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CN-121999192-A - Hybrid identification device and method of use thereof

CN121999192ACN 121999192 ACN121999192 ACN 121999192ACN-121999192-A

Abstract

The invention provides a hybrid identification device which comprises a first identification module, a second identification module and a processing unit. The first identification module is used for acquiring the biological characteristics to generate biological characteristic signals. The second recognition module is used for acquiring the graphic features to generate graphic feature signals. The processing unit is electrically connected with the first identification module and the second identification module and is used for identifying biological characteristics according to the biological characteristic signals and/or identifying graphic characteristics according to the graphic characteristic signals so as to generate processing signals. In addition, a method for using the hybrid identification device is also provided.

Inventors

  • WANG ZHIHAO
  • HE MENGNAN
  • CHEN PINCHENG
  • XU YULING
  • ZHANG RONGFEN
  • LUO YUANZHE

Assignees

  • 金佶科技股份有限公司

Dates

Publication Date
20260508
Application Date
20251106
Priority Date
20241106

Claims (13)

  1. 1. A hybrid identification device, comprising: The first identification module is used for acquiring biological characteristics to generate biological characteristic signals; a second recognition module for acquiring the graphic features to generate a graphic feature signal, and The processing unit is electrically connected with the first identification module and the second identification module and is used for identifying the biological characteristics according to the biological characteristic signals and/or identifying the graphic characteristics according to the graphic characteristic signals so as to generate processing signals.
  2. 2. The hybrid identification device of claim 1, wherein the first identification module comprises at least one of an optical sensor, a capacitive sensor, an ultrasonic identifier, and a time-of-flight ranging sensor.
  3. 3. The hybrid identification device of claim 1, wherein the biometric characteristic comprises at least one of a fingerprint, a face, a vein, an iris, a palm, and a figure of the user.
  4. 4. The hybrid identification device of claim 1, wherein the second identification module comprises a camera assembly.
  5. 5. The hybrid identification device of claim 1, wherein the graphical feature comprises at least one of a geometric figure, a two-dimensional bar code, a stereoscopic pattern, a patterned light source, and an image frame.
  6. 6. The hybrid identification device of claim 5, wherein the geometric figure, the two-dimensional bar code, the stereoscopic pattern, and/or the patterned light source are formed on a physical object.
  7. 7. The hybrid identification device of claim 1, wherein the processing unit further modifies the processing signal in accordance with a change in the graphical feature signal.
  8. 8. The hybrid identification device of claim 7 wherein the change in the graphical feature signal comprises rotation, repositioning, zoom-in, and wavelength change of the graphical feature signal.
  9. 9. The hybrid identification device of claim 1, wherein the second identification module is further configured to obtain a privacy feature to generate a privacy feature signal, the privacy feature overlaying at least a portion of the graphical feature.
  10. 10. The hybrid identification device of claim 9, wherein the privacy signature comprises at least one of a pattern of different wavelength, a defocused pattern, and a polarized pattern than the graphical signature.
  11. 11. A method of using a hybrid identification device, comprising: Acquiring a biological feature to generate a biological feature signal; Acquiring a graphic feature to produce a graphic feature signal, and Identifying the biometric feature from the biometric signal and/or identifying the graphical feature from the graphical feature signal, thereby generating a processed signal.
  12. 12. The method of using a hybrid identification device of claim 11, further comprising: modifying the processing signal in dependence on the change in the graphical feature signal.
  13. 13. The method of using a hybrid identification device of claim 11, wherein the method of acquiring the graphical feature to generate the graphical feature signal further comprises: acquiring the peep-proof characteristic to generate a peep-proof characteristic signal, and Generating the graphic feature signal according to the peep-proof feature signal and the graphic feature.

Description

Hybrid identification device and method of use thereof Technical Field The present invention relates to acquisition devices, and more particularly, to hybrid identification devices and methods of use thereof. Background At present, the original biological recognition is interfered in a special environment, or the recognition characteristics are damaged and cannot be read correctly, so that the recognition failure cannot be unlocked. When visitors, maintenance and sharing are in condition, temporary user biological characteristics need to be registered, and individual resource and management problems are derived. Traditional biological recognition lacks a flexible standby scheme, additional components and cost are needed to solve, and actual use requirements cannot be met. Disclosure of Invention The invention aims at a hybrid identification device and a use method thereof, can improve the safety and user experience of a system, and realizes low-cost and high-efficiency technical application through simple combination of software and hardware, thereby creating possibility of innovation for future identity verification technology. The invention provides a hybrid identification device which comprises a first identification module, a second identification module and a processing unit. The first identification module is used for acquiring the biological characteristics to generate biological characteristic signals. The second recognition module is used for acquiring the graphic features to generate graphic feature signals. The processing unit is electrically connected with the first identification module and the second identification module and is used for identifying biological characteristics according to the biological characteristic signals and/or identifying graphic characteristics according to the graphic characteristic signals so as to generate processing signals. In an embodiment of the invention, the first identification module includes at least one of an optical sensor, a capacitive sensor, an ultrasonic identifier, and a time-of-flight ranging sensor. In an embodiment of the invention, the biometric characteristic includes at least one of a fingerprint, a face, a vein, an iris, a palm shape and a figure of the user. In an embodiment of the invention, the second identification module includes a camera assembly. In an embodiment of the invention, the graphic feature includes at least one of a geometric figure, a two-dimensional bar code, a stereoscopic pattern, a pattern light source and an image frame. In one embodiment of the present invention, the geometric patterns, two-dimensional bar codes, stereoscopic patterns and/or pattern light sources are formed on the solid object. In an embodiment of the invention, the processing unit further modifies the processing signal according to a change of the graphic characteristic signal. In an embodiment of the invention, the changing of the graphic feature signal includes rotating, changing a position, zooming in and zooming out, and changing a wavelength of the graphic feature signal. In an embodiment of the invention, the second identification module is further configured to obtain a peep-proof feature to generate a peep-proof feature signal, where the peep-proof feature covers at least a portion of the graphics feature. In an embodiment of the invention, the peep-proof feature signal includes at least one of a pattern, a defocusing pattern and a polarizing pattern with a wavelength different from that of the graphic feature signal. The invention further provides a using method of the hybrid identification device, which comprises the steps of acquiring biological characteristics to generate biological characteristic signals, acquiring graphic characteristics to generate graphic characteristic signals, and identifying the biological characteristics according to the biological characteristic signals and/or identifying the graphic characteristics according to the graphic characteristic signals so as to generate processing signals. In an embodiment of the invention, the method for using a hybrid recognition device further includes modifying the processing signal according to a change of the graphic feature signal. In an embodiment of the invention, the method for obtaining the graphic feature to generate the graphic feature signal further includes obtaining the peep-proof feature to generate the peep-proof feature signal, and generating the graphic feature signal according to the peep-proof feature signal and the graphic feature. Based on the above, in the hybrid recognition device and the use method thereof of the present invention, the hybrid recognition device includes a first recognition module, a second recognition module, and a processing unit. The first recognition module is used for acquiring biological characteristics to generate biological characteristic signals, the second recognition module is used for acquiring graphic characteristics to generate gra