The imaging performance and efficiency are two important issues for the multireceiver synthetic aperture sonar (SAS). Back projection (bp) algorithm is characterised by the high performance and low efficiency. In this...
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The imaging performance and efficiency are two important issues for the multireceiver synthetic aperture sonar (SAS). Back projection (bp) algorithm is characterised by the high performance and low efficiency. In this study, the authors first recall the standard bpalgorithmbased on the interpolation for the multireceiver SAS. Then, two improved bpalgorithms based on the range Fourier transformation (ft) are presented. Considering the fact that the time delay in the time domain can be carried out by the phase shifting in the frequency domain, an ft shifting based bp algorithm avoiding the interpolation error is presented. Although this method produces the focusing result with high performance, it is very time consuming. In order to improve the imaging efficiency without loss of imaging performance, the authors propose an oversampling-basedbpalgorithm, which is based on the fact that the zero-padding in the frequency domain is equivalent to the interpolation in the time domain. After that, the computation complexity of three bpalgorithms is analysed in detail. Finally, simulations and real data are exploited to validate the presented methods.
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