Head/helmet mounted passive and active infrared imaging system with/without parallax
First Claim
1. A passive/active infrared imaging system including apparatus for mounting on a head/helmet comprising:
- a passive infrared camera Head Pack having a removable narrow band filter cover, an objective lens, a beam splitter, an uncooled focal plane array (UFPA package, an interface board, and a display unit, with forward/back, up/down, and tilt adjustment functions fitting any mask, mounted in the front of said head/helmet for converting infrared light images into from different types of object in an external scene electronic signals;
electronic means coupled between the UFPA of the infrared camera and the display unit, including controller means, for processing video signals from the infrared camera and supplying them to the display unit;
wherein the electronic means includes a wireless video &
audio transceiver, a piezoelectric microphone, a voice controller, and a neural network pattern recognition chip;
said display unit being inside the head pack and mounted on said head/helmet for converting electronic signals into visible light images;
so that it is in front of eyes of a user, so that the user can directly view the external scene without blocking his normal vision, if the optical axis of the display unit is aligned with the optical axis of the objective lens, the system parallax is eliminated;
the arrangement of the display unit being such the user can view the same external scene either directly or on the display unit by a simple eye movement;
a Battery Pack having video controller board and battery mounted on the rear of said head/helmet so that it fives the video output and power to the infrared system;
an eye-safe near infrared laser diode with corresponding optical and electronic attachments mounted on said head/helmet to illuminated targets to get images through same passive infrared system, the narrow band filter being used to pass infrared radiation in a band corresponding to that of the laser diode.
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Accused Products
Abstract
A passive/active infrared imaging system apparatus for mounting on a head/helmet includes a passive infrared camera Head Pack having a removable narrow band filter cover, an objective lens, a beam splitter, an uncooled focal plane array (UFPA) package, an interface board, and a display unit such a liquid crystal display (LCD), with forward/back, up/down, and tilt adjustment functions fitting any mask, mounted in the front of said head/helmet for converting infrared light images into electronic signals. An electronic unit coupled between the UFPA of the infrared camera and the display unit, includes a controller for processing video signals from the infrared camera and supplying them to the display unit. The electronic circuit includes a wireless video & audio transceiver, a piezoelectric microphone, a voice controller, and a neural network pattern recognition chip. The display unit (such as LCD)] is inside the head pack and mounted on the head/helmet for converting electronic signals into visible light images, so that it is in front of eyes of a user, so that the user can directly view an external scene without blocking his normal vision, if the optical axis of the display unit is aligned with the optical axis of the objective lens, the system parallax is eliminated. A Battery Pack having a video controller board and battery is mounted on the rear of the head/helmet so that it gives the video output and power to the infrared system. An eye-safe near infrared laser diode with corresponding optical and electronic attachments mounted on the head/helmet illuminates targets to get images through same passive infrared system.
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Citations
19 Claims
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1. A passive/active infrared imaging system including apparatus for mounting on a head/helmet comprising:
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a passive infrared camera Head Pack having a removable narrow band filter cover, an objective lens, a beam splitter, an uncooled focal plane array (UFPA package, an interface board, and a display unit, with forward/back, up/down, and tilt adjustment functions fitting any mask, mounted in the front of said head/helmet for converting infrared light images into from different types of object in an external scene electronic signals;
electronic means coupled between the UFPA of the infrared camera and the display unit, including controller means, for processing video signals from the infrared camera and supplying them to the display unit;
wherein the electronic means includes a wireless video &
audio transceiver, a piezoelectric microphone, a voice controller, and a neural network pattern recognition chip;
said display unit being inside the head pack and mounted on said head/helmet for converting electronic signals into visible light images;
so that it is in front of eyes of a user, so that the user can directly view the external scene without blocking his normal vision, if the optical axis of the display unit is aligned with the optical axis of the objective lens, the system parallax is eliminated;
the arrangement of the display unit being such the user can view the same external scene either directly or on the display unit by a simple eye movement;
a Battery Pack having video controller board and battery mounted on the rear of said head/helmet so that it fives the video output and power to the infrared system;
an eye-safe near infrared laser diode with corresponding optical and electronic attachments mounted on said head/helmet to illuminated targets to get images through same passive infrared system, the narrow band filter being used to pass infrared radiation in a band corresponding to that of the laser diode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
the transceiver pair being adapted for sending signals representing the external scene to another location, and for receiving signals representing information for display on the on the display unit.
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4. An infrared imaging system according to claim 3, wherein said objective lens made by non-Ge materials of ZnSe, or (ZnS)x(ZnSe)1x, and AMTIR-1 comprises three pieces;
- the first piece and the third piece are AMTIR-1 and the second piece is ZnSe or (ZnS)x (ZnSe)1−
x, the material of (ZnS))x or (ZnSe)1−
x being produced by chemical vapor deposition (CVD), or Hot-pressed method, the waveband of the objective lens being from near infrared to long infrared to cover both active infrared and passive infrared.
- the first piece and the third piece are AMTIR-1 and the second piece is ZnSe or (ZnS)x (ZnSe)1−
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5. An objective lens according to claim 4, wherein said structures of the objective lens and its 3 elements are shown in FIGS. 8-12, and their data is listed on Table 1.
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6. An infrared imaging system according to claim 3, wherein said chopper for Barium Strontium Titanate (BST) (there is no chopper for uncooled silicon microbolometer (MBT)) is made by plastic with Archimedes curve shape.
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7. An infrared imaging system according to claim 3, wherein said focal plane array is an uncooled focal plane array of uncooled silicon microbolometer (MBT) or Barium Strontium Titanate (BST).
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8. An infrared imaging system according to claim 3, wherein said electronic boards for Barium Strontium Titanate (BST) having basic block diagrams is shown in FIG. 13, (the electronic boards for uncooled silicon microbolometer (MBT) are similar but the MBT is direct current (DC) coupling because there is no chopper thus no frame subtraction).
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9. An infrared imaging system according to claim 3, wherein said Liquid Crystal Display (LCD) has a basic structure shown in FIG. 14, the LCD can be passive or active matrix, and a window (viewer) of the LCD is at the bottom of the LCD device, thus the normal vision of the user will not be blocked.
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10. An infrared imaging system according to claim 3, wherein the optical axis of said LCD is a aligned with the optical axis of said objective lens, thus the parallax is eliminated, wherein the LCD can be monocular or binocular, wherein in the binocular version, its one viewer must be aligned with the objective lens to remove the parallax, but another viewer will have small parallax if its plastic cover is not pulled down to cover this viewer, and if the parallax is allowed, it is not necessary to align the LCD with the objective lens.
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11. An infrared imaging system according to claim 3, wherein said wireless video &
- audio transmitter and receiver (transceiver) shown in FIG. 15 have at least two frequencies of f1 and f2 wherein the frequency of transmitter on user side is f1 and the frequency of receiver is f2, and the frequency of transmitter on commander side is f2 and the frequency of receiver is f1.
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12. An infrared imaging system according to claim 3, wherein said microphone is a piezoelectric film contacting with user'"'"'s forehead or neck, or is manufactured with the earphone together as a ear plug and inserted into ear to speak under the mask without using mouth and receive the voice from receiver, in which case any large sound or noise from outside will affect user'"'"'s voice, or the microphone also can be a normal one molded on the inner layer of the mask.
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13. An infrared imaging system according to claim 3, wherein said voice controller shown in FIG. 16 is used to control switches or give commands without using hands.
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14. An infrared imaging system according to claim 3, wherein said pattern recognition uses fuzy logic or neural network chip to distinguish the human being and flame from background.
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15. An infrared imaging system according to claim 3, wherein said active IR imaging system comprises a narrow band filter, an eye-safe laser diode, a beam splitter and other attachments is shown in FIG. 17, wherein the active system shares other parts including an objective lens, UFPA, electronic boards, LCD, mount, with the passive IR imaging system, and is able to clearly see a person behind the firewall and identify the friend or foe.
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16. An infrared imaging system according to claim 3, wherein said eye-safe laser diode (LD) is made by GaAsInP or other semiconductor materials with wavelength greater than 1.5 μ
- m, thus the laser beam can not reach the retina of the eye.
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17. An infrared imaging system according to claim 3, wherein said beam splitter has 50% transmittance and 50% reflectance before 8 μ
- m for LD use, and almost 100% transmittance from 8 μ
m to 12 μ
m, wherein if the LD is independently illuminating the target, the beam splitter is not necessary to use.
- m for LD use, and almost 100% transmittance from 8 μ
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18. An infrared imaging system according to claim 3, wherein said narrow band filter with bandwidth of a few nanometers at LD wavelength is put in the front of the objective lens and is removable if the user does not like to see through the firewall.
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19. An infrared imaging system according to claim 3, wherein said head/helmet mount is spring-loaded or dove-tail type shown in FIGS. 6 and 7, or other types, with forward/back, Up/down, and tilt adjustment functions to fit any mask without block user'"'"'s vision.
Specification