. As shown in Fig. 3f, by fixing one touch unit 350 at the calculated position on each divided region 370 and fixing one designated touch unit 350 at a designated position on the designated region 375, N number of A flat plate portion 345 to which the touch portion 350 is fixed is manufactured.

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

In more detail, this figure 4 reads the geometrical positional relationship of N (N≥3) touch points touched on the capacitive touch screen 205 of the wireless terminal 200, and design and manufactures the N touch points according to the designated rule. It shows the configuration of a system for authenticating whether or not a touch point touched the N touch units 350 of the applied touch coating 300, and those of ordinary skill in the art to which the present invention belongs, refer to this drawing 4 And/or modified to be able to infer various implementation methods for the configuration of the touch authentication system 400 (for example, some components are omitted, or subdivided, or combined implementation method), but the present invention All implementation methods are included, and technical features thereof are not limited only by the implementation method illustrated in FIG. 4.

The touch authentication system 400 of the present invention receives and authenticates the touch recognition information transmitted from the program 215 of the wireless terminal 200 shown in FIG. 4 through a designated path. It is preferably implemented as.

Referring to FIG. 4, the touch authentication system 400 is an authentication condition storage unit that stores a touch authentication condition including a geometrical positional relationship in design for the N touch units 350 provided in the touch seal 300. It has 405.

According to an embodiment of the present invention, N touch units 350 are provided on the flat portion 345 of the touch coating 300, and the N touch units 350 include at least one designated touch unit 350 and n (2≦n<N) touch units 350 are provided. Depending on the implementation method, the touch coating 300 may include two or more designated touch units 350, whereby the present invention is not limited. The designated touch part 350 is a touch part 350 provided at a designated position on the flat part 345 of the touch coating 300, and wirelessly transmits N touch parts 350 provided in the flat part 345. A touch unit 350 corresponding to a reference point for reading N touch points recognized by touching the capacitive touch screen 205 of the terminal 200. The n number of touch units 350 are the remaining touch units 350 excluding the designated touch unit 350 among the touch units 350 provided on the flat unit 345 of the touch coating 300, and the flat unit 345 ) Is provided at the calculated position on the top.

According to the implementation method of the present invention, the position of mounting the n number of touch units 350 on the flat portion 345 of the touch coating 300 is calculated by a designated design device (not shown), preferably the The calculated position is based on the area of the area where the touch unit 350 can be mounted on the flat panel 345, the contact area of each touch unit 350, and the minimum discrimination recognition distance (and/or minimum identification distance). It is preferable that each flat portion 345 of each touch coating 300 is calculated at a different position within the maximum number of cases calculated. The design apparatus is designed to mount at least one touch unit 350 of the N touch units 350 at a designated position (eg, a corner portion) on the flat plate unit 345. The manufacturing apparatus (not shown) manufactures a flat plate part 345 to have n touch parts 350 at a calculated position designed by the design device and at least one designated touch part 350 at a designated position. , N touch units 350 are mounted at the designated and calculated positions of the manufactured flat plate unit 345.

According to the implementation method of the present invention, the design device divides the flat area of the flat part 345 into n divided areas 370 by design, and each of the divided areas 370 has one touch unit 350. It is desirable to design so that) is provided. In this case, the calculated position where the n number of touch units 350 are provided is limited to the position on the divided area 370. The design device designates at least one of the n divided areas 370 divided by design as a designated area 375 having a designated touch unit 350, and a designated position on the designated area 375 It is designed so that the designated touch unit 350 is provided. If one of the n divided areas 370 is designated as a designated area 375 and one designated touch unit 350 is provided at a designated position on the designated area 375, the design device Of the n divided areas 370, (n-1) divided areas 370 are each provided with one touch unit 350, and the one designated area 375 includes a designated touch unit 350. It is designed so that two touch units 350 are provided.

The authentication condition storage unit 405 checks the geometrical positional relationship on the design formed by the N touch units 350 provided on the flat plate 345 of the touch coating 300 designed as described above, and The touch authentication condition including the location relationship is stored in the designated storage medium 410. Preferably, the authentication condition storage unit 405 is designed to have N touch units 350 on the flat plate 345 in the process of designing or manufacturing the flat plate 345 of the touch coating 300 After checking the geometrical positional relationship corresponding to the calculated position of the image and the designated position, inputting it from a designated terminal, or receiving it from a design device, a touch authentication condition including the geometrical positional relationship of the design is specified in the storage medium 410 ). Meanwhile, since at least one of the calculated positions in which n touch units 350 are mounted is designed differently within the number of allowed cases for each of the flat parts 345 of each touch coating 300, the geometrical It is preferable that the positional relationship has a different relationship for each flat portion 345 of each touch coating 300 within the number of cases described above.

According to the implementation method of the present invention, the geometrical positional relationship in the design includes the relative coordinate values of the N touch units 350 provided on the flat panel 345 of the touch coating 300 based on a preset designated coordinate system. Including a coordinate relationship and/or a distance relationship between the N touch units 350 and a reference point on the designated coordinate system based on a coordinate value on the designated coordinate system (for example, a touch of any one of the N touch units 350 An angular relationship formed by the touch units 350 based on a point corresponding to the coordinate value of the unit 350, an origin on the designated coordinate system, or an arbitrary reference point on the designated coordinate system) may be included. The angular relationship is an angle formed by a line segment connecting the reference point and two touch units 350 or an angle formed by the reference point and each touch unit 350 based on a reference line passing through the reference point. Can include. Here, the designated coordinate system is a coordinate system that serves as a reference for analyzing the geometrical positional relationship formed by the N touch units 350, and is preferably composed of metrological units (eg, µm, ㎜, ㎝) or designated logical units in the real world. It is preferable to include a coordinate system. However, depending on the implementation method, it is possible to include the touch screen coordinate system of the wireless terminal 200. Preferably, the geometrical positional relationship in the design is preferably set based on the midpoint of each touch unit 350.

According to the implementation method of the present invention, each of the touch units 350 provided on the flat portion 345 of the touch coating 300 has a constant contact area, and the capacitive touch screen 205 of the wireless terminal 200 Since the midpoint of the touched touch point is calculated based on the touched surface, the N touch units according to noise generated during the touch recognition process of the capacitive touch screen 205 or contamination of the touch screen surface The geometric positional relationship formed by the N touch points recognized by touching 350 to the capacitive touch screen 205 and the N touch portions 350 provided on the flat portion 345 of the touch coating 300 The geometrical positional relationship in the design for this may not always coincide. Accordingly, the design geometrical positional relationship includes design error information corresponding to a design tolerance (eg, within a 95% coincidence range of a Gaussian probability distribution) for authenticating the geometrical positional relationship of the N touch points. It is preferably set. The authentication condition storage unit 405 checks (or determines) design error information for the design geometric position relationship, and specifies a touch authentication condition including the design geometric position relationship and design error information. Can be stored in 410. If the actual measurement position relationship is not confirmed, the touch authentication condition may be used for authentication.

According to an exemplary method of the present invention, the touch authentication condition may include an authentication condition for a minimum identification distance and/or a minimum identification distance for the touch stamp 300. If the touch seal 300 (or a device linked to the touch seal 300 (e.g., a cradle of the touch seal 300, a terminal device 110 of a merchant operating the touch seal 300, etc.)) a sound signal When a function of outputting or an NFC chip is provided, the touch authentication condition may further include an authentication condition for authenticating a unique code or a disposable code encoded in the sound signal or the NFC-based radio frequency signal.

On the other hand, according to the implementation method of the present invention, the flat portion 345 of the touch coating 300 is divided by design into n divided areas 370, and each of the calculated positions on the n divided areas 370 When the touch unit 350 is provided and one designated touch unit 350 is designed to be provided in any one designated area 375 of the n divided areas 370, the authentication condition storage unit 405 The geometric position of the design corresponding to the distance relationship and the angular relationship formed by the one designated touch unit 350 designed on the flat plate 345 and the n number of touch units 350 are confirmed, and the geometric position of the identified design A touch authentication condition including the relationship and information on the divided regions 370 for the n divided regions 370 may be configured and stored in the designated storage medium 410.

According to the implementation method of the present invention, the geometrical positional relationship in the design for the touch coating 300 having at least one designated touch part 350 and n touch parts 350 is designated based on a preset designated coordinate system. Includes a coordinate relationship including relative coordinate values for the unit 350 and n touch units 350, and/or the designated touch unit 350 and each n touch units ( The distance relationship between 350) and the angular relationship formed by the n number of touch units 350 based on the designated touch unit 350 on the designated coordinate system may be included.

When the flat plate part 345 designed as described above is manufactured, the authentication condition storage unit 405 checks the serial code given to the flat plate part 345 provided with the N touch parts 350, or a designated terminal After being input from or provided from a manufacturing device, the touch authentication condition and the serial code may be mapped and stored in a designated storage medium 410.

According to the implementation method of the present invention, after the touch coating 300 is designed and manufactured as described above, the geometrical positional relationship in the design of the touch coating 300 and the flat part 345 of the touch coating 300 are A procedure of verifying whether a geometric positional relationship when the provided N touch units 350 are touched on the capacitive touch screen 205 is matched within a specified tolerance range may be performed. In this case, the authentication condition storage unit 405 includes N touches repeatedly touched more than a specified number of times on a capacitive touch panel provided in a designated device to register a geometric positional relationship with respect to the touch unit 350 of the touch coating 300. Check the component value for a point, match the repeatedly touched component value with the geometric positional relationship on the design, and compare it within a specified error tolerance (e.g., within a 95% match range of the Gaussian probability distribution) ), it is determined whether the N touch points are touched. If the repeatedly touched component value coincides with or is close to the geometric positional relationship in the design within a specified error tolerance, the authentication condition storage unit 405 provides actual measurement error information based on the repeatedly touched component value. After calculating and generating a geometric position relationship including the geometric position relationship on the design and the calculated actual measurement error information, the touch authentication condition including the generated geometric position relationship may be stored. On the other hand, when the value of the repeatedly touched component and the geometric position of the design are within a specified error tolerance, the actual measurement error is included in the design error, and the authentication condition storage unit 405 A touch authentication condition to be used for authentication may be stored, including geometric positional relationship and the design error information.

According to an implementation method of the present invention, the authentication condition storage unit 405 receives a serial code assigned to the flat panel 345 of the touch seal 300 to be registered from a device designated for registration, and the received serial code Check the geometric positional relationship in the design to calculate error information using. The authentication condition storage unit 405 checks the component value repeatedly touched more than a specified number of times on the capacitive touch panel of the registration device through the touch point identification unit 420 below, and the following touch point authentication unit ( In connection with 430), it is checked whether the mutual positional relationship of the identified touch points is valid, and in connection with the following reference point identification unit 435 and the positional relationship calculation unit 440, the N touch points repeatedly touched are The actual measurement position relationship is checked, and the distance relationship and angular relationship included in the geometrical position relationship in the design corresponding to the touch authentication condition identified through the serial code and the distance relationship and angle relationship included in the actual measurement location relationship are determined. By comparison, based on the geometrical positional relationship on the design, it is checked whether the actual measurement positional relationship is within a specified error tolerance. If the actual measurement position relationship is out of the specified error tolerance, the flat plate part 345 of the manufactured touch coating 300 is error corrected to fall within the specified error tolerance, or a procedure of remanufacturing after disassembly For this purpose, the authentication condition storage unit 405 outputs information necessary for error correction or remanufacturing of the flat plate part 345 of the manufactured touch coating 300 and instructs the work accompanying it. I can. On the other hand, if the component value repeatedly touched on the capacitive touch screen 205 of the registration device is within a specified error tolerance, the authentication condition storage unit 405 provides error information based on the repeatedly touched component value ( For example, after confirming actual measurement error information or design error information), generating a geometric positional relationship including the geometrical positional relationship in the design and the identified error information, touch authentication including the generated geometrical positional relationship Conditions can be saved.

On the other hand, when the produced touch stamp 300 is supplied to a stamp use place (eg, an affiliate store that provides a designated service using the touch stamp 300) in a specific location (or region), the authentication condition storage unit 405 receives the serial code of the touch stamp 300 and location area information (eg, address information, area information, etc.) of the user destination from the terminal device 110 provided at the user destination, and the serial code Based on, the touch authentication condition corresponding to the touch stamp 300 provided to the user is checked. If the touch authentication condition mapped with the serial code is not confirmed, the authentication condition storage unit 405 detects a non-registration error for the touch stamp 300 corresponding to the authentication code to the terminal device 110 of the user. send. On the other hand, when the touch authentication condition mapped with the serial code is confirmed, the authentication condition storage unit 405 may map the checked touch authentication condition and the location area information of the user to be stored in the storage medium 410.

Referring to FIG. 4, the touch authentication system 400 receives touch recognition information including component values for N touch points touched through the capacitive touch screen 205 of the wireless terminal 200. Is an information receiving unit 415, a touch point check unit 420 for checking a component value included in the touch recognition information, and location information for checking location information of the wireless terminal 200 using the touch recognition information It is provided with a confirmation unit 425.

The information receiving unit 415 receives touch recognition information transmitted from the program 215 of the wireless terminal 200. The touch recognition information includes component values for N touch points touched on the capacitive touch screen 205 of the wireless terminal 200, and unique information of the wireless terminal 200 and/or It may further include location information. Alternatively, the touch recognition information may further include a sound signal output from the touch seal 300 or a unique code or a disposable code included in an NFC-based radio frequency signal.

The touch point checking unit 420 checks component values for N touch points included in the touch recognition information. If the component value includes the coordinate value of the touch screen coordinate system, the touch point verification unit 420 may convert the component value into a coordinate system corresponding to the geometric position relationship included in the touch authentication condition. have. Meanwhile, the coordinate transformation may be performed by the following touch point authentication unit 430, a reference point identification unit 435, or a location relationship calculation unit 440.

The location information checking unit 425 checks the location information of the wireless terminal 200 for N touch points included in the touch recognition information. If the touch recognition information does not include the location information of the wireless terminal 200, the location information checking unit 425 is a location calculated using a base station or a wireless AP in which a wireless section with the wireless terminal 200 is formed. Cell-based location information corresponding to can be checked.

Referring to Fig. 4, the touch authentication system 400 reads the mutual positional relationship between each of the N touch points using the component values included in the touch recognition information, and the read mutual positional relationship is designed and manufactured. A touch point authentication unit 430 for authenticating whether a positional relationship that can be formed by touching the touch unit 350 of the applied touch coating 300 to the capacitive touch screen 205 is included.

The touch point authentication unit 430 reads the component value checked through the touch point check unit 420, and the N touch points provided on the flat panel 345 of the touch seal 300 in which the N touch points are valid. It is authenticated whether it is a touch point touched by the unit 350.

According to the implementation method of the present invention, the touch point authentication unit 430 calculates the distance between the N touch points, and the calculated distance between the touch points is less than the minimum discrimination recognition distance set for the effective touch stamp 300. By reading whether it is greater than or equal to, it is possible to verify whether the N touch points are touch points of the effective touch coating 300 designed and manufactured according to the design method according to the present invention. The distance comparison is compared based on a coordinate distance on the same coordinate system, and coordinate transformation may be performed for this. If any one of the distances between the touch points is smaller than the set minimum discrimination recognition distance within a specified tolerance range, it may be determined that the N touch points are not valid touch points of the touch coating 300. If the N touch parts 350 provided on the flat part 345 of the touch coating 300 are composed of at least one designated touch part 350 and n touch parts 350, the touch point authentication part 430 calculates the distance between the n touch units 350, and compares the distance between the n touch units 350 with the minimum discrimination recognition distance, and the N touch points are touches of the effective touch coating 300 designed and manufactured according to the design method according to the present invention. You can verify whether it is a point.

According to an exemplary method of the present invention, the touch point authentication unit 430 sets and maintains an N-angle structure condition formed by a line segment connecting N touch points. If the N touch parts 350 provided on the flat part 345 of the touch coating 300 are composed of at least one designated touch part 350 and n touch parts 350, the N-shaped structure condition Among the n divided areas 370 that divide the flat area of the flat part 345 of the effective touch coating 300, (n-1) divided areas 370 have one touch unit 350 having a designated contact area. ) Is provided, and one or more conditions for reading the geometrical characteristics of the N-angle due to the two touch units 350 including the designated touch unit 350 are provided in any one designated area 375 do. For example, the N-gonal structure condition is formed based on a contact area size of the touch unit 350, a minimum discrimination recognition distance, a minimum discrimination distance, a method of dividing a flat area, and a blank area that is not used on the flat area. Conditions for geometric properties for possible N-gons, and/or conditions for non-formable geometric properties may be included. When the N-gonal structure condition is set, the touch point authentication unit 430 forms an N-angle by connecting the N touch points, and reads the geometric characteristics of the formed N-gonal structure through the set N-gonal structure condition. , It can be verified whether the N touch points are touch points of the effective touch coating 300 designed and manufactured according to the design method according to the present invention.

When the component value is converted to the coordinates in the designated coordinate system, it is preferable that the touch point authentication unit 430 reads the mutual positional relationship between the N touch points by using a value set as information on the designated coordinate system. If the component value is in a state in which the coordinate is not converted to the designated coordinate system, the touch point authentication unit 430 may coordinate the component value into the designated coordinate system and read the mutual positional relationship.

Referring to Fig. 4, the touch authentication system 400 includes a reference point identification unit 435 for identifying a reference point for reading the geometric positional relationship of N touch points, and each touch point based on the reference point. Authenticate by matching and comparing the geometrical positional relationship of the touch authentication condition stored through the authentication condition storage unit 405 and the calculated geometrical positional relationship to be authenticated. A touch authentication processing unit 445 is provided. If the N touch parts 350 provided on the flat part 345 of the touch coating 300 are composed of at least one designated touch part 350 and n touch parts 350, the touch authentication system ( 400) is a reference point identification for identifying a designated touch point provided at a designated position of the designated region 375 by reading the component value through information of the divided regions 370 for the n divided regions 370 A location relationship calculation unit 440 that calculates an authentication target geometrical position relationship between the unit 435 and the identified designated touch points and each of the n touch points, and touch authentication stored through the authentication condition storage unit 405 And a touch authentication processing unit 445 for matching and comparing the geometrical positional relationship of the condition and the geometrical positional relationship to be authenticated between the calculated designated touch points and each of the n touch points. Hereinafter, for convenience, based on an embodiment in which the N touch units 350 provided on the flat panel 345 of the touch coating 300 are configured with at least one designated touch unit 350 and n touch units 350, the A technical feature for authenticating the geometric positional relationship of the N touch points will be described. However, the technical features of the present invention are not limited to the following embodiments, and any method of authenticating the geometrical positional relationship with respect to the N touch points by determining a reference point is clearly revealed to be included in the scope of the present invention.

The reference point identification unit 435 stores the component value verified through the touch point identification unit 420 or the component value authenticated through the touch point authentication unit 430 to the n divided areas 370. Matched with information of the divided region 370 for. If the divided area 370 information is set as the coordinate area information on the designated coordinate system, the reference point identification unit 435 matches the component value converted to the designated coordinate system with the divided area 370 information. The component value is a state in which the coordinates are converted to the designated coordinate system through the touch point identification unit 420 or the touch point authentication unit 430, or the reference point identification unit 435 to the designated coordinate system. Coordinates can be converted.

According to the first reference point identification method of the present invention, the reference point identification unit 435 virtually designates any one of the N touch points in order to match the information of the divided area 370 and the component value. After determining as a touch point, matching the virtual designated touch point and the divided area 370 information, and then performing a process of coordinate rotation of n touch points based on the virtual designated touch point at least once, It can be checked whether two touch points exist on the designated area 375 where the virtual designated touch point is located among the divided areas 370 and one touch point exists in each of the remaining (n-1) divided areas 370. If two touch points exist in the designated area 375 in which the virtual designated touch points are located and one touch point exists in each of the remaining (n-1) divided areas 370, the virtual designated touch points are determined according to the present invention. It can be identified by a designated touch point provided at a designed designated location.

According to an exemplary method of the present invention, the reference point identification unit 435 is an N-shaped geometric characteristic formed by the N touch points in order to shorten the process of matching the divided area 370 information with the component value. Based on, a touch point having a high probability of being a designated touch point among the N touch points may be predicted, and a process of first determining and matching a virtual designated touch point from the predicted touch point may be performed. For example, the reference point identification unit 435 may predict a touch point on both sides of the corresponding vertex as a virtual designated touch point when there is a vertex greater than 180° among the inner angles of the N-shaped vertices. have.

According to the second reference point identification method of the present invention, the reference point identification unit 435 matches the virtual origin on the design with the divided area 370 information, and designates any one of the N touch points as a reference to the virtual origin. After matching to the touch point location, two touch points exist in the designated area 375 among the n divided areas 370 by performing the process of coordinate rotation of the N touch points based on the virtual origin at least once. And it can be checked whether one touch point exists in each of the remaining (n-1) divided regions 370. If two touch points exist in the designated area 375 and one touch point exists in each of the remaining (n-1) divided areas 370, a virtual designated touch point is provided at a designated location designed according to the present invention. It can be identified by a designated touch point.

When a designated touch point among the N touch points is identified, the location relationship calculation unit 440 determines the distance relationship between the identified designated touch point and each n touch points provided in the n divided areas 370 and the identification An authentication target geometrical positional relationship between the designated touch point and each of the n touch points, including an angular relationship formed by the n touch points, is calculated based on a designated designated touch point.

The distance relationship includes a coordinate distance on a designated coordinate system. The coordinate distance includes a relative coordinate distance calculated through a coordinate value based on a designated coordinate system, and may be expressed as a vector value further including a specific direction on the designated coordinate system according to an implementation method.

The angular relationship includes a coordinate angle on a designated coordinate system. The coordinate angle includes an angle on a coordinate system formed by two touch points among n touch points, using the designated touch point as a reference point, or the designated touch point and each n touch points based on a specific reference line on the designated coordinate system. The angle formed by the connected line segments may be included.

According to an exemplary method of the present invention, it is preferable that the positional relationship calculation unit 440 calculates an authentication target geometric positional relationship between the designated touch point and each of n touch points based on a coordinate value on a designated coordinate system.

When the authentication target geometric position relationship between the designated touch point and each of the n touch points is calculated, the touch authentication processing unit 445 calculates the geometric position relationship of the touch authentication condition stored by the authentication condition storage unit 405 and the calculation. After matching the geometrical positional relationship to be authenticated between the designated designated touch point and each of the n touch points, the distance and angle are compared to check whether they match or are close within the specified error range. If the calculated geometric positional relationship to be authenticated and the geometrical positional relationship of the touch authentication condition coincide with each of the matched touch points or are close within a specified error range, the component value checked through the touch point identification unit 420 Is authenticated by a touch by the touch coating 300 having N touch units 350 corresponding to the matching or adjacent touch authentication condition.

When the touch authentication condition stored in the storage medium 410 and the location area information of the touch stamp 300 are mapped and stored, and the location information of the wireless terminal 200 is verified, the touch authentication processing unit 445 Checks the comparison target touch authentication condition mapped with the location area information matching the received location information among the touch authentication conditions stored in the storage medium 410, and the geometric position relationship of the comparison target touch authentication condition and the calculated By comparing whether the authentication target geometric position relationship is matched or close within a predetermined error range, the calculated geometric position relationship to be authenticated and the geometric position relationship of the touch authentication condition for each touch stamp 300 stored in the storage medium 410 It is possible to shorten the time required to compare and authenticate the data.

The touch authentication processing unit 445 generates a result of authenticating the component value (for example, an authentication error result or an authentication success result), and transmits the generated authentication result in the reverse direction of the path where the component value is received. . The authentication result is output through the program 215 of the wireless terminal 200 or is used as an authentication value for providing a designated service through the program 215 of the wireless terminal 200.

Referring to Figure 4, the touch authentication system 400, when the touch recognition information includes a unique code or one-time code recognized through sound or NFC, the unique code or one-time code included in the touch recognition information A code verification unit 450 to check, and a code authentication unit 455 for authenticating the unique code or one-time code using the touch authentication condition, and the touch authentication processing unit 445 authenticates the component value. An authentication result may be generated by combining a result and a result of authenticating the unique code or the one-time code, and the generated authentication result may be transmitted in the reverse direction of the path where the component value was received. The authentication condition for authenticating the unique code includes a code value comparable to the unique code, and the authentication condition for authenticating the one-time code is used to dynamically generate the one-time code in the NFC chip of the touch seal 300 The generated code generation algorithm and at least one seed value may be included.

FIG. 5 is a diagram illustrating a process of registering a touch authentication condition of the touch coating 300 according to an exemplary method of the present invention.

In more detail, FIG. 5 shows the process of including the geometric positional relationship and error information on the design of the N touch units 350 provided in the touch stamp 300 in the touch authentication system 400 and storing them in the touch authentication condition. As illustrated, for those of ordinary skill in the art to which the present invention belongs, various implementation methods for the process of registering the touch authentication condition (eg, some steps may be omitted or The implementation method in which the order has been changed) may be inferred, but the present invention includes all the inferred implementation methods, and the technical features are not limited only by the implementation method shown in FIG. 5.

Referring to Figure 5, the touch authentication system 400 in the process of designing and manufacturing the flat portion 345 of the touch coating 300, the design of the N number of touch portions 350 provided on the flat portion 345 The geometric positional relationship is checked (500), and a design geometrical positional relationship is stored (505) for the N touch units (350), and the geometrical positional relationship may include design error information. If the actual measurement verification is not performed on the design geometric position relationship, a touch authentication condition including the design geometric position relationship and design error information is generated (525), and the generated touch authentication condition and the touch The serial code of the seal 300 may be mapped and stored in the storage medium 410 (530).

On the other hand, if the actual measurement verification is performed on the geometrical positional relationship in the design, the touch authentication system 400 displays the N touch units 350 provided in the touch coating 300 on the designated capacitive touch screen 205. Check the relationship of the actual measurement position repeatedly touched more than a specified number of times (510). If the actual measurement position relationship with respect to the N touch units 350 is confirmed, the touch authentication system 400 checks whether the actual measurement position relationship exists within an error tolerance of the geometrical position relationship in the design (515). . If the actual measurement position relationship does not exist within the tolerance range, the touch authentication system 400 corrects the N touch parts 350 provided on the flat part 345 of the touch coating 300 Or (520), or a procedure of re-manufacturing the flat portion 345 of the touch coating 300 is performed (520).

On the other hand, if the actual measurement position relationship exists within the error tolerance range, the touch authentication system 400 performs touch authentication including geometric positional relationship and error information on the design of the flat part 345 of the touch coating 300. A condition is generated (525), and the serial code of the touch stamp 300 and the touch authentication condition are mapped and stored in the storage medium 410 (530). The touch authentication condition includes at least one of the divided area 370 information, the minimum discrimination recognition distance, and the minimum discrimination distance in common, or the touch authentication system 400 includes the touch unit of the touch stamp 300 ( 350) may be linked to be used to authenticate N touch points.

Figure 6 is a diagram showing a process of registering the use of the painting location of the touch painting 300 according to the implementation method of the present invention.

In more detail, FIG. 6 shows the geometric positional relationship and error information on the design of the N touch units 350 provided in the touch stamp 300 in the touch authentication system 400, and after storing the touch authentication condition, the touch It shows the process of registering and storing the location area information of the stamp usage destination from the terminal device 110 of the painting usage destination provided with the painting 300, and those of ordinary skill in the technical field to which the present invention belongs, By referring to and/or modifying this Figure 6, various implementation methods (eg, some steps are omitted or the order is changed) for the registration process of the painting use area may be inferred, but the present invention All implementation methods are included, and technical features thereof are not limited only by the implementation method illustrated in FIG. 6.

Referring to FIG. 6, the touch authentication system 400 receives the serial code of the touch seal 300 and the location area information of the paint use destination from the terminal device 110 of the paint use destination provided with the touch seal 300. Receive (600). The touch authentication system 400 checks a touch authentication condition mapped with the received serial code among touch authentication conditions registered in the storage medium 410 (605).

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 seal 300 to the terminal device 110 (610). On the other hand, when the touch authentication condition mapped with the serial code is confirmed, the touch authentication system 400 maps the checked touch authentication condition and the location area information of the received stamp usage destination and stores it in the storage medium 410. (615).

7 is a diagram illustrating a process of recognizing a painting touch using the touch painting 300 in the program 215 of the wireless terminal 200 and processing the authentication result according to the implementation method of the present invention.

In more detail, FIG. 7 shows a program of the wireless terminal 200 when the touch coating 300 having N touch units 350 is touched on the capacitive touch screen 205 of the wireless terminal 200 ( In 215), a process of recognizing a stamp touch using the touch stamp 300 and attempting communication connection to transmit touch recognition information corresponding to the recognized N touch points to the touch authentication system 400 is shown, For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the process of processing the painting touch recognition and authentication result by referring to and/or modifying this figure 7 (e.g., some steps are omitted, or The modified implementation method) may be inferred, but the present invention includes all the inferred implementation methods, and the technical features are not limited only by the implementation method shown in FIG. 7.

Referring to Fig. 7, the wireless terminal 200 checks a touch event for a touch point touched on the capacitive touch screen 205 as the program 215 is driven or activated (700), and the touch By reading the event, it is checked whether the painting touch that touched the N touch units 350 provided in the touch painting 300 is recognized (710). The painting touch may be a touch in which N touch points were touched on the capacitive touch screen 205, or a touch to which at least one of a fixed touch condition, a static touch condition, a dynamic touch condition, and a sequential touch condition is applied.

If the painting touch is recognized, the program 215 of the wireless terminal 200 reads the component values for N touch points corresponding to the N touch units 350 provided in the touch painting 300 Do (715). When the location information of the wireless terminal 200 is used for authentication of the N touch points, the program 215 of the wireless terminal 200 may check the location information of the wireless terminal 200 (720). ). The program 215 of the wireless terminal 200 configures touch recognition information including component values for the N touch points and location information of the wireless terminal 200 (725). If a function for outputting a sound signal to the touch seal 300 or provided on an NFC chip, and the sound signal or received from the NFC chip when the touch seal 300 touches the capacitive touch screen 205 When the unique code or one-time code encoded in the radio frequency signal is confirmed, the program 215 of the wireless terminal 200 may include the identified unique code or one-time code in the touch recognition information.

The program 215 of the wireless terminal 200 attempts a communication connection to authenticate the N touch points touched on the capacitive touch screen 205 with a paint touch using a designated touch seal 300 (730). . If the communication connection is successful and a communication channel is connected, the program 215 of the wireless terminal 200 transmits the touch recognition information through the communication channel (735).

The program 215 of the wireless terminal 200 checks whether a touch authentication result obtained by authenticating the N touch points using the touch recognition information through the communication channel is received (740). If the touch authentication result is received, the program 215 of the wireless terminal 200 outputs the received touch authentication result (745), and a procedure for providing a service corresponding to the touch authentication result according to an implementation method Perform (750).

FIG. 8 is a diagram showing a process of authenticating a painting touch by touching the N touch units 350 provided on the touch painting 300 to the capacitive touch screen 205 according to an implementation method of the present invention.

In more detail, Figure 8 is a touch authentication system 400, the N number of touch units 350 provided in the touch seal 300 touch the capacitive touch screen 205 of the wireless terminal 200 to recognize N number of It shows a process of authenticating a touch point through a touch authentication condition registered with respect to the touch coating 300, and for those of ordinary skill in the art to which the present invention belongs, refer to and/or modify this Figure 8 Thus, various implementation methods for the painting touch authentication process (for example, some steps are omitted or the order is changed) may be inferred, but the present invention includes all the inferred implementation methods, and the present invention The technical features are not limited only by the implementation method shown in FIG. 8.

Referring to Figure 8, the touch authentication system 400 receives the touch recognition information transmitted from the application of the wireless terminal 200 through the process shown in Figure 7 through a designated path (800), the touch recognition information Component values for the N touch points included in are checked (805).

The touch authentication system 400 reads the mutual positional relationship of the N touch points based on the component values, so that the N touch points corresponding to the component values are effectively designed and manufactured. It is authenticated whether it is a touch point of (810). If the N touch points are not valid touch points of the touch stamp 300, the touch authentication system 400 generates an authentication error result for the N touch points (840), and the authentication error result through a designated path. The touch authentication result including a is transmitted (850).

If the N touch points are valid touch points of the touch coating 300, the touch authentication system 400 uses n divided areas applied in design in the process of manufacturing the flat portion 345 of the touch coating 300 ( A designated touch point corresponding to the touch unit 350 provided at a designated position on the designated region 375 among n divided regions 370 by reading the component values through the divided region 370 information for 370 Identify (815). If the designated touch point is not identified, the touch authentication system 400 generates an authentication error result for the N touch points (840), and transmits a touch authentication result including the authentication error result through a designated path. Do (850).

If a designated touch point is identified among the N touch points, the touch authentication system 400 calculates an authentication target geometric position relationship between the identified designated touch point and each of the n touch points (820). On the other hand, if the touch authentication condition and the location area information of the stamp use destination are mapped through the process shown in Fig. 6, the touch authentication system 400 determines the location information of the wireless terminal 200 based on the touch recognition information. At least one to be compared with the calculated geometric location relationship to be authenticated among a plurality of touch authentication conditions stored in the storage medium 410 by comparing the location information of the wireless terminal 200 with the location area information of the touch authentication condition. The comparison target touch authentication condition is checked (825 ), and the geometric position relationship of the comparison target touch authentication condition and the calculated authentication target geometric position relationship are matched and compared (830 ). If the touch authentication condition is not matched with the location area information of the stamp use destination, a process of comparing the geometric positional relationship with the entire touch authentication condition stored in the storage medium 410 may be performed.

The touch authentication system 400 checks a touch authentication condition including a geometric positional relationship that matches the authentication target geometrical positional relationship or is close within a specified tolerance range (835). If a touch authentication condition including a geometrical positional relationship close to or within a specified tolerance range is confirmed, the touch authentication system 400 performs a stamp touch corresponding to the geometrical positional relationship to be authenticated. It can be authenticated by touching the touch stamp 300 corresponding to the checked touch authentication condition.

If the authentication target geometric position relationship is not authenticated, the touch authentication system 400 generates an authentication error result for the N touch points (840), and touch authentication including the authentication error result through a designated path. The result is transmitted (850). On the other hand, when the authentication target geometric position relationship is authenticated, the touch authentication system 400 generates an authentication success result for the N touch points (840), and a touch authentication result including the authentication success result through a designated path. Transmit (850).

If the touch recognition information includes a unique code or one-time code recognized through sound or NFC, the touch authentication system 400 uses a touch authentication condition to determine the unique code or one-time code included in the touch recognition information. After performing the authentication procedure for the authentication, generating a touch authentication result that combines the authentication result of the authentication target geometrical position relationship and the authentication result of the unique code or one-time code, and then the generated touch authentication result through a designated path Can transmit (850).

9 is a diagram illustrating a process of retransmitting touch recognition information in a program 215 of the wireless terminal 200 according to the first embodiment of the present invention.

In more detail, FIG. 9 shows a process of storing touch recognition information and retransmitting it to the touch authentication system 400 when communication connection fails in the process shown in FIG. 7. If you have knowledge of, you can refer to and/or modify this Figure 9 to infer various implementation methods for the retransmission process of the touch recognition information (e.g., implementation methods in which some steps are omitted or the order is changed). However, the present invention includes all of the above inferred implementation methods, and the technical features thereof are not limited only by the implementation method shown in FIG. 9. For example, it may be selectively combined with the implementation methods of FIGS. 9 to 12.

Referring to FIG. 9, when the communication connection fails in the process shown in FIG. 7, the program 215 of the wireless terminal 200 temporarily stores touch recognition information for N touch points (900), and A communication connection for authenticating the N touch points temporarily stored for a certain period of time with a painting touch is retried (905).

If the communication connection is successful and the communication channel is connected by the communication connection retry, the program 215 of the wireless terminal 200 transmits the temporarily stored touch recognition information through the connected communication channel (910).

10 is a diagram illustrating a process of retransmitting touch recognition information in the program 215 of the wireless terminal 200 according to the second embodiment of the present invention.

In more detail, FIG. 10 is a temporary storage of touch recognition information after verifying whether the distance between N touch points is more than the minimum discrimination recognition distance of the touch stamp 300 when communication connection fails in the process shown in FIG. 7 above. It shows a process of retransmission to the touch authentication system 400 after the present invention, and for those of ordinary skill in the art to which the present invention belongs, refer to and/or modify this FIG. 10 for the retransmission process of the touch recognition information. Various implementation methods (e.g., some steps are omitted or the order is changed) may be inferred, but the present invention includes all the inferred implementation methods, and only the implementation method shown in FIG. The technical features are not limited.

Referring to FIG. 10, the program 215 of the wireless terminal 200 recognizes the minimum discrimination that must be separated from each other in order for the N touch units 350 provided in the touch stamp 300 to be distinguished and recognized as different touch points. The distance is stored, and when the communication connection fails in the process shown in Fig. 7, the program 215 of the wireless terminal 200 uses the component values for the N touch points. The distance between the N touch points is calculated (1000), and it is verified whether the calculated distance between each of the N touch points is more than the minimum discrimination recognition distance (1005).

If the distance between the N touch points is not more than the minimum discrimination recognition distance, the program 215 of the wireless terminal 200 outputs a stamp touch recognition error (1010), or a valid touch stamp 300 Retouch is induced using (1010).

On the other hand, if the distance between each of the N touch points is more than the minimum discrimination recognition distance, the program 215 of the wireless terminal 200 temporarily stores touch recognition information for the N touch points (1015), and a specified schedule Communication connection for authenticating the N touch points temporarily stored for a period of time with a stamp touch is retried (1020).

If the communication connection is successful and the communication channel is connected by the communication connection retry, the program 215 of the wireless terminal 200 transmits the temporarily stored touch recognition information through the connected communication channel (1025).

11 is a diagram illustrating a process of retransmitting touch recognition information in the program 215 of the wireless terminal 200 according to the third embodiment of the present invention.

In more detail, FIG. 11 shows touch recognition after verifying that the N-gonal structure connecting N touch points meets the N-angled structure condition of the touch coating 300 when communication connection fails in the process shown in FIG. 7 above. It shows a process of temporarily storing information and then retransmitting it to the touch authentication system 400, and those of ordinary skill in the art to which the present invention belongs, refer to and/or modify this FIG. Various implementation methods for the retransmission process (e.g., some steps are omitted or the order is changed) may be inferred, but the present invention includes all the inferred implementation methods, and is shown in FIG. The technical features are not limited only by the method of implementation.

Referring to Fig. 11, the program 215 of the wireless terminal 200 stores an N-shaped structure condition that can be formed by connecting the N touch units 350 provided in the touch coating 300, and Fig. 7 If the communication connection fails in the process shown in, the program 215 of the wireless terminal 200 checks the N-shaped structure formed based on the component values for the N touch points (1100), and It is verified whether the structure matches the N-gonal structure condition (1105).

If the N-angled structure does not match the N-angled structure condition, the program 215 of the wireless terminal 200 outputs a painting touch recognition error (1110), or retouching using a valid touch painting 300 Induces (1110).

Meanwhile, when the N-gonal structure matches the N-angular structure condition, the program 215 of the wireless terminal 200 temporarily stores touch recognition information for N touch points (1115), and is temporarily stored for a specified period of time. Communication connection for authenticating the N touch points as a stamp touch is retried (1120).

If the communication connection is successful and the communication channel is connected by the communication connection retry, the program 215 of the wireless terminal 200 transmits the temporarily stored touch recognition information through the connected communication channel (1125).

12 is a diagram illustrating a process of retransmitting touch recognition information in a program 215 of the wireless terminal 200 according to the fourth embodiment of the present invention.

In more detail, this figure 12 temporarily stores touch recognition information by temporarily authenticating N touch points using the geometric positional relationship of previously authenticated N touch points when communication connection fails in the process shown in Fig. 7 It shows a process of retransmission to the touch authentication system 400 after the present invention, and for those of ordinary skill in the art to which the present invention belongs, refer to and/or modify this FIG. Various implementation methods (e.g., some steps are omitted or the order is changed) may be inferred, but the present invention includes all the inferred implementation methods, and only the implementation method shown in FIG. The technical features are not limited.

Referring to FIG. 12, when N touch points are authenticated through the process shown in FIG. 8 by a stamp touch using a designated touch stamp 300, the program 215 of the wireless terminal 200 is The geometric positional relationship information for the touch points is generated (1200), and stored or updated (1205).

When the communication connection fails in the process shown in FIG. 7, the program 215 of the wireless terminal 200 determines the geometric positional relationship of the N touch points based on the component values for the N touch points. The reading is performed (1210), and the geometrical positional relationship with respect to the N touch points is temporarily authenticated through the confirmed geometrical positional relationship information (1215).

If the geometrical positional relationship to the N touch points is not pre-authenticated, the program 215 of the wireless terminal 200 outputs a stamp touch recognition error (1220), or re-uses a valid touch stamp (300). Induce a touch (1220).

On the other hand, if the geometric positional relationship for the N touch points is temporarily authenticated, the program 215 of the wireless terminal 200 temporarily stores touch recognition information for the N touch points (1225), and temporarily stores the touch recognition information for the N touch points (1225). The communication connection for authenticating the stored N touch points as a stamp touch is retried (1230).

If the communication connection is successful and the communication channel is connected by the communication connection retry, the program 215 of the wireless terminal 200 transmits the temporarily stored touch recognition information through the connected communication channel (1235).

100: operation server 200: wireless terminal
205: capacitive touch screen 215: program
220: touch recognition unit 225: touch reading unit
230: positioning unit 235: sound recognition unit
240: NFC recognition unit 245: communication connection
250: information transmission unit 255: authentication result receiving unit
260: service procedure execution unit 265: location relationship storage unit
270: touch point verification unit 275: information storage unit
300: touch coating 400: touch authentication system

Claims (13)

In the method executed through a program of a wireless terminal having a capacitive touch screen and a server capable of connecting a communication channel through a communication network with the wireless terminal,
When three or more touch points are multi-touched while an effective touch point is not touched through the capacitive touch screen of the wireless terminal, the program of the wireless terminal reads one or more touch events related to the recognition of the multi-touch, A first step of checking whether N (N≥3) touch units of a conductive material provided on one side are matched with a touch event by design when touching the capacitive touch screen;
When a touch event related to the N touch points recognized through the multi-touch is matched with a touch event in the design of the touch painting, the program of the wireless terminal authenticates whether the N touch points are a painting touch using a specific touch painting A second step of attempting a communication connection with the server for the purpose;
When the program of the wireless terminal succeeds in the communication connection and a communication channel is connected, touch recognition information including component values for the recognized N touch points is transmitted through the communication channel, and if the communication connection fails A third step of temporarily storing the touch recognition information;
When the touch recognition information is transmitted through the communication channel, the server establishes a geometric position relationship including a distance relationship and an angular relationship formed by the N touch points based on a component value included in the touch recognition information. After checking, the geometrical positional relationship formed by the N touch points is within a design geometrical positional relationship and an allowable error range including a distance relationship and angular relationship in the design formed by connecting the midpoints of the N touch units provided in the touch coating. A fourth step of authenticating whether it is matched in;
When the geometrical positional relationship formed by the N touch points is matched within the allowable error range with the geometrical positional relationship in the design of the touch painting, the server is a touch authentication result including an authentication result of authenticating the N touch points A fifth step of transmitting a program of the wireless terminal through the communication channel;
A sixth step of receiving, by a program of the wireless terminal, the touch authentication result from the server through the communication channel; And
A seventh step of displaying, by the program of the wireless terminal, the result of authenticating the N touch points with a paint touch using a designated touch paint.
The method of claim 1, wherein the first step,
Reading, by a program of the wireless terminal, one or more touch events related to recognition of the multi-touch, and checking whether the number of touch points corresponding to the multi-touch is N; And
When the number of touch points corresponding to the multi-touch is N, the step of determining, by a program of the wireless terminal, the N touch points as multi-touch touch points using touch painting. How to process stamp touch authentication.
The method of claim 1, wherein the first step,
Reading one or more touch events related to the recognition of the multi-touch by the program of the wireless terminal to check whether the number of touch points touched by the two or more touch points within a predetermined time period from the touch recognition point is N; And
And determining, by a program of the wireless terminal, that the N touch points are simultaneously touched by touch painting when the number of touch points identified within the predetermined time is N. How to process stamp touch authentication.
The method of claim 1, wherein the first step,
Reading one or more touch events related to the recognition of the multi-touch by the program of the wireless terminal to determine whether the number of touch points repeatedly recognized for a predetermined time is N; And
When the number of repeatedly recognized touch points is N, the step of determining, by a program of the wireless terminal, as a touch point touched according to a behavior habit of stamping the N touch points; How to handle touch authentication.
The method of claim 1, wherein the first step,
Repeating, by a program of the wireless terminal, reading one or more touch events related to the recognition of the multi-touch, and repeatedly checking the positions of the N touch points repeatedly recognized at specified time intervals;
Comparing, by the program of the wireless terminal, the positions of the repeatedly checked N touch points for each touch point to check whether the positions of the N touch points are not changed; And
And when the positions of the N touch points are not changed, determining, by a program of the wireless terminal, as a touch point touched according to a habit of touching the N touch points. How to process stamp touch authentication.
The method of claim 1, wherein the first step,
Repeating, by the program of the wireless terminal, reading one or more touch events related to the recognition of the multi-touch, and repeatedly checking the positional relationship of the N touch points repeatedly recognized at specified time intervals;
Comparing, by the program of the wireless terminal, the positional relations of the N touch points repeatedly checked to determine whether the positional relations of the N touch points are not changed and maintain a static state; And
When the positional constraints of the N touch points are maintained in a static state, determining, by a program of the wireless terminal, the N touch points as a touch point that has touched the N touch units fixedly mounted on the touch seal. Paint touch authentication processing method, characterized in that comprising a.
The method of claim 1, wherein the first step,
Repeating, by a program of the wireless terminal, reading one or more touch events related to the recognition of the multi-touch, and repeatedly checking the positions of the N touch points repeatedly recognized at specified time intervals;
Comparing, by a program of the wireless terminal, the positions of the repeatedly checked N touch points and checking whether the positional relationship of the N touch points is a dynamic state in which the positional relationship of the N touch points is changed according to a specified rule; And
In the case where the position of the N touch points is in a dynamic state, the program of the wireless terminal touches the N touch points using a touch seal with N touch units designed and manufactured to move according to a specified rule. Determining one touch point; painting touch authentication processing method comprising a.
The method of claim 1, wherein the first step,
Repeating, by a program of the wireless terminal, reading one or more touch events related to the recognition of the multi-touch, and repeatedly checking the positions of the N touch points repeatedly recognized at specified time intervals;
Checking whether the N touch points are sequentially touched according to a specified rule by reading a change in the number of touch points and the positions of the touch points repeatedly recognized by the program of the wireless terminal; And
When the N touch points are sequentially touched according to a specified rule, the program of the wireless terminal uses a touch coating with N touch units designed and manufactured to sequentially touch the N touch points according to a specified rule. Determining the touch point as the touched; painting touch authentication processing method comprising a.
The method of claim 1,
The program of the wireless terminal further comprises the step of storing a minimum distinct recognition distance that must be separated from each other in order to distinguish and recognize the N touch units provided in the touch seal as different touch points,
If the above communication connection fails,
The program of the wireless terminal calculates a distance between each of the N touch points using component values for the N touch points, and whether the calculated distance between each of the N touch points is more than the minimum discrimination recognition distance Further comprising the step of verifying,
In the third step, in the case where the program of the wireless terminal temporarily stores the touch recognition information when the distance between the N touch points is greater than or equal to the minimum discrimination recognition distance, the painting touch authentication processing method.
The method of claim 1,
The program of the wireless terminal further comprises the step of storing an N-shaped structure condition that can be formed by connecting the N touch units provided in the touch coating,
If the above communication connection fails,
The wireless terminal program further comprises verifying whether an N-gonal structure formed based on component values for the N touch points matches the N-angular structure condition,
In the third step, when the program of the wireless terminal temporarily stores the touch recognition information when the N-gonal structure of the N touch points matches the N-angular structure condition.
The method of claim 1,
When the received touch authentication result is read and the N touch points are authenticated as a stamp touch,
Generating, by a program of the wireless terminal, geometric positional relationship information for the N number of authenticated touch points; And
And storing or updating the generated geometric positional relationship information in a designated storage area of the wireless terminal by the program of the wireless terminal.
The method of claim 1,
When the communication connection fails after the geometric positional relationship information for the previously authenticated N touch points is stored or updated in the designated storage area of the wireless terminal,
Checking geometrical positional relationship information for the previously authenticated N touch points from the storage area designated by the program of the wireless terminal;
Reading, by a program of the wireless terminal, a geometric positional relationship with respect to the N touch points based on component values for the N touch points;
Pre-authentication of the geometrical positional relationship of the N touched points by the program of the wireless terminal through geometrical positional relationship information of the previously authenticated N touched points; And
The step of displaying, by the program of the wireless terminal, a provisional authentication result for a stamp touch using the touch stamp; further comprising,
In the third step, when the provisional authentication is successful, the program of the wireless terminal temporarily stores the touch recognition information.
The method of claim 1,
If the above communication connection fails,
Connecting a communication channel by retrying the communication connection by the program of the wireless terminal; And
When the communication channel is connected, transmitting the temporarily stored touch recognition information through the communication channel by a program of the wireless terminal and receiving a touch authentication result of authenticating the N touch points; further comprising: Painting touch authentication processing method characterized by.

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