US20220309827A1 - A method and a device for verifying liveness of a finger - Google Patents
A method and a device for verifying liveness of a finger Download PDFInfo
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- US20220309827A1 US20220309827A1 US17/618,059 US202017618059A US2022309827A1 US 20220309827 A1 US20220309827 A1 US 20220309827A1 US 202017618059 A US202017618059 A US 202017618059A US 2022309827 A1 US2022309827 A1 US 2022309827A1
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- 230000007613 environmental effect Effects 0.000 description 6
- 238000012795 verification Methods 0.000 description 5
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/12—Fingerprints or palmprints
- G06V40/1382—Detecting the live character of the finger, i.e. distinguishing from a fake or cadaver finger
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/12—Fingerprints or palmprints
- G06V40/13—Sensors therefor
- G06V40/1318—Sensors therefor using electro-optical elements or layers, e.g. electroluminescent sensing
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/12—Fingerprints or palmprints
- G06V40/1365—Matching; Classification
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/12—Fingerprints or palmprints
- G06V40/1341—Sensing with light passing through the finger
Definitions
- the present patent application generally relates to the field of biometric verification. More particularly, it is presented a method for verifying authenticity of a finger of a user by capturing a fingerprint sample from a finger by using a sensor placed under a display and a system thereof.
- fingerprint recognition For verifying that a user of a mobile device is a legitimate user of the device. From recently launched mobile phones, it is well known to place a fingerprint sensor under the display of the mobile device for verifying the authenticity of the user. Usually, this is done by illuminate the finger with green light from the display and then reflect the light to the sensor. By illuminate the finger with light, energy is reflected by the finger and information related to a fingerprint sample is captured. The information is compared to a fingerprint template and the fingerprint recognition is verified as a match or a non-match.
- the fingerprint sensor is placed under the display, instead of being placed next to the display, there is no longer the same need to keep the fingerprint sensor small.
- the fingerprint sensor is preferably made as small as possible to provide for that as little space as possible on a front side of the mobile phone was needed to be set aside for the fingerprint sensor.
- the reflected light from the finger is to pass the display provided with light emitting elements before reaching the fingerprint sensor, which may affect the reflected light.
- a glass as well as a protective film placed on the glass may also be provided between the finger and the fingerprint sensor, which further may affect the reflected light.
- algorithms for determining liveness i.e. whether the finger is real or fake, may need to be adapted.
- a method for verifying liveness of a finger of a user by capturing a first fingerprint sample from the finger placed on a display by using a first sensor placed under the display may comprise:
- the first feature comprises scattered light from the finger
- the light transmitted from the display comprises a first light component with a first wavelength from a first area of the display.
- verifying liveness of a finger of a user may be performed in a more precise and secure manner. Different materials have different light scattering and therefore, by using the present method, it may be analyzed if the finger placed on the display belongs to a living person or if it is something else placed on the display.
- the method may further comprise capturing a second fingerprint sample by:
- the light transmitted from the display comprises a second light component with a second wavelength from a second area of the display.
- the first light transmitting display area can be divided into subareas, wherein the light transmitted from the different subareas comprises different light component with different wavelengths.
- the second light transmitting display area can be divided into subareas, wherein the light transmitted from the different subareas comprises different light component with different wavelengths.
- the step of transmitting light towards the first and/or second area of the finger may comprise determining environmental data for the user by using at least one second sensor; and adapting the light based on the environmental data.
- the step of identifying the first feature of the first and/or second fingerprint sample may comprise generating a composite fingerprint sample by using the reflected light from the first and/or second light component.
- the step of identifying the first feature of the first and/or second fingerprint sample may comprise generating the composite fingerprint sample by combining a plurality of generated fingerprint samples, wherein each generated fingerprint sample comprises different areas of the finger.
- the method may further comprise identifying a second feature of the first and/or second fingerprint sample from the finger by using the reflected light, wherein the second feature of the first and/or second fingerprint sample is based on a second feature area of the first and/or second fingerprint sample, wherein the second feature area is a subset of a first feature area of the first and/or second fingerprint sample used for identifying the first feature of the first and/or second fingerprint sample.
- the method may further comprise extracting scattered light features from the first fingerprint sample; retrieving a light scattering template; comparing the scattered light features with the light scattering template, and if a match is found, generating a liveness acceptance signal, else generating a liveness rejection signal.
- the method may further comprise extracting fingerprint features from the second fingerprint sample; retrieving a fingerprint template; comparing the fingerprint features with the fingerprint template, and if a match is found, generating a fingerprint match acceptance signal, else generating a fingerprint match rejection signal.
- fingerprint recognition may be performed in a more reliable and secure way since not only the fingerprint sample is compared to a fingerprint template but that also the scattered light is analyzed.
- a mobile device configured to capture a fingerprint sample from a finger of a user.
- the mobile device may comprise:
- a display configured to transmit light towards the finger
- a first sensor placed under the display, wherein the first sensor is configured to capture reflected light from the finger according to the method according to the first aspect, wherein the reflected light is transmitted through the display.
- the mobile device may further comprise at least one second sensor configured to determine environmental data for the user.
- a system configured to verify liveness of a finger of a user.
- the system may comprise:
- a mobile device equipped with a display and a first sensor, wherein the first sensor is placed under the display, the mobile device is configured to:
- the server comprising a control unit, a transceiver, and a memory, wherein the server is configured to:
- FIG. 1 generally illustrates a system for capturing a fingerprint sample from a finger of a user.
- FIG. 2 illustrates a cloud computer environment
- FIG. 3 a - d illustrates different ratios between a first sensor and a light transmitting display area of a display.
- FIG. 4 a - b generally illustrates a first and a second fingerprint sample.
- FIG. 5 generally illustrates a first and a second feature area of a fingerprint sample.
- FIG. 6 a - b generally illustrates capturing a fingerprint sample, wherein the finger is pressed against the display with different pressure.
- FIG. 7 illustrates a flow chart for verifying liveness of a finger of a user.
- the system 100 may comprise a mobile device and a finger 102 of a user.
- the mobile device may be equipped with a display 104 and a first sensor 106 .
- the first sensor 106 may be placed under the display 104 .
- the first sensor 106 may be placed within the display 104 .
- the display 104 may be configured to transmit light 112 towards the finger 102 .
- a display area covered by the finger 102 may provide the transmitted light 112 towards the finger 102 .
- the display area that may provide the transmitted light 112 is herein referred to as a light transmitting display area 108 .
- the whole display area, or a subset of the display area may be configured to act as the light transmitting display area 108 .
- the area of the finger 102 that may be illuminated by the light is herein referred to as a finger area.
- the light transmitting display area 108 may be smaller than the finger area. Alternatively, or in combination, the light transmitting display area 108 may be larger than the finger area.
- the light transmitting display area 108 may be equal to the finger area.
- the display 104 may be configured to transmit light 112 towards the total finger area, or towards a subset of the finger area, based on the size of the light transmitting display area 108 .
- the first sensor 106 may be configured to capture reflected light 114 from the finger 102 .
- the reflected light 114 may be transmitted through the display 104 .
- a total amount of the reflected light 114 , or a subset of the reflected light 114 may be transmitted through the light transmitting display area 108 .
- the first sensor 106 may be a fingerprint sensor.
- the mobile device may comprise a protective glass 110 .
- the protective glass 110 may be placed on top of the display 104 . Further, the protective glass 110 may in turn be provided with a protective film, even though not illustrated, to further reduce a risk of scratches. Both the protective glass 110 and the protective film may affect the reflected light 114 .
- the protective glass 110 is in first hand optimized with respect to the display 106 such that information displayed to the user is presented in an appealing way.
- FIG. 2 generally illustrates a cloud computer environment 200 .
- the cloud computer environment 200 may comprise a mobile device 202 , a server 204 , a database 206 and a network 208 .
- the mobile device 202 may further comprise a processor 210 and a memory 212 .
- the mobile device 202 may be configured to capture a fingerprint sample from a finger 102 of a user by using the first sensor 106 .
- the mobile device 202 may be a mobile phone.
- the mobile device 202 may be a smart card.
- the mobile device 202 may not be limited to these examples but can be any kind of mobile device 202 configured to capture the fingerprint sample.
- the mobile device may comprise at least a second sensor 214 .
- the second sensor 214 may be configured to adjust the screen brightness.
- the second sensor 214 may be configured to measure the outdoor temperature.
- the server 204 may be configured to store the fingerprint sample.
- the server 204 may be configured to receive and send information from/to the mobile device 202 and/or the database 206 .
- the database 206 may be configured to store the fingerprint sample.
- the database 206 may be configured to receive and send information from/to the mobile device 202 and/or the server 204 .
- the network 208 may be configured to enabling the communication between the mobile device 202 and the server 204 .
- the network 208 may be configured to enabling the communication between the mobile device 202 and the database 206 .
- the network 208 may be configured to enabling the communication between the server 204 and the database 206 .
- the display 104 may be configured to transmit light towards a finger 102 of a user.
- the display 104 may comprise a light transmitting display area 108 which is the part of the display 104 that may provide transmitted light towards the finger 102 .
- the transmitted light from the display 104 may comprise a light component with a wavelength.
- the light transmitting display area 108 may be divided into subareas of the light transmitting display area 108 . Different subareas may transmit the same light component towards the finger 102 . Alternatively, or in combination, different subareas may transmit different light components towards the finger 102 .
- different light components it is meant light components with different wavelengths, and hence, different energy.
- different parts of the finger 102 may be illuminated by different wavelengths.
- the different wavelengths may penetrate differently depth into the finger 102 and based on that, different information of the finger 102 may be captured.
- An advantages by using different light components with different wavelengths is that the body absorbs the energy of the different wavelengths differently well and different energy can penetrating into the skin with differently depth. Based on the above, different and complementary information can be captured and a more efficient and precise way of capturing fingerprint samples is achieved.
- the first sensor 106 may be configured to capture reflected light from the finger 102 .
- the first sensor 106 may be placed under the display 104 .
- the first sensor 106 may be placed within the display 104 .
- the first sensor 106 and the light transmitting display area 108 may be fully or partly overlapping.
- the first sensor 106 is larger than the light transmitting display area 108 .
- the first sensor 106 and the light transmitting display area 108 are of a circular shape. Neither the first sensor 106 nor the light transmitting display area may be limited to be of the circular shape.
- part of the reflected light may travel through the light transmitting display area 108 to the first sensor 106 while part of the reflected light may travel beside the light transmitting display area 108 , as illustrated in FIG. 3 b .
- This arrangement may be used when a subset of the finger area may be illuminated. By using this arrangement, scattered light from the finger may be captured in the fingerprint sample.
- a liveness verification of the finger may be performed. Liveness verification may increase the security when performing fingerprint recognition. Liveness verification of the finger may be discussed more in detail in FIG. 4 a - b and FIG. 7 .
- the first sensor 106 is smaller than the light transmitting display area 108 .
- all of the reflected light may travel through the light transmitting display area 108 to the first sensor 106 , as illustrated in FIG. 3 d .
- This arrangement may be used when the whole finger area may be illuminated.
- the fingerprint from the whole finger 102 may be captured in the fingerprint sample.
- Different ratio between the first sensor 106 and the light transmitting display area 108 may provide different and complementary information about the fingerprint sample. Alternatively, or in combination, this may provide different and complementary information about the ridges and/or valleys and/or swirls of the finger. Capturing different fingerprint samples by using different ratio between the first sensor 106 and the light transmitting display area 108 and/or different light components may provide a constitutive fingerprint sample comprising all information in one sample.
- a first and a second fingerprint sample 402 , 408 is illustrated by way of example.
- the first fingerprint sample 402 may have a first fingerprint area.
- the first fingerprint sample 402 may comprise a first fingerprint 404 and scattered light 406 from the finger.
- the light may scatter differently depending of the material the light is transmitting to and reflected from.
- the scattered light may occur in a different manner in the fingerprint sample 402 compared to upon there may be a real finger placed on the display.
- the spoof-material can be modeling clay, glue or paper.
- the spoof-material is not limited to these examples but can be any material used for creating fake fingerprints.
- the authenticity of the liveness of the finger may be analyzed.
- the scattered light may be compared to a light scattering template.
- the light scattering template may comprise information about how different light, with different wavelength, may behave in the finger 102 .
- the light scattering template may comprise information about how different light, with different wavelength, may behave in the spoof-material. If the comparison may be a match, the first fingerprint sample 402 may be a valid finger. Therefore, unlike today when machine learning or deep learning is used, may this solution, for verifying liveness of the finger, contribute to a more secure verification.
- the whole finger may have been illuminated by the light.
- the second fingerprint sample 408 may have a second fingerprint area.
- the first fingerprint area may be a subset of the second fingerprint area.
- the second fingerprint sample 408 may comprise a second fingerprint 410 .
- the first and second fingerprint sample 402 , 408 may be illuminated by the same light component. Alternatively, or in combination, the first and second fingerprint sample 402 , 408 may be illuminated by different light components with different wavelengths.
- FIG. 5 generally illustrates a fingerprint sample 500 from a finger 102 of a user.
- the fingerprint sample 500 may be in line with the first or second fingerprint sample 402 , 408 illustrated in FIG. 4 a - b .
- the fingerprint sample 500 may comprise a first feature area 502 and a second feature area 504 .
- the second feature area 504 may be a subset of the first feature area 502 .
- the first feature area 502 may comprise a first feature of the fingerprint sample 500 .
- the second feature area 504 may comprise a second feature of the fingerprint sample 500 .
- the second feature may be a subset of the first feature.
- the second feature area 504 may comprise information that may need to be further analyzed.
- the second feature area 504 may comprise information that may be characteristic for a specific user.
- the system for capturing a fingerprint sample discussed above may “learn the user” over time. The term learn the user should be interpreted as the system know where the characteristics for the specific user may be found in the fingerprint sample. Upon that may be the case, the system may only capture spot-checks of the fingerprint sample to verify the user.
- FIG. 6 a - b generally illustrates a system 600 for capturing a fingerprint sample.
- the system 600 is in line with the system 100 discussed in FIG. 1 .
- FIG. 6 a it is illustrated a finger 102 placed on the display 104 with a pressure X.
- FIG. 6 b it is illustrated the finger 102 placed on the display 104 with a pressure Y.
- the pressure X is smaller than the pressure Y.
- the height of the finger 102 illustrated in FIG. 6 a is larger than the height of the finger 102 illustrated in FIG. 6 b .
- the height of the finger 102 illustrated in FIG. 6 a is A and the height of the finger 102 illustrated in FIG. 6 b is B, thus, A is larger than B.
- the density may be higher as well.
- the energy, of the transmitted light, penetrating into the finger 102 may penetrate deeper upon the density is higher.
- the transmitted light may penetrate into the finger 102 differently depth based on the pressure from the finger 102 the user may put against to display.
- FIG. 7 is a flow chart generally illustrating an example of a method 700 for verifying authenticity of a finger of a user by capturing a first fingerprint sample 402 from the finger 102 .
- the first fingerprint sample 402 may be captured by using a first sensor 106 placed under a display 104 , wherein the user may place the finger 102 on the display 104 .
- the method 700 comprises the following steps.
- the light transmitting display area 108 may be smaller than the area of the first sensor 106 .
- the light transmitted from the display 104 may comprise a first light component with a first wavelength from a first area of the display 104 .
- the reflected light may be transmitted through the display 104 .
- the first feature of the first fingerprint sample 402 may comprise scattered light from the finger 102 .
- the method 700 may comprise capturing a second fingerprint sample 408 .
- the second fingerprint sample 408 may be captured by transmitting light, by using a second light transmitting display area of the display 104 , towards a second area of the finger 102 . Then, capturing reflected light from the finger 102 by the first sensor 106 , wherein the reflected light is transmitted through the display 104 . Thereafter, identifying a first feature of the second fingerprint sample 408 by using the reflected light.
- the light transmitted from the second light transmitting display area may comprise a second light component with a second wavelength from a second area of the display.
- the first and second light component may be the same light component with the same wavelength. Alternatively, or in combination, the first and second light component may be different light components with different wavelengths.
- the step of transmitting 702 light may comprise determining environmental data for the user.
- the environmental data may be determined by using at least one second sensor 214 . Based on the environmental data, the transmitted light may be adapted.
- the step of identifying 706 the first feature of the first and/or second fingerprint sample 402 , 408 may comprise generating a first and/or second composite fingerprint sample by using the reflected light from the first and/or second light component.
- the step of identifying 706 the first feature of the first and/or second fingerprint sample 402 , 408 may comprise generating the first and/or second composite fingerprint sample by combining a plurality of generated fingerprint samples. Each of the generated fingerprint sample may comprise different areas of the finger.
- the method 700 may further comprise identifying a second feature of the first and/or second fingerprint sample 402 , 408 from the finger 102 by using the reflected light.
- the second feature of the first and/or second fingerprint sample 402 , 408 may be based on a second feature area.
- the second feature area may be a subset of a first feature area, wherein the first feature area may be used for identifying the first feature of the first and/or second fingerprint sample.
- the method 700 may further comprise extracting scattered light features from the first fingerprint sample 402 . Retrieving a light scattering template. Thereafter, comparing the scattered light features with the light scattering template and if a match is found, generating a liveness acceptance signal, else generating a liveness rejection signal.
- the light scattering template may comprise information about how different light, with different wavelength, may behave in the finger 102 .
- the light scattering template may comprise information about how different light, with different wavelength, may behave in different spoof-materials.
- the method 700 may further comprise extracting fingerprint features from the second fingerprint sample 408 . Retrieving a fingerprint template. Thereafter, comparing the fingerprint features with the fingerprint template, and if a match is found, generating a fingerprint match acceptance signal, else generating a fingerprint match rejection signal.
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Abstract
A method (700) for verifying liveness of a finger (102) of a user by capturing a first fingerprint sample (402) from the finger (102) placed on a display (104) by using a first sensor (106) placed under the display (104). The method (700) may comprise transmitting (702) light, by using a first light transmitting display area of the display (104), towards a first area of the finger (102), wherein the first light transmitting display area (108) is smaller than a first sensor area; capturing (704) reflected light from the finger (102) by the first sensor (104), wherein the reflected light (114) is transmitted through the display (104); and identifying (706) a first feature of the first fingerprint sample (402) by using the reflected light (114), wherein the first feature comprises scattered light from the finger (102), wherein the light transmitted from the display (104) comprises a first light component with a first wavelength from a first area of the display (104).
Description
- The present patent application generally relates to the field of biometric verification. More particularly, it is presented a method for verifying authenticity of a finger of a user by capturing a fingerprint sample from a finger by using a sensor placed under a display and a system thereof.
- Today, it is common practice to use fingerprint recognition for verifying that a user of a mobile device is a legitimate user of the device. From recently launched mobile phones, it is well known to place a fingerprint sensor under the display of the mobile device for verifying the authenticity of the user. Usually, this is done by illuminate the finger with green light from the display and then reflect the light to the sensor. By illuminate the finger with light, energy is reflected by the finger and information related to a fingerprint sample is captured. The information is compared to a fingerprint template and the fingerprint recognition is verified as a match or a non-match.
- Due to that the fingerprint sensor is placed under the display, instead of being placed next to the display, there is no longer the same need to keep the fingerprint sensor small. When having the fingerprint sensor placed next to the display, the fingerprint sensor is preferably made as small as possible to provide for that as little space as possible on a front side of the mobile phone was needed to be set aside for the fingerprint sensor.
- Having the fingerprint sensor placed under the display may result in that new algorithms for capturing the information related to the fingerprint sample must be developed to make sure that reliable and fast fingerprint recognition can be provided. For instance, the reflected light from the finger is to pass the display provided with light emitting elements before reaching the fingerprint sensor, which may affect the reflected light. Further, a glass as well as a protective film placed on the glass may also be provided between the finger and the fingerprint sensor, which further may affect the reflected light. In addition, to compensate for that the reflected light may be affected on its way from the finger to the fingerprint sensor in a different way than for fingerprint sensor not placed under the display, algorithms for determining liveness, i.e. whether the finger is real or fake, may need to be adapted.
- Today when assessing liveness it is known to involve texture analysis combined by machine learning or deep learning based methods that do image and/or texture analysis classification at once.
- Even if there are known solutions for placing a fingerprint sensor under the display of a mobile device, there is still a need to for methods and hardware arrangements that can ensure that the authenticity of the user is determined reliably and fast.
- It is an object to at least partly overcome one or more of the above-identified limitations of the prior art. In particular, it is an object to provide a method that handles different pressures more reliable and perform more secure and precise fingerprint samples.
- According to a first aspect it is provided a method for verifying liveness of a finger of a user by capturing a first fingerprint sample from the finger placed on a display by using a first sensor placed under the display. The method may comprise:
- transmitting light, by using a first light transmitting display area of the display, towards a first area of the finger, wherein the first light transmitting display area is smaller than a first sensor area;
- capturing reflected light from the finger by the first sensor, wherein the reflected light is transmitted through the display; and
- identifying a first feature of the first fingerprint sample by using the reflected light, wherein the first feature comprises scattered light from the finger,
- wherein the light transmitted from the display comprises a first light component with a first wavelength from a first area of the display.
- By using the present method, verifying liveness of a finger of a user may be performed in a more precise and secure manner. Different materials have different light scattering and therefore, by using the present method, it may be analyzed if the finger placed on the display belongs to a living person or if it is something else placed on the display.
- The method may further comprise capturing a second fingerprint sample by:
- transmitting light, by using a second light transmitting display area of the display, towards a second area of the finger;
- capturing reflected light from the finger by the first sensor, wherein the reflected light is transmitted through the display; and
- identifying a first feature of the second fingerprint sample by using the reflected light,
- wherein the light transmitted from the display comprises a second light component with a second wavelength from a second area of the display.
- The first light transmitting display area can be divided into subareas, wherein the light transmitted from the different subareas comprises different light component with different wavelengths. The second light transmitting display area can be divided into subareas, wherein the light transmitted from the different subareas comprises different light component with different wavelengths.
- The step of transmitting light towards the first and/or second area of the finger may comprise determining environmental data for the user by using at least one second sensor; and adapting the light based on the environmental data.
- The step of identifying the first feature of the first and/or second fingerprint sample may comprise generating a composite fingerprint sample by using the reflected light from the first and/or second light component.
- The step of identifying the first feature of the first and/or second fingerprint sample may comprise generating the composite fingerprint sample by combining a plurality of generated fingerprint samples, wherein each generated fingerprint sample comprises different areas of the finger.
- The method may further comprise identifying a second feature of the first and/or second fingerprint sample from the finger by using the reflected light, wherein the second feature of the first and/or second fingerprint sample is based on a second feature area of the first and/or second fingerprint sample, wherein the second feature area is a subset of a first feature area of the first and/or second fingerprint sample used for identifying the first feature of the first and/or second fingerprint sample.
- The method may further comprise extracting scattered light features from the first fingerprint sample; retrieving a light scattering template; comparing the scattered light features with the light scattering template, and if a match is found, generating a liveness acceptance signal, else generating a liveness rejection signal.
- The method may further comprise extracting fingerprint features from the second fingerprint sample; retrieving a fingerprint template; comparing the fingerprint features with the fingerprint template, and if a match is found, generating a fingerprint match acceptance signal, else generating a fingerprint match rejection signal.
- By using the present method, fingerprint recognition may be performed in a more reliable and secure way since not only the fingerprint sample is compared to a fingerprint template but that also the scattered light is analyzed.
- According to a second aspect, a mobile device configured to capture a fingerprint sample from a finger of a user is provided. The mobile device may comprise:
- a display configured to transmit light towards the finger; and
- a first sensor placed under the display, wherein the first sensor is configured to capture reflected light from the finger according to the method according to the first aspect, wherein the reflected light is transmitted through the display.
- The mobile device may further comprise at least one second sensor configured to determine environmental data for the user.
- According to a third aspect it is provided a system configured to verify liveness of a finger of a user. The system may comprise:
- a mobile device equipped with a display and a first sensor, wherein the first sensor is placed under the display, the mobile device is configured to:
-
- capture a first fingerprint sample according to the first aspect;
- send the first fingerprint sample to a server;
- the server comprising a control unit, a transceiver, and a memory, wherein the server is configured to:
-
- receive the first fingerprint sample;
- receive a light scattering template;
- execute an extraction function configured to extract scattered light features from the first fingerprint sample;
- execute a comparison function configured to compare the scattered light features with the light scattering template, and if a match is found, generate a liveness acceptance signal to the mobile device, else
- generate a liveness rejection signal to the mobile device. Effects and features of the second and third aspects are largely analogous to those described above in connection with the first aspect. Embodiments mentioned in relation to the first aspect are largely compatible with the second and third aspect. It is further noted that the inventive concepts relate to all possible combinations of features unless explicitly stated otherwise. A further scope of applicability of the present invention will become apparent from the detailed description given below. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the scope of the invention will become apparent to those skilled in the art from this detailed description.
- Hence, it is to be understood that this invention is not limited to the particular component parts of the device described or steps of the methods described as such device and method may vary. It is also to be understood that the terminology used herein is for purpose of describing particular embodiments only and is not intended to be limiting. It must be noted that, as used in the specification and the appended claim, the articles “a”, “an”, “the”, and “said” are intended to mean that there are one or more of the elements unless the context clearly dictates otherwise. Thus, for example, reference to “a unit” or “the unit” may include several devices, and the like. Furthermore, the words “comprising”, “including”, “containing” and similar wordings does not exclude other elements or steps.
- Embodiments will now be described, by way of example, with reference to the accompanying schematic drawings, in which
-
FIG. 1 generally illustrates a system for capturing a fingerprint sample from a finger of a user. -
FIG. 2 illustrates a cloud computer environment. -
FIG. 3a-d illustrates different ratios between a first sensor and a light transmitting display area of a display. -
FIG. 4a-b generally illustrates a first and a second fingerprint sample. -
FIG. 5 generally illustrates a first and a second feature area of a fingerprint sample. -
FIG. 6a-b generally illustrates capturing a fingerprint sample, wherein the finger is pressed against the display with different pressure. -
FIG. 7 illustrates a flow chart for verifying liveness of a finger of a user. - With reference to
FIG. 1 , an overview of asystem 100 for capturing a fingerprint sample from afinger 102 of a user is illustrated by way of example. Thesystem 100 may comprise a mobile device and afinger 102 of a user. The mobile device may be equipped with adisplay 104 and afirst sensor 106. According to one example, thefirst sensor 106 may be placed under thedisplay 104. According to another example, thefirst sensor 106 may be placed within thedisplay 104. - The
display 104 may be configured to transmit light 112 towards thefinger 102. Upon the user may place itsfinger 102 on the display, a display area covered by thefinger 102 may provide the transmitted light 112 towards thefinger 102. The display area that may provide the transmittedlight 112 is herein referred to as a light transmittingdisplay area 108. The whole display area, or a subset of the display area, may be configured to act as the light transmittingdisplay area 108. The area of thefinger 102 that may be illuminated by the light is herein referred to as a finger area. The lighttransmitting display area 108 may be smaller than the finger area. Alternatively, or in combination, the light transmittingdisplay area 108 may be larger than the finger area. Alternatively, or in combination, the light transmittingdisplay area 108 may be equal to the finger area. In other words, thedisplay 104 may be configured to transmit light 112 towards the total finger area, or towards a subset of the finger area, based on the size of the light transmittingdisplay area 108. - The
first sensor 106 may be configured to capture reflected light 114 from thefinger 102. The reflected light 114 may be transmitted through thedisplay 104. A total amount of the reflectedlight 114, or a subset of the reflectedlight 114, may be transmitted through the light transmittingdisplay area 108. By way of example, thefirst sensor 106 may be a fingerprint sensor. - Further, the mobile device may comprise a
protective glass 110. Theprotective glass 110 may be placed on top of thedisplay 104. Further, theprotective glass 110 may in turn be provided with a protective film, even though not illustrated, to further reduce a risk of scratches. Both theprotective glass 110 and the protective film may affect the reflectedlight 114. Worth mentioning is also that theprotective glass 110 is in first hand optimized with respect to thedisplay 106 such that information displayed to the user is presented in an appealing way. -
FIG. 2 generally illustrates acloud computer environment 200. Thecloud computer environment 200 may comprise amobile device 202, aserver 204, adatabase 206 and anetwork 208. - In addition to what have been discussed above, the
mobile device 202 may further comprise aprocessor 210 and amemory 212. Themobile device 202 may be configured to capture a fingerprint sample from afinger 102 of a user by using thefirst sensor 106. According to an example, themobile device 202 may be a mobile phone. According to another example, themobile device 202 may be a smart card. Themobile device 202 may not be limited to these examples but can be any kind ofmobile device 202 configured to capture the fingerprint sample. Further, the mobile device may comprise at least asecond sensor 214. By way of example, thesecond sensor 214 may be configured to adjust the screen brightness. By way of example, thesecond sensor 214 may be configured to measure the outdoor temperature. - The
server 204 may be configured to store the fingerprint sample. Theserver 204 may be configured to receive and send information from/to themobile device 202 and/or thedatabase 206. Alternatively, or in combination, thedatabase 206 may be configured to store the fingerprint sample. Thedatabase 206 may be configured to receive and send information from/to themobile device 202 and/or theserver 204. Thenetwork 208 may be configured to enabling the communication between themobile device 202 and theserver 204. Alternatively, or in combination, thenetwork 208 may be configured to enabling the communication between themobile device 202 and thedatabase 206. Alternatively, or in combination, thenetwork 208 may be configured to enabling the communication between theserver 204 and thedatabase 206. - With reference to
FIG. 3a-3d , amobile device 202 equipped with adisplay 104 and afirst sensor 106 is illustrated by way of examples. Thedisplay 104 may be configured to transmit light towards afinger 102 of a user. Thedisplay 104 may comprise a lighttransmitting display area 108 which is the part of thedisplay 104 that may provide transmitted light towards thefinger 102. The transmitted light from thedisplay 104 may comprise a light component with a wavelength. The lighttransmitting display area 108 may be divided into subareas of the light transmittingdisplay area 108. Different subareas may transmit the same light component towards thefinger 102. Alternatively, or in combination, different subareas may transmit different light components towards thefinger 102. By the term different light components, it is meant light components with different wavelengths, and hence, different energy. Upon that may be the case, different parts of thefinger 102 may be illuminated by different wavelengths. Thus, the different wavelengths may penetrate differently depth into thefinger 102 and based on that, different information of thefinger 102 may be captured. - An advantages by using different light components with different wavelengths is that the body absorbs the energy of the different wavelengths differently well and different energy can penetrating into the skin with differently depth. Based on the above, different and complementary information can be captured and a more efficient and precise way of capturing fingerprint samples is achieved.
- The
first sensor 106 may be configured to capture reflected light from thefinger 102. Thefirst sensor 106 may be placed under thedisplay 104. Thefirst sensor 106 may be placed within thedisplay 104. Thefirst sensor 106 and the light transmittingdisplay area 108 may be fully or partly overlapping. - According to an example, as illustrated in
FIGS. 3a and 3b , thefirst sensor 106 is larger than the lighttransmitting display area 108. Thefirst sensor 106 and the light transmittingdisplay area 108 are of a circular shape. Neither thefirst sensor 106 nor the light transmitting display area may be limited to be of the circular shape. By using this arrangement, part of the reflected light may travel through the light transmittingdisplay area 108 to thefirst sensor 106 while part of the reflected light may travel beside the light transmittingdisplay area 108, as illustrated inFIG. 3b . This arrangement may be used when a subset of the finger area may be illuminated. By using this arrangement, scattered light from the finger may be captured in the fingerprint sample. Upon comparing the scattered light with characteristics for scattered light for fingers, a liveness verification of the finger may be performed. Liveness verification may increase the security when performing fingerprint recognition. Liveness verification of the finger may be discussed more in detail inFIG. 4a-b andFIG. 7 . - According to another example, as illustrated in
FIGS. 3c and 3d , thefirst sensor 106 is smaller than the lighttransmitting display area 108. By using this arrangement, all of the reflected light may travel through the light transmittingdisplay area 108 to thefirst sensor 106, as illustrated inFIG. 3d . This arrangement may be used when the whole finger area may be illuminated. By using this arrangement, the fingerprint from thewhole finger 102 may be captured in the fingerprint sample. - Different ratio between the
first sensor 106 and the light transmittingdisplay area 108 may provide different and complementary information about the fingerprint sample. Alternatively, or in combination, this may provide different and complementary information about the ridges and/or valleys and/or swirls of the finger. Capturing different fingerprint samples by using different ratio between thefirst sensor 106 and the light transmittingdisplay area 108 and/or different light components may provide a constitutive fingerprint sample comprising all information in one sample. - With reference to
FIG. 4a-b , a first and asecond fingerprint sample - According to the
first fingerprint sample 402, only part of thefinger 102 may have been illuminated by the light. Thefirst fingerprint sample 402 may have a first fingerprint area. Thefirst fingerprint sample 402 may comprise afirst fingerprint 404 and scattered light 406 from the finger. The light may scatter differently depending of the material the light is transmitting to and reflected from. By way of example, upon there may be a piece of spoof-material placed on the display instead of a real finger, the scattered light may occur in a different manner in thefingerprint sample 402 compared to upon there may be a real finger placed on the display. By way of example, the spoof-material can be modeling clay, glue or paper. The spoof-material is not limited to these examples but can be any material used for creating fake fingerprints. By analyzing thescattered light 406 of the fingerprint sample, the authenticity of the liveness of the finger may be analyzed. By way of example, the scattered light may be compared to a light scattering template. The light scattering template may comprise information about how different light, with different wavelength, may behave in thefinger 102. The light scattering template may comprise information about how different light, with different wavelength, may behave in the spoof-material. If the comparison may be a match, thefirst fingerprint sample 402 may be a valid finger. Therefore, unlike today when machine learning or deep learning is used, may this solution, for verifying liveness of the finger, contribute to a more secure verification. - According to the
second fingerprint sample 408, the whole finger may have been illuminated by the light. Thesecond fingerprint sample 408 may have a second fingerprint area. The first fingerprint area may be a subset of the second fingerprint area. Thesecond fingerprint sample 408 may comprise asecond fingerprint 410. The first andsecond fingerprint sample second fingerprint sample -
FIG. 5 generally illustrates afingerprint sample 500 from afinger 102 of a user. By way of example, thefingerprint sample 500 may be in line with the first orsecond fingerprint sample FIG. 4a-b . Thefingerprint sample 500 may comprise afirst feature area 502 and asecond feature area 504. Thesecond feature area 504 may be a subset of thefirst feature area 502. Thefirst feature area 502 may comprise a first feature of thefingerprint sample 500. Thesecond feature area 504 may comprise a second feature of thefingerprint sample 500. The second feature may be a subset of the first feature. - The
second feature area 504 may comprise information that may need to be further analyzed. Thesecond feature area 504 may comprise information that may be characteristic for a specific user. The system for capturing a fingerprint sample discussed above may “learn the user” over time. The term learn the user should be interpreted as the system know where the characteristics for the specific user may be found in the fingerprint sample. Upon that may be the case, the system may only capture spot-checks of the fingerprint sample to verify the user. -
FIG. 6a-b generally illustrates asystem 600 for capturing a fingerprint sample. Thesystem 600 is in line with thesystem 100 discussed inFIG. 1 . - In
FIG. 6a , it is illustrated afinger 102 placed on thedisplay 104 with a pressure X. InFIG. 6b , it is illustrated thefinger 102 placed on thedisplay 104 with a pressure Y. Herein, the pressure X is smaller than the pressure Y. As a consequence, the height of thefinger 102 illustrated inFIG. 6a is larger than the height of thefinger 102 illustrated inFIG. 6b . The height of thefinger 102 illustrated inFIG. 6a is A and the height of thefinger 102 illustrated inFIG. 6b is B, thus, A is larger than B. - Upon the user may press the
finger 102 against the display with a higher pressure, the density may be higher as well. As a consequence, the energy, of the transmitted light, penetrating into thefinger 102 may penetrate deeper upon the density is higher. - Thus, the transmitted light may penetrate into the
finger 102 differently depth based on the pressure from thefinger 102 the user may put against to display. - Upon the light penetrates differently deep into the
finger 102, different information about thefinger 102 may be captured. -
FIG. 7 is a flow chart generally illustrating an example of amethod 700 for verifying authenticity of a finger of a user by capturing afirst fingerprint sample 402 from thefinger 102. Thefirst fingerprint sample 402 may be captured by using afirst sensor 106 placed under adisplay 104, wherein the user may place thefinger 102 on thedisplay 104. Themethod 700 comprises the following steps. - First, transmitting 702 light, by using a light transmitting
display area 108 of thedisplay 104, towards a first area of thefinger 102. The lighttransmitting display area 108 may be smaller than the area of thefirst sensor 106. The light transmitted from thedisplay 104 may comprise a first light component with a first wavelength from a first area of thedisplay 104. - Thereafter, capturing 704 reflected light from the
finger 102 by thefirst sensor 106. The reflected light may be transmitted through thedisplay 104. - Then, identifying 706 a first feature of the
fingerprint sample 402 from thefinger 102 by using the reflected light. The first feature of thefirst fingerprint sample 402 may comprise scattered light from thefinger 102. - Optionally, the
method 700 may comprise capturing asecond fingerprint sample 408. Thesecond fingerprint sample 408 may be captured by transmitting light, by using a second light transmitting display area of thedisplay 104, towards a second area of thefinger 102. Then, capturing reflected light from thefinger 102 by thefirst sensor 106, wherein the reflected light is transmitted through thedisplay 104. Thereafter, identifying a first feature of thesecond fingerprint sample 408 by using the reflected light. The light transmitted from the second light transmitting display area may comprise a second light component with a second wavelength from a second area of the display. The first and second light component may be the same light component with the same wavelength. Alternatively, or in combination, the first and second light component may be different light components with different wavelengths. - Further, the step of transmitting 702 light may comprise determining environmental data for the user. The environmental data may be determined by using at least one
second sensor 214. Based on the environmental data, the transmitted light may be adapted. - The step of identifying 706 the first feature of the first and/or
second fingerprint sample second fingerprint sample - Alternatively, or in combination, the
method 700 may further comprise identifying a second feature of the first and/orsecond fingerprint sample finger 102 by using the reflected light. The second feature of the first and/orsecond fingerprint sample - Alternatively, or in combination, the
method 700 may further comprise extracting scattered light features from thefirst fingerprint sample 402. Retrieving a light scattering template. Thereafter, comparing the scattered light features with the light scattering template and if a match is found, generating a liveness acceptance signal, else generating a liveness rejection signal. The light scattering template may comprise information about how different light, with different wavelength, may behave in thefinger 102. The light scattering template may comprise information about how different light, with different wavelength, may behave in different spoof-materials. - Alternatively, or in combination, the
method 700 may further comprise extracting fingerprint features from thesecond fingerprint sample 408. Retrieving a fingerprint template. Thereafter, comparing the fingerprint features with the fingerprint template, and if a match is found, generating a fingerprint match acceptance signal, else generating a fingerprint match rejection signal. - From the description above follows that, although various embodiments of the invention have been described and shown, the invention is not restricted thereto, but may also be embodied in other ways within the scope of the subject-matter defined in the following claims.
Claims (14)
1.-12. (canceled)
13. A method for verifying liveness of a finger of a user, the method comprising:
capturing a fingerprint sample from the finger placed on a display by using a first sensor placed within or under the display;
extracting scattered light features from the fingerprint sample;
comparing the scattered light features with a light scattering template; and
if a match is found, generating a liveness acceptance signal, else generating a liveness rejection signal;
wherein capturing the fingerprint sample involves
transmitting light of a first light component with a first wavelength from the display towards the finger, and
capturing light reflected from the finger by the first sensor, wherein the reflected light is transmitted through the display.
14. The method according to claim 13 , wherein capturing the fingerprint sample comprises:
transmitting light, from a first light transmitting display area of the display, towards the finger, wherein the first light transmitting display area is divided into subareas, wherein the light transmitted from the different subareas comprises different light components with different wavelengths; and
capturing light reflected from the finger by the first sensor, wherein the reflected light is transmitted through the display.
15. The method according to claim 13 , wherein capturing the fingerprint sample comprises:
capturing a first fingerprint sample by
transmitting light of a first light component with a first wavelength from the display towards the finger, and
capturing light reflected from the finger by the first sensor, wherein the reflected light is transmitted through the display;
capturing a second fingerprint sample by
transmitting light of a second light component with a second wavelength from the display towards the finger, and
capturing light reflected from the finger by the first sensor wherein the reflected light is transmitted through the display; and
generating the fingerprint sample from the first and the second fingerprint samples as a composite fingerprint sample of the first and the second fingerprint samples.
16. The method according to claim 13 , further comprising:
determining a surrounding temperature and/or a surrounding brightness; and
determining the wavelength(s) to be used in the step of transmitting light towards the finger based on the surrounding temperature and/or the surrounding brightness.
17. The method according to claim 13 , wherein the light scattering template comprises information about how light with different wavelength behave in the finger.
18. The method according to claim 17 , wherein the light scattering template further comprises information about how light with different wavelength behave in different spoof-materials.
19. The method according to claim 13 , wherein capturing the fingerprint sample comprises illuminating only a part of the finger.
20. A mobile device configured to verify liveness of a finger of a user, the mobile device comprising:
a display configured to transmit light towards the finger placed on the display, wherein the light includes a first light component with a first wavelength;
a first sensor placed under or within the display, wherein the first sensor is configured to capture a fingerprint sample from the finger placed on the display; and
a processor configured to
extract scattered light features from the first fingerprint sample,
compare the scattered light features with a light scattering template, and
if a match is found, generate a liveness acceptance signal, else generate a liveness rejection signal.
21. The mobile device according to claim 20 , further comprising a second sensor configured to determine a surrounding temperature and/or a surrounding brightness;
wherein the first wavelength is determined based on the surrounding temperature and/or the surrounding brightness.
22. The mobile device according to claim 20 , wherein the light scattering template comprises information about how light with different wavelength behave in the finger.
23. The mobile device according to claim 22 , wherein the light scattering template further comprises information about how light with different wavelength behave in different spoof-materials.
24. The mobile device according to claim 20 , wherein the display is configured to transmit light towards only a part of the finger placed on the display.
25. A system configured to verify liveness of a finger of a user, the system comprising a mobile device and a server;
the mobile device including
a display configured to transmit light towards the finger placed on the display, wherein the light comprises a first light component with a first wavelength, and
a first sensor placed under or within the display, wherein the first sensor is configured to capture a fingerprint sample from the finger placed on the display,
wherein the mobile device is configured to send the first fingerprint sample to the server;
the server including a control unit, a transceiver, and a memory, wherein the server is configured to
execute an extraction function to extract scattered light features from the fingerprint sample, and
execute a comparison function to compare the scattered light features with a light scattering template, and if a match is found, generate a liveness acceptance signal to the mobile device, else generate a liveness rejection signal to the mobile device.
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US17/618,059 US20220309827A1 (en) | 2019-06-17 | 2020-06-15 | A method and a device for verifying liveness of a finger |
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US16/443,230 US10984220B2 (en) | 2019-06-17 | 2019-06-17 | Method and a device for verifying liveness of a finger |
PCT/EP2020/066469 WO2020254238A1 (en) | 2019-06-17 | 2020-06-15 | A method and a device for verifying liveness of a finger |
US17/618,059 US20220309827A1 (en) | 2019-06-17 | 2020-06-15 | A method and a device for verifying liveness of a finger |
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US16/443,230 Continuation US10984220B2 (en) | 2019-06-17 | 2019-06-17 | Method and a device for verifying liveness of a finger |
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US17/618,059 Abandoned US20220309827A1 (en) | 2019-06-17 | 2020-06-15 | A method and a device for verifying liveness of a finger |
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EP3254235B1 (en) * | 2016-01-31 | 2023-07-12 | Shenzhen Goodix Technology Co., Ltd. | Under-screen optical sensor module for on-screen fingerprint sensing |
US10303921B1 (en) | 2018-02-26 | 2019-05-28 | Shenzhen GOODIX Technology Co., Ltd. | On-LCD screen optical fingerprint sensing based on optical imaging with lens-pinhole module and other optical designs |
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