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Feature extraction for radar target recognition using time sequences of radar cross section measurements

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Xiaohui Xiang; Xiaojian Xu
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Abstract:

The radar cross section (RCS) signatures are not only related to the scattering structure of targets, but also related to the modulation of target micro-motion. In this p...Show More
Notes: Please be advised that the paper you have accessed is a draft of the final paper that was presented at the conference. This draft will be replaced with the final paper shortly.

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Abstract:

The radar cross section (RCS) signatures are not only related to the scattering structure of targets, but also related to the modulation of target micro-motion. In this paper, a feature extraction procedure for radar target recognition based on Mellin transform of the time sequences of RCS measurements is proposed. The mathematical relationship between target scattering distribution in the cross range and the RCS amplitude is derived and analyzed. The RCS features of targets are extracted using sequential method. Finally the feasibility of target recognition using Mellin transform and the accuracy of the algorithm are shown by simulated data sets.
Notes: Please be advised that the paper you have accessed is a draft of the final paper that was presented at the conference. This draft will be replaced with the final paper shortly.
Published in: 2013 6th International Congress on Image and Signal Processing (CISP)
Date of Conference: 16-18 December 2013
Date Added to IEEE Xplore: 20 February 2014
ISBN Information:
DOI: 10.1109/CISP.2013.6743928
Conference Location: Hangzhou, China
References is not available for this document.
Contents

I. Introduction

Early Warning Radar (EWR) can acquire not only the metric information of radar targets such as distance, moving direction, azimuth angle and elevation angle, but also radar cross section (RCS) [1] measurements which contain abundant signatures of targets. Distinguishing warhead and decoys in ballistic missile defense system (BMDS) [2] is a big challenge. After the separation of warhead from the fuel tank and release of the decoys, the warhead has regular motion caused by spinning and conning, while the motion of decoys is usually irregular caused by tumbling. Consequently, their micromotion characteristics are significantly different, resulting in different modulation characteristics of the radar returns. The information contained in the time sequences of RCS amplitude reflects recognizable target characteristic such as size, shape, structure as well as the state of motion. As a result, RCS measurements are considered to be important radar target signatures for the analysis of target micro-motion. With the continuous development of modern signal processing, the RCS feature extraction techniques continue to be improved [3], [4]. Past experiments demonstrated that fully exploiting the information contained in RCS is important for target recognition in BMDS [5].

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