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Proceedings Paper

Cramer-Rao bound analysis of target characterization accuracy limits for imaging systems
Author(s): David R. Gerwe; Paul S. Idell; Joel Vaughn
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Paper Abstract

A methodology for analyzing an imaging sensor's ability to assess target properties is developed. By applying Cramer- Rao covariance analysis to a statistical model relating the sensor measurements to the target, a bound on the accuracy with which target properties can be estimated can be calculated. Such calculations are important in understanding how a sensor's design effects its performance for a given assessment task, and in performing feasibility studies or trade studied between sensor designs and sensing modalities. A novel numerical model relating a sensor's measurements to a target's three-dimensional geometry is developed in order to overcome difficulties in accurately performing the required numerical computations. An example use of the approach is presented in which the influence of viewing perspective on orientation accuracy limits is analyzed. The example is also used to examine the potential for improving the accuracy bound by fusing multi-perspective data.

Paper Details

Date Published: 27 December 2001
PDF: 11 pages
Proc. SPIE 4490, Multifrequency Electronic/Photonic Devices and Systems for Dual-Use Applications, (27 December 2001); doi: 10.1117/12.455433
Show Author Affiliations
David R. Gerwe, The Boeing Co. (United States)
Paul S. Idell, The Boeing Co. (United States)
Joel Vaughn, The Boeing Co. (United States)


Published in SPIE Proceedings Vol. 4490:
Multifrequency Electronic/Photonic Devices and Systems for Dual-Use Applications
Paul S. Idell; Stanley R. Czyzak; Andrew R. Pirich; Paul L. Repak; Paul S. Idell; Stanley R. Czyzak, Editor(s)

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