Gregory J. Power scite author profile

DARPA's Moving and Stationary Target Acquisition and Recognition (MSTAR) program has shown that image segmentation of Synthetic Aperture Radar (SAR) imagery into target, shadow, and background clutter regions is a powerful tool in the process of recognizing targets in open terrain. Unfortunately, SAR imagery is extremely speckled. Impulsive noise can make traditional, purely intensity-based segmentation techniques fail. Introducing prior information about the segmentation image -its expected "smoothness" or anisotropy -in a statistically rational way can improve segmentations dramatically. Moreover, maintaining statistical rigor throughout the recognition process can suggest rational sensor fusion methods.To this end, we introduce two Bayesian approaches to image segmentation of MSTAR target chips based on a statistical observation model and Markov Random Field (MRF) prior models. We compare the results of these segmentation methods to those from the MSTAR program. The technique we find by mapping the discrete Bayesian segmentation problem to a continuous optimization framework can compete easily with the MSTAR approach in speed, segmentation quality, and statistical optimality. We also find this approach provides more information than a simple discrete segmentation, supplying probability measures useful for error estimation.

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<title>Interalgorithmic evaluation of SAR image segmentation algorithms using multiple measures</title>

Power

2001

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<title>Objective evaluation of four SAR image segmentation algorithms</title>

Gregga

Gustafson²,

Power

2001

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<title>ATR subsystem performance measures using manual segmentation of SAR target chips</title>

Power

Weisenseel

1999

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Gregory J. Power

Dolphin Imaging Software: An analysis of the accuracy of cephalometric digitization and orthognathic prediction

<title>Markov random field segmentation methods for SAR target chips</title>

<title>Interalgorithmic evaluation of SAR image segmentation algorithms using multiple measures</title>

<title>Objective evaluation of four SAR image segmentation algorithms</title>

<title>ATR subsystem performance measures using manual segmentation of SAR target chips</title>

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