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Long-distance large-view-field iris optical imaging device and long-distance large-view-field iris optical imaging method

An optical imaging and optical imaging system technology, applied in the field of long-distance large-field iris optical imaging devices, can solve the problem of not being able to meet the requirements of constant field of view and irradiance at the same time, unable to provide accurate working distance, and unable to guarantee consistency And other issues

Active Publication Date: 2020-07-24
SUZHOU SIYUAN KEAN INFORMATION TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] It is known that the device used for iris imaging has the following defects. The imaging time to obtain an image in a scene with a long working distance and a large working field of view exceeds 1-3s, and the user cannot maintain a consistent relative stillness for such a long time, which is due to the diameter of the iris of the image Requires a large magnification of >200pixel, causing even a very slight movement to exceed the field of view of the iris imaging system, requiring readjustment of the field of view, zoom focus, and lighting
[0003] In addition, traditional distance measurement includes software mapping iris diameter or binocular distance, because due to the difference of more than 20% in the crowd, the error is too large to provide accurate working distance information, which directly affects the overall performance. Similarly, physical measurements such as infrared, ultrasound, and tof In the case of long working distance and large working field of view, the error is too large to provide accurate working distance information. At the same time, known technologies have image quality such as depth of field, image brightness, image relative illuminance, illumination source radiation intensity, and eye iris irradiance. In the case of long working distance and large working field of view, the consistency cannot be guaranteed, and the difference is even several times. The traditional lighting source is adjusted with the inverse square of the working distance, and the radiation intensity of the non-constant light source (for example, the range of 2-3 times the working distance, The field of view changes by 2-3 times, and the radiation intensity changes by 4-9 times), which makes it impossible to meet the requirements of constant field of view and irradiance in a large range at the same time

Method used

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  • Long-distance large-view-field iris optical imaging device and long-distance large-view-field iris optical imaging method
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  • Long-distance large-view-field iris optical imaging device and long-distance large-view-field iris optical imaging method

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Embodiment 1

[0169] Such as figure 1 Shown is a schematic diagram of the principle of a long-distance large-field-of-view iris optical imaging device in an embodiment of the present invention. According to this embodiment of the present invention, a long-distance large-field-of-view iris optical imaging device 100 includes: an iris optical tracking system, Iris zoom focusing optical imaging system, LED lighting source radiation system, image display feedback system 160, image processing and drive control system 150.

[0170] The iris optical tracking system includes a 3D depth imaging unit and two axis rotation units: a vertical rotation axis 112 of the iris optical tracking system and a horizontal rotation axis 113 of the iris optical tracking system.

[0171] The 3D depth imaging unit can adopt 3D TOF depth imaging or structured light depth imaging (such as 940nm infrared VCSEL light source 110, imaging lens and image imaging sensor 111), or binocular stereo vision imaging (LED lighting ...

Embodiment 2

[0354] Such as figure 2 Shown is a schematic diagram of the principle of a long-distance large-field iris optical imaging device in an embodiment of the present invention. According to this embodiment of the present invention, a long-distance large-field iris optical imaging device 200 includes: an iris optical tracking system, Iris zoom focusing optical imaging system, LED lighting source radiation system, image display feedback system 260, image processing and drive control system 250.

[0355] The iris optical tracking system includes a 3D depth imaging unit and a 2-axis MEMS rotating mirror unit 228 .

[0356] The 3D depth imaging unit can adopt 3D TOF depth imaging or structured light depth imaging (such as 940nm infrared VCSEL light source 210, imaging lens and image imaging sensor 211), or binocular stereo vision imaging (LED lighting source, 2 groups of fixed distance installations Parametrically symmetrical imaging lens and image imaging sensor) provide depth image ...

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Abstract

The invention provides a long-distance large-view-field iris optical imaging device, and the device comprises an iris optical tracking system which comprises a 3D depth imaging unit and a direction axis rotating unit; the iris zooming and focusing optical imaging system comprises an optical zooming and focusing lens group which is used for executing focal length and focusing position adjustment ofiris imaging according to the 3D physical space point coordinates; the LED illumination light source radiation system comprises a radiation intensity solid angle and / or a radiation intensity direction angle, and is used for executing combined control in response to the matching relationship between the field angles of the iris zoom focusing optical imaging system corresponding to different working radiuses / distances according to the coordinates of the 3D physical space point; and image processing and driving control are carried out to realize driving and feedback control among the system units. According to the long-distance large-view-field iris optical imaging device and method provided by the invention, the constancy of the view field angle and the radiation illuminance in a large range is realized at the same time.

Description

technical field [0001] The invention relates to the technical field of optical imaging, in particular to a device and method for long-distance and large-field iris optical imaging. Background technique [0002] It is known that the device used for iris imaging has the following defects. The imaging time to obtain an image in a scene with a long working distance and a large working field of view exceeds 1-3s, and the user cannot maintain a consistent relative stillness for such a long time, which is due to the diameter of the iris of the image A large magnification requirement of >200pixel is required, resulting in that even a very slight movement can cause the field of view of the iris imaging system to be readjusted, zoom focus, and illumination. [0003] In addition, traditional distance measurement includes software mapping of iris diameter or binocular distance, because due to the difference of more than 20% in the population, the error is too large to provide accurat...

Claims

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Application Information

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IPC IPC(8): H04N13/204H04N13/296H04N5/225H04N5/232H04N5/235G06K9/00G02B27/00
CPCH04N13/204H04N13/296G02B27/00H04N23/56H04N23/54H04N23/55H04N23/67H04N23/74Y02B20/40
Inventor 倪蔚民
Owner SUZHOU SIYUAN KEAN INFORMATION TECH
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