Time-frequency signatures based on fuzzy-clusters: Applications to echoes from absorbing spherical shells
Control Conference(2007)
摘要
In order to develop an automatic target identification system for underwater objects, it is necessary to extract and classify the features contained in waves scattered from the targets. According to the acoustic scattering theory, the scattered signal contains the “signatures” corresponding to the structure and material content of the target. Pseudo-Wigner Distribution (PWD) function is applied on scattered waves, and the signatures are found and analyzed in the time-frequency plane. A method based on Fuzzy C-Means (FCM) algorithm is then introduced to eliminate the redundant features and represent the useful information (i.e. the time-frequency signatures) by FCM cluster centers. As a result, the amount of data that is required to identify the target is greatly reduced, and a target classification scheme can be simply developed based on the cluster representation.
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关键词
wigner distribution,acoustic signal processing,acoustic wave absorption,acoustic wave scattering,echo,feature extraction,fuzzy set theory,object detection,signal classification,time-frequency analysis,underwater sound,fcm algorithm,pwd,absorbing spherical shells,acoustic scattering theory,automatic target identification system,cluster representation,echoes,feature classification,fuzzy c-means,fuzzy clusters,pseudowigner distribution function,target classification,time-frequency plane,time-frequency signatures,underwater objects,absorbing spherical shell,fuzzy-clustering,fuzzy clustering,time frequency analysis,acoustics,materials,absorption,clustering algorithms
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