KR102033184B1 - Method for Authenticating Capacitive Touch - Google Patents

Abstract

According to the capacitive touch authentication method of the present invention, in a capacitive touch authentication method executed through a system interoperating with a capacitive touch screen supporting multiple touches, a plurality of touches recognized by multiple touches through the capacitive touch screen Confirming or receiving information on a point, and reading the plurality of touch points to place a plurality of touch parts made of a capacitive touch material in a pre-designed geometric position relationship of the touch device of the touch device manufactured in advance in design Identify a designated touch point corresponding to the designated touch unit disposed at a designated position, and use the designated touch point as a reference point to rotate the plurality of touch points to match the geometric positional relationship of the design with respect to the touch unit; The plurality of touch points may be obtained by using separate reference points identified through the designated touch points. The coordinate rotation is matched with the geometric positional relationship of the design of the touch unit, and the geometrical touch positional relationship is obtained by using the identified designated touch point as a reference point or by using a separate reference point identified through the designated touch point. It is processed to match and compare with the geometric positional relationship on the pre-registered design.

Description

Capacitive Touch Auth Method {Method for Authenticating Capacitive Touch}

The present invention provides a capacitive touch authentication method that is executed through a system interoperating with a capacitive touch screen supporting multiple touches. A designated touch disposed at a predetermined position in a design among touch parts of a touch device manufactured by receiving and reading the plurality of touch points and arranging a plurality of touch parts including a capacitive touchable material in a predesigned geometric position relationship. Identifying a designated touch point corresponding to a part, and using the designated touch point as a reference point, coordinate rotation or matching of the plurality of touch points with a design geometric position relationship with respect to the touch part, or confirmed through the designated touch point. Design geometry for the touch unit by using a plurality of separate reference points Coordinate rotation coordinates with a positional relationship, and the geometric touch positional relationship is previously registered using a geometric reference position by using the identified designated touch point as a reference point or using a separate reference point identified through the designated touch point. A capacitive touch authentication method for processing a match with a relationship.

A service including a plurality of touch parts made of a conductive material in a coating and simultaneously touching the capacitive touch screen to use the geometric positional relationship formed by the plurality of touch parts as various authentication means or identification means is disclosed.

Conventional capacitive touch screens are designed to use a touch of a user's finger as an input means and are optimized to do so. In the case of a recently launched smartphone, the capacitive touch screen supports multi-touch and is designed to use a multi-touch using a finger as an input means (for example, pinch-to-zoom).

On the other hand, in order to use the geometric positional relationship of the plurality of touch portions provided in the painting as the authentication means or the identification means, the geometric positional relationship of the plurality of touch portions provided in the different paintings must have different uniqueness. No matter where or in which direction the capacitive touch screen is touched, it should always have the convenience of recognition and authentication. However, only a multi-touch method optimized as a conventional input means has a difficulty in providing uniqueness and convenience of a painting to be used as an authentication means or an identification means.

SUMMARY OF THE INVENTION An object of the present invention is a capacitive touch authentication method executed through a system interoperating with a capacitive touch screen that supports multiple touches, wherein information on a plurality of touch points recognized by the multi-touch is recognized through the capacitive touch screen. Predetermined position in the design of the touch unit of the touch unit manufactured by arranging a plurality of touch units made of a predetermined geometric position relationship including a capacitive touchable material by reading the plurality of touch points and reading the plurality of touch points A second step of identifying a designated touch point corresponding to the designated touch unit disposed in the second position; and using the designated touch point as a reference point, the plurality of touch points are coordinated to match the geometric positional relationship of the design with respect to the touch unit. Or touch the plurality of touch points using a separate reference point identified through the designated touch point. The geometric touch position using a third step of coordinate rotation to match the geometric positional relationship with respect to the part and using the identified designated touch point as a reference point or a separate reference point identified through the designated touch point. The present invention provides a capacitive touch authentication method comprising a fourth step of processing a relationship to be matched with a geometric position relationship on a pre-registered design.

In the capacitive touch authentication method according to the present invention, in the capacitive touch authentication method executed through a system interoperating with a capacitive touch screen supporting multiple touches, a plurality of touches recognized by multiple touch recognition through the capacitive touch screen The first step of checking or receiving information about the point and the plurality of touch parts including the capacitive touch material by reading the plurality of touch points are arranged in a pre-designed geometric position relationship among the touch parts of the touch device manufactured. A second step of identifying a designated touch point corresponding to the designated touch unit disposed at a predetermined position on the design, and using the designated touch point as a reference point, the plurality of touch points are used to design the geometric positional relationship to the touch unit; The coordinates can be matched to each other or the image can be identified using a separate reference point identified through A third step of coordinate rotation of the plurality of touch points to match the geometric positional relationship with respect to the touch unit; and using the identified designated touch point as a reference point or using a separate reference point identified through the designated touch point. And a fourth step of processing the geometric touch positional relationship to be matched and compared with the geometrical positional relationship in the pre-registered design.

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In the capacitive touch authentication method according to the present invention, the geometric positional relationship includes at least one of a distance relationship and an angle relationship between the designated touch unit and the remaining touch unit.

In the capacitive touch authentication method according to the present invention, the geometric positional relationship includes at least one of a distance relationship and an angle relationship between a predetermined reference point and a plurality of touch units.

In the capacitive touch authentication method according to the present invention, the reference point is characterized in that it comprises a center point of the designated touch portion, or comprises a design origin to arrange the plurality of touch portions.

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In the capacitive touch authentication method according to the present invention, the information on the plurality of touch points is characterized in that it comprises a coordinate value on the coordinate system corresponding to the capacitive touch screen.

In the capacitive touch authentication method according to the present invention, the first step may further include transforming the plurality of touch points into a coordinate system corresponding to the geometric positional relationship.

In the capacitive touch authentication method according to the present invention, the method further includes verifying the number of touch points corresponding to the plurality of touch points and authenticating the number of touch points in the design.

The capacitive touch authentication method according to the present invention is characterized in that it further comprises the step of reading the mutual positional relationship between each touch point and authenticating whether it falls within a range of valid geometrical positional relationship.

In the capacitive touch authentication method according to the invention, it characterized in that it comprises a step of authenticating whether the distance between each touch point is more than a predetermined minimum distinct recognition distance.

The capacitive touch authentication method according to the present invention is characterized in that it comprises a step of authenticating whether the maximum distance of the distance between each touch point is within a predetermined maximum separation distance.

In the capacitive touch authentication method according to the present invention, authenticating a polygonal feature formed by a line segment connecting each touch point includes a polygonal feature that can be formed by touch units arranged in a pre-designed geometric positional relationship. Characterized in that comprises a.

In the capacitive touch authentication method according to the present invention, the geometrical positional relationship of the design includes a relationship of arranging a designated number of touch units in n (n ≧ 4) partitions, and the second step includes the n Reading a relationship between the plurality of touch points based on design region information on the number of divided areas to identify a designated touch point corresponding to a designated touch unit disposed in any one of the n divided areas. It is done.

In the capacitive touch authentication method according to the present invention, the geometric positional relationship of the design may include a predetermined number of touch units arranged in n (n ≧ 4) partitions, and the plurality of touch sections may be arranged in any one of the n partitions. And a relationship of arranging any designated touch unit among the touch units of the second touch unit, wherein the second step reads the relationship between the plurality of touch points based on design region information on the n partitions. It is characterized by identifying the designated touch point corresponding to the designated touch unit disposed in any one of the divided regions.

In the capacitive touch authentication method according to the present invention, the geometric positional relationship of the design is that a predetermined number of touch units are arranged in n (n≥4) partitions, and a designated position on any one of the n partitions is specified. And a relationship of arranging any designated touch unit among the plurality of touch units, wherein the second step includes reading a relationship between the plurality of touch points based on design region information on the n partitions. And designating a touch point corresponding to a designated touch unit disposed at a designated position on any one of the n divided regions.

In the capacitive touch authentication method according to the present invention, when identifying the designated touch point, further comprising the step of transforming the designated touch point and the remaining touch point to a coordinate system corresponding to the geometric positional relationship in the design It features.

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In the capacitive touch authentication method according to the present invention, the fourth step further comprises the step of identifying a geometric positional relationship close to the geometrical touch positional relationship and a specified error range among one or more previously registered geometrical positional relationships. Characterized in that made.

In the capacitive touch authentication method according to the present invention, the fourth step includes the step of identifying a geometric positional relationship matching the geometrical touch positional relationship within a specified error range among one or more previously registered geometrical positional relationships. It is characterized in that it further comprises.

In the capacitive touch authentication method according to the present invention, the fourth step further comprises the step of identifying a geometric position relationship closest to the geometric touch position relationship among one or more previously registered geometric positional relationships. It features.

In the capacitive touch authentication method according to the invention, the system is implemented on a device with the capacitive touch screen, or on a server in communication with the device with the capacitive touch screen, or It is characterized in that the distributed implementation on the server and the device having a capacitive touch screen.

The capacitive touch authentication method according to the present invention is a capacitive touch authentication method executed in a system in which a coating having a plurality of capacitive touch units is interlocked with a capacitive touch screen to which the coating is touched, wherein n (n ≧ 4) (N + 1) which is touched through a painting having one touch unit at each of the calculated positions on the (n-1) divided regions of the divided regions, and two touch units at the calculated position and the designated positions on one designated region. A first step of storing touch authentication conditions for authenticating the geometric touch positional relationship of) touch points, a second step of checking (n + 1) touch point information touched through the capacitive touch screen, and a third step of reading the (n + 1) touch point information through the divided area information for the n divided areas to identify a designated touch point provided at a designated position of the designated area; A fifth step of authenticating by comparing the positional relationship between the touch point and n each touch point and a to-fourth step of calculating a geometric relationship between the touch position, and the calculated touch position relation with the touch authentication matching condition.

According to the present invention, the touch position relationship may include a distance relationship between a designated touch point and each of n touch points and an angle relationship between n touch points with respect to the designated touch point. Meanwhile, the distance relationship may include a coordinate distance calculated on a specific coordinate system. The angular relationship is a coordinate angle formed by two touch points among n touch points based on the designated touch point on a specific coordinate system, or the designated touch point and n touch points based on a specific reference line on the specific coordinate system. It may include coordinate angles formed by the connected line segments.

According to the present invention, the first step is a step of identifying and storing the geometric touch position relationship of the design for the (n + 1) touch points, and the number of times the coating is designated through the capacitive touch screen of the registration device Confirming the actual measurement positional relationship with respect to the (n + 1) touch points confirmed by repeated touches, and confirming whether the actual measurement positional relationship exists within a specified error tolerance of the geometric touch positional relationship in the design And storing the touch authentication condition including the touch position relationship for authentication including the geometric touch position relationship in the design and the error tolerance range when the actual measurement position relationship exists within the error tolerance range. have.

According to the present invention, the (n + 1) touch point information may be composed of coordinate values of a device-side coordinate system set in a device having the capacitive touch screen.

According to the present invention, the capacitive touch authentication method may further include transforming the identified (n + 1) pieces of touch point information into a designated coordinate system corresponding to the touch position relationship of the touch authentication condition. .

According to the present invention, the capacitive touch authentication method may further include reading a mutual positional relationship between the identified (n + 1) touch points and authenticating whether the touch point is touched by a valid painting. .

According to the present invention, the mutual positional relationship may include a distance between touch points for comparison with a minimum discrimination recognition distance set for an effective seal.

According to the present invention, the mutual positional relationship may include a distance between the touch points for comparing with the maximum distance that each touch unit can fall to the maximum on the flat area of the flat plate provided in the effective coating.

According to the present invention, the mutual positional relationship is obtained by dividing the flat plate area of the flat plate provided in the effective coating into n and providing (n + 1) touch parts in each area having a designated contact interview in each area. It may include the geometric characteristics of the (n + 1) square formed by the line connecting the touch point.

According to the present invention, in the third step, after matching any virtual designated touch point among the identified (n + 1) touch points and the divided region information, n number of the based on the virtual designated touch points are determined. Performing a coordinate rotation of the touch point at least once, and reading whether two touch points exist on the designated area among the n divided areas and whether each touch point exists on the remaining (n-1) divided areas. can do.

According to the present invention, the third step is to match the virtual origin and the partition information on the design and match any one of the identified (n + 1) touch point to the designated touch point position of the virtual origin reference, Coordinate rotation of (n + 1) touch points with respect to the virtual origin is performed at least once so that two touch points exist on a designated area among the n divided areas and the remaining (n-1) divided areas And reading whether each one touch point is present.

According to the present invention, the first step may further include mapping and storing the touch authentication condition with location area information of a place using a seal that operates the seal, and the second step includes the (n + 1) pieces. The method may further include verifying location information of the touch point where the touch point is touched. The fifth step may include comparing the calculated touch location relationship with the touch location relationship of the touch authentication condition mapped with the location area information corresponding to the identified location information. Can be authenticated.

According to the present invention, in the first step, the touch authentication conditions are grouped and stored according to the geometric characteristics of the (n + 1) squares connecting the (n + 1) touch units provided in the flat area of the flat part provided in the effective coating. And the fifth step includes a touch position relationship of a touch authentication condition belonging to a group matching a geometric characteristic of a (n + 1) rectangle corresponding to the calculated touch position relationship and the calculated touch position relationship. Can be compared and authenticated.

According to the present invention, the touch unit is made of a conductive material, and may include a contact surface having a designated shape to be touched by the capacitive touch screen. The contact surface may include a contact area calculated to be recognized as a valid touch point of the capacitive touch screen, and a central portion of the contact area may be convexly rounded according to a curvature on the boundary line of the figure. have. The contact area may include an area calculated from an area greater than or equal to the area corresponding to the lowest touch sensitivity recognizable based on the capacitance of the human body in the capacitive touch screen.

According to the present invention, the calculated position includes a position that can be calculated and changed to provide one or more touch units of the n touch units at different positions for each plate portion on the plate region of the plate portion provided in each painting of the same kind. can do.

According to the present invention, the calculated position includes a touch unit provided in one or more divided regions of n divided regions of n divided flat regions of flat portions provided in respective paintings of the same kind at different positions for each flat portion. It may include a position that is calculated to change.

According to the present invention, the designated position may include a fixed position designated for providing one designated touch portion at the same position on the flat region of the flat portion provided in each painting of the same kind.

According to the present invention, the designated position may be designated as an area in contact with the figure outline of the flat area on the flat area of the flat part provided in each painting of the same kind.

According to the present invention, the designated position may be designated as an edge region in contact with the figure outline of the plate region on the plate region of the plate portion provided in each painting of the same kind.

According to the present invention, the capacitive touch authentication system may be implemented in software in a device having the capacitive touch screen or in a server that communicates with a device having the capacitive touch screen through a communication network. .

In the capacitive touch authentication system according to the present invention, in the capacitive touch authentication system in which a coating having a plurality of capacitive touch parts is touched, the capacitive touch authentication system interworks with (n≥4) divided regions (n). Of (n + 1) touch points touched through a painting having one touch portion at each of the calculated positions on -1) divided regions and two touch portions at the designated position and at the designated positions An authentication condition storage for storing touch authentication conditions for authenticating the geometric touch position relationship, a touch point confirmation unit for confirming (n + 1) touch point information touched through the capacitive touch screen, and the n divisions A touch point identification unit that reads the (n + 1) pieces of touch point information through the divided area information of an area, and identifies a designated touch point provided at a designated location of the designated area, and the identified designation And a value point and n each touch point between the geometry and the touch position location relation calculating a relation calculating unit, the calculated touch position is related to the touch authentication processing for authenticating by comparing matching a touch position between said touch authentication condition.

According to the present invention, the capacitive touch authentication system may further include a touch point authentication unit that reads the mutual positional relationship between the identified (n + 1) touch points and authenticates whether the touch point is touched by valid painting. Can be.

According to the present invention, when touching a capacitive touch screen of a paint having a plurality of touch parts in a flat area of a designated area, the paint can be freely touched without having to touch the paint in a specific position or in a specific direction on the capacitive touch screen. Even if there is an advantage in authenticating the geometric touch positional relationship formed by each touch point.

According to the present invention, there is an advantage of deriving the maximum number of cases that can be provided with a specified number of touch portions within the limited area of the flat portion provided in the painting.

1 is a diagram illustrating a configuration of a touch authentication system according to an embodiment of the present invention.
Figure 2 illustrates the appearance of the coating is designed and manufactured according to the method of the present invention.
3 illustrates a divided region according to an embodiment of the present invention.
4 illustrates a divided area and a designated area according to an embodiment of the present invention.
5 illustrates a minimum discrimination recognition distance according to an embodiment of the present invention.
6 illustrates a minimum identification distance according to an embodiment of the present invention.
Figure 7 illustrates the maximum possible distance in accordance with the method of the present invention.
Figure 8 illustrates the geometric characteristics of the (n + 1) square according to the embodiment of the present invention.
9 illustrates a distance relationship according to an embodiment of the present invention.
10 illustrates an angular relationship according to an embodiment of the present invention.
11 is a diagram illustrating a process of storing touch authentication conditions according to an embodiment of the present invention.
12 is a diagram illustrating a touch authentication process according to an embodiment of the present invention.
FIG. 13 illustrates an embodiment of a user's wireless terminal corresponding to a device having a capacitive touch screen according to an embodiment of the present invention.
14 is a diagram illustrating an embodiment in which a touch authentication system is implemented in a server on a network according to an embodiment of the present invention.
FIG. 15 illustrates an embodiment in which a touch authentication system is implemented in a server on a network according to another exemplary embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below. For example, the component provided on the server side may be implemented on the device side, or conversely, the component provided on the device 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. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It is only.

1 is a diagram illustrating a configuration of a touch authentication system 100 according to an embodiment of the present invention.

In more detail, FIG. 1 illustrates the case where the paint 200 having the designated number of touch parts 220 made of a conductive material is touched on the capacitive touch screen 1310 of the designated device 1300. Even if the touch is free to touch without having to align the touch at a specific position or a specific direction on the capacitive touch screen 1310, authentication is performed by matching and comparing the geometric touch position relationship formed by each touch point with a touch position relationship of a pre-registered touch authentication condition. The configuration is shown. Those skilled in the art to which the present invention pertains may refer to and / or modify this drawing 1 to implement various methods of the touch authentication system 100 (e.g., some components may be omitted or subdivided) Or combined implementation method), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG.

The painting 200 touched by the capacitive touch screen 1310 of the present invention includes a handle portion 205 formed to be held by a human hand, a predetermined number of touch portions 220 made of a conductive material, and the handle. And a frame unit 210 which connects the unit 205 and the designated number of touch units 220 to fix the designated number of touch units 220 to the flat region 305 having a specified figure. In case of transferring the capacitance of the human body to each touch unit 220, the handle unit 205 and the touch unit 220 are electrically connected to each other via the frame unit 210. To this end, at least one side of the handle part 205 (eg, a part in contact with a human hand) and at least one side of the frame part 210 (eg, the handle part 205 and the touch part 220 are connected to each other). Part) is made of a conductive material or coated (or plated) with a conductive material.

The frame part 210 includes a flat area 305 having a designated figure shape, a flat part 215 to which a predetermined number of touch parts 220 are fixed or formed, and a handle part 205 of the touch part 220. It comprises a connection that is connected to). The plate portion 215 may include a plate region 305 having a shape such as a square, a rectangle, a pentagon, or a T (T> 5) rectangle. Alternatively, the flat plate part 215 may include a flat plate area 305 having a shape such as a circle or an ellipse. The flat plate portion 215 may have any geometric structure as long as it is a figure having a predetermined dividable area and an outline 300 that the at least one touch unit 220 may contact.

The touch unit 220 is a generic term for a component forming one touch point when the paint 200 is touched on the capacitive touch screen 1310 of the designated device 1300. However, a plurality of touch units 220 are provided in the flat plate unit 215 provided in the frame unit 210 of the painting 200, and the present invention provides a plurality of touch units 220 provided in the flat plate unit 215. ) Is a multi-touch geometric touch position relationship of each touch point formed by the multi-touch capacitive touch screen 1310 of the specified device 1300 has a feature that is used as an authentication condition. Accordingly, the touch unit 220 is recognized as one effective touch point in the capacitive touch screen 1310 of the designated device 1300 and at the same time within a limited area on the plate area 305 implemented by the plate unit 215. In a maximum number of cases for the calculated position 410 for effectively distinguishing each touch point, and no error occurs in the geometric touch position relationship of each touch point or the minimum error within the calculated range It must be designed and built to occur.

The touch unit 220 is designed and manufactured to have a contact area calculated to be recognized as one valid touch point when touched by the capacitive touch screen 1310 of the designated device 1300. The calculated contact area includes an area greater than or equal to the area corresponding to the lowest touch sensitivity recognizable based on the capacitance of the human body in the capacitive touch screen 1310 of the designated device 1300. If the touch unit 220 of the painting 200 is designed to touch the capacitive touch screen 1310 of two or more designated devices 1300, the capacitive touch screen 1310 of each designated device 1300. ), The touch area of the touch unit 220 is the larger area (ie, the area corresponding to the lowest touch sensitivity that can be recognized by the capacitive touch screen 1310 of each designated device 1300). (Area corresponding to a smaller minimum touch sensitivity) is preferably calculated as an area. For example, the contact area of the touch unit 220 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, and the like. have. Calculating the contact area of the touch unit 220 based on the area corresponding to the lowest touch sensitivity of the capacitive touch screen 1310 of the designated device 1300, the touch unit 220 is one effective touch This is to calculate the maximum number of cases in which each touch unit 220 is provided at different positions within the limited area of the flat plate area 305 while being recognized as a dot.

The touch unit 220 is manufactured to have a contact surface in the form of a specified figure for implementing the calculated contact area. For example, the contact surface of the touch unit 220 may be manufactured in a square shape of 5 mm * 5 mm to form a contact area of 25 mm 2. Alternatively, the contact surface of the touch unit 220 may be manufactured in a circular shape having a diameter of 6 mm for a contact area larger than 28 mm 2. Alternatively, the contact surface of the touch unit 220 may be manufactured in a square shape of 6 mm * 6 mm for a contact area of 36 mm 2. Alternatively, the contact surface of the touch unit 220 may be manufactured in a circular shape having a diameter of 7 mm for a contact area larger than 38 mm 2.

The touch unit 220 is a flexible conductive material corresponding to at least one of soft, semi-soft, or semi-rigid, so that no error occurs in the geometric touch positional relationship of each touch point or a minimum error occurs within the calculated range. The center portion of the contact surface is manufactured by rounding the structure to protrude convexly according to a certain curvature on the boundary line of the figure shape while maintaining the designated figure shape. When the touch unit 220 manufactured as described above is touched by the capacitive touch screen 1310 of the designated device 1300, the capacitive touch is first started from the center portion that protrudes with a certain curvature from the contact surface of the touch unit 220. When a certain pressure force is applied to the touch unit 220 in this state, the center portion is retracted by the pressure force, and as a result, the entire contact surface of the touch unit 220 is calculated. The capacitive touch screen 1310 is touched while forming an area. The midpoint (= touch point) of the touch surface touched by the touch unit 220 by the touch unit 220 is the error range corresponding to or at least calculated by the central portion of the touch surface formed on the touch unit 220. Corresponds to the central portion of the contact surface within.

The touch unit 220 is formed of a flexible conductive material corresponding to at least one of soft, semi-soft, or semi-rigid, in order not to generate an error in the geometric touch position relationship of each touch point or to further reduce the error within the calculated range. It can be produced by forming an empty space in the. The empty space inside the touch unit 220 may provide a space in which the central portion of the contact surface protruding convexly with a predetermined curvature may be contracted into the touch unit 220 as it is retracted by a force of force. Since the painting 200 is touched by the capacitive touch screen 1310 of the designated device 1300 while being held in the hand of a person, the pressure force applied to the touch unit 220 by the hand of the person is Not only the vertical component of the capacitive touch screen 1310 is present, but also the horizontal component is present. In this case, the empty space inside the touch unit 220 may be formed by the vertical component instead of the contact surface of the touch unit 220 being distorted to either side by the horizontal component even if a horizontal component exists in the pressing force. Induces contraction into the touch unit 220. If the contact surface of the touch unit 220 is distorted to one of the horizontal components by the force of the contact surface, as a result, the center of gravity of the surface touched by the capacitive touch screen 1310 is shifted in the distorted direction so that an error occurs. Will increase. An empty space inside the touch unit 220 prevents or minimizes such an error.

The flat plate portion 215 of the painting 200 has n (n ≧ 4) touch portions 220 of the touch portions 220 designed and manufactured as described above at the calculated position 410, One touch unit 220 is further provided at a designated position 405. As a result, a total of (n + 1) touch units 220 are provided in the flat plate unit 215 of the painting 200. As for the flat plate part 215 provided in each coating 200 of the same kind, the flat plate area | region 305 which has the same plate area is formed, and the flat plate area 305 of the flat plate part 215 provided in each painting 200 of the same kind is provided. ) Is formed in the same figure form to form the same plate area, and as a result, the plate region 305 of the plate portion 215 provided in each painting 200 of the same type has the same figure outline 300. Therefore, even if the paint 200 of the same type, even if the shape of the handle portion 205 is different, the same number of touch portions 220 are provided in the flat plate portion 215 having the same flat area of the same figure form.

The flat plate area 305 of the flat plate part 215 is divided into n divided areas 310 during the design process so as to include the n touch parts 220 at the calculated position 410, and each divided area. One touch unit 220 is provided at each of the calculated positions 410 on the 310, and one designated touch at the designated position 405 on any one of the n divided regions 310. The unit 220 is further provided. The designated position 405 for the designated touch unit 220 includes one designated touch unit 220 at the same position on the plate region 305 of the plate unit 215 provided in each painting 200 of the same kind. It is a fixed position designated by the design, and the n calculated positions 410 for the n touch units 220 are the flat region 305 of the flat portion 215 provided in each painting 200 of the same kind. It is a changeable position calculated by design to provide one or more touch units 220 of the n touch units 220 in different positions for each flat plate unit 215.

According to the method of the present invention, the designated position 405 is a figure outline of the flat plate region 305 corresponding to the flat plate portion 215 of the painting 200 in which (n + 1) touch portions 220 are provided. It may be designated as an area in contact with 300. Preferably, the designated position 405 is preferably assigned to an edge region in contact with the figure outline 300 of the flat region 305. Meanwhile, according to another exemplary embodiment of the present invention, the designated position 405 may be designated as a central portion of the flat plate portion 215. That is, the designated position 405 is a position in which one designated touch unit 220 is always designated at the same position and provided with respect to the plate region 305 of the plate portion 215 provided in the painting 200 of the same type. Include.

According to the exemplary embodiment of the present invention, the calculated position 410 is selected from n divided regions 310 in which the flat plate regions 305 of the flat plate portions 215 provided in the respective paints 200 of the same type are divided into n pieces. The touch panel 220 included in the one or more divided regions 310 may include a changeable position calculated by design to provide the touch unit 220 in different positions for each flat plate unit 215.

The n divided areas 310 dividing the flat plate area 305 include areas logically set to calculate a position where the n touch units 220 are to be provided on the flat plate area 305. Therefore, the n divided regions 310 may not be implemented in the actually manufactured flat plate portion 215. In the process of manufacturing the flat plate portion 215, the n divided regions 310 may be formed. It may be displayed or divided into the displayed areas.

The division type and division scheme for the division area 310 may be variously applied. For example, when the shape of the flat plate area 305 is a quadrangular shape, the divided area 310 is a grid shape of four rectangular areas divided into six, a grid shape divided into six, and a rectangular flat area 305 divided into four. 6 rectangular areas, 8 rectangular areas in the form of a grid divided into eight, and the like. Alternatively, the divided area 310 may include four sectors divided into 90 ° angles from the center of the flat plate area 305, six sectors divided into 60 ° angles, and eight sectors divided into 45 ° angles. And the like.

Each of the divided regions 310 is provided with one touch unit 220 at a position 410 previously calculated by design. The position 410 calculated by design may include a minimum discrimination recognition distance 500 set in design such that n touch parts 220 provided in the same flat plate 215 provided in the same paint 200 are provided apart from each other. , The touch provided in the same divided region 310 with respect to the divided regions 310 in which the flat regions 305 of the different flat portions 215 provided in the respective paints 200 are divided according to the same rule. The parts 220 are positioned to satisfy the minimum identification distance 600 set by design such that the parts 220 are provided apart from each other.

The minimum discrimination recognition distance 500 may be performed by the device 1300 (or the capacitive touch screen 1310) when the touch screen 1310 of the specified device 1300 is multi-touched by two or more touch points. It includes a minimum distance that can be recognized by distinguishing two or more touch points of the multi-touch to different touch points. For example, if the distance between two touch points that are multi-touched within the designated device 1300 (or capacitive touch screen 1310) is within 6 mm, the two touch points are recognized as one touch point, In this case, if two touch points are distinguished and recognized by different touch points, the minimum discrimination recognition distance 500 preferably includes 7 mm. On the other hand, if there is more than one designation device 1300 (or capacitive touch screen 1310) corresponding to the object to touch the painting 200, the minimum distinguished recognition distance 500 is two or more designation devices 1300 ( Alternatively, the capacitive touch screen 1310 may be set to a larger separation distance among the minimum distances that can be recognized to distinguish two touch points that are multi-touched.

According to the exemplary embodiment of the present invention, the minimum discrimination recognition distance 500 is a value that correlates with the contact area of the touch unit 220. That is, the minimum discrimination recognition distance 500 may be a value set in the designated device 1300 (or the capacitive touch screen 1310), but is an experimentally obtained value. For example, even if the same device 1300 (or capacitive touch screen 1310), the contact area of the touch unit 220 is 25 mm 2 (eg, 5 mm * 5 mm square shape Minimum discrimination recognition distance 500 in the case of a contact surface) and minimum discrimination recognition in the case where the contact area of the touch unit 220 is larger than 38 mm 2 (for example, a contact surface formed in a circular shape having a diameter of 7 mm). The distance 500 can vary. Therefore, the minimum discrimination recognition distance 500 may be set based on experimental data of the plurality of devices 1300 (or the capacitive touch screen 1310) based on the contact area of the touch unit 220. . In this case, the minimum discrimination recognition distance 500 may be set as a distance between a center portion and a center portion of the contact surface of the touch unit 220 or an outline of a figure for implementing the contact surface of the touch unit 220. It can be set to the distance between the outlines.

According to the present invention, the n touch units 220 provided one by one in the n divided regions 310 are provided at a certain position within each divided region 310 (except in the divided region 310). The location where the unit 220 is to be provided may be calculated based on the minimum identification distance 600, but is provided at a distance apart from the minimum distinguished recognition distance 500 or more within the flat area 305.

The minimum identification distance 600 is different when the two or more touch points are different from each other when the user touches a certain area on the capacitive touch screen 1310 of the designated device 1300 more than two times and moves it little by little. It contains the minimum distance that can be identified by the touch point. For example, the first touch point is touched at a coordinate value (x1, y1) corresponding to an area on the capacitive touch screen 1310 of the designated device 1300, and the second touch point is at a coordinate value (x2, y2). When the touch point is touched and the third touch point is touched at the coordinate values (x3, y3), the device 1300 (or the capacitive touch screen 1310) causes the coordinate values (x1, y1) and the coordinate value ( If the touch points of x2 and y2 are recognized as the same touch points, while the touch points of coordinate values (x1 and y1) and the coordinate values (x3 and y3) are recognized as different touch points, the coordinate values (x1 and y1) ) And the distance between the coordinate values (x2, y2) corresponds to the separation distance smaller than the minimum identification distance 600, and the distance between the coordinate values (x1, y1) and the coordinate values (x3, y3) is the minimum identification distance (600). Equivalent to the separation distance greater than or equal to

According to the exemplary embodiment of the present invention, the minimum identification distance 600 may be a value set in the designated device 1300 (or the capacitive touch screen 1310), but is an experimentally obtained value. For example, the minimum identification distance 600 is a repeated touch while moving the designed and manufactured touch unit 220 by 0.1 mm in an area on the capacitive touch screen 1310 of one or more designated devices 1300. It may be determined based on the information about the touch point obtained by the. On the other hand, if there is more than one designation device 1300 (or capacitive touch screen 1310) corresponding to the object to touch the painting 200, the minimum identification distance 600 is more than one designation device 1300 (or The capacitive touch screen 1310 may be set to a larger separation distance among the minimum separation distances for identifying two or more touch points touched more than once in any one region.

According to the present invention, the touch unit 220 provided in one or more divided regions 310 of the n touch units 220 provided one by one in the n divided regions 310 may be provided in another painting 200. Among the divided areas 310 in which the flat area 305 of the other flat part 215 is divided by the same rule, the touch part 220 provided in the same divided area 310 is spaced apart by the minimum identification distance 600 or more. do. As a result, the n touch units 220 provided in the flat plate portions 215 of the different paint 200 are provided with at least one touch unit 220 at different positions, and the flat plate portions 215 of each paint 200 are provided. The geometric touch positional relationship between the n touch units 220 provided in FIG. 2) has an identification identified by different geometric touch positional relationships within a number range of the calculated cases.

One of the designated areas 400 of the n divided areas 310 obtained by dividing the flat area 305 of the flat part 215 may further include one designated touch part 220. Preferably, the designated touch unit 220 is provided in an area in contact with the figure outline 300 that implements the shape of the flat area 305, and as a result, two touch units 220 are provided in the designated area 400. ) Is provided.

The designated touch unit 220 is provided at a designated position 405 (ie, an area in contact with the figure outline 300 of the flat area 305) irrespective of the minimum identification distance 600, and includes n touch units ( It is preferable to be provided at least 500 apart from the minimum discrimination recognition distance 500.

The (n + 1) touch units 220 provided in the flat plate unit 215 designed and manufactured as described above are n touches provided on the same flat plate based on the midpoint of the one designated touch unit 220. The geometric touch positional relationship including the distance relationship 900 and the angular relationship 1000 with the midpoints of the part 220 will have unique characteristics. As described above, a unique serial code may be assigned to the flat plate unit 215 designed and manufactured to have uniqueness in the geometric touch positional relationship between the designated one touch unit 220 and the n touch units 220.

The paint 200 of the present invention is produced by connecting the frame portion 210 having the flat plate portion 215 uniquely designed and manufactured as described above with the handle portion 205, and the handle portion 205 and the flat plate. The part 215 is connected through a connection part provided in the frame part 210.

The touch authentication system 100 of the present invention is installed in the designated device 1300 having the capacitive touch screen 1310 to be touched by the paint 200 having the flat plate portion 215 designed and manufactured as described above. It may be implemented in software or through a server 1400 on a network that communicates directly or indirectly with the designated device 1300.

Referring to FIG. 1, the touch authentication system 100 may include one at a calculated position 410 on (n−1) divided areas 310 of n (n ≧ 4) divided areas 310. (N +) touched through a painting 200 having a touch unit 220 and having a calculated position 410 on a given region 400 and two touch units 220 at a designated position 405. And an authentication condition storage unit 105 for storing touch authentication conditions for authenticating the geometric touch positional relationship of 1) touch points.

The authentication condition storage unit 105 is a designated touch point corresponding to the midpoint of the one designated touch unit 220 provided in the plate unit 215 of the painting 200 and the plate portion 215 of the painting 200. The geometric relationship between the touch point corresponding to the midpoints of the n touch units 220 and the n touch points (900) and the geometric touch position design corresponding to the angular relationship (1000) is determined. Stores touch authentication conditions including geometric design touch position relationships for n touch points.

According to the exemplary embodiment of the present invention, the geometric touch positional relationship of the design is to design or manufacture the flat plate unit 215 having the (n + 1) touch units 220 in the form of coordinate values on a predetermined coordinate system. A coordinate relationship including the coordinate value of the designated touch point determined in the process and the relative coordinate values for the n touch points, and / or between the designated touch point and each of the n touch points based on the coordinate values in the designated coordinate system. The distance relationship 900 and the angular relationship 1000 formed by n touch points based on the designated touch point on the designated coordinate system are included. Here, the designated coordinate system is a coordinate system that serves as a reference for analyzing the geometric touch positional relationship between the designated touch point and the n touch points, and preferably comprises a real-world metrological unit (for example, μm, mm, cm) or a designated logical unit. It is preferable to include a coordinate system. However, it is possible to include a device-side coordinate system depending on the implementation method.

When the touch authentication system 100 is implemented on the server 1400 according to the first embodiment of the present invention, the authentication condition storage unit 105 includes the (n + 1) touch units 220. In the process of designing or manufacturing a flat plate portion 215, the calculated position 410 and the designated position 405 in the design to have (n + 1) touch portions 220 in the flat plate portion 215. The corresponding geometric touch position relationship may be checked or received from a designated terminal, and the touch authentication condition including the geometric touch position relationship in the design may be stored in the designated storage medium 110.

According to the embodiment of the present invention, the authentication condition storage unit 105 checks the design error information corresponding to the design tolerance range for the geometric touch position relationship on the design, and the geometric touch position relationship on the design The touch authentication condition including the error information on the design may be stored in the designated storage medium 110. If the actual measurement position relationship is not confirmed, the touch authentication condition can be used for authentication.

According to the embodiment of the present invention, the authentication condition storage unit 105 checks the serial code given to the flat panel unit 215 having the (n + 1) touch units 220, and the touch authentication condition. And serial codes may be mapped and stored in the designated storage medium 110.

According to the exemplary embodiment of the present invention, the authentication condition storage unit 105 is based on the geometric characteristics of the (n + 1) squares formed by connecting the (n + 1) touch points for each of the seals 200. The touch authentication conditions may be classified and grouped by two or more geometric characteristics, and the grouped touch authentication conditions may be classified and stored for each group. Preferably, the storage medium 110 may store group identification information for identifying a group to which the touch authentication condition belongs.

The authentication condition storage unit 105 is repeatedly touched more than a specified number of times by the capacitive touch panel provided in the device 1300 which is designated to register the geometric touch positional relationship with respect to the touch unit 220 of the painting 200. After confirming the +1) touch point information, matching and repeating the (n + 1) touch point information of the repeated touch and the geometric touch position relationship in the design, and compares within the specified tolerance (eg, Gaussian) In the 95% coincidence range of the probability distribution, it is determined whether (n + 1) touch points are touched. If the repeatedly touched (n + 1) pieces of touch point information match or approximate the geometric touch positional relationship of the design within a specified tolerance, the authentication condition storage unit 105 is configured to repeat the repeated touches (n After calculating actual measurement error information based on +1) touch point information, generating an authentication touch position relationship including the geometric touch position relationship in the design and the calculated actual measurement error information, and then generating the generated touch position. The touch authentication condition including the relationship may be stored. Meanwhile, when the (n + 1) touch point information repeatedly touched and the geometric touch positional relationship in the design are within a specified tolerance, the actual measurement error is included in the design error, and thus the authentication condition storage unit 105 may store the touch authentication condition to be used for authentication, including the geometric touch positional relationship on the design and the error information on the design.

According to the embodiment of the present invention, the authentication condition storage unit 105 receives a serial code assigned to the flat plate unit 215 of the target coating 200 from the device 1300 designated for registration, and receives the received Use the serial code to check the geometric touch position relationship for the design that will yield the error information. The authentication condition storage unit 105 checks (n + 1) touch point information repeatedly touched more than a specified number of times by the capacitive touch panel of the registration device 1300 through the touch point confirmation unit 115 below. In addition, in connection with the touch point authenticator 120 described below, it is confirmed whether the mutual positional relationship of the identified touch points is valid, and in conjunction with the touch point identification unit 125 and the position relationship calculator 130 described below. Check the real measurement position relationship for the repeatedly touched (n + 1) touch point, the touch identified through the distance relationship 900 and the angle relationship 1000 and the serial code included in the real measurement position relationship The actual measurement position relationship exists within a specified tolerance range based on the geometric touch position relationship of the design by comparing the distance relationship 900 and the angular relationship 1000 included in the design geometric touch position relationship corresponding to the authentication condition. doing Check. If the actual measurement positional relationship is out of the specified tolerance range, the manufactured painting 200 (or flat plate portion 215 having (n + 1) touch units 220) is the specified tolerance tolerance range. The error correction or disassembly and remanufacturing procedure may be performed so that the authentication condition storage unit 105 may have the manufactured painting 200 (or (n + 1) touch units 220). ), Information necessary for correcting or remanufacturing an error of the flat plate unit 215 may be output and may indicate a task accompanying the same. Meanwhile, if (n + 1) pieces of touch point information repeatedly touched by the capacitive touch screen 1310 of the registration device 1300 exist within a specified error tolerance range, the authentication condition storage unit 105 may repeat the touch. Confirmation of error information based on the (n + 1) touch point information (for example, actual measurement error information or design error information), and an authentication touch including the geometric touch positional relationship of the design and the identified error information After generating the positional relationship, a touch authentication condition including the generated touch positional relationship may be stored.

When the touch authentication system 100 is implemented in the designated device 1300 having the capacitive touch screen 1310 according to the second embodiment of the present invention, the authentication condition storage unit 105 may be configured as the designated device ( A touch authentication condition to be used for authentication in the form of an operation code on the program 1330 provided to the device 1300, and / or a touch authentication condition to be used for authentication in the form of a file referred to by the program 1330. 1300 may be stored in the memory unit 1328.

The touch authentication condition to be used for authentication in the second embodiment preferably comprises a touch position relationship on the design and specified error information (for example, real measurement error information or design error information). The touch authentication condition to be used for the authentication is in the form of an operation code on the program 1330 included in the device 1300 and / or in the form of a file referred to by the program 1330 to the memory unit 1328 of the device 1300. Can be stored. If the touch authentication condition to be used for the authentication is stored in the memory unit 1328 of the device 1300 in the form of a file, the touch authentication condition to be used for the authentication is performed on the server 1400 according to the first embodiment. The generated touch authentication condition may be stored in the memory unit 1328 of the device 1300 in a form distributed to the device 1300 having the program 1330 through a communication network.

When the touch authentication system 100 is implemented on the server 1400 according to the first embodiment of the present invention, the authentication condition storage unit 105 may include each painting including the touch location relationship for authentication and a serial code. The touch authentication condition for each 200 may be stored in the designated storage medium 110. On the other hand, when the manufactured painting 200 is supplied to the use of a specific location (or region) (for example, an affiliated store that provides a designated service using the painting 200), the authentication condition storage unit 105 After checking the location area information (eg, address information, area information, etc.) of the destination of the stamp 200, the map 200 may be mapped to the touch authentication condition and stored in the storage medium 110.

When the touch authentication system 100 is implemented in the designated device 1300 having the capacitive touch screen 1310 according to the second embodiment of the present invention, the authentication condition storage unit 105 may be configured as the designated device ( Store at least one relationship of the touch location for authentication to be used in the program 1330 in the form of an operation code on the program 1330 provided to the 1300 or in the form of a file referred to by the program 1330. At least one authentication touch position relationship to be used in the operation may be stored in the memory unit 1328 of the device 1300.

Referring to FIG. 1, the touch authentication system 100 includes a touch point confirming unit 115 that checks (n + 1) touch point information touched through a capacitive touch screen 1310 of a designated device 1300. ).

When the touch authentication system 100 is implemented on the server 1400 according to the first embodiment of the present invention, the touch point confirming unit 115 may include a capacitive touch screen 1310 of the designated device 1300. Touched (n + 1) touch units 220 provided on the flat plate 215 of the painting 200 receives the recognized (n + 1) touch point information. The server 1400 may receive (n + 1) pieces of touch point information from the designated device 1300 or via the designated relay server 1500.

The (n + 1) touch point information includes a device side coordinate system (for example, a pixel coordinate system corresponding to the touch screen 1310) set in the capacitive touch screen 1310 of the device 1300 to which the painting 200 is touched. It includes the coordinate value information for the (n + 1) touch point recognized on the basis of the reference, the touch point confirmation unit 115 with the (n + 1) touch point information with the device side coordinate system Coordinate system identification information can be received.

According to the exemplary embodiment of the present invention, the touch point confirming unit 115 is a device in which the (n + 1) pieces of touch point information and the seal 200 are touched from the device 1300 to which the seal 200 is touched. It is preferable to receive the device information (for example, information uniquely identifying the device 1300 to which the painting 200 is touched or identifying a model or a manufacturer of the device 1300) for the device 1300, in which case the device Information may be used as the coordinate system identification information. To this end, information is provided on the server 1400 to identify a device-side coordinate system using device information.

According to the exemplary embodiment of the present invention, the touch point confirming unit 115 receives the (n + 1) touch point information from the device 1300 to which the seal 200 is touched, while the seal 200 touches the touch point. Location information (eg, information obtained through the GPS module provided in the device 1300, information for identifying the location of the base station connected to the device 1300, etc.) may be received.

When the (n + 1) touch point information and the device side coordinate system are confirmed, the touch point confirming unit 115 displays the (n + 1) touch point information including coordinate values on the device side coordinate system. Coordinates can be converted into coordinate values on the designated coordinate system corresponding to. If the device 1300 that recognizes the (n + 1) touch points is converted into coordinates and transmits the (n + 1) touch point information to the designated coordinate system, or the following touch point authentication unit 120 or When the touch point identification unit 125 or the position relationship calculation unit 130 performs the coordinate conversion procedure, the touch point confirmation unit 115 may not perform the coordinate conversion procedure.

When the touch authentication system 100 is implemented in the designated device 1300 having the capacitive touch screen 1310 according to the second embodiment of the present invention, the touch point confirming unit 115 is the device 1300. Touched (n + 1) touch units 220 provided on the flat plate portion 215 of the painting 200 on the capacitive touch screen 1310 to display recognized (n + 1) touch point information. Check it. If the device-side coordinate system that recognizes the (n + 1) touch points and the designated coordinate system of the touch authentication condition are different, the touch point confirming unit 115 displays (n + 1) touch point information in the touch authentication condition. A procedure of transforming a coordinate into a coordinate value on a designated coordinate system corresponding to may be performed. On the other hand, when the touch authentication condition stored in the device 1300 is set and stored according to the device side coordinate system, the coordinate transformation for (n + 1) touch point information may be omitted as described below.

Referring to FIG. 1, the touch authentication system 100 reads a mutual positional relationship between the identified (n + 1) touch points and authenticates whether the touch point is a valid painting point 200. 120).

The touch point authenticator 120 reads (n + 1) pieces of touch point information confirmed through the touch point confirming unit 115 to design and manufacture a valid stamp 200 according to a design method according to the present invention. It is authenticated whether the touch point is touched by the (n + 1) touch units 220 provided in the flat plate unit 215.

According to the exemplary embodiment of the present invention, the touch point authenticator 120 calculates the distance between the n touch points or the distance between the (n + 1) touch points, and the stamp between the calculated touch points is effective ( By reading if greater than or equal to the minimum distinguished recognition distance 500 set for 200, it is verified that the (n + 1) touch points are the touch points of a valid stamp 200 designed and manufactured according to the design scheme according to the present invention. can do. The distance comparison is compared based on the coordinate distance on the same coordinate system, and coordinate transformation may be performed for this purpose. If any one of the distances between the touch points is smaller than the set minimum distinguished recognition distance 500 within a specified tolerance range, it may be determined that the (n + 1) touch points are not the touch points of the valid stamp 200. have.

According to the exemplary embodiment of the present invention, the touch point authenticator 120 includes (n + 1) touch units 220 provided in each divided area 310 on the flat area 305. The maximum spaced apart distance 700 that can be provided at a maximum distance from the phase is set and maintained (or referred to). In this case, the touch point authenticator 120 calculates the distance between (n + 1) touch points and reads whether the calculated distance between the touch points is less than or equal to the set maximum spaceable distance 700. It is possible to authenticate whether (n + 1) touch points are the touch points of a valid seal 200 designed and manufactured according to the design scheme according to the present invention. The distance comparison is compared based on the coordinate distance on the same coordinate system, and coordinate transformation may be performed for this purpose. If any one of the distances between the touch points is greater than the set maximum possible distance 700 within a specified tolerance range, it may be determined that the (n + 1) touch points are not the touch points of the valid painting 200. have.

According to the exemplary embodiment of the present invention, the touch point authenticator 120 sets and maintains (n + 1) square structure conditions formed by line segments connecting (n + 1) touch points. Here, the (n + 1) square structure condition is (n-1) divided regions 310 of the n divided regions 310 obtained by dividing the flat region 305 of the flat portion 215 of the effective coating 200. ) Is provided with one touch unit 220 having a designated contact area, and one of the designated regions 400 is provided with two touch units 220 including the designated touch unit 220. 1) includes one or more conditions for reading the geometrical characteristics of the square. For example, the (n + 1) square structure condition may include a method of dividing a contact area size, a minimum discrimination recognition distance 500, a minimum identification distance 600, and a flat area 305 of the touch unit 220. Conditions for geometric properties for (n + 1) triangles that can be formed based on margin areas, etc., that are not used on the plate region 305, and / or for non-formable geometric properties. When the (n + 1) square structure condition is set, the touch point authenticator 120 connects the (n + 1) touch points to form a (n + 1) square, and the set (n + 1) By reading the geometric characteristics of the formed (n + 1) rectangles through the rectangular structural conditions, the (n + 1) touch points are the touch points of the effective seal 200 designed and manufactured according to the design scheme according to the present invention. Can be authenticated.

When the (n + 1) touch point information is coordinate-converted into the designated coordinate system, the touch point authentication unit 120 uses the value set as the information on the designated coordinate system to intersect each of the (n + 1) touch points. It is desirable to read the mutual positional relationship. If the (n + 1) touch point information is not coordinate-converted to the designated coordinate system, the touch point authentication unit 120 coordinates the (n + 1) touch point information to the designated coordinate system and then The mutual positional relationship can be read. Meanwhile, according to another exemplary embodiment of the present invention, if the information set for reading the (n + 1) pieces of touch point information is set as information on each device side coordinate system, the touch point authenticator 120 may perform the coordinate conversion without ( The mutual positional relationship between n + 1) touch points can be read.

Referring to FIG. 1, the touch authentication system 100 reads the (n + 1) touch point information through the partition area 310 information on the n partition areas 310 to read the designated area ( A touch point identifying unit 125 for identifying a designated touch point provided at the designated position 405 of 400, and a position relationship calculating unit for calculating a geometric touch position relationship between the identified designated touch points and the n touch points. And a touch authentication processor 135 matching and authenticating the calculated geometric touch positional relationship between the calculated designated touch point and each of the n touch points and the touch positional relationship of the touch authentication condition.

The touch point identifying unit 125 divides the flat region 305 of the flat portion 215 of the effective paint 200 into n divided regions 310 and corresponds to the coordinate region of the divided region 310. (310) information is set and maintained, and (n + 1) touch point information confirmed through the touch point confirming unit 115 or (n + 1) authenticated through the touch point authenticating unit 120. Touch point information is matched with the partition area information. If the divided area 310 information is set as coordinate area information on the designated coordinate system, the touch point identification unit 125 may apply (n + 1) pieces of touch point information coordinate-converted into the specified coordinate system. And the (n + 1) touch point information is coordinate-converted to the designated coordinate system through the touch point confirming unit 115 or the touch point authenticating unit 120 or the touch. The point identifying unit 125 may convert the coordinates into the designated coordinate system. If the divided area 310 information is set as coordinate area information on each device-side coordinate system, the touch point identification unit 125 converts the (n + 1) pieces of touch point information without coordinate transformation into the divided area 310. ) Can be matched to information.

According to the first designated touch point identification method of the present invention, the touch point identification unit 125 matches the (n + 1) pieces of information to the divided area 310 and the (n + 1) pieces of touch point information. After designating any one of three touch points as a virtual designated touch point, matching the virtual designated touch point and the divided region 310 information, and coordinate-rotating n touch points based on the virtual designated touch point. By performing the process at least once, two touch points exist on the designated area 400 where the virtual designated touch points are located among the n divided areas 310 and each of the remaining (n-1) divided areas 310. It is possible to check whether one touch point exists. If two touch points exist in the designated area 400 in which the virtual designated touch points are located and one touch point exists in the remaining (n-1) divided areas 310, the virtual designated touch points are in accordance with the present invention. It can be identified by a designated touch point provided at the designed designated position.

According to the exemplary embodiment of the present invention, the touch point identifying unit 125 may shorten the process of matching the partition area 310 information with the (n + 1) touch point information to reduce the (n + 1) touches. Based on the geometric characteristics of the (n + 1) squares formed by the points, a predicted touch point having a high probability of being a designated touch point among the (n + 1) touch points is generated, and a virtual designation is given first from the predicted touch point. The matching process may be performed by selecting a touch point. For example, the touch point identifying unit 125 virtually touches touch points on both sides of the vertex when a vertex larger than 180 ° exists among the corners of the (n + 1) polygon. Can be predicted by point.

According to the second designated touch point identification method of the present invention, the touch point identification unit 125 matches the virtual origin in the design with the divided area 310 information and selects one of the (n + 1) touch points. After matching to the designated touch point position of the virtual origin reference point, the process of coordinate rotation of (n + 1) touch points based on the virtual origin is performed at least once, so that the designated regions of the n divided regions 310 are provided. It may be determined whether two touch points exist in 400 and one touch point exists in the remaining (n-1) divided regions 310. If two touch points exist in the designated area 400 and one touch point exists in the remaining (n-1) divided regions 310, the virtual designated touch points are provided at the designated positions designed according to the present invention. It can be identified as a designated touch point.

When a designated touch point is identified among the (n + 1) touch points, the position relationship calculator 130 may determine a distance between the identified designated touch point and each of the n touch points provided in the n divided regions 310. Calculate a geometric touch position relationship between the designated touch point and each of the n touch points, including an angular relationship 1000 formed by the n touch points based on the relationship 900 and the identified designated touch points .

The distance relationship 900 includes coordinate distances on a particular coordinate system. The coordinate distance includes a relative coordinate distance calculated through coordinate values based on a specific coordinate system, and may be expressed as a vector value further including a specific direction on the specific coordinate system according to an embodiment.

The angular relationship 1000 includes coordinate angles on a particular coordinate system. The coordinate angle includes an angle on a coordinate system formed by two touch points among n touch points with respect to the designated touch point, or between the specified touch point and each n touch points based on a specific reference line on the specific coordinate system. It may include an angle formed by the connected line segments.

According to an embodiment of the present invention, the specific coordinate system may be a designated coordinate system corresponding to the positional relationship of the touch position relationship of the touch authentication condition, or may be a device-side coordinate system. If the coordinate system corresponding to the calculated distance relationship 900 of the touch position relationship and the angle relationship 1000 and the coordinate system corresponding to the position relationship of the touch authentication condition are different from each other, the position relationship calculator 130 may be configured as the one side. A procedure of transforming a coordinate system of to another coordinate system may be performed.

According to the exemplary embodiment of the present invention, the position relationship calculator 130 may calculate a geometric touch position relationship between the designated touch point and each of the n touch points based on a coordinate value on a designated coordinate system. The (n + 1) pieces of touch point information may be coordinate-converted into coordinate values on the designated coordinate system or coordinate-converted by the positional relationship calculator 130. If the touch position relationship of the touch authentication condition is provided for each device side coordinate system, the coordinate transformation may be omitted, and the touch position relationship may be calculated based on the coordinate value on each device side coordinate system.

When the geometric touch positional relationship between the designated touch point and each of the n touch points is calculated, the touch authentication processor 135 determines the touch position relationship of the touch authentication condition stored by the authentication condition storage unit 105 and the calculated designation. The geometric touch positional relationship between the touch points and the n touch points is matched for each touch point, and then the distance and the angle are compared to determine whether they match or are within a specified error range. If the calculated geometric touch positional relationship and the touch positional relationship of the touch authentication condition correspond to each matched touch point or are close to each other within a specified error range, the touch point confirming unit 115 confirms (n + 1). ) Touch point information is authenticated by a touch by the painting 200 having (n + 1) touch units 220 corresponding to the matching or proximate touch authentication condition.

According to the first embodiment of the present invention, when the touch authentication conditions stored in the storage medium 110 on the server 1400 are grouped and stored according to (n + 1) polygonal geometric characteristics, the touch authentication processor 135 may The geometric characteristic of the (n + 1) rectangle corresponding to the calculated touch point and the geometric touch position relationship between the n touch points is checked, and the geometric characteristic is matched among the touch authentication conditions stored in the storage medium 110. By comparing the calculated touch position relationship of the touch authentication condition belonging to the group and the calculated touch position relationship between the calculated designated touch point and each of the n touch points within a predetermined error range, The time required for matching comparison authentication of the touch position relationship of the touch authentication condition for each painting 200 stored in the storage medium 110 may be shortened.

According to the first embodiment of the present invention, the touch authentication condition stored in the storage medium 110 on the server 1400 and location area information of the destination of the painting 200 are mapped and stored, and the (n) is transferred to the server 1400. When the +1) touch point information is received and the location information of the designated device 1300 that recognizes the (n + 1) touch points is received, the touch authentication processor 135 is connected to the storage medium 110. An error range that is first assigned to a touch position relationship of a touch authentication condition mapped to position area information matching the received position information among the stored touch authentication conditions and a geometric touch position relationship between the calculated designated touch points and each of n touch points. By comparing whether there is a match or proximity within the time, the time required for comparing and authenticating the calculated touch position relationship and the touch position relationship of the touch authentication conditions for each painting 200 stored in the storage medium 110 It can be shortened.

When the touch authentication system 100 is implemented on the server 1400 according to the first embodiment of the present invention, the touch authentication processor 135 authenticates the (n + 1) pieces of touch point information. For example, an authentication error result or authentication success result) is generated, and the generated touch authentication result is transmitted in the reverse direction of the path where the (n + 1) touch point information is received. The touch authentication result is output through the designated device 1300 or used as an authentication value for providing a designated service to the designated device 1300.

When the touch authentication system 100 is implemented in the designated device 1300 having the capacitive touch screen 1310 according to the second embodiment of the present invention, the touch authentication processing unit 135 is the (n + 1). Generates a result of authenticating) touch point information, outputs the generated touch authentication result, or starts a specified service based on the touch authentication result.

Figure 2 illustrates the appearance of the painting 200 is designed and manufactured according to the method of the present invention.

In more detail, Figure 2 shows a handle portion 205 formed to be held by a human hand, a specified number of touch portions 220 made of a conductive material, and the handle portion 205 and a specified number of touch portions 220. ) And a frame portion 210 for fixing the designated number of touch units 220 to the flat region 305 having a specified figure, and the frame portion 210 has a flat portion 305 having a figure shape. ) And an appearance of the painting 200 having a flat plate portion 215 to which a specified number of touch portions 220 are fixed or formed, the person having ordinary skill in the art to which the present invention pertains. By referring to and / or modifying the drawing 2, various embodiments of the appearance of the painting 200 may be inferred, but the present invention includes all the inferred implementation methods, and is illustrated in the drawing 2 It is not limited only to the appearance.

3 illustrates a divided region 310 according to an embodiment of the present invention.

In more detail, FIG. 3 is an exemplary diagram illustrating an exemplary method of dividing the flat plate area 305 of the flat plate part 215 provided in the painting 200 into n (n = 4) among information used for touch authentication. However, one of ordinary skill in the art to which the present invention pertains may refer to and / or modify this drawing 3 to infer various implementation methods for the partition 310, but the present invention is inferred from the above. It is made including all implementation methods, the technical features are not limited only to the implementation method shown in FIG.

3A illustrates a planar region 305 formed on a bottom surface of the flat portion 215 of the painting 200. The planar region 305 illustrated in FIG. It is formed in a fine shape with a predetermined curvature, and is provided with a figure outline 300 to form a predetermined area while maintaining the shape of the figure.

The example of FIG. 3B illustrates the dividing of the flat plate region 305 illustrated in FIG. 3A into four divided regions 310. Since the planar region 305 of FIG. 3A basically has a quadrangular shape, the example of FIG. 3B divides the planar region 305 into four divided regions 310. If the shape of the flat plate area 305 is a pentagonal shape, the divided area 310 may be divided into five divided areas 310 including five triangular areas with respect to the center of the center. Alternatively, when the shape of the flat plate area 305 is a hexagonal shape, the divided area 310 may be divided into six divided areas 310 including six triangular areas. Meanwhile, if the shape of the flat plate area 305 is a rectangular shape, the divided area 310 may be divided into six divided areas 310 including six rectangular areas divided into two short sides and three long sides. Can be. Each of the divided regions 310 preferably has the same area. However, the present invention is not limited thereto, and each divided area 310 may have a different area depending on the implementation method.

The example of FIG. 3C illustrates an embodiment of dividing the flat plate region 305 illustrated in FIG. 3A into four divided regions 310 with a certain margin. In this case, the space between the divided regions 310 may always be separated by the minimum discrimination recognition distance 500 or more even where the touch units 220 provided in each divided region 310 are provided at any position of each divided region 310. It is desirable to include a margin of the minimum distinguished recognition distance 500 so specified.

4 illustrates a divided region 310 and a designated region 400 according to an embodiment of the present invention.

In more detail, FIG. 4 shows the planar region 305 of FIG. 3a divided into four as shown in FIG. 3b. One touch unit 220 having one touch unit 220 and one designated touch unit 220 at a designated position 405 on one designated region 400, and one touch unit at one calculated position 410. As an exemplary diagram of an implementation method having the present invention, a person having ordinary skill in the art may refer to and / or modify the drawing 4 to provide various implementation methods for the divided area 310. It may be inferred, but the present invention includes all the implementation methods inferred, and the technical features are not limited to the implementation method shown in FIG.

Examples of FIGS. 4A and 4B use a lower left region of four divided regions 310 in which the flat plate region 305 illustrated in FIG. 3A is divided into four as shown in FIG. 3B, and the designated region 400. An embodiment using the remaining three regions as the divided region 310 is illustrated.

According to the example of FIG. 4A, the lower left designating area 400 of the four divided areas 310 is set to a position 405 in which the lower left corner portion in contact with the figure outline 300 of the flat area 305 is designated. The calculated position 410 is set in the remaining region on the designated region 400 except for the region in which the designated position 405 is set. In addition, one calculated position 410 is set in each of the three divided regions 310 except for the designated region 400 among the four divided regions 310.

According to the example of FIG. 4B, a designated touch unit 220 is provided at a designated position 405 of the designated region 400 at the lower left of the four divided regions 310, and the calculated position 410 of the designated region is provided. One touch unit 220 is provided. In addition, one touch unit 220 is provided at each of the calculated positions 410 on the remaining three divided regions 310 except for the designated region 400 among the four divided regions 310.

5 illustrates a minimum discrimination recognition distance 500 according to an embodiment of the present invention.

In more detail, FIG. 5 is an exemplary diagram of a minimum discrimination recognition distance 500 among information used for touch authentication, and a person of ordinary skill in the art may refer to FIG. 5 and / or Alternatively, it may be modified to infer various implementation methods of the minimum discrimination recognition distance 500 for each direction on the flat plate region 305, but the present invention includes all the implementation methods inferred as shown in FIG. The technical features are not limited only to the implementation method shown in FIG.

The example of FIG. 5A illustrates setting the distance between the contact surface and the contact surface of the touch unit 220 having the designated contact area to the minimum discrimination recognition distance 500, and specifically, the flat region illustrated in FIG. 3A. An example of setting the distance between the contact surface and the contact surface of the touch unit 220 as the minimum discrimination recognition distance 500 based on the upper side of the horizontal direction of 305 is illustrated.

5B illustrates an example of setting the distance between the midpoint and the midpoint of the touch unit 220 having the designated contact area to the minimum discrimination recognition distance 500. Specifically, the flat plate illustrated in FIG. 3A is illustrated. For example, the distance between the midpoint and the midpoint of the touch unit 220 based on the upper side of the horizontal direction of the region 305 is set as the minimum discrimination recognition distance 500.

According to an embodiment of the present invention, the distance between the contact surface of one touch unit 220 and the midpoint of the other touch unit 220 may be determined by combining the examples of FIGS. 5A and 5B. The minimum discrimination recognition distance 500 may be set.

According to the present invention, even if the touch parts 220 provided on the flat area 305 are provided in any of the divided areas 310, the touch parts 220 should be provided apart from the set minimum distinguished recognition distance 500 or more. . Preferably, the minimum discrimination recognition distance 500 is a distance applied to each of the horizontal and vertical directions on a two-dimensional plane corresponding to the flat plate region 305.

6 illustrates a minimum identification distance 600 according to an embodiment of the present invention.

In more detail, FIG. 6 is an exemplary diagram of a minimum identification distance 600 among information used for touch authentication, and a person of ordinary skill in the art may refer to FIG. 6 and / or It may be deformed to infer various implementation methods of the minimum identification distance 600 for each direction on the plate region 305, but the present invention includes all the implementation methods inferred, as shown in FIG. The technical features are not limited only to the implemented method.

6 shows that the flat plate region 305 of the flat plate portion 215 provided in the different paint 200 is the same as the flat plate region 305 illustrated in FIG. 3a, and the flat plate region 305 is different from that of FIG. Similarly, in the case of dividing the same into four divided regions 310, the calculated region 400, the upper left divided region 310, and the calculated upper position divided region 310 of each painting 200 are the same. However, it illustrates that the calculated position 410 of the lower right partition area 310 is spaced apart by the minimum identification distance 600 in the exemplary reference lateral direction of FIG.

According to the present invention, the touch units 220 provided in one or more of the same division regions 310 among the touch units 220 provided on the different flat regions 305 are separated by the minimum identification distance 600. By being provided, the touch positional relationship of the touch units 220 provided in each flat area 305 may be different from each other so that one or more touch positions can be distinguished from each other. Preferably, the minimum identification distance 600 is a distance applied to each of the horizontal and vertical directions on the two-dimensional plane corresponding to the flat plate area 305.

Meanwhile, the designated positions 405 of the designated region 400 provided with the designated touch unit 220 with respect to the painting 200 of the same type are the same. If the flat area 305 and the divided area 310 of the flat part 215 are the same, if the designated location 405 to which the designated touch part 220 is provided is different, it may be classified as heterogeneous paint 200.

7 illustrates a maximum spaced apart distance 700 according to an embodiment of the present invention.

In more detail, Figure 7 is an exemplary view of the maximum distance distance 700 of the information used for touch authentication, if the person of ordinary skill in the art to which the present invention belongs, reference and / 7 Alternatively, the present invention may infer various embodiments of the maximum spaceable distance 700 that can be implemented with respect to the shape of the various plate regions 305, but the present invention includes all the above-described embodiments. The technical features are not limited only to the implementation method shown in FIG.

7 illustrates an example of the maximum spaceable distance 700 that can be implemented on the flat plate area 305 illustrated in FIG. 3A, and the lower left lower portion of the divided area 310 illustrated in FIG. 3B as illustrated in FIG. 3B. The maximum spaced apart distance 700 calculated on the upper right division region 310 based on the designated touch unit 220 provided at the designated position 405 on the designated region 400 of FIG. The (n + 1) touch points touched by each paint 200 having the same flat plate area 305 may not fall more than the maximum spaceable distance 700.

Figure 8 illustrates the geometric characteristics of the (n + 1) square in accordance with an embodiment of the present invention.

In more detail, FIG. 8 illustrates the limitation of the geometric characteristics of the (n + 1) square formed by connecting (n + 1) touch points among information used for touch authentication. Those skilled in the art may refer to and / or modify this drawing to have a (n + 1) triangle according to the shape of the various plate regions 305 and partitions 310 and the contact area. Various implementation methods of geometric characteristics may be inferred, but the present invention includes all implementation methods inferred from the above, and the technical features are not limited to the implementation method shown in FIG.

The example of FIG. 8 divides the planar region 305 illustrated in FIG. 3a into four divided regions 310 to have a margin corresponding to the minimum discrimination recognition distance 500 as in the example of FIG. 3c, and FIG. 3c. (N + 1) touch parts 220 or touch points when the lower left partition area 310 is designated as the designated area 400 and the designated touch parts 220 are provided in the lower left corner area as shown in the example of FIG. It illustrates the areas where the midpoint of cannot exist and the areas where it can exist. For convenience, areas where the midpoint cannot exist are shown in dark gray, and areas that may exist are shown in light gray, and an error range for each area is omitted. For reference, the (n + 1) rectangle will be formed based on the touch point, but FIG. 8 illustrates the touch unit 220 for convenience of understanding.

According to the present invention, the planar region 305, the divided region 310, and the touch unit 220 include a specified figure shape and a predetermined area, and are formed on the n divided regions 310 that divide the flat region 305. The midpoint of the touch unit 220 provided in the center of the touch unit 220 should be present in an area that can exist as shown in FIG. 8. In this way, while there is an area where the midpoint cannot exist and an area that may exist, two touch parts 220 are provided in the designated area 400 among the n divided areas 310, and each of the touch parts 220 has a minimum value. Since the identification recognition distance 500 should be separated from each other by the touch parts 220 of the other painting 200 and the minimum identification distance 600 or more, they are formed by connecting (n + 1) touch points. The (n + 1) rectangle has the specified geometrical characteristics. For example, the spacing between midpoints should be spaced apart from each other by at least a distance corresponding to the minimum discrimination recognition distance 500, such spacings between midpoints must be within a maximum distance 700 and at least one of the spacings between midpoints. The spacing is, for example, a characteristic provided in the same designated area 400. Such geometric characteristics may be expressed as a function of the distance and angle of each side constituting the (n + 1) triangle, and the shape and division of figures such as the flat region 305, the divided region 310, and the touch unit 220. The number of regions 310, the minimum distinct recognition distance 500, the maximum spaceable distance 700, and the minimum identification distance 600 set by design may be customized according to one or more conditions that limit the formation of a (n + 1) square. Can be.

9 illustrates a distance relationship 900 in accordance with an embodiment of the present invention.

In more detail, FIG. 9 illustrates a distance relationship 900 between n touch points based on a designated touch point among information used for touch authentication, and a person having ordinary knowledge in the technical field to which the present invention belongs. However, various implementation methods for the distance relationship 900 may be inferred by referring to and / or modifying the drawing 9, but the present invention includes all the implementation methods inferred above, The technical features are not limited only by the method.

9 illustrates four angles based on a designated touch point corresponding to the designated touch unit 220 provided in the corner region of the lower left-side designated region 400 among the divided regions 310 of FIG. 3b or 3c. The distance relationship 900 between four touch points corresponding to each touch unit 220 provided at the calculated position 410 on the divided area 310 is illustrated. For reference, the distance relationship 900 is calculated and compared based on the touch point, but FIG. 9 illustrates the touch unit 220 for convenience of understanding.

The distance relation 900 included in the touch position relation of the touch authentication condition and the distance relation 900 of the touch position relation calculated based on (n + 1) touch points are compared after matching each touch point, and the distance Each touch point may be given a unique identifier to match the relationship 900. For example, as shown in the example of FIG. 9, identifiers such as 'A', 'B', 'C', and 'D' may be assigned to touch points in a specific direction based on the designated touch points. The distance relation 900 included in the touch position relation of the touch authentication condition and the distance relation 900 of the touch position relation calculated based on (n + 1) touch points are matched for each touch point corresponding to. If the distances for each identifier matched in this way are compared to approach a specified error range (eg, within a 95% match range of the Gaussian probability distribution), it may be considered to be a match. If the compared distances are close to within a specified error range, they are considered inconsistent if the distances corresponding to different identifiers are close.

10 illustrates an angular relationship 1000 according to an embodiment of the invention.

More specifically, FIG. 10 illustrates an angular relationship 1000 formed by n touch points based on a designated touch point among information used for touch authentication, and the general knowledge in the technical field to which the present invention belongs. If it is a person having, it will be able to infer various implementation methods for the angular relationship 1000 by referring to and / or modifying the present figure 10, the present invention includes all the implementation methods inferred above, The technical features are not limited only to the illustrated embodiment.

Examples of FIGS. 10A and 10B are based on a designated touch point corresponding to the designated touch unit 220 provided in the corner region of the lower left side designated region 400 among the divided regions 310 of FIG. 3B or 3C. The angle relationship 1000 formed by four touch points corresponding to each touch unit 220 provided at the calculated position 410 on each of the four divided regions 310 is illustrated. For reference, the angle relationship 1000 is calculated and compared based on the touch point, but this drawing 10 exemplifies the touch unit 220 for convenience of understanding.

The example of FIG. 10A illustrates an angular relationship 1000 on a coordinate system formed by two touch points among n touch points with reference to a designated touch point, and the example of FIG. 10B illustrates a virtual origin point based on a virtual origin and a reference line on the coordinate system. The angle relationship 1000 formed by a line connecting (n + 1) touch points is illustrated. The virtual origin illustrated in FIG. 10B may exist within a designated touch point.

The angular relationship 1000 included in the touch position relationship of the touch authentication condition and the angular relationship 1000 of the touch position relationship calculated based on (n + 1) touch points are compared after matching each touch point. Each touch point may be assigned a unique identifier to match the relationship 1000. For example, identifiers such as 'A', 'B', 'C', 'D', and 'E' may be assigned to touch points in a specific direction based on the designated touch points as shown in the example of FIG. The angular relationship 1000 of the touch position relationship calculated based on the (n + 1) touch points and the angular relationship 1000 included in the touch position relationship of the touch authentication condition are matched for each touch point corresponding to each identifier. do. If the angles for each identifier matched in this way are compared and approach a specified error range (eg, within a 95% match range of the Gaussian probability distribution), they may be considered to be a match. If the compared angles are close to within a specified error range, they are considered inconsistent if the distances corresponding to different identifiers are close.

11 is a diagram illustrating a process of storing touch authentication conditions according to an embodiment of the present invention.

11 is calculated on (n-1) divided regions 310 of the n divided regions 310 obtained by dividing the flat region 305 of the flat portion 215 of the painting 200. Each touch unit 220 provided at the position 410 and the calculated position 410 on one designated area 400 and the two positions 220 corresponding to the designated position 405 (n + 1) shows a process of storing a touch authentication condition for authenticating the geometric touch positional relationship of the touch points, if one of ordinary skill in the art to which the present invention belongs, reference and / or modification It is possible to infer various implementation methods (e.g., implementation steps whose steps are omitted or changed order) for the storage of the touch authentication condition, but the present invention includes all the implementation methods inferred. By the implementation method shown in FIG. Technical features are not limited.

Referring to FIG. 11, the touch authentication system 100 is designed and manufactured to have n touch parts 220 and one designated touch part 220 in the flat area 305 of the flat part 215. The geometric touch position relation of the design for the (n + 1) touch points corresponding to each touch point of the painting 200 is confirmed (1100), and the geometric touch position in the design for the (n + 1) touch points The relationship is stored in the designated storage medium 110 (1105). According to an embodiment, the touch authentication system 100 confirms design error information about the (n + 1) touch points, and includes a touch authentication condition including geometric touch positional relationship and design error information on the design. It may be stored (1105). In order to control the quality of the touch unit 220 of the designed and manufactured painting 200, the touch unit 220 of the painting 200 is placed on the capacitive touch screen 1310 of the designated device 1300. If the procedure of registering a touch repeatedly for a specified number of times is not performed, the stored touch authentication condition may be used for authentication.

The touch authentication system 100 repeatedly touches the stamp 200 designed and manufactured according to the touch authentication condition more than a specified number of times on the capacitive touch screen 1310 of the designated registration device 1300 (n + 1). The actual measurement position relationship of the) touch points is checked (1110). If the actual measurement positional relationship with respect to the (n + 1) touch points repeatedly touched is confirmed, the touch authentication system 100 determines that the (n + 1) real measurement positional relationship has been repeatedly confirmed more than the specified number of times. It is checked whether it is within a specified tolerance of geometric touch positional relationship in design for the touch point (1115).

If the actual measurement position relationship repeatedly checked more than the specified number of times does not exist within the specified error tolerance of the geometric touch position relationship in the design, the touch authentication system 100 may include the (n + 1) touch units 220. The (n + 1) touch units 220 provided in the painting 200 are subjected to a procedure of correcting the errors so as to fall within the tolerance range or reassembling them after disassembly (1120).

On the other hand, if the actual measurement position relationship repeatedly checked for the specified number of times or more exists within a specified error tolerance range of the geometric touch position relationship in the design, the touch authentication system 100 is in the geometric touch position relationship and the error tolerance range in the design. The touch authentication condition including corresponding error information (eg, design error information or actual measurement error information) is stored in the designated storage medium 110 that stores the touch authentication condition to be used for authentication (1125).

12 illustrates a touch authentication process according to an embodiment of the present invention.

12 illustrates the (n + 1) touch units 220 when the (n + 1) touch units 220 provided in the painting 200 are touched through the capacitive touch screen 1310. FIG. 11 illustrates a process of matching and comparing the positional relationship of (n + 1) touch points corresponding to the touch positional relationship of the touch authentication condition registered through the process illustrated in FIG. Those skilled in the art may refer to and / or modify this drawing 12 to infer various implementation methods (e.g., some steps may be omitted or the order may be changed) for the touch authentication process. Although there will be, the present invention includes all the implementation methods inferred, and the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 12, the touch authentication system 100 includes (n + 1) touch points in which (n + 1) touch units 220 provided in the painting 200 are touched on the capacitive touch screen 1310. Check the information (1200). According to an exemplary embodiment, the touch authentication system 100 may perform a coordinate transformation procedure for the identified (n + 1) touch points.

The touch authentication system 100 reads the mutual positional relationship between the identified (n + 1) touch points and authenticates whether the touch point is touched by a valid conductor (1205). According to an embodiment, the touch authentication system 100 may perform a coordinate transformation procedure for the (n + 1) touch points to read the mutual positional relationship. The coordinate transformation may not be performed any more after performing once.

If the (n + 1) touch points are not touch points of the valid stamp 200, the touch authentication system 100 performs authentication error result processing on the (n + 1) touch points, and the (n A procedure of discarding +1) touch point information may be performed (1210).

On the other hand, if the (n + 1) touch points are the touch points of the effective seal 200 as a result of the reading of the mutual position relationship, the touch authentication system 100 may determine the flat portion 215 of the seal 200. By reading the (n + 1) touch point information through the divided region 310 information corresponding to the n divided regions 310, the designated touch point included in the designated position 405 of the designated region 400 is identified. (1215) According to an exemplary embodiment, the touch authentication system 100 may perform a coordinate transformation procedure for the (n + 1) touch points to identify the designated touch points. The coordinate transformation may not be performed any more after performing once. According to the exemplary embodiment of the present invention, the designated touch point matches the coordinate system of the divided area 310 information with the coordinate system of (n + 1) touch points, and then (n + 1) based on a specific reference point. The touch points may be identified through a process of coordinate rotation to match each of the divided areas 310 of the divided area 310 information.

If the designated touch point is not identified through the partition area 310 information, the touch authentication system 100 performs authentication error result processing on the (n + 1) touch points, and (n + 1). The procedure of discarding) touch point information may be performed (1210).

Meanwhile, when the designated touch point is identified through the partition area 310 information, the touch authentication system 100 calculates a geometric touch position relationship between the identified designated touch point and each of the n touch points (1220). According to an exemplary embodiment, the touch authentication system 100 may perform a coordinate transformation procedure for the (n + 1) touch points to identify the designated touch points. The coordinate transformation may not be performed any more after performing once.

The touch authentication system 100 may use the available touch authentication conditions (for example, all touch authentication conditions, touch authentication conditions mapped to a specific location, and touch authentication belonging to a specific group) among the touch authentication conditions stored through the process illustrated in FIG. 11. The positional relationship to match the positional relationship) and the calculated touch positional relationship (1225), and compare and authenticate the touched positional relationship of the matched touch authentication condition with the calculated touched positional relationship, or Or, it is authenticated that the proximity to the specified error range (1230).

Preferably, the matching comparison authentication process is performed for all available touch authentication conditions. If the touch location relationship is not authenticated even though the authentication procedure is performed for all available touch authentication conditions, the touch authentication system 100 may determine An authentication error result process may be performed on the (n + 1) touch points, and the procedure of discarding the (n + 1) touch point information may be performed (1210).

On the other hand, during or after performing an authentication procedure for all available touch authentication conditions, if the touch location relationship is authenticated, the touch authentication system 100 processes the authentication success result for the (n + 1) touch points. To perform (1235). The service corresponding to the touch authentication may be started by the authentication success result processing.

FIG. 13 illustrates an embodiment of a user's wireless terminal 1300 corresponding to the device 1300 with the capacitive touch screen 1310 in accordance with an embodiment of the present invention.

In more detail, FIG. 13 illustrates a first embodiment of a configuration of a program 1330 of a wireless terminal 1300 interoperating with a touch authentication system 100 implemented on a server 1400 according to a first embodiment of the present invention. For example, a second embodiment in which the touch authentication system 100 shown in FIG. 1 is implemented in the form of a program 1330 mounted on the wireless terminal 1300 according to the second embodiment of the present invention is illustrated. If those skilled in the art to which the present invention pertains may refer to and / or modify this drawing 13, various implementation methods for the function of the wireless terminal 1300 may be inferred, but the present invention infers the above. It is made to include all the implementation methods, the technical features are not limited only to the implementation method shown in FIG. Preferably, the wireless terminal 1300 of FIG. 13 may include at least one of various smart phones, various tablet PCs, various PDAs, and various mobile phones capable of wireless communication.

Referring to FIG. 13, the wireless terminal 1300 includes a control unit 1302, a memory unit 1328, a screen output unit 1306, a key input unit 1308, a sound output unit 1312, and a sound input unit 1314. And a camera unit 1304, a wireless network communication unit 1322, a near field communication unit 1320, a near field communication unit 1316, a location positioning unit 1324, a USIM reader unit 1326, and a USIM, and supplying power. Battery 1318 is provided.

The controller 1302 is a generic term for a configuration for controlling the operation of the wireless terminal 1300. The controller 1302 includes at least one processor and an execution memory, and includes components and buses provided in the wireless terminal 1300. BUS). According to the present invention, the controller 1302 loads at least one program code included in the wireless terminal 1300 through the processor into the execution memory, and calculates at least one result through the bus. By transmitting to the negative to control the operation of the wireless terminal (1300). Hereinafter, for convenience, the configuration of the program 1330 implemented in software in the wireless terminal 1300 according to the first embodiment or the second embodiment will be described in the controller 1302.

The memory unit 1328 is a generic term for a nonvolatile memory corresponding to a storage resource of the wireless terminal 1300, and includes at least one program code executed by the controller 1302 and at least one program code used by the program code. Save and maintain the data set. The memory unit 1328 basically includes a system program code and a system data set corresponding to an operating system of the wireless terminal 1300, a communication program code and a communication data set for processing a wireless communication connection of the wireless terminal 1300, and at least One application program code and an application data set are stored, and the program code and data set corresponding to the program 1330 of the present invention are also stored in the memory unit 1328.

The screen output unit 1306 includes a screen output device (eg, a liquid crystal display (LCD), etc.) corresponding to an output resource of the wireless terminal 1300 and a driving module for driving the screen output unit 1300, and interlocks with the control unit 1302. And outputs a calculation result corresponding to a screen output among various calculation results of the controller 1302 to the screen output device.

The key input unit 1308 includes one or more user input devices (eg, buttons, keypads, touch panels, etc.) corresponding to input resources of the wireless terminal 1300, and a driving module for driving the same. The command inputs commands to command various operations of the controller 1302 or input data required for the calculation of the controller 1302.

According to the present invention, the key input unit 1308 implements the capacitive touch screen 1310 in conjunction with the capacitive touch panel provided in the screen output unit 1306, the flat plate portion 215 of the painting 200 The (n + 1) touch units 220 provided at the capacitive touches the capacitive touch screen 1310.

The sound output unit 1312 includes a speaker corresponding to an output resource of the wireless terminal 1300 and a driving module for driving the sound output unit 1312. The sound output unit 1312 is interlocked with the controller 1302 to generate a sound among various calculation results of the controller 1302. The operation result corresponding to the output is output through the speaker. The driving module decodes sound data to be output through the speaker and converts the sound data into a sound signal.

The sound input unit 1314 includes a microphone corresponding to an input resource of the wireless terminal 1300 and a driving module for driving the same, and transmits sound data input through the microphone to the controller 1302. The driving module encodes and encodes a sound signal input through the microphone.

The camera unit 1304 includes an optical unit corresponding to a camera resource of the wireless terminal 1300, a charge coupled device (CCD), and a driving module for driving the same, and has a bitmap type input to the CCD through the optical unit. Acquire image data or image data. The data acquired through the camera unit 1304 may include image data in the form of a still image or video data in the form of a video.

The wireless network communication unit 1322 and the short range wireless communication unit 1320 are generic terms of communication resources for connecting the wireless terminal 1300 to a designated communication network. Preferably, the wireless terminal 1300 may include a wireless network communication unit 1322 as a basic communication resource, and may include one or more short range wireless communication units 1320.

The wireless network communication unit 1322 is a generic term for communication resources connecting the wireless terminal 1300 to a wireless communication network via a base station, and includes an antenna, an RF module, a baseband module, and a signal for transmitting and receiving radio frequency signals of a specific frequency band. It is configured to include at least one processing module, and is connected to the control unit 1302 transmits the operation result corresponding to the wireless communication of the various operation results of the control unit 1302 through a wireless communication network or receive data through the wireless communication network The control unit 1302 transmits the data to the control unit 1302 and performs the procedure of accessing, registering, communicating, and handing off the wireless communication. According to the present invention, the wireless network communication unit 1322 can connect the wireless terminal 1300 to a telephone communication network including a communication channel and a data channel via an exchange, and optionally a packet without passing through the exchange. It may be connected to a data network that provides communication-based wireless network data communication (eg, the Internet).

According to an embodiment of the present invention, the wireless network communication unit 1322 is connected to a mobile communication network according to the CDMA / WCDMA / LTE standard, location registration, call processing, call connection, data communication, at least one mobile communication for performing handoff Include configuration. Meanwhile, according to the intention of the person skilled in the art, the wireless network communication unit 1322 may further include a portable Internet communication configuration for performing at least one connection, location registration, data communication, and handoff to the portable Internet according to the IEEE 802.16 related standard. It is apparent that the present invention is not limited by the wireless communication configuration provided by the wireless network communication unit 1322. That is, the wireless network communication unit 1322 is a general term for a component that accesses a wireless communication network through a cell-based base station regardless of a frequency band of a wireless section, a type of a communication network, or a protocol.

The short range wireless communication unit 1320 is a generic term for a communication resource for connecting a communication session using a radio frequency signal as a communication medium within a predetermined distance (for example, 10m) and connecting the wireless terminal 1300 to a communication network based on the same. For example, the wireless terminal 1300 may be connected to a communication network through at least one of Wi-Fi communication, Bluetooth communication, public wireless communication, and UWB. According to the exemplary embodiment of the present invention, the short range wireless communication unit 1320 may be implemented in an integrated or separated form from the wireless network communication unit 1322. According to the present invention, the short range wireless communication unit 1320 connects the wireless terminal 1300 to a data network for providing short range wireless data communication based on packet communication through a wireless AP.

The proximity radio communication unit 1316 may use a radio frequency signal as a communication medium at a proximity distance (for example, about 10 cm) to process one or more proximity radio communication among two-way proximity radio communication, full-duplex proximity radio communication, and half-duplex proximity radio communication. As a generic term for resources, it is possible to process near field communication according to the Near Field Communication (NFC) standard of the 13.56 Mz frequency band. Alternatively, the proximity wireless communication unit 1316 may process proximity wireless communication of the ISO 18000 series standard. In this case, the proximity wireless communication unit 1316 may also handle proximity wireless communication for a frequency band other than the 13.56 Mz frequency band. For example, the proximity wireless communication unit 1316 may operate in a reader mode, a tag mode, or a bidirectional communication mode. Meanwhile, the proximity wireless communication unit 1316 may be included in a communication resource for connecting the wireless terminal 1300 to a communication network according to a close communication.

The location positioning unit 1324 is a generic term for positioning resources for positioning the wireless terminal 1300. Preferably, the location positioning unit 1324 is a mobile terminal positioning method using a GPS (Global Positioning System), a network positioning method using a network resource, and the terminal method. Positioning of the wireless terminal 1300 may be performed through a positioning technique that combines at least one or two or more of a hybrid scheme combining a network scheme and a network scheme. Terminal type positioning is a technique for precisely positioning the position of the wireless terminal 1300 through a GPS module (or a module with a GPS function) built in the wireless terminal 1300, and transmits a position signal transmitted from a GPS satellite to a wireless terminal. It may include an A-GPS (Assisted-GPS) method that the 1300 reads and informs the base station, and a differential GPS (DGPS) method that receives a correction signal from a ground reference receiver and corrects an error of a position signal received from a satellite. have. Network positioning is a technique for positioning using a network resource interoperable with the radio terminal 1300, and the cell ID method and cell ID method for determining the position of the radio terminal 1300 through the service cell ID of the base station between the base station and the terminal. Enhanced cell ID scheme that improves accuracy by adding distance information, AOA (Angle Of Arrival) scheme that uses the difference of signal reception angle in three base stations receiving the signal of terminal, between one base station and two neighbor base stations One or more of a time of arrival scheme (TOA) scheme using a difference in signal arrival time of a signal and a time difference of arrival scheme (TDOA) scheme for measuring signal delay of neighboring base stations based on a base station signal. Enhanced Observed Time Difference (E-OTD), which measures the difference in time at which more than one base station sends radio waves back to the terminal When positioning the location of the wireless terminal 1300 in a network or hybrid manner, the location of the wireless terminal 1300 is located through a separate positioning server, the location positioning unit 1324 is After positioning the position of the wireless terminal 1300 through the positioning server in connection with the wireless network communication unit 1322 or the short range wireless communication unit 1320, the position of the wireless terminal 1300 is determined from the positioning server. You can be provided with results.

The USIM reader unit 1326 is a generic term for a configuration for exchanging at least one data set with a universal subscriber identity module (Universal Subscriber Identity Module) mounted on or detached from the wireless terminal 1300 based on ISO / IEC 7816 standard. As an example, the data sets are exchanged in a half-duplex communication through an APDU (Application Protocol Data Unit).

The USIM is a SIM type card having an IC chip according to the ISO / IEC 7816 standard, an input / output interface including at least one contact point connected to the USIM reader unit 1326, and at least one IC chip program code. And an IC chip memory for storing a data set, and a program code for the IC chip or extracting (or processing) the data set according to at least one command transmitted from the wireless terminal 1300 connected to the input / output interface. It includes a processor for transmitting to the input and output interface.

The program 1330 of the present invention is downloaded from a program providing server (eg, Apple's App Store, etc.) through a data network to which the communication resource is accessible, and stored in the memory unit 1328. The downloaded program 1330 may be manually driven by a user, or may be automatically driven (or activated) after user confirmation or by receipt of a message. Meanwhile, a separate program 1330 may be driven in advance in order to automatically drive the program 1330 after a user confirmation or the like, and the present invention is not limited thereto.

Referring to FIG. 13, the program 1330 of the wireless terminal 1300 connects to a designated server 1400 through a data network to which the communication resource is accessible, thereby registering the user as a member or authenticating the user's membership. And a program authentication unit (not shown) which authenticates the validity of the program 1330 through a receiving member registration / authentication unit (not shown) and at least one communication network accessible through the communication resource.

The program 1330 includes communication connection macro information for accessing a designated server 1400 through a data network to which the communication resource is accessible, and the member registration / authentication unit registers a user through the screen output unit 1306. Outputs an interface for inputting user information (for example, name, social security number, etc.) and member account to be subscribed to, and transmits the user information and member account inputted through the interface to the designated server 1400 through the data network. Register the user as a member.

Meanwhile, membership of the user may be subscribed through a separate user terminal in addition to the wireless terminal 1300. Therefore, when the user is already registered as a member or registered as a member through the user terminal, the member registration / authentication unit outputs an interface for inputting the member account of the user, and designates a server designated through the data network ( In step 1400, the member account input through the interface is transmitted to authenticate whether the user is a member.

The program authentication unit authenticates the validity of the program 1330 to a designated server 1400 through at least one communication network of a data network and a telephone call network to which the communication resource is accessible. According to the embodiment of the present invention, the process of authenticating the validity of the program 1330 is performed in advance the encryption / decryption communication process agreed between the program 1330 and the server 1400, for convenience the encryption / decryption process Detailed description thereof will be omitted.

According to the first program authentication method of the present invention, the program 1330 is downloaded through the program providing server with a unique key value set to identify that the program is operated by the designated server 1400. The program authenticator may authenticate that the program 1330 is a program operated by the designated server 1400 by transmitting the unique key value to the designated server 1400. The program authenticator transmits at least one unique information stored in the wireless terminal 1300 or allocated to a communication network together with the unique key value in the process of transmitting the unique key value to a designated server 1400. While the program 1330 is a program operated by the designated server 1400, the program 1330 may be simultaneously authenticated that the program 1330 is being driven by the wireless terminal 1300.

According to the second program authentication method of the present invention, the program 1330 is downloaded through the program providing server, the app identification value (for example, uniquely identifying the program 1330 on the data network according to a predetermined procedure) Device tokens assigned by Apple's APNS), and in this case, the program authentication unit transmits the app identification value to the designated server 1400, whereby the program 1330 is assigned to the designated server 1400. It can be authenticated that the program is operated by. The program authenticator transmits at least one unique information stored in the wireless terminal 1300 or allocated to a communication network together with the app identification value in the process of transmitting the app identification value to a designated server 1400, While the program 1330 is a program operated by the designated server 1400, the program 1330 may be simultaneously authenticated that the program 1330 is being driven by the wireless terminal 1300.

According to the third program authentication method of the present invention, the program 1330 has at least one key value, a key exchange protocol, and an encryption / decryption rule set, and an authentication procedure for authenticating the program 1330 using the same is defined. The program may be downloaded through the program providing server with a certificate mounted therein. In this case, the program authenticator may include at least one key value and key exchange protocol and encryption / decryption set in the certificate according to the authentication procedure defined in the certificate. By selectively using a rule, the program 1330 may authenticate that the program is operated by the designated server 1400. Meanwhile, the program authenticator further uses at least one piece of unique information stored in the wireless terminal 1300 or assigned to a communication network in the authentication procedure in the process of using the certificate, so that the program 1330 is assigned to the server 1400. At the same time, the program 1330 is operated by the wireless terminal 1300 and can be authenticated simultaneously.

According to the fourth program authentication method of the present invention, the wireless terminal 1300 receives the authentication number sent from the designated server 1400 through the message exchange protocol of the telephone call network, and inputs the received authentication number. By receiving and transmitting to the designated server 1400 through the data network, it is possible to authenticate that the program 1330 is a program operated by the designated server 1400. The program authentication unit transmits at least one unique information stored in the wireless terminal 1300 or assigned to a communication network together with the authentication number in the process of transmitting the authentication number to a designated server 1400, thereby transmitting the program ( While the 1330 is a program operated by the designated server 1400, the program 1330 may be simultaneously authenticated as being driven by the wireless terminal 1300.

According to the fifth program authentication method of the present invention, the program authentication unit validates the validity of the program 1330 from the designated server 1400 through an authentication method by selectively combining one or more of the first to fourth program authentication methods. It is possible to authenticate, whereby the present invention is not limited.

Referring to FIG. 13 according to the first embodiment of the present invention, the program 1330 of the wireless terminal 1300 recognizes (n + 1) touch points touched through the capacitive touch screen 1310. A touch point recognizer 1335 and a touch point transmitter 1340 for processing the recognized (n + 1) pieces of touch point information to be transmitted to the server 1400 in which the touch authentication system 100 is implemented; An authentication result receiving unit 1345 for receiving touch authentication results for the (n + 1) touch points from the touch authentication system 100 and (n + 1) when the (n + 1) touch points are authenticated. A service processor 1350 is provided to process a service corresponding to 1) touch points.

The touch point recognition unit 1335 checks the number of touch points touched through the capacitive touch screen 1310 and checks whether a specified number of touch points are recognized. If (n + 1) touch points are recognized through the capacitive touch screen 1310, the touch point recognizer 1335 is obtained based on a device side coordinate system corresponding to the capacitive touch screen 1310. (N + 1) touch point information corresponding to the coordinate value is generated.

The touch point transmitter 1340 processes (n + 1) touch point information generated by the touch point recognizer 1335 to be transmitted to the server 1400 in which the touch authentication system 100 is implemented. The touch point transmitter 1340 connects a communication channel with the server 1400 on which the touch authentication system 100 is implemented, and the (n + 1) touches to the server 1400 through the connected communication channel. Point information can be transmitted. Alternatively, the touch point transmitter 1340 checks the relay server 1500 connected to the server 1400 on which the touch authentication system 100 is implemented, and the (n + 1) touches to the relay server 1500. Point information may be transmitted, and the relay server 1500 may relay the (n + 1) pieces of touch point information to the server 1400 in which the touch authentication system 100 is implemented.

According to the exemplary embodiment of the present invention, the touch point transmitter 1340 confirms coordinate system identification information for identifying the device-side coordinate system corresponding to the identified (n + 1) touch point information, and / or Check the device information available as the coordinate system identification information, and touch the identified coordinate system identification information (or device information) through a designated path (eg, a directly connected communication channel or a relay channel using the relay server 1500). The authentication system 100 may be processed to be transmitted to the implemented server 1400.

According to the exemplary embodiment of the present invention, the touch point transmitter 1340 may be connected to the (n + 1) through the position location unit 1324 (or the wireless network communication unit 1322 or the short range wireless communication unit 1320). Location information (eg, GPS-based location information from which GPS is obtained and location of the wireless terminal 1300 through a base station (or wireless AP) connected to the wireless terminal 1300) before, during, and after the two touch points are touched. Information such as information that can be checked), and the server on which the touch authentication system 100 is implemented through the identified location information (for example, a directly connected communication channel or a relay channel using the relay server 1500). It may be processed to be sent to (1400).

When the touch authentication system 100 generates a touch authentication result of authenticating the (n + 1) touch points and transmits the (n + 1) touch point information in a reverse direction in which the touch point information is received, the authentication result receiver 1345 ) Receives the touch authentication result.

If the received touch authentication result includes an authentication success result, the service processor 1350 starts a designated service using the authentication success result as an authentication value. The specified service may include various services according to a service type designated to use the touch of the painting 200 having the (n + 1) touch units 220 as an authentication value, and is not limited to a specific service. .

Referring to FIG. 13 according to the second embodiment of the present invention, the program 1330 of the wireless terminal 1300 is connected to the flat plate portion 215 of the painting 200 to be touched by the capacitive touch screen 1310. Authentication condition storage unit 105 for storing the touch authentication conditions to be used for authentication for the provided n touch unit 220, and (n + 1) touch points touched through the capacitive touch screen 1310 Between the touch point recognition unit 1335 to recognize the touch point, the touch point confirming unit 115 to check the recognized (n + 1) pieces of touch point information, and the identified (n + 1) touch points. A touch point authenticator 120 that reads the positional relationship and verifies whether it is a touch point of the effective paint 200, and a flat region of the flat plate portion 215 of the paint 200 to be touched by the capacitive touch screen 1310. The (n + 1) touch point information is read through the divided area 310 information of the n divided areas 310 obtained by dividing 305 into n pieces. A touch point identification unit 125 for identifying a designated touch point provided at a designated position 405 of the positive area 400 and a position for calculating a geometric touch position relationship between the identified designated touch points and each of the n touch points A relationship authentication unit 130, a touch authentication processor 135 for matching and authenticating the calculated geometric touch positional relationship between the designated touch point and each of the n touch points and the touch positional relationship of the touch authentication condition, and the ( A service processor 1350 is provided to process a service corresponding to the (n + 1) touch points when n + 1) touch points are authenticated.

The authentication condition storage unit 105, the touch point confirming unit 115, the touch point authenticating unit 120, the touch point identifying unit 125, the position relationship calculating unit 130, and the touch authentication processing unit 135 are illustrated in the drawing. As described in operation 1, the touch point recognition unit 1335 and the service processor 1350 operate as in the first embodiment.

14 illustrates an embodiment in which the touch authentication system 100 is implemented in a server 1400 on a network according to an embodiment of the present invention.

In more detail, FIG. 14 illustrates a touch authentication system shown in FIG. 1 on a server 1400 on a network that communicates with a wireless terminal 1300 of a user corresponding to a device 1300 having a capacitive touch screen 1310. As shown in the embodiment 100 is implemented, those of ordinary skill in the art to which the present invention pertains, referring to and / or modifying the drawing 14 to the server 1400 on the network touch authentication system ( While various implementation methods (eg, some components may be omitted, subdivided, or combined) for embodiments in which 100) may be inferred, the present invention may include all implementation methods inferred above. The technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 14, the server 1400 in which the touch authentication system 100 is implemented includes a configuration of the touch authentication system 100 illustrated in FIG. 1 and includes (n + 1) touch units 220. There is provided a design / production management unit (1405) for managing the design and manufacture of the painting (200) having a.

The design / production manager 1405 divides the flat plate area 305 of the flat plate part 215 provided in the painting 200 into n divided areas 310, and n pieces of n divided areas 310. The touch unit 220 calculates a position where the touch unit 220 is provided, and the paint unit 200 is manufactured by providing the touch unit 220 of (n + 1) at the calculated position 410 and the predetermined position 405. Various information generated by the design / production manager 1405 is used by the authentication condition storage unit 105 of the touch authentication system 100 to generate touch authentication conditions.

Referring to FIG. 14, the server 1400 in which the touch authentication system 100 is implemented includes a member manager 1410 that manages a user of the wireless terminal 1300 as a member and manages the wireless terminal 1300. (N + 1) touch points from the program manager 1415 for authenticating and managing the program 1330 included in the program 1330, and the program 1330 of the wireless terminal 1300 according to the first embodiment of the present invention. The information receiving unit 1420 receiving the information and the touch authentication result of authenticating the (n + 1) touch points in the touch authentication system 100 are confirmed and provided to the program 1330 of the wireless terminal 1300. An authentication result providing unit 1425 and a service providing unit 1430 for processing a specified service to be provided through the program 1330 of the wireless terminal 1300 when the (n + 1) touch points are authenticated. At least one component.

The member manager 1410 operates in conjunction with a member subscription / authentication unit provided in the program 1330 of the wireless terminal 1300 to manage a user of the wireless terminal 1300 as a member and manage the program manager 1415. In connection with the program authentication unit provided in the program 1330 of the wireless terminal 1300, the program 1330 provided in the wireless terminal 1300 is authenticated and managed.

The information receiver 1420 is configured to receive (n + 1) touch point information touched through the capacitive touch screen 1310 of the wireless terminal 1300 from the program 1330 of the wireless terminal 1300. Receive. Preferably, the information receiver 1420 may receive coordinate system identification information capable of identifying device-side coordinate systems corresponding to (n + 1) touch point information and / or device information available as the coordinate system identification information. . Alternatively, the information receiver 1420 may provide location information (eg, GPS-based location information obtained with GPS) before, during, and after the (n + 1) touch points are touched through the capacitive touch screen 1310. In addition, information such as information on identifying a location of the wireless terminal 1300 may be received through a base station (or wireless AP) connected to the wireless terminal 1300.

The touch authentication system 100 authenticates (n + 1) touch points using the information received through the information receiving unit 1420, and the authentication result providing unit 1425 is the touch authentication system 100 in the The touch authentication result of authenticating (n + 1) touch points may be confirmed and provided to the program 1330 of the wireless terminal 1300. On the other hand, the service providing unit 1430 reads the touch authentication result at some point before, during, or after the touch authentication result is provided to the program 1330 of the wireless terminal 1300, and thus the touch authentication system 100 Check if the (n + 1) touch points are authenticated through. If the (n + 1) touch points are authenticated, the service provider 1430 uses the authentication result of the (n + 1) touch points as an authentication value to program 1330 of the wireless terminal 1300. ) To process the specified service. The service provision may replace the touch authentication result.

15 illustrates an embodiment in which the touch authentication system 100 is implemented in a server 1400 on a network according to another exemplary embodiment of the present invention.

In more detail, FIG. 15 illustrates an embodiment in which a relay server 1500 is provided between a wireless terminal 1300 of a user corresponding to a device 1300 having a capacitive touch screen 1310 and a touch authentication system 100. As shown in the drawings, a person having ordinary knowledge in the art to which the present invention pertains may refer to an embodiment in which the touch authentication system 100 is implemented in the server 1400 on the network by referring to and / or modifying the drawing 15. Various implementation methods (e.g., implementation methods in which some components are omitted, subdivided, or combined) may be inferred, but the present invention includes all the implementation methods inferred above, and is shown in FIG. The technical features are not limited only by the implementation method.

Referring to FIG. 15, a relay server 1500 is provided between the user's wireless terminal 1300 and the touch authentication system 100, and the relay server 1500 is a member manager 1410 shown in FIG. 14. And a program manager 1415, an authentication result provider 1425, and a service provider 1430, each of which comprises a program 1330 of the wireless terminal 1300 according to the first embodiment of the present invention. And an information relay unit (not shown) for relaying the (n + 1) pieces of touch point information received from the multicast device to the touch authentication system 100. The information relay unit may further relay coordinate system identification information capable of identifying device-side coordinate systems corresponding to the (n + 1) touch point information and / or device information available as the coordinate system identification information. Alternatively, the information relay unit may further relay location information about the wireless terminal 1300 of the user.

100: touch authentication system 105: authentication condition storage unit
110: storage medium 115: touch point check unit
120: touch point authentication unit 125: touch point identification unit
130: position relationship calculation unit 135: touch authentication processing unit

Claims (34)

In the capacitive touch authentication method executed by a system interoperating with a capacitive touch screen supporting multiple touch,
A first step of checking or receiving information on a plurality of touch points that are multi-touch recognized through the capacitive touch screen;
Corresponding to the designated touch unit disposed at a predetermined position among the touch units of the touch device manufactured by reading the plurality of touch points and arranging a plurality of touch units including a capacitive touchable material in a predesigned geometric position relationship. Identifying a designated touch point; And
By using the designated touch point as a reference point, the plurality of touch points can be coordinated to match a geometric positional relationship with respect to a touch unit or by using a separate reference point identified through the designated touch point. A third step of coordinate-rotating the touch point to match the geometric positional relationship of the design with respect to the touch part; And
Using the identified designated touch point as a reference point or using a separate reference point identified through the designated touch point to process the geometric touch positional relationship to be matched with the geometric positional relationship in a pre-registered design; Capacitive touch authentication method comprising a.
delete delete The method of claim 1, wherein the geometric positional relationship,
And at least one of a distance relationship and an angle relationship between the designated touch unit and the remaining touch unit.
The method of claim 1, wherein the geometric positional relationship,
And at least one of a distance relationship and an angle relationship between the preset reference point and the plurality of touch units.
The method of claim 5, wherein the reference point,
Or a center point of the designated touch unit, or
Capacitive touch authentication method characterized in that it comprises a design origin to arrange the plurality of touch parts.
delete delete delete delete The method of claim 1, wherein the information on the plurality of touch points is
Capacitive touch authentication method comprising a coordinate value on the coordinate system corresponding to the capacitive touch screen.
The method of claim 1, wherein the first step,
And converting the plurality of touch points into a coordinate system corresponding to the geometric positional relationship of the design.
The method of claim 1,
Confirming the number of touch points corresponding to the plurality of touch points and authenticating whether the number corresponds to the number of touch parts in the design.
The method of claim 1,
And reading out the mutual positional relationship between each touch point and authenticating whether it is within a range of valid geometrical positional relationships in the design.
The method of claim 14,
And authenticating whether the distance between each touch point is more than a predetermined minimum distinguished recognition distance.
The method of claim 14,
And authenticating whether a maximum distance among the distances between the touch points is a distance within a preset maximum separation distance.
The method of claim 14,
Capacitive touch authentication comprising the step of authenticating whether the geometrical feature of the polygon formed by the line segment connecting each touch point includes a polygonal feature that can be formed by the touch units arranged in a pre-designed geometric position relationship. Way.
The method of claim 1,
The geometric positional relationship in the design includes a relationship of arranging a designated number of touch units in n (n ≧ 4) divided regions,
The second step may be performed by reading a relationship between the plurality of touch points based on design partition information on the n partitions and corresponding to a designated touch unit disposed in any one of the n partitions. A capacitive touch authentication method characterized by identifying a designated touch point.
The method of claim 1,
The geometric positional relationship in the design is a relationship in which a predetermined number of touch units are arranged in n (n ≧ 4) divided regions, and any one designated touch unit of the plurality of touch units is disposed in any one of the n divided regions. Including;
The second step may be performed by reading a relationship between the plurality of touch points based on design partition information on the n partitions and corresponding to a designated touch unit disposed in any one of the n partitions. A capacitive touch authentication method characterized by identifying a designated touch point.
The method of claim 1,
The geometric positional relationship of the design is that a predetermined number of touch units are arranged in n (n ≧ 4) divided regions, and at least one of the plurality of touch units is designated at a designated position on any one of the n divided regions. Contains relationships that you place,
In the second step, a designated touch unit disposed at a designated position on any one of the n divided regions by reading a relationship between the plurality of touch points based on design region information on the n divided regions. Identifying the designated touch point corresponding to the capacitive touch authentication method.
The method of claim 1,
When identifying the designated touch point,
And converting the designated touch point and the remaining touch points into a coordinate system corresponding to the geometric positional relationship in the design.
delete delete delete delete delete delete delete delete delete The method of claim 1, wherein the fourth step,
The method of claim 1, further comprising the step of checking the geometric positional relationship between the geometric touch positional relationship and a predetermined error range among the one or more geometrical positional relations registered in advance.
The method of claim 1, wherein the fourth step,
The method of claim 1, further comprising the step of identifying a geometric positional relationship matching the geometrical touch positional relationship within a specified error range among one or more geometrical positional relations in advance registered.
The method of claim 1, wherein the fourth step,
And identifying the geometric positional relationship that is closest to the geometrical touch positional relationship among the one or more pre-registered geometrical positional relationships.
The system of claim 1, wherein the system is
Implemented in a device with the capacitive touchscreen, or
Implemented on a server in communication with a device having said capacitive touchscreen, or
Capacitive touch authentication method characterized in that the distributed implementation on the device and the server having the capacitive touch screen.

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