8 September 1998 Laser radar focal plane array for three-dimensional imaging: update
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Abstract
Previous efforts to develop 3D laser radar (ladar) imagers have required multiple laser pulses and complex stable scanning and timing systems in order to generate images. This paper describes an approach that will enable a complete 3D ladar image (angle-angle-range) to be captured with a single pulse. Using a unique processor chip that is bump bonded directly behind the detector array, the sensor provides separate independent range finder circuitry for each pixel. The time-of-flight for each pixel is recorded on the chip and the values are then read out serially. This approach allows the range resolution to be determined by the laser pulse width and electronics bandwidth and to be independent of image framing rates. This paper will discuss the status of the imager that is being assembled as well as preliminary results from laboratory demonstrations. The specifications of the demonstration unit are for a 32 X 32 pixel imager with a resolution of .3X.3X.3 meters (1X1X1 foot). The system is expected to operate at approximately video framing rates (30 frames per second) and the resulting image will be displayed in a false color picture on the processor monitor.
© (1998) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Richard D. Richmond, Richard D. Richmond, Roger Stettner, Roger Stettner, Howard Bailey, Howard Bailey, } "Laser radar focal plane array for three-dimensional imaging: update", Proc. SPIE 3380, Laser Radar Technology and Applications III, (8 September 1998); doi: 10.1117/12.327188; https://doi.org/10.1117/12.327188
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