KR20170077986A - Method for Certificating Fingerprint of Real Living Body by using a Different Sensor - Google Patents

Abstract

The present invention relates to an actual biometric fingerprint authentication method using a heterogeneous sensor, and an actual biometric fingerprint authentication method using a heterogeneous sensor according to the present invention includes a first sensor capable of sensing a fingerprint by different sensing methods, A method of performing a method using an apparatus having a plurality of sensors, the method comprising: sensing the same body part of a user in contact with or approaching the sensor part by using the first sensor and the second sensor in a sensing manner; The fingerprint pattern of the body part is subjected to basic authentication using one or more sensing data of the first sensing data sensed by the first sensor and the second sensed data sensed by the second sensor, (M (M) based on the sensing method of the first sensor through the first sensing data sensed by the first sensor, (N > = 1) second sensor addition authentication elements based on the sensing method of the second sensor through the second sensing data sensed through the second sensor When the M first sensor additional authentication element and the N second sensor additional authentication element are generated, the M first sensor additional authentication element and the N second sensor additional authentication element, A third step of identifying i (1? I? M & le & i? I? N) common authentication elements commonly included in the authentication element, a third step of matching authenticated i common authentication elements to the basic authentication element A fourth step of authenticating whether the corresponding fingerprint pattern is a fingerprint pattern of a living body, and a fifth step of generating an actual biometric fingerprint authentication result by combining the authentication result of the fingerprint pattern and the actual biometric authentication result.
Meanwhile, an actual biometric fingerprint authentication method using a heterogeneous sensor according to the present invention is implemented through a device including a first sensor capable of sensing fingerprints in different sensing methods and a sensor unit having a plurality of second sensors A first step of processing the same body part of a user who touches or approaches the sensor part by using the first sensor and the second sensor in multiple sensing methods, A fingerprint pattern of the body part is generated as a basic authentication element using at least one of the first sensing data and the second sensing data sensed through the second sensor, (M > = 1) first sensor addition authentication elements based on the sensing method of the first sensor through the second sensor (N > = 1) second sensor addition authentication elements based on the sensing method of the second sensor through the sensed second sensing data; A third step of authenticating whether a fingerprint pattern corresponding to the basic authentication element is an actual fingerprint pattern using an authentication element and at least one of the N second additional sensor authentication elements; And a fourth step of generating an actual biometric fingerprint authentication result by combining the biometric authentication result and the actual biometric authentication result.

Description

TECHNICAL FIELD The present invention relates to a fingerprint authenticating method using a heterogeneous sensor,

The present invention relates to an apparatus having a first sensor capable of sensing fingerprints and a sensor unit having a plurality of second sensors, which are capable of sensing fingerprints in different sensing systems, Wherein each of the sensors further generates a predetermined additional authentication element based on each sensing method in addition to the basic authentication element corresponding to the fingerprint pattern structure, Authenticating whether a fingerprint pattern recognizing a fingerprint of an actual body is authentic or matching authentication of a common authentication element commonly included in each additional authentication element to authenticate whether the fingerprint pattern structure is a fingerprint pattern in which a fingerprint of an actual body is recognized.

Ridges of the fingerprint are formed along the positions of the sweat glands in fingers or toes of the body parts of the human body, and valleys are formed between ridges and ridges. That is, the ridge of the fingerprint is a ridge of the skin along the sweat glands formed on the finger or the toe. Therefore, sweat pores that sweat the sweat glands are formed on the ridge of the fingerprint.

These fingerprints are different even if they are identical twins, and can be an identification means that can uniquely identify a specific person. In the past, such a fingerprint was used as an authentication means instead of an identification means for identifying a specific person. That is, in the conventional fingerprint authentication, after identifying a person to be authenticated by using a separate medium or an ID, the fingerprint is authenticated to authenticate the person. Therefore, attempts to steal others by forging fingerprints are continuing.

However, forgery and falsification of fingerprints is relatively easy. When fingerprint recognition is attempted by simulating fingerprints through materials having physical, chemical, and electrical characteristics similar to the epidermis of a human body, the conventional fingerprint recognition technology has a very difficult problem to exclude such simulated fingerprints. For example, when fingerprints are simulated using Gummi, which is very similar to the skin composition of the human body, it is very difficult to exclude such simulated fingerprints through conventional fingerprint recognition technology.

Examples of techniques for excluding such simulated fingerprints include Japanese Patent Application Laid-Open Nos. 2000-123143, 10-302047, 2000-194848, and 2000-172833, 10-2005-0051659 and the like.

However, in the technique disclosed in Japanese Patent Application Laid-Open No. 2000-123143 and Japanese Patent Application Laid-Open No. 10-302047, it is determined whether or not the subject is a living body by the current value of the subject, the capacitance, the electric resistance, , It is difficult to exclude a simulated fingerprint using a substance having chemical and electrical characteristics. In the technique disclosed in Japanese Patent Application Laid-Open No. Hei 10-370295, a counterfeit fingerprint is judged based on whether or not the electrostatic sensor responds. 2000-172833, it is difficult to exclude a simulated fingerprint using materials having physical, chemical and electrical characteristics similar to those of the skin of a human being, because the forgery fingerprint is judged by the frequency characteristic of impedance, which is an electrical characteristic . Korean Patent Laid-Open No. 10-2005-0051659 discloses a method of detecting a living body by using the presence or absence of sweat when scanning a sweep method of a fingerprint. However, in the case of a substance having physical, chemical and electrical characteristics similar to the skin of a human body It is difficult to exclude water if it is attempted to recognize it.

In order to solve the above problems, an object of the present invention is to provide a device having a sensor unit in which a first sensor capable of sensing fingerprints and a second sensor having a plurality of second sensors are sensed by different sensing methods, A plurality of sensing units for sensing the same body part of a user in contact with or proximate to the sensor unit, respectively, and each of the sensors further includes, in addition to a basic authentication element corresponding to the fingerprint pattern structure, The present invention provides an actual biometric fingerprint authentication method using a heterogeneous sensor that further generates an authentication factor and authenticates whether the fingerprint pattern structure is a fingerprint pattern in which a fingerprint of a living body is recognized.

It is another object of the present invention to provide an apparatus having a first sensor capable of sensing fingerprints in different sensing methods and a sensor unit having a plurality of second sensors mounted thereon, Or sensing the same body part of a user in proximity by each sensing method, and each sensor additionally generates each additional authentication element specified in advance based on each sensing method in addition to the basic authentication element corresponding to the fingerprint pattern structure The present invention provides a method of authenticating a biometric fingerprint using a heterogeneous sensor, which authenticates a common authentication element commonly included in each additional authentication element, thereby authenticating whether the fingerprint pattern structure recognizes a fingerprint of a living body.

A method for authenticating a biometric fingerprint using a heterogeneous sensor according to the present invention is implemented by a device including a first sensor capable of sensing fingerprints in different sensing methods and a sensor unit having a plurality of second sensors A first step of using the first sensor and the second sensor to multiply and sensing the same body part of a user in contact with or approaching the sensor part by respective sensing methods, The fingerprint pattern of the body part is generated as a basic authentication element by using one or more sensing data of the first sensing data and the second sensing data sensed through the second sensor while the first sensing data sensed by the first sensor (M > = 1) first sensor addition authentication elements based on the sensing method of the first sensor through the second sensor, (N > = 1) second sensor addition authentication elements based on the sensing method of the second sensor through the second sensing data, (1? I? M ≤ i ≤ N) included in common to the M first sensor additional authentication elements and N second sensor additional authentication elements when N second additional sensor authentication elements are generated, A fourth step of authenticating whether the fingerprint pattern corresponding to the basic authentication element is an actual fingerprint pattern of the living body, a third step of authenticating the fingerprint pattern corresponding to the basic authentication element, And a fifth step of generating an actual biometric fingerprint authentication result by combining the authentication result of the biometric fingerprint authentication result and the actual biometric authentication result.

According to the present invention, the actual biometric fingerprint authentication method may further include authenticating the actual biometric validity of the generated M first additional sensor authentication elements. Meanwhile, the actual biometric fingerprint authentication method may further include authenticating actual biometric validity of the generated N second additional authentication authentication elements.

According to the present invention, the fourth step may include authenticating the actual bio-validity of the i common authentication elements.

According to the present invention, the fourth step may include: i first sensor-side common authentication elements corresponding to the M first sensor additional authentication elements using the fingerprint pattern as a matching criterion and N first sensor- And the second sensor-side common authentication element corresponding to the second sensor-side common authentication element. Meanwhile, the mutual consistency may include a matching relationship between the configuration characteristic of the first sensor side common authentication element and the configuration characteristic of the second sensor side common authentication element. On the other hand, the mutual consistency may include an intersection relationship in which at least some constituent features of the constituent features of the first sensor-side common certifying element are matched with the constituting features of the second sensor-side common certifying element. On the other hand, the mutual consistency may include an intersection relationship in which at least some of the configuration features of the second sensor-side common authentication element are matched with the configuration characteristics of the first sensor-side common authentication element.

According to the present invention, the actual biometric fingerprint authentication method may further include authenticating the actual biometric validity of (M-i) additional authentication factors among the M first sensor additional authentication factors. Meanwhile, the actual biometric fingerprint authentication method may further include authenticating actual biometric validity of (N-i) additional authentication elements among the N second additional sensor authentication elements.

According to the present invention, the fingerprint pattern is used as identification means for identifying the user, and the additional authentication element is used as authentication means for authenticating that the body part of the user in contact with or proximate to the sensor unit is the actual living body of the user . Meanwhile, the fingerprint pattern may be used as identification means for identifying the user, and the common authentication element may be used as an authentication means for authenticating that the body part of the user in contact with or proximate to the sensor unit is the actual living body of the user himself / herself.

Meanwhile, an actual biometric fingerprint authentication method using a heterogeneous sensor according to the present invention is implemented through a device including a first sensor capable of sensing fingerprints in different sensing methods and a sensor unit having a plurality of second sensors A first step of processing the same body part of a user who touches or approaches the sensor part by using the first sensor and the second sensor in multiple sensing methods, A fingerprint pattern of the body part is generated as a basic authentication element using at least one of the first sensing data and the second sensing data sensed through the second sensor, (M > = 1) first sensor addition authentication elements based on the sensing method of the first sensor through the second sensor (N > = 1) second sensor addition authentication elements based on the sensing method of the second sensor through the sensed second sensing data; A third step of authenticating whether a fingerprint pattern corresponding to the basic authentication element is an actual fingerprint pattern using an authentication element and at least one of the N second additional sensor authentication elements; And a fourth step of generating an actual biometric fingerprint authentication result by combining the biometric authentication result and the actual biometric authentication result.

According to the present invention, a fingerprint is generated or authenticated by sensing fingerprints in different sensor units for sensing fingerprints, and additional authentication elements for each sensor corresponding to the respective sensing methods are additionally generated Authentication of all types of fingerprints, and hacking threats due to forgery and falsification are fundamentally blocked.

According to the present invention, a fingerprint is generated or authenticated by sensing fingerprints in different sensor units for sensing fingerprints, and additional authentication elements for each sensor corresponding to the respective sensing methods are additionally generated And then authenticating the common authentication elements commonly included in the additional authentication elements generated for each sensor to match and authenticate all types of fingerprint simulations and hacking threats by forgery and falsification.

According to the present invention, the fingerprint matching is used as the identification means for identifying the user, and the additional authentication element or the common authentication element for each sensor is used as the authentication means for authenticating the fingerprint of the actual user, There is an advantage of providing authentication at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a functional block diagram of an apparatus for authenticating a fingerprint of a living body using different types of sensors according to an embodiment of the present invention. FIG.
FIG. 2 is a diagram illustrating a process of authenticating a fingerprint of an actual living body using a heterogeneous sensor according to an embodiment of the present invention.
3 is a diagram illustrating a process of authenticating a fingerprint of a living body using different types of sensors according to another embodiment of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In other words, the following embodiments correspond to the preferred embodiment of the preferred embodiment of the present invention. In the following embodiments, a specific configuration (or step) is omitted, or a specific configuration (or step) (Or steps), or an embodiment that incorporates functions implemented in more than one configuration (or step) into any one configuration (or step), a particular configuration (or step) It will be apparent that the present invention is not limited to the embodiments described below.

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

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

1 is a diagram showing a functional configuration of an apparatus 100 for authenticating a fingerprint of a living body using different types of sensors according to an embodiment of the present invention.

1 shows a device 100 having a first sensor 110 capable of sensing fingerprints in different sensing systems and a sensor unit 105 having a plurality of second sensors 115 mounted thereon, The sensor 110 and the second sensor 115 are used in combination to sense the same body part of the user who comes into contact with or approaches the sensor part 105 by each sensing method, Each additional authentication element previously defined based on each sensing method other than the authentication element may be additionally generated to certify that the fingerprint pattern structure is a fingerprint pattern in which the fingerprint of the actual body is recognized or a fingerprint pattern commonly included in each additional authentication element FIG. 2 is a functional block diagram of a device 100 for authenticating whether a fingerprint pattern is a fingerprint pattern in which a fingerprint of a living body is recognized by matching and authenticating a common authentication element. One of ordinary skill in the art will be able to refer to and / or modify this drawing 1 to derive various implementations of the device 100 (e.g., omissions, subdivisions, or aggregation) However, the present invention is not limited to the above-described embodiments, and the technical features of the present invention are not limited only by the method shown in FIG.

The device 100 of the present invention is a general term for a configuration for recognizing and authenticating a fingerprint of a user's body part, and includes a variety of device types, modules (or chips) mounted on various devices, a distributed system And can be implemented in various forms.

According to a first embodiment of the present invention, the device 100 may be implemented in the form of various devices used by a user. For example, the device 100 may be implemented in the form of a terminal (e.g., a smart phone, a mobile phone, a tablet PC, a notebook PC, etc.), a recognition device, an authentication device, a door lock device, 1 may be implemented in the form of H / W, S / W, or a combination thereof mounted on each device.

According to a second embodiment of the present invention, the device 100 may be implemented in the form of a module (or chip) mounted on various devices used by the user. For example, the device 100 may be implemented in the form of a module (or chip) embedded in various devices such as a terminal, a recognition device, an authentication device, a door lock device, etc. used by a user, The configuration unit may be implemented in a form of H / W or S / W or a combination thereof mounted on the module (or chip), and in accordance with an implementation method, a part of the functional components shown in FIG. And the other part may be implemented on the device side on which the module (or chip) is mounted.

According to the third embodiment of the present invention, the apparatus 100 can be implemented in a distributed manner through a server on the network and various devices used by the user. For example, the device 100 may include various devices such as a terminal, a recognition device, an authentication device, a door lock device, and the like, used by a user, and a server on a network. And other parts may be implemented in a server on the network.

According to the fourth embodiment of the present invention, the apparatus 100 may be implemented in a form of partially combining two or more embodiments among the first to third embodiments. That is, the present invention is not limited to the method of implementing the device 100 or the embodiment, and it is evident that the present invention belongs to the scope of the present invention if the functions included in the claims are implemented in any form of function.

The apparatus 100 of the present invention includes a sensor unit 105 capable of sensing fingerprints in a hardware manner. According to the present invention, the sensor unit 105 multiplexes a first sensor 110 and a second sensor 115 capable of sensing fingerprints in different sensing methods. The sensor mounted on the sensor unit 105 may be any sensor capable of recognizing a fingerprint, such as an electrostatic sensor, an optical sensor, an ultrasonic sensor, and the like. Any sensor that is proposed / It is evident that sensors that can be sensed are usable as sensors of the present invention and belong to the scope of the rights.

Meanwhile, if the first sensor 110 and the second sensor 115 are sensors capable of recognizing fingerprints of any sensor, the fingerprints are sensed by different sensing methods although they are bound to the scope of the present invention . For example, the first sensor 110 senses the electrostatic capacity to recognize the fingerprint pattern structure, and at the same time, the sweating generated by the sweating generated in the living body sweating and sweating using the electrostatic capacity (for example, Sweating in a state of being in a crater of a crater of 1 mm or less, sweating less than 1 μL, sweating only in living organisms, and according to the applicant's experiment, repeating sweating and extinction in ms (millisecond) irrespective of a separate sweating induction) And the second sensor (115) recognizes the fingerprint pattern structure using ultrasonic waves, and at the same time, detects the three-dimensional structure of the fingerprint ridge and the bone using the ultrasonic waves, Position of the ultrasound sensor.

Referring to FIG. 1, the apparatus 100 includes a first sensor 110 and a second sensor 115 of the sensor unit 105, And a sensing unit 120 for sensing the same part of the body in each sensing manner. The first sensing data sensed by the first sensor 110 and the sensed data sensed by the second sensor 115 A fingerprint recognition unit 125 for generating a fingerprint pattern (for example, a feature point on a ridge pattern) of the body part as a basic authentication element using at least one sensed data among the two sensed data, A fingerprint storage unit 130 for generating a corresponding fingerprint template and storing the generated fingerprint template in a designated storage area, and a fingerprint matching unit 130 for authenticating the fingerprint pattern generated by the basic authentication factor using the user's fingerprint template previously stored in the designated storage area 135 ).

The sensing processing unit 120 senses the body part of the user through the first sensor 110 when the user's designated body part contacts or approaches the sensor unit 105, The first sensing data is acquired and the same body part of the user is sensed through the second sensor 115 according to the sensing method of the second sensor 115, 2 < / RTI > That is, the sensing processing unit 120 senses, for each of the actions that the user touches or approaches the designated body part to the sensor unit 105 through the first sensor 110 and the second sensor 115, And processes each sensing data at the same time according to the method.

When the first sensing data sensed from the first sensor 110 is obtained through the sensing processing unit 120, the fingerprint recognition unit 125 recognizes a fingerprint recognition algorithm corresponding to the sensing method of the first sensor 110 The first sensing data obtained through the sensing processing unit 120 is corrected to be pre-processable. Preferably, the fingerprint recognition unit 125 performs a smoothing process on the first sensing data obtained through the sensing processing unit 120, and the noise in the sensing process is removed through the smoothing process.

The fingerprint recognition unit 125 performs a preprocessing procedure for reading the corrected first sensing data obtained through the sensing processing unit 120. [ Preferably, the fingerprint recognition unit 125 performs a binarization process, a thinning process, and a directionality extraction process for the acquired / corrected first sensing data. The binarization procedure includes a procedure for distinguishing between a ridge portion and a valley portion on the first sensing data in black and white. The thinning procedure includes a process of distinguishing the width of the ridge on the binarized first sensing data by a line of a specified reference pixel (e.g., one pixel). The directional extraction procedure includes a process of extracting a relative direction of a ridge (e.g., a thin line) within the entire area of the binarized or thinned first sensing data.

The fingerprint recognition unit 125 reads the preprocessed first sensing data and generates a first fingerprint pattern including minutiae on the ridge pattern included in the first sensing data. Preferably, the feature point includes at least one of a start point, an end point, a branch point, a center point, and a delta, and may be a merge, a loop, a bridge, a cross, , Triangle, Break, Spur, Ladder, Double Break, Break & Merge, Iceland, and more. have.

Meanwhile, when the second sensing data sensed by the second sensor 115 is acquired through the sensing processing unit 120, the fingerprint recognition unit 125 recognizes the fingerprint corresponding to the sensing method of the second sensor 115 And the second sensing data obtained through the sensing processing unit 120 according to an algorithm. Preferably, the fingerprint recognition unit 125 performs a smoothing process on the second sensing data obtained through the sensing unit 120, and the noise in the sensing process is removed through the smoothing process.

The fingerprint recognition unit 125 performs a preprocessing procedure for reading the corrected second sensing data obtained through the sensing processing unit 120. [ Preferably, the fingerprint recognition unit 125 performs a binarization process, a thinning process, and a directionality extraction process for the acquired / corrected second sensing data. The binarization procedure includes a process of distinguishing black and white between a ridge portion and a valley portion on the second sensing data. The thinning procedure includes a process of distinguishing the width of the ridge on the binarized second sensing data by a line of a specified reference pixel (e.g., one pixel). The directional extraction procedure includes a procedure of extracting a relative direction of a ridge (e.g., a thin line) within the entire area of the binarized or thinned second sensing data.

The fingerprint recognition unit 125 reads the preprocessed second sensing data and generates a second fingerprint pattern including minutiae on the ridge pattern included in the second sensing data. Preferably, the feature point includes at least one of a start point, an end point, a branch point, a center point, and a delta, and may be a merge, a loop, a bridge, a cross, , Triangle, Break, Spur, Ladder, Double Break, Break & Merge, Iceland, and more. have.

According to the first fingerprint pattern embodiment of the present invention, when the first fingerprint pattern is generated using the first sensing data sensed by the first sensor 110, the fingerprint recognition unit 125 recognizes the first fingerprint pattern The first fingerprint pattern generated through the sensor 110 can be recognized as a fingerprint pattern that touches the sensor unit 105 or corresponds to a basic authentication element of a nearby user's body part.

According to the second fingerprint pattern embodiment of the present invention, when the second fingerprint pattern is generated using the second sensing data sensed by the second sensor 115, the fingerprint recognition unit 125 recognizes that the second The second fingerprint pattern generated through the sensor 115 can be recognized as a fingerprint pattern that touches the sensor unit 105 or corresponds to a basic authentication element of a nearby user's body part.

According to the third fingerprint pattern embodiment of the present invention, the first fingerprint pattern is generated using the first sensing data sensed by the first sensor 110, and the second fingerprint pattern generated through the second sensor 115 When the second fingerprint pattern is generated using the sensing data, the fingerprint recognition unit 125 corrects the second fingerprint pattern using the first fingerprint pattern, or corrects the first fingerprint pattern using the second fingerprint pattern A fingerprint pattern corresponding to a basic authentication element of the user's body part in contact with or proximate to the sensor unit 105 can be generated.

According to the fourth fingerprint pattern embodiment of the present invention, a first fingerprint pattern is generated using the first sensing data sensed by the first sensor 110 and a second fingerprint pattern is generated using the second sensing data sensed by the second sensor 115 When the second fingerprint pattern is generated using the sensing data, the fingerprint recognizing unit 125 recognizes the union of the first fingerprint pattern and the second fingerprint pattern with the sensor unit 105, It can be generated as a fingerprint pattern corresponding to the authentication factor.

According to the fifth fingerprint pattern embodiment of the present invention, the fingerprint recognition unit 125 may be configured to contact at least two of the first to fourth fingerprint pattern embodiments with the sensor unit 105 Or a fingerprint pattern corresponding to a basic authentication element of a nearby user's body part can be generated, and thus the present invention is not limited thereto.

When the user's fingerprint is registered, the fingerprint storage unit 130 generates a fingerprint template including the fingerprint patterns generated through at least one of the first to fifth fingerprint pattern embodiments, Can be stored. According to an embodiment of the present invention, in order to register a fingerprint of a user, the sensor unit 105 senses the same body part of the user (for example, the sensor unit 105 contacts the same body part, The fingerprint storage unit 130 includes a combination of fingerprint patterns repeatedly generated through at least one of the first through fifth fingerprint embodiments in the repeated process A fingerprint template can be created and stored in a designated storage area.

On the other hand, when authenticating the user's fingerprint, the fingerprint matching unit 135 compares the fingerprint pattern of the fingerprint template stored in the designated storage area with the generated fingerprint pattern through the fingerprint recognition unit 125, And generates an authentication result of the fingerprint pattern in which the pattern is matched.

Referring to FIG. 1, the apparatus 100 may include a predetermined M (M > = 1) sensor based on a sensing method of the first sensor 110 through first sensing data sensed by the first sensor 110, (N > = 1) number of authentication elements based on the sensing method of the second sensor 115 through the second sensing data sensed by the second sensor 115 An additional authentication element generation unit 140 for generating an additional authentication element for the first sensor and an additional authentication element for the second sensor, The biometric authentication apparatus according to claim 1, further comprising: an actual biometric authentication unit (150) for authenticating whether a fingerprint pattern is actually a fingerprint pattern of a living body, wherein a fingerprint pattern authentication result through the fingerprint matching unit (135) To combine the actual biometric fingerprint authentication Authentication for generating a result includes a processing unit 155.

The fingerprint recognition unit 125 may use at least one of the first sensing data sensed by the first sensor 110 and the second sensed data sensed through the second sensor 115, The additional authentication factor generation unit 140 generates the additional authentication factor using the first sensing data sensed by the first sensor 110 and the basic authentication factor of the first sensor 110, An attempt is made to generate M first additional sensor authentication elements based on the unique sensing method of the first sensor 110 in addition to the authentication element. For example, when the first sensor 110 is an electrostatic sensor that senses a capacitance and recognizes a fingerprint pattern, the additional authentication factor generation unit 140 may generate the first sensing data sensed by the electrostatic sensor An additional authentication factor such as a living body sweating, a minute sweating, and a pore position can be generated using the sensing value included in the authentication information. For example, the micro-swing senses K (K? 3) first sensing data in units of sensing time ms (milliseconds) specified through the sensing processing unit 120, (K + 1) -th sensing data by subtracting the k-th sensing data from the (k + 1) -th sensing data by matching the sensing values of the (k + Can be generated by reading an area having a value equal to or larger than a specified threshold value. (K + 1) -th sensing data by matching the sensing values of the first sensing data and the (k + 1) -th sensing data among the K first sensing data to the first sensing data And reading out an area having a value greater than or equal to a specified threshold value on Accumulated Subtraction data generated by subtraction. Alternatively, the porthole position may be generated by reading a region having a value equal to or greater than a specified threshold value (or below) of the ridge region on the first sensing data.

Meanwhile, the additional authentication element generating unit 140 generates the additional authentication factor generating unit 140 using the second sensing data sensed by the second sensor 115, An attempt is made to generate N predetermined second additional sensor authentication elements based on a unique sensing method. For example, when the second sensor 115 is an ultrasonic sensor that recognizes a fingerprint pattern by using ultrasonic waves, the additional authentication element generating unit 140 may generate the additional authentication factor, which is included in the second sensing data sensed by the ultrasonic sensor The sensing value can be used to generate additional authentication factors such as the fingerprint ridges and the three-dimensional structure of the ridge and the pore position.

The actual biometric authentication unit 150 may be configured to perform authentication of at least one of M first sensor additional authentication factors for the first sensor 110 and N second additional sensor authentication factors for the second sensor 115, Element can be used to authenticate whether the fingerprint pattern is a fingerprint pattern of a living body. In this case, the fingerprint pattern recognized by the fingerprint recognition unit 125 is used as an identification means for identifying a user, and the additional authentication element is a fingerprint pattern of a user's body part contacting or approaching the sensor unit 105, And is used as an authenticating means for authenticating that it is actually a living body.

According to the first actual biometric authentication embodiment of the present invention, if M first authentication additional elements specified in advance are attempted to be generated through the additional authentication element generation unit 140, If the fingerprint pattern recognized by the fingerprint recognition unit 125 based on whether M first sensor additional authentication elements previously defined based on the sensing method inherent to the first sensor 110 is normally generated, You can authenticate whether it is a pattern.

According to the second actual biometric authentication embodiment of the present invention, when M first sensor additional authentication elements previously designated through the additional authentication element generation unit 140 are generated, the actual biometric authentication unit 150 generates Authenticate the actual biometric validity of the M additional authentication elements for the first sensor 110 to verify that the fingerprint pattern recognized through the fingerprint recognition unit 125 is actually a fingerprint pattern of a living body. For example, if the first sensor 110 is an electrostatic sensor and the M additional authentication elements for the first sensor 110 are micro-sweating, the micro-sweating is swallowed only by a living human body, 150 can authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with a fingerprint pattern of a living body.

According to the third embodiment of the present invention, when the N second authentication additional elements are attempted to be generated in advance through the additional authentication element generation unit 140, If the fingerprint pattern recognized by the fingerprint recognition unit 125 based on whether or not N second additional sensor authentication elements previously defined based on the sensing method inherent to the second sensor 115 is normally generated, You can authenticate whether it is a pattern.

According to the fourth actual biometric authentication embodiment of the present invention, when N second additional sensor authentication elements previously designated through the additional authentication element generation unit 140 are generated, the actual biometric authentication unit 150 generates Authenticate the actual biometric validity of the N additional authentication elements for the two sensors 115 to verify that the fingerprint pattern recognized through the fingerprint recognition unit 125 is actually a biometric fingerprint pattern. For example, if the second sensor 115 is an electrostatic sensor and the N additional authentication elements for the second sensor 115 are micro-perspiration, the micro-perspiration is swallowed only by a living human body, 150 can authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with a fingerprint pattern of a living body.

The actual biometric authentication unit 150 may be configured to detect a fingerprint pattern recognized through the fingerprint recognition unit 125 based on at least one or at least two or more of the first to fourth actual biometric authentication embodiments, Thereby generating an actual biometric fingerprint authentication result authenticated as the actual fingerprint pattern of the living body.

The authentication result processing unit 155 confirms the fingerprint pattern authentication result of the fingerprint pattern authentication procedure performed through the fingerprint matching unit 135 and confirms the actual biometric authentication result generated through the actual biometric authentication unit 150 Then, the fingerprint pattern authentication result is combined with the actual biometric authentication result to generate an actual biometric fingerprint authentication result. Preferably, when the authentication of the fingerprint pattern is successfully performed through the fingerprint matching unit 135 and the authentication is actually successful in the living body through the actual authentication unit 150, the authentication result processing unit 155 obtains authentication information Generates an actual biometric fingerprint authentication result that determines that the fingerprint authentication is successful, and otherwise generates an actual biometric fingerprint authentication result corresponding to the authentication failure. The authentication result processing unit 155 processes the generated biometric fingerprint authentication result through the designated output means.

Referring to FIG. 1, when the M first sensor addition authentication elements and N second sensor addition authentication elements previously generated through the additional authentication element generation unit 140 are generated, A common authentication element confirmation unit 145 (i < i < i M < i < i < N) common authentication elements included in M first sensor additional authentication elements and N second additional sensor authentication elements And a real biometric authentication unit 150 for matching and authenticating the identified i common authentication elements to authenticate a fingerprint pattern corresponding to the basic authentication element as an actual fingerprint pattern of a living body. The fingerprint matching unit 135 And an authentication result processing unit 155 for generating an actual biometric fingerprint authentication result by combining the fingerprint pattern authentication result with the actual biometric authentication result through the actual biometric authentication unit 150. [

When M first sensor additional authentication elements are generated and N second additional sensor authentication elements are generated through the additional authentication element generation unit 140, 1 ≤ i ≤ N ≤ M ' included in common to M first sensor additional authentication elements corresponding to the first sensor & ) Common authentication elements. For example, when the first sensor 110 is the electrostatic sensor and the second sensor 115 is the ultrasonic sensor, the additional authentication element generation unit 140 generates fine authentication data using the first sensing data Three first-sensor-addition authentication elements including sweating, living body sweating, pore position, and the like are generated. Using the second sensing data, two second-sensor additional authentication elements including the fingerprint ridge and the three- In this case, the common authentication element confirmation unit 145 can identify the positions of the pores included in the first sensor addition authentication element and the second sensor addition authentication element as i common authentication elements have.

Meanwhile, if i common authentication elements included in the first sensor addition authentication element and the second sensor addition authentication element are confirmed through the common authentication element confirmation unit 145, the actual authentication unit 150 And verifies that the fingerprint pattern corresponding to the basic authentication element is a fingerprint pattern of a living body using the i common authentication elements identified above. In this case, the fingerprint pattern recognized by the fingerprint recognition unit 125 is used as an identification means for identifying a user, and the i common authentication elements are used when a body part of a user contacting or approaching the sensor unit 105 is a user And is used as an authentication means for authenticating that the person is actually a living body.

According to the fifth practical biometric authentication embodiment of the present invention, the actual biometric authentication unit 150 authenticates the actual biometric validity of the i common authentication factors with respect to the first sensor 110, 125) can be authenticated as a fingerprint pattern of a living body. . For example, if the first sensor 110 is an electrostatic sensor and the i common authentication elements for the first sensor 110 are in the position of a ridge on the ridge, the ridge on the ridge exists only in the actual human body, The authentication unit 150 can authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with a fingerprint pattern of a living body.

According to the sixth embodiment of the present invention, the actual biometric authentication unit 150 may include (Mi) additional authentication units other than the i common authentication units among the M additional authentication units for the first sensor 110, By authenticating the actual bio-validity of the authentication element, it is possible to authenticate that the fingerprint pattern recognized through the fingerprint recognition unit 125 is a fingerprint pattern of a living body. For example, if the first sensor 110 is an electrostatic sensor and the (Mi) additional authentication elements for the first sensor 110 are micro-swollen, the micro-sweating is sweated only in a living human body, The unit 150 can authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with a fingerprint pattern of a living body.

According to the seventh practical biometric authentication embodiment of the present invention, the actual biometric authentication unit 150 authenticates the actual biometric validity of the i common authentication factors for the second sensor 115, 125) can be authenticated as a fingerprint pattern of a living body. For example, if the second sensor 115 is an electrostatic sensor and the i common authentication elements for the second sensor 115 are in the position of a ridge on the ridge, the ridge on the ridge exists only in the actual human body, The authentication unit 150 can authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with a fingerprint pattern of a living body.

According to the eighth embodiment of the present invention, the actual biometric authentication unit 150 may include (Ni) additional authentication units other than the i common authentication units among the N additional authentication units for the second sensor 115, By authenticating the actual bio-validity of the authentication element, it is possible to authenticate that the fingerprint pattern recognized through the fingerprint recognition unit 125 is a fingerprint pattern of a living body. For example, if the second sensor 115 is an electrostatic sensor and the (Ni) additional authentication element for the second sensor 115 is a three-dimensional structure of fingerprint ridges and valleys, Dimensional structure is present only in the living body of the actual body part, the actual biometric authentication unit 150 can authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with the fingerprint pattern of the living body.

According to the ninth practical biometric authentication embodiment of the present invention, the actual biometric authentication unit 150 uses the fingerprint pattern as a matching criterion to determine i first sensors 110 corresponding to the M first sensor additional authentication elements ) Side common authentication element and the i second second sensor (115) side common authentication elements corresponding to the N second sensor addition authentication elements are authenticated, whereby the fingerprint recognized by the fingerprint recognition unit (125) It is possible to certify that the pattern is actually a fingerprint pattern of a living body. Here, the mutual consistency may include a matching relationship between the configuration characteristic of the common authentication element on the first sensor 110 side and the configuration characteristic of the common authentication element on the second sensor 115 side. Or mutual consistency may include an intersection relationship in which at least some of the configuration features of the common authentication elements of the first sensor 110 side are matched with the configuration characteristics of the common authentication elements of the second sensor 115 side. Or mutual consistency may include an intersection relationship in which at least some of the configuration features of the common authentication elements on the second sensor 115 side are matched with the configuration characteristics of the common authentication elements on the first sensor 110 side. For example, if the first sensor 110 is an electrostatic sensor and i common authentication elements for the first sensor 110 are portholes, and the second sensor 115 is an ultrasonic sensor, If the i common authentication elements for the first sensor 110 and the second sensor 115 are located at the pore position, the actual biometric authentication unit 150 determines the position of the pore for the first sensor 110 and the position of the pore for the second sensor 115, Or the pore position for the first sensor 110 is included in the pore position for the second sensor 115 within an allowable tolerance range, It is possible to authenticate the fingerprint pattern recognized through the fingerprint recognition unit 125 with a fingerprint pattern of a living body by authenticating that the position of the fingerprint sensor 120 is included in the position of the pawl for the first sensor 110 within an allowable tolerance range have.

According to the tenth actual biometric authentication embodiment of the present invention, the actual biometric authentication unit 150 may combine at least two embodiments among the first through ninth actual biometric authentication embodiments at least partially to the fingerprint recognition unit 125) can be authenticated as a fingerprint pattern of a living body.

Based on at least one of the first to tenth actual biometric authentication embodiments, the actual biometric authentication unit 150 determines whether the fingerprint pattern recognized through the fingerprint recognition unit 125 is an actual fingerprint pattern of a living body And generates an actual biometric fingerprint authentication result.

The authentication result processing unit 155 confirms the fingerprint pattern authentication result of the fingerprint pattern authentication procedure performed through the fingerprint matching unit 135 and confirms the actual biometric authentication result generated through the actual biometric authentication unit 150 Then, the fingerprint pattern authentication result is combined with the actual biometric authentication result to generate an actual biometric fingerprint authentication result. Preferably, when the authentication of the fingerprint pattern is successfully performed through the fingerprint matching unit 135 and the authentication is actually successful in the living body through the actual authentication unit 150, the authentication result processing unit 155 obtains authentication information Generates an actual biometric fingerprint authentication result that determines that the fingerprint authentication is successful, and otherwise generates an actual biometric fingerprint authentication result corresponding to the authentication failure. The authentication result processing unit 155 processes the generated biometric fingerprint authentication result through the designated output means.

2 is a view illustrating a process of authenticating a fingerprint of a living body using different types of sensors according to an embodiment of the present invention.

2 shows a device 100 having a first sensor 110 capable of sensing fingerprints in different sensing systems and a sensor unit 105 having a plurality of second sensors 115 mounted thereon, The sensor 110 and the second sensor 115 are used in combination to sense the same body part of the user who comes into contact with or approaches the sensor part 105 by each sensing method, The method further comprises the steps of generating additional authentication elements previously defined based on the respective sensing methods in addition to the authentication elements to authenticate whether the fingerprint pattern structure is a fingerprint pattern in which the fingerprint of the actual body is recognized. It is to be understood that those skilled in the art will understand that various changes and modifications may be made without departing from the scope of the present invention by referring to and / Would be able to infer how the embodiment), the present invention is made, including any exemplary way in which the inference, to which the technical feature that is not limited to the exemplary method shown in the figure 2.

Referring to FIG. 2, the apparatus 100 of the present invention includes a first sensor 110 and a second sensor 115 provided in a sensor unit 105, The same body part of the user is sensed by each sensing method to acquire first sensing data and second sensing data sensed by each sensing method (200).

When the first sensing data sensed from the first sensor 110 is obtained, the device 100 reads the first sensing data according to a fingerprint recognition algorithm corresponding to the sensing method of the first sensor 110 A first fingerprint pattern including feature points on a ridge pattern included in the first sensing data is generated and the second sensing data is read according to a fingerprint recognition algorithm corresponding to the sensing method of the second sensor 115, A second fingerprint pattern including minutiae points on the ridge pattern included in the second sensing data is generated and contacted with the sensor section 105 according to at least one of the first to fifth fingerprint pattern embodiments of the present invention Or generates a fingerprint pattern corresponding to a basic authentication element of the user body part in proximity (205).

If the fingerprint is registered, the device 100 generates a fingerprint template corresponding to the generated fingerprint pattern, and stores the generated fingerprint template in a designated storage area (210). If the fingerprint is authenticated, the device 100 compares the fingerprint pattern of the fingerprint temple stored in the designated storage area with the generated fingerprint pattern to perform a matching check (215) The authentication result of the fingerprint pattern that has been confirmed is generated (220).

Meanwhile, the fingerprint pattern of the body part may be used as a basic authentication element by using at least one of the first sensing data sensed through the first sensor 110 and the second sensed data sensed through the second sensor 115, The device 100 may use the first sensing data sensed by the first sensor 110 to generate the first sensor 110 in addition to the basic authentication element of the first sensor 110, (M) a first sensor additional authentication element based on a unique sensing scheme of the first sensor (110), and generates a second sensor additional authentication factor by using the second sensing data sensed by the second sensor (115) An attempt is made to generate 225 predetermined additional N second sensor authentication elements based on the unique sensing method of the second sensor 115 in addition to the basic authentication element of the second sensor 115. [ For example, when the first sensor 110 is an electrostatic sensor that senses a capacitance and recognizes a fingerprint pattern, the apparatus 100 may include a sensor (not shown) included in the first sensing data sensed by the electrostatic sensor, It is possible to generate 225 an additional authentication factor such as a living body sweating, a minute sweating, and a pore position using the value, and when the second sensor 115 is an ultrasonic sensor that recognizes a fingerprint pattern using ultrasonic waves, The controller 100 may generate 225 additional authentication factors such as the three-dimensional structure of the fingerprint ridge and the bone, the pore position, and the like using the sensing value included in the second sensing data sensed by the ultrasonic sensor.

If an additional authentication factor previously designated for each sensor is not generated, the device 100 generates and outputs an authentication result corresponding to the failure of the actual biometric fingerprint authentication regardless of the authentication result of the fingerprint pattern (245).

Meanwhile, when the M first sensor additional authentication elements and N second additional sensor authentication elements are generated, the apparatus 100 determines that M first sensor additional authentication elements for the first sensor 110, (230) using the at least one additional authentication element of the N second sensor addition authentication elements for the sensor 115 to determine whether the fingerprint pattern is a real fingerprint pattern. Preferably, the apparatus 100 may be configured such that based on at least one or at least two or more of the first through fourth actual biometric authentication embodiments of the present invention, the fingerprint pattern is an actual biometric fingerprint pattern (230).

The apparatus 100 generates an actual biometric authentication result including a result of authenticating that the fingerprint pattern is a fingerprint pattern of a living body, and combines the authentication result of the fingerprint pattern with the actual biometric authentication result, And generates and outputs an authentication result (240). Preferably, when the fingerprint pattern matching authentication is successful and the actual biometric authentication is successful, the device 100 generates and outputs an actual biometric fingerprint authentication result (240) that determines that the fingerprint recognized in the actual living body has been successfully authenticated, Otherwise, an actual biometric fingerprint authentication result corresponding to the authentication failure is generated and output (240).

FIG. 3 illustrates a process of authenticating a fingerprint of a living body using different types of sensors according to another embodiment of the present invention.

3 is a block diagram of a device 100 having a first sensor 110 capable of sensing fingerprints in different sensing systems and a sensor unit 105 having a plurality of second sensors 115 mounted thereon. The sensor 110 and the second sensor 115 are used in combination to sense the same body part of the user who comes into contact with or approaches the sensor part 105 by each sensing method, Each of the additional authentication factors preliminarily specified based on the respective sensing methods other than the authentication factor is additionally generated and then the common authentication factor commonly included in each additional authentication factor is matched and authenticated so that the fingerprint pattern structure recognizes the actual fingerprint 3 is a flowchart illustrating a process of authenticating a fingerprint pattern according to an embodiment of the present invention. Referring to FIG. 3, It is to be understood that the invention may be practiced otherwise than as specifically described herein, but it is to be understood that the invention may be practiced otherwise than as specifically described herein, The technical features are not limited by the method alone.

Referring to FIG. 3, the apparatus 100 of the present invention includes a first sensor 110 and a second sensor 115 provided in a sensor unit 105, The first sensing data and the second sensing data sensed by the respective sensing methods are acquired (step 300).

When the first sensing data sensed from the first sensor 110 is obtained, the device 100 reads the first sensing data according to a fingerprint recognition algorithm corresponding to the sensing method of the first sensor 110 A first fingerprint pattern including feature points on a ridge pattern included in the first sensing data is generated and the second sensing data is read according to a fingerprint recognition algorithm corresponding to the sensing method of the second sensor 115, A second fingerprint pattern including minutiae points on the ridge pattern included in the second sensing data is generated and contacted with the sensor section 105 according to at least one of the first to fifth fingerprint pattern embodiments of the present invention Or generates a fingerprint pattern corresponding to the basic authentication element of the user body part in proximity (305).

If the fingerprint is registered, the device 100 generates a fingerprint template corresponding to the generated fingerprint pattern and stores the generated fingerprint template in a designated storage area (310). If the fingerprint is authenticated, the device 100 compares the fingerprint pattern of the fingerprint temple stored in the designated storage area with the generated fingerprint pattern to perform a matching check (315) And generates an authentication result of the fingerprint pattern that has been confirmed (320).

Meanwhile, the fingerprint pattern of the body part may be used as a basic authentication element by using at least one of the first sensing data sensed through the first sensor 110 and the second sensed data sensed through the second sensor 115, The device 100 may use the first sensing data sensed by the first sensor 110 to generate the first sensor 110 in addition to the basic authentication element of the first sensor 110, (M-1) additional sensor authentication elements based on the unique sensing method of the first sensor 110 by using the second sensing data sensed by the second sensor 115 An attempt is made to generate 32 predetermined additional N second sensor addition authentication elements based on the unique sensing method of the second sensor 115 in addition to the basic authentication element of the second sensor 115. [ For example, when the first sensor 110 is an electrostatic sensor that senses a capacitance and recognizes a fingerprint pattern, the apparatus 100 may include a sensor (not shown) included in the first sensing data sensed by the electrostatic sensor, An additional authentication factor such as a living body sweating, a minute sweating, and a pore position can be generated (325) by using the value of the fingerprint sensor, and when the second sensor 115 is an ultrasonic sensor that recognizes a fingerprint pattern using ultrasonic waves, The controller 100 may generate additional authentication factors such as the three-dimensional structure of the fingerprint ridge and the bone, the pore position, and the like using the sensing value included in the second sensing data sensed through the ultrasonic sensor (325).

If an additional authentication factor previously designated for each sensor is not generated, the device 100 generates and outputs an authentication result corresponding to the failure of the actual biometric fingerprint authentication regardless of the authentication result of the fingerprint pattern (350).

Meanwhile, when the M first sensor additional authentication elements and N second additional sensor authentication elements are generated, the apparatus 100 generates M first sensor additional authentication elements corresponding to the first sensor 110, (1? I? M & 1? I? N) of common authentication elements commonly included in the N second sensor addition authentication elements corresponding to the two sensors 115 (330). For example, if the first sensor 110 is the electrostatic sensor and the second sensor 115 is the ultrasonic sensor, the device 100 may be configured to determine whether the first sensor additional authentication element and the second sensor additional authentication The positions of the pores commonly contained in the elements can be identified with i common authentication factors (330).

If the designated common authentication element is not confirmed, the apparatus 100 generates and outputs an authentication result corresponding to the failure of the actual biometric fingerprint authentication regardless of the authentication result of the fingerprint pattern (350).

On the other hand, if i common authentication elements included in common to the first sensor additional authentication element and the second sensor additional authentication element are identified, the apparatus 100 may separately authenticate the identified i common authentication elements and / Or mutual authentication, and authenticates whether the fingerprint pattern is a fingerprint pattern in which the fingerprint of the user's actual living body is recognized (335). Preferably, the apparatus 100 can authenticate whether the fingerprint pattern is a fingerprint pattern in which the fingerprint of the user's actual body is recognized according to at least one embodiment of the first to tenth actual biometric authentication embodiments of the present invention (335).

The apparatus 100 generates and outputs an actual biometric authentication result including a result of authenticating that the fingerprint pattern is a fingerprint pattern of a living body, combines the authentication result of the fingerprint pattern with the actual biometric authentication result, The authentication result is generated and output (345). Preferably, the apparatus 100 generates and outputs an actual biometric fingerprint authentication result that determines that the fingerprint recognized in the actual living body has been successfully authenticated (step 345) when the fingerprint pattern matching authentication is successful and the actual biometric authentication is successful, Otherwise, an actual biometric fingerprint authentication result corresponding to the authentication failure is generated and output (345).

100: Device 105: Sensor unit
110: first sensor 115: second sensor
120: sensing processing unit 125: fingerprint recognition unit
130: fingerprint storage unit 135: fingerprint registration unit
140: additional authentication element generation unit 145: common authentication element verification unit
150: actual biometric authentication unit 155: authentication result processing unit

Claims (18)

There is provided a method for performing a method through an apparatus having a first sensor capable of sensing a fingerprint in a different sensing manner and a sensor unit having a second sensor mounted in multiple ways,
A first step of processing the same body parts of a user in contact with or approaching the sensor part by using the first sensor and the second sensor in a sensing manner;
Generating a fingerprint pattern of the body part as a basic authentication element using at least one of first sensing data sensed by the first sensor and second sensed data sensed through the second sensor, (M > = 1) first sensor addition authentication elements based on the sensing method of the first sensor through the first sensing data sensed through the second sensor, (N > = 1) second sensor addition authentication elements based on the sensing method of the second sensor through the second step;
Wherein when M first sensor additional authentication elements and N second sensor additional authentication elements are generated, i (1 ≤ 1 & cir &) included in common to M first sensor additional authentication elements and N second sensor additional authentication elements, i ≤ M ≤ i ≤ N) common authentication elements;
A fourth step of matching authentication of the identified i common authentication elements and authenticating that the fingerprint pattern corresponding to the basic authentication element is an actual fingerprint pattern of a living body; And
And a fifth step of generating an actual biometric fingerprint authentication result by combining the authentication result of the fingerprint pattern and the actual biometric authentication result.
2. The method according to claim 1,
Generating a first fingerprint pattern using the first sensing data sensed by the first sensor and generating a second fingerprint pattern using the second sensing data sensed by the second sensor; And
Further comprising the step of correcting the second fingerprint pattern using the first fingerprint pattern or correcting the first fingerprint pattern using the second fingerprint pattern to generate a fingerprint pattern of the body part Actual biometric fingerprint authentication method using heterogeneous sensor.
2. The method according to claim 1,
Generating a first fingerprint pattern using the first sensing data sensed by the first sensor and generating a second fingerprint pattern using the second sensing data sensed by the second sensor; And
And generating a combination of the first fingerprint pattern and the second fingerprint pattern as a fingerprint pattern of the body part.
The method according to claim 1, 2, or 3,
And performing a matching authentication procedure for the generated fingerprint pattern of the body part.
The method according to claim 1,
Further comprising the step of authenticating the actual biometric validity of the M first sensor additional authentication factors to be generated.
The method according to claim 1,
Further comprising the step of authenticating the actual biometric validity of the generated N second additional authentication authentication elements.
The method as claimed in claim 1,
And authenticating the actual biometric validity of the i common authentication elements. ≪ Desc / Clms Page number 20 >
The method as claimed in claim 1,
The first sensor side common authentication element corresponding to the M first sensor additional authentication elements and the i second sensor side common authentication elements corresponding to the N second sensor additional authentication elements corresponding to the M first sensor additional authentication elements using the fingerprint pattern as a matching reference And authenticating mutual coherence between the authentication elements. The method according to claim 1,
9. The method of claim 8,
Wherein the authentication information includes a matching relationship between a configuration characteristic of the first sensor-side common authentication element and a configuration characteristic of the second sensor-side common authentication element.
9. The method of claim 8,
Side biometric authentication method using a heterogeneous sensor, characterized in that at least some constituent features of the first sensor-side common authentication element include an intersection relationship in which the constituent features of the second sensor-side common authentication element are matched with the constituent features of the second sensor- .
9. The method of claim 8,
Side biometric authentication method using a heterogeneous sensor, characterized in that at least some of the constituent features of the second sensor-side common authentication element include an intersection relationship in which the constituent features of the second sensor- .
The method according to claim 1,
Further comprising the step of authenticating actual bio-validity of (Mi) additional authentication elements among the M first sensor addition authentication elements.
The method according to claim 1,
Further comprising the step of authenticating the actual biometric validity of (Ni) additional authentication elements among the N second additional sensor authentication elements.
The method according to claim 1,
Wherein the fingerprint pattern is used as identification means for identifying the user,
Wherein the additional authentication element is used as an authentication means for authenticating that a body part of a user contacting or approaching the sensor unit is an actual living body of the user himself / herself.
The method according to claim 1,
Wherein the fingerprint pattern is used as identification means for identifying the user,
Wherein the common authentication element is used as authentication means for authenticating that a body part of a user in contact with or proximate to the sensor unit is an actual living body of the user himself / herself.
The method according to claim 1,
Wherein the first sensor includes an electrostatic sensor capable of recognizing at least one of a fine sweating, a living sweating, and a pore position using a capacitance by sensing a fingerprint pattern by sensing a capacitance,
Wherein the second sensor includes an ultrasonic sensor capable of recognizing a fingerprint pattern using ultrasonic waves and further recognizing at least one of a three-dimensional structure of fingerprint ridges and a bone and a position of a pore using ultrasound waves. Fingerprint authentication method using sensor of.
There is provided a method for performing a method through an apparatus having a first sensor capable of sensing a fingerprint in a different sensing manner and a sensor unit having a second sensor mounted in multiple ways,
A first step of processing the same body parts of a user in contact with or approaching the sensor part by using the first sensor and the second sensor in a sensing manner;
Generating a fingerprint pattern of the body part as a basic authentication element using at least one of first sensing data sensed by the first sensor and second sensed data sensed through the second sensor, (M > = 1) first sensor addition authentication elements based on the sensing method of the first sensor through the first sensing data sensed through the second sensor, (N > = 1) second sensor addition authentication elements based on the sensing method of the second sensor through the second step;
A third fingerprint pattern authentication unit for authenticating whether a fingerprint pattern corresponding to the basic authentication element is an actual fingerprint pattern using the M first sensor additional authentication factors and the N second additional sensor authentication factors, step; And
And a fourth step of generating an actual biometric fingerprint authentication result by combining the authentication result of the fingerprint pattern and the actual biometric authentication result.
18. The method of claim 17,
When the M first sensor addition authentication element and N second sensor addition authentication element are generated,
Confirming i (1? I? M & 1? I? N) common authentication elements commonly included in the M first sensor additional authentication elements and N second additional sensor authentication elements; And
Authenticating whether the fingerprint pattern corresponding to the basic authentication element is an actual fingerprint pattern of the living body by matching and authenticating the identified i common authentication elements,
Wherein the fourth step further comprises generating an actual biometric fingerprint authentication result by combining the authentication result of the fingerprint pattern and the actual biometric authentication result.

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