| Paper: | SS-12.4 | ||
| Session: | Hyperspectral Signal Processing | ||
| Time: | Friday, May 19, 17:30 - 17:50 | ||
| Presentation: | Special Session Lecture | ||
| Topic: | Special Sessions: Hyperspectral signal processing | ||
| Title: | Physics Based Target Detection using a Hybrid Algorithm with an Infeasibility Metric | ||
| Authors: | Emmett Ientilucci, John Schott, Rochester Institute of Technology, United States | ||
| Abstract: | This paper develops (and applies) a hybrid target detector that incorporates structured backgrounds and physics based modeling together with a geometric infeasibility metric. More often than not, detection algorithms are usually applied to atmospherically compensated hyperspectral imagery. Rather than compensate the imagery, we take the opposite approach by using a physics based model to generate permutations of what the target might look like as seen by the sensor in radiance space. The development and status of such a method is presented and applied to the generation of target spaces. The generated target spaces are designed to fully encompass image target pixels while using a limited number of input model parameters. Additionally, a Structured Infeasibility Projector (SIP) is developed which enables one to be more selective in rejecting false alarms. Results on HYDICE data show that the SIP algorithm, in conjunction with a physics based detector, outperforms results from the SAM and SMF algorithms for a target that is both fully sunlit and obscured by a tree canopy. | ||
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