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Apparatus and method for face/iris combination optical imagine

An optical imaging and iris technology, which is applied to computer components, instruments, character and pattern recognition, etc., can solve the problems of high cost, interference sensitivity, huge calculation amount, etc., and achieve high cost performance, less motor movement times, high reliability and stability The effect of service life

Active Publication Date: 2010-05-12
SUZHOU SIYUAN KEAN INFORMATION TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The disadvantages are: high consistency requirements for two sets of wide-angle camera parameters, complex camera calibration, facial feature extraction and facial image matching are sensitive to noise interference, require a huge amount of calculation, and the speed is difficult to achieve real-time frame rate (requires professional real-time machines vision processor), measurement accuracy, reliability and stability are sensitive to interference, and the cost of this method alone is more expensive than traditional iris optical imaging devices
[0004] 1 The optical imaging device system cannot obtain the highest quality iris texture image;
[0005] 2 The optical imaging device system has the problem of quickness of use, such as requiring more than 2 seconds;
[0006] 3 The optical imaging device system has usability problems, such as requiring strict cooperation from users;
[0007] 4. The optical imaging device system does not have high reliability and stability. For example, it cannot be used outdoors, with strong backlight, strong halogen light, and wide temperature range;
[0008] 5 The optical imaging device system is not cost-effective;
[0009] In addition, there is a lack of objective and unified technical standards as a comprehensive performance evaluation system

Method used

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  • Apparatus and method for face/iris combination optical imagine
  • Apparatus and method for face/iris combination optical imagine
  • Apparatus and method for face/iris combination optical imagine

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Experimental program
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Effect test

Embodiment 1

[0116] figure 1 Described the concrete structure of the system of embodiment 1 of the present invention, it comprises following functional units:

[0117] Band-pass optical filter unit, PAN / TILT optical reflector unit, zoom optical imaging lens group unit, CMOS camera unit, eye position positioning unit, communication unit, man-machine interface input / output unit, far optical axis pulse illumination light source unit , Cold backlight light source unit, working area (field of view) optical projection guide beam unit, photoelectric voice prompt unit, digital signal processor and controller unit, and system control unit.

[0118] The system control unit includes:

[0119] (1) PAN / TILT optical reflector PAN / TILT motor position control; (2) zoom optical imaging lens group ZOOM / FOCUS / IRIS motor position control; (3) far optical axis pulse illumination light source position POSITION, emission brightness L, Duty cycle time T control (triggered synchronously with CMOS camera integrat...

Embodiment 2

[0475] Specific embodiment of the present invention 2 imaging optics principle of optical imaging device Figure 12 , including the following units: near-infrared light diffuser (3, 4), cold backlight light source (5), PAN / TILT bandpass optical filter (6), working area (field of view) optical projection guide beam (7a, 7b, 7c, 7d), far optical axis pulse illumination light source (8a, 8b), zoom optical imaging lens group (11), CMOS camera (12), near optical axis illumination light source (9a, 9b), optical reflector ( 21), guidance indicator (15a, 15b), all-pass optical filter (22), wide-angle CMOS camera (13). (1, 2) are left and right eyes. The PAN / TILT band-pass optical filter (6) is composed of a PAN / TILT optical reflector and a band-pass optical filter. The band-pass optical filter reflects visible light and transmits near-infrared light.

[0476] The eye position positioning information (x, y, z) is realized by the facial imaging optical path system formed by the combin...

Embodiment 3

[0482] The four typical optical path equivalent conversion or optical path deformation methods of specific embodiment 3 are combined, modified, increased or decreased to carry out the specific embodiment implementation. adopted within the scope of understanding. It can be understood that the equivalent transformation of the optical path changes the propagation direction of the optical path.

[0483] (one). Figure 4 Described the imaging optics principle diagram of specific embodiment 3 optical imaging device of the present invention, it comprises following unit composition: near-infrared light diffuser (3,4), cold backlight light source (5), band-pass optical filter (6 ), working area (field of view) optical projection guide light beam (7a, 7b, 7c, 7d), far optical axis pulse illumination light source (8a, 8b), zoom optical imaging lens group (or fixed focal length optical imaging lens group) ( 11), CMOS camera (12), light source near optical axis (9a, 9b), wide-angle CMOS ...

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Abstract

The present invention discloses face / iris combination optical imaging device. It contains visible light imaging light path system, near infrared light imaging light path system, face imaging light path system; said face / iris combination optical imaging device including above-mentioned imaging light path systematical optical equivalent transformation. The present invention also provides face / iris combination optical imaging method, which contains eye position tracking and positioning, and obtaining maximum quality iris texture image. Said invented device and method can rapid obtain maximum quality iris texture image, and easy to use.

Description

technical field [0001] The invention relates to a device and method for providing combined face / iris imaging, in particular to a device and method for obtaining optical imaging of face / iris images under the condition of meeting objective and unified technical standards. Background technique [0002] Relevant patent literature retrieval USPTO database includes: US6594377, US6785406, US6832044, US20020191075, US20020191076, US20030012413, US20030021598, US20030081817, US20030219547, US2017709.8.2 The above-mentioned relevant patent documents use two sets of stereo cameras to obtain eye position positioning information through stereo vision technology. This method includes steps such as facial image acquisition, camera calibration, facial feature extraction, and facial image matching to perform complex machine vision calculations. The disadvantages are: high consistency requirements for two sets of wide-angle camera parameters, complex camera calibration, facial feature extract...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06K9/00
Inventor 金城
Owner SUZHOU SIYUAN KEAN INFORMATION TECH