Multiple-aperture imaging spectrometer: computer simulation and experimental validation

33rd Applied Imagery Pattern Recognition Workshop (AIPR'04) Pub Date : 2004-10-13 DOI:10.1109/AIPR.2004.32
R. Kendrick, Eric H. Smith, D. Christie, D. Bennett, D. Theil, E. Barrett
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引用次数: 7

Abstract

The Lockheed Martin Advanced Technology Center (LMVATC) is actively investigating alternate applications of coherently phased sparse-aperture optical imaging arrays. Controlling the relative phasing of the apertures enables these arrays to function as imaging interferometers, providing high spectral resolution as well as high spatial resolution imagery. In this paper we: a) summarize the basic theory of multiple-aperture imaging interferometers; b) illustrate the theory with Fourier transform imaging spectrometer (FTIS) simulations, using the Rochester Institute of Technology hyper-spectral scene simulator (DIRSIG) as our source of simulated input data; c) validate the theory with experimental results derived with an LM/ATC optical FTIS tested.
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多孔径成像光谱仪:计算机模拟与实验验证
洛克希德·马丁公司先进技术中心(LMVATC)正在积极研究相干相控稀疏孔径光学成像阵列的替代应用。控制孔径的相对相位使这些阵列能够作为成像干涉仪,提供高光谱分辨率以及高空间分辨率的图像。本文综述了多孔径成像干涉仪的基本原理;b)使用罗切斯特理工学院的超光谱场景模拟器(DIRSIG)作为模拟输入数据的来源,通过傅里叶变换成像光谱仪(FTIS)模拟来说明该理论;c)用LM/ATC光学FTIS测试得到的实验结果验证理论。
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33rd Applied Imagery Pattern Recognition Workshop (AIPR'04)
33rd Applied Imagery Pattern Recognition Workshop (AIPR'04)
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