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24 August 1999 Clutter rejection using eigenspace transformation
Lipchen Alex Chan, Nasser M. Nasrabadi, Don Torrieri
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Proceedings Volume 3718, Automatic Target Recognition IX; (1999) https://doi.org/10.1117/12.359992
Event: AeroSense '99, 1999, Orlando, FL, United States
Abstract
An effective clutter rejection scheme is needed to distinguish between clutter and targets in a high-performance automatic target recognition system. In this paper, we present a clutter rejection scheme that consists of an eigenspace transformation and a multilayer perceptron (MLP). The input to the clutter rejector module is the output of the detector that provides the potential regions (target chips). We first use an eigen transformation for feature extraction and dimensionality reduction. The transformations considered in this research are principal component analysis (PCA) and the eigenspace separation transform (EST). These transformations differ in their capabilities to enhance the class separability and to compact the information (energy) for a given training set. The result of the eigenspace transformation is then fed to an MLP that predicts the identity of the input, which is either a target or clutter. To search for the optimal performance, we use different sets of eigentargets and construct the matching MLPs. Modified from the popular Qprop algorithm, we devise an MLP training algorithm that seeks to maximize the class separation at a given false-alarm rate, which does not necessarily minimize the average deviation of the MLP outputs from their target values. Experimental results are presented on a huge and realistic data set of forward-looking infrared (FLIR) imagery.
© (1999) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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Lipchen Alex Chan, Nasser M. Nasrabadi, and Don Torrieri "Clutter rejection using eigenspace transformation", Proc. SPIE 3718, Automatic Target Recognition IX, (24 August 1999); https://doi.org/10.1117/12.359992
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Cited by 3 scholarly publications.
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KEYWORDS
Principal component analysis
Detection and tracking algorithms
Automatic target recognition
Copper
Target detection
Target recognition
Feature extraction
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