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18 August 2005 Modeling precision and accuracy of a LWIR microgrid array imaging polarimeter
James K. Boger; J. Scott Tyo; Bradley M. Ratliff; Matthew P. Fetrow; Wiley T Black; Rakesh Kumar
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Proceedings Volume 5888, Polarization Science and Remote Sensing II; 58880U (2005) https://doi.org/10.1117/12.613658
Event: Optics and Photonics 2005, 2005, San Diego, California, United States
Abstract
Long-wave infrared (LWIR) imaging is a prominent and useful technique for remote sensing applications. Moreover, polarization imaging has been shown to provide additional information about the imaged scene. However, polarization estimation requires that multiple measurements be made of each observed scene point under optically different conditions. This challenging measurement strategy makes the polarization estimates prone to error. The sources of this error differ depending upon the type of measurement scheme used. In this paper, we examine one particular measurement scheme, namely, a simultaneous multiple-measurement imaging polarimeter (SIP) using a microgrid polarizer array. The imager is composed of a microgrid polarizer masking a LWIR HgCdTe focal plane array (operating at 8.3-9.3 μm), and is able to make simultaneous modulated scene measurements. In this paper we present an analytical model that is used to predict the performance of the system in order to help interpret real results. This model is radiometrically accurate and accounts for the temperature of the camera system optics, spatial nonuniformity and drift, optical resolution and other sources of noise. This model is then used in simulation to validate it against laboratory measurements. The precision and accuracy of the SIP instrument is then studied.
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James K. Boger, J. Scott Tyo, Bradley M. Ratliff, Matthew P. Fetrow, Wiley T Black, Rakesh Kumar, "Modeling precision and accuracy of a LWIR microgrid array imaging polarimeter", Proc. SPIE 5888, Polarization Science and Remote Sensing II, 58880U (18 August 2005); doi: 10.1117/12.613658; https://doi.org/10.1117/12.613658
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