TWM514042U - System of using mixture of multiple physiological information for identity recognition - Google Patents

Description

A system for recognizing identity using a variety of physiological information

An identification system, especially a system that uses a variety of physiological information to identify and identify individuals.

According to the physiological identification has been widely used in many information, communication and security devices, such as the Chinese National Republic announced the M486799, M470986 and other patent cases. The physiological identification technology commonly used today mainly focuses on retina recognition and fingerprint recognition, and identifies the user's identity by analyzing the texture features of the retina or fingerprint.

However, with the advancement of biotechnology, biometrics can be counterfeited. Therefore, unscrupulous people use biometric counterfeiting techniques to steal the biometrics of others and impersonate others for banking transactions or other business transactions. The information, communication and security devices that are currently implemented using only a single physiological identification technology imply a crisis of information security. Based on this, the creator of the case thought about an identity identification system to solve the information security problems brought by the existing structure.

The main purpose of this creation is to provide a solution to the problem that the conventional identification system has only a single identification method and is easily used by people.

In order to achieve the above objectives, the present invention provides a system for recognizing an identity by using a plurality of physiological information, including a main physiological information generating module and a primary physiological information generating module. And an identity recognition module. The main physiological information generating module is implemented by a fingerprint detecting technology or a retina detecting technology, and includes a physiological information detecting unit that detects at least one physiological information and connects the physiological information detecting unit to the physiological information. A first feature analysis unit that obtains a physiological characteristic parameter is analyzed. The secondary physiological information generating module has a plurality of electrocardiographic electrodes, an electrocardiogram generating unit connecting the electrocardiographic electrodes and analyzing the generated electrocardiogram information, and a second connecting the electrocardiogram generating unit to obtain an electrocardiographic characteristic parameter of the electrocardiogram information analysis. Feature analysis unit. The identity recognition module is connected to the primary physiological information generating module and the secondary physiological information generating module, and includes a memory unit pre-configured with at least one set of characteristic parameter records representing a user identity, and a record of obtaining the feature parameter. The physiological characteristic parameter and the electrocardiographic characteristic parameter are identified to obtain an identification unit of the user identity.

In an embodiment, the main physiological information generating module simultaneously implements the fingerprint detecting technology and the retina detecting technology.

In an embodiment, the identity recognition module further includes a data encryption unit that communicates bidirectionally with the memory unit and the identification unit.

In an embodiment, the electrocardiogram generating unit comprises an electrode loop, a primary signal amplifying circuit, a filtering circuit, and a primary signal amplifying circuit.

In one embodiment, the secondary physiological information generating module is implemented by left and right hand limb lead techniques.

In one embodiment, the main physiological information generating module is implemented by the fingerprint detecting technology, and the physiological information detecting unit can be a two-dimensional array sensor or a line sensor.

In one embodiment, the primary physiological information generating module is implemented by the retina detection technology, and the physiological information detecting unit can be an eye photography device.

In an embodiment, the system for utilizing a plurality of physiological information to identify the identity further includes a wireless communication unit connected to the identity recognition module.

In addition to the above embodiments, the present invention further provides another embodiment. The system for recognizing an identity by using a plurality of physiological information includes a main physiological information generating module, a primary physiological information generating module, and an identity recognition module. The main physiological information generating module is implemented by a fingerprint detecting technology or a retina detecting technology, and includes a physiological information detecting unit that detects at least one physiological information and connects the physiological information detecting unit to the physiological information. A first feature analysis unit that obtains a physiological characteristic parameter is analyzed. The secondary physiological information generating module is implemented by a reflected light volume technology, and includes a detecting light emitting unit that has a detecting light outputted by the detecting output, and a receiving unit that receives the reflected light to generate a blood vessel pressure information, and a connection. The detecting light receiving unit parses the blood vessel pressure information into an information processing unit of a heartbeat information and a second feature analyzing unit that connects the information processing unit to obtain an ECG characteristic parameter for the heartbeat information analysis.

In an embodiment, the main physiological information generating module simultaneously implements the fingerprint detecting technology and the retina detecting technology.

In an embodiment, the identity recognition module further includes a data encryption unit that communicates bidirectionally with the memory module and the identification module.

In an embodiment, the signal processing module includes a signal peak determining unit and a heartbeat estimating unit.

In an embodiment, the system for utilizing a plurality of physiological information to identify the identity further includes a wireless communication unit connected to the identity recognition module.

Through the above-mentioned structure disclosed in this creation, it has the following characteristics compared with the conventional use: The secondary physiological information generating module implemented by the electrocardiogram technology enhances the intensity of the identity recognition, and the physiological characteristic parameters of the electrocardiogram analysis are more difficult to be counterfeited, and the risk of being fraudulently used can be greatly reduced. In an embodiment, the present invention implements the secondary physiological information generating module by using left and right hand limb guiding techniques, and the method of 12-lead ECG extraction is required to be more easily applied to the handheld device than the previous electrocardiogram analysis. Or wear the device.

10‧‧‧ Main physiological information generation module

11‧‧‧ Physiological information detection unit

111‧‧‧ Physiological information

12‧‧‧First Feature Analysis Unit

121‧‧‧ physiological characteristic parameters

20‧‧‧Secondary physiological information generation module

21‧‧‧electrocardiogram electrode

22‧‧‧ECG generating unit

221‧‧‧ECG information

222‧‧‧Electrode circuit

223‧‧‧Primary signal amplifier circuit

224‧‧‧Filter circuit

225‧‧‧Secondary signal amplifying circuit

23‧‧‧Second feature analysis unit

321‧‧‧ ECG characteristic parameters

30‧‧‧identification module

31‧‧‧ memory unit

311‧‧‧Characteristic parameter record

32‧‧‧ Identification unit

33‧‧‧ Data Encryption Unit

40‧‧‧Wireless communication unit

50‧‧‧Secondary physiological information generation module

51‧‧‧Detection light emitting unit

52‧‧‧ receiving unit

521‧‧‧Vascular pressure information

53‧‧‧Information Processing Unit

531‧‧‧ Heartbeat Information

532‧‧‧ Signal Peak Judging Unit

533‧‧‧heartbeat estimation unit

54‧‧‧Second feature analysis unit

541‧‧‧Electrocardiographic parameters

60‧‧‧Bracelet

70‧‧‧Metal frame

FIG. 1 is a block diagram (1) of an embodiment of the present invention.

FIG. 2 is a unit composition diagram (2) of an embodiment of the present invention.

FIG. 3 is a block diagram of another embodiment of the present creation.

FIG. 4 is a schematic structural view (1) of another embodiment of the present invention.

FIG. 5 is a schematic structural view (2) of another embodiment of the present invention.

The detailed description and technical content of this creation are as follows:

Referring to FIG. 1 , the system for utilizing a plurality of physiological information to identify an identity can be assembled on a handheld device or a wearing device according to an implementation requirement, and includes a main physiological information generating module 10 and a physiological information at a time. The module 20 and an identity recognition module 30 are generated. The main physiological information generating module 10 is implemented by a fingerprint detecting technology or a retina detecting technology according to an implementation requirement, and includes a physiological information detecting unit 11 and a connection that are detected to generate at least one physiological information 111. The physiological information detecting unit 11 analyzes the physiological information 111 to obtain a first feature analyzing unit 12 that obtains a physiological characteristic parameter 121. Further, if the primary physiological information generating module 10 is implemented by the fingerprint detecting technology, the physiological resources are The detecting unit 11 can be a two-dimensional array sensor or a line sensor for detecting the finger fingerprint of a subject, and the generated fingerprint signal is the physiological information referred to in the creation. 111. In this embodiment, the first feature analyzing unit 12 performs texture feature analysis on the fingerprint included in the physiological information 111 to generate the first physiological feature parameter 121 including the texture feature. According to the above, if the secondary physiological information generating module 10 is implemented by the retina detecting technology, the physiological information detecting unit 11 can be an eye photographic device for detecting retinal blood vessels of the subject's eyeball. And the generated retinal blood vessel distribution map is the physiological information 111 referred to in the present creation, and the first characteristic analyzing unit 12 also performs characteristic analysis on the retinal blood vessel included in the physiological information 111 to generate the first feature having retinal features. Physiological characteristic parameter 121. Furthermore, in addition to the above embodiments, the present invention may also be implemented in the embodiment, the main physiological information generating module 10 may simultaneously implement the fingerprint detecting technology and the retinal detecting technology, and in this embodiment, The main physiological information generating module can detect the group in plurality to perform fingerprint detection and retinal detection respectively.

As described above, the secondary physiological information generating module 20 has a plurality of electrocardiographic electrodes 21, an electrocardiogram generating unit 22 connected to the electrocardiographic electrodes 21 and analyzing and generating an electrocardiogram information 221, and a connection to the electrocardiogram generating unit 22. The electrocardiogram information 221 is analyzed to obtain a second feature analyzing unit 23 of an electrocardiographic characteristic parameter 231. More specifically, the secondary physiological information generating module 20 can be implemented by the left and right hand limb lead technology. The electrocardiogram generating unit 22 includes an electrode loop 222, a primary signal amplifying circuit 223, a filtering circuit 224, and a primary stage. The signal amplifying circuit 225.

Furthermore, the identity recognition module 30 is connected to the primary physiological information generating module 10 and the secondary physiological information generating module 20, respectively, and includes a memory pre-configured with at least one set of characteristic parameter records 311 representing a user identity. Unit 31 and a obtaining the feature parameter record 311 The physiological characteristic parameter 121 and the electrocardiographic characteristic parameter 231 identify the identification unit 32 that obtains the identity of the user. Further, the memory unit 31 can write the feature parameter record 311 that separately represents the user to the memory unit 31 by using a preloading method before the implementation of the present creation, and the feature corresponding to each user The parameter record 311 is different. In addition, the feature parameter record 311 can also be added when the present invention is identified, that is, when the identity recognition module 30 analyzes the physiological feature parameter 121 and the ECG feature parameter 231, When the matching characteristic parameter record 311 is found, the physiological characteristic parameter 121 and the electrocardiographic characteristic parameter 231 can be correspondingly stored into a new feature parameter record 311. In the implementation of the identification unit 32, the main physiological information generating module 10 and the secondary physiological information generating module 20 receive the physiological characteristic parameter 121 and the electrocardiographic characteristic parameter 231, and the memory unit is 31 Query whether the feature parameter record 311 records the data data corresponding to the physiological feature parameter 121 and the ECG feature parameter 231, and if so, provides the user identity corresponding to the feature parameter record 311. In an embodiment, the identity recognition module 30 further includes a data encryption unit 33 for bidirectional communication with the memory module 31 and the identification module 32. The data encryption unit 33 can select a corresponding security technology according to confidentiality requirements. Such as 128-bit encryption technology.

In addition, referring to FIG. 3 to FIG. 6 , in addition to the above embodiments, the secondary physiological information generating module 50 can be implemented by a reflected light volume technology, which includes a detection output of a detected light. The light emitting unit 51 receives the reflected light to generate a blood vessel pressure information 521 receiving unit 52, and an information processing unit that connects the detecting light receiving unit 51 and parses the blood vessel pressure information 521 into a heartbeat information 531. 53 and a second feature analyzing unit 54 that connects the information processing unit 53 to analyze the heartbeat information 531 to obtain the heartbeat feature parameter 541. More specifically, the detection light emitting unit 51 generates a specific wavelength after being energized. The detection light is characterized in that it cannot be absorbed by a human blood vessel but is reflected by the human blood vessel. The receiving unit 52 receives the detection light reflected by the human blood vessel, and generates the blood vessel pressure information 521 according to the incident angle of the detection light reflected to the receiving unit 52. Furthermore, the information processing unit 53 includes a signal peak determining unit 532 and a heartbeat estimating unit 533 for performing the information analyzing mechanism. After receiving the blood vessel pressure information 521 from the receiving unit 52, the information processing unit 53 sequentially analyzes the heartbeat information 531 by using the signal peak determining unit 532 and the heartbeat estimating unit 533, and finally the second characteristic analyzing unit. 54, the feature analysis of the heartbeat information 531 is generated to generate the heartbeat feature parameter 541, and output to the identity recognition module 30 for subsequent identification. As described above, in an embodiment, the creation may be implemented in the form of a hand ring 60 or a watch. As shown in FIG. 5 and FIG. 6, the main physiological information generating module 10 is disposed on the wristband 60. The front side is configured by the fingerprint detection technology, and a metal frame 70 of the main physiological information generating module 10 can be used as a grounding point during detection, and the secondary physiological information generating module 50 is disposed on the wristband. The back surface of the 60, and the secondary physiological information generating module 50 is set to the positive electrode at the time of detection, so that the subject can generate each signal with a normal potential when detecting. In addition to the above embodiments, the embodiment further includes a wireless communication unit 40 that connects the identity recognition module to transmit the identification result to other external devices, and the wireless communication unit 40 can be implemented in 3G, 4G LTE, WIFI, etc. One of the wireless communication technologies.

In summary, the present invention uses a plurality of physiological information to mix and identify the identity of the system, including a main physiological information generating module, a primary physiological information generating module and an identity recognition module. The main physiological information generating module can be implemented by a fingerprint detecting technology or a retina detecting technology, and generates a physiological characteristic parameter. The secondary physiological information generating module analyzes the heartbeat to obtain an ECG characteristic parameter, and the identity recognition module is connected to the main physiological information generating module. And the secondary physiological information generating module records the physiological characteristic parameter and the electrocardiographic characteristic parameter by using a preset characteristic parameter record to obtain a user identity. In this way, the creation uses a variety of physiological information to identify and identify the identity, which improves the problem that the conventional identification system has only a single identification method and is easily abused.

The above description has been made in detail, but the above is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the creation of the present invention, that is, the equivalent of the scope of the patent application of the present invention. Changes and modifications should remain within the scope of this new patent.

10‧‧‧ Main physiological information generation module

20‧‧‧Secondary physiological information generation module

30‧‧‧identification module

Claims (13)

A system for recognizing an identity by using a plurality of physiological information includes: a main physiological information generating module implemented by a fingerprint detecting technology or a retina detecting technology, including a physiological information detecting that detects at least one physiological information And a first feature analyzing unit that connects the physiological information detecting unit to obtain a physiological characteristic parameter for analyzing the physiological information; the primary physiological information generating module has a plurality of electrocardiographic electrodes, and connects the electrocardiographic electrodes and analyzes the generated An electrocardiogram generating unit of an electrocardiogram information, and a second feature analyzing unit connected to the electrocardiogram generating unit to obtain an electrocardiographic characteristic parameter for analyzing the electrocardiogram information; and an identity recognition module connecting the main physiological information generating module and the time The physiological information generating module comprises a memory unit pre-configured with at least one set of characteristic parameter records for characterizing a user, and obtaining the characteristic parameter record to identify the physiological characteristic parameter and the electrocardiographic characteristic parameter to obtain the use Identification unit for identity. The system for identifying an identity by using a plurality of physiological information according to claim 1, wherein the main physiological information generating module simultaneously implements the fingerprint detecting technology and the retina detecting technology. The system for identifying an identity by using a plurality of physiological information according to claim 1 or 2, wherein the identity recognition module further comprises a data encryption unit that communicates bidirectionally with the memory unit and the identification unit. The system for identifying an identity by using a plurality of physiological information according to claim 1, wherein the electrocardiogram generating unit comprises an electrode loop, a primary signal amplifying circuit, a filtering circuit, and a primary signal amplifying circuit. The system for identifying an identity by using a plurality of physiological information according to claim 1 or 2, wherein the secondary physiological information generating module is implemented by left and right hand limb guiding techniques. a system for identifying an identity using a plurality of physiological information as described in claim 1, wherein the primary The physiological information generating module is implemented by the fingerprint detecting technology, and the physiological information detecting unit can be a two-dimensional array sensor or a line sensor. The system of claim 1, wherein the primary physiological information generating module is implemented by the retinal detecting technology, and the physiological information detecting unit can be an eye photography device. The system for identifying an identity by using a plurality of physiological information according to claim 1 further includes a wireless communication unit connected to the identity recognition module. A system for recognizing an identity by using a plurality of physiological information includes: a main physiological information generating module implemented by a fingerprint detecting technology or a retina detecting technology, including a physiological information detecting that detects at least one physiological information And a first feature analyzing unit that connects the physiological information detecting unit to obtain a physiological characteristic parameter for analyzing the physiological information; the primary physiological information generating module is implemented by a reflected light volume technology, and includes a detected output and a detection a light detecting light emitting unit, which receives a reflected light to generate a blood vessel pressure information receiving unit, and an information processing unit connected to the detecting light receiving unit to analyze the blood vessel pressure information into a heartbeat information and a connection The information processing unit is configured to analyze the heartbeat information to obtain a second feature analyzing unit of the electrocardiographic characteristic parameter; and an identity recognition module, connected to the main physiological information generating module and the secondary physiological information generating module, including a preset Having at least one set of characteristic parameter records characterizing a user's identity A memory unit, and obtaining the characteristic parameter identifying means for identifying the recording parameters of physiological characteristics and parameters of the ECG acquires the user's identity. The system for identifying an identity by using a plurality of physiological information according to claim 9, wherein the main physiological information generating module simultaneously implements the fingerprint detecting technology and the retina detecting technology. A system for recognizing an identity by using a plurality of physiological information as described in claim 9 or 10, wherein The identity recognition module further includes a data encryption unit that communicates bidirectionally with the memory unit and the identification unit. The system for identifying an identity by using a plurality of physiological information according to claim 9, wherein the information processing unit comprises a signal peak determining unit and a heartbeat estimating unit. The system for identifying an identity by using a plurality of physiological information according to claim 9 further includes a wireless communication unit connected to the identity recognition module.