Title: Passive source range estimation with a single receiver in shallow water 

Author: QI Yubo; ZHOU Shihong; REN Yun; WANG Dejun; LIU Jianjun; FENG Xiqiang;  

Affiliation: State Key Laboratory of Acoustics,Institute of Acoustics,Chinese Academy of Sciences； University of Chinese Academy of Sciences； Qingdao Branch,Institute of Acoustics,Chinese Academy of Sciences； 

Abstract: An approach for long-range passive impulsive source ranging with a single receiver in shallow water is proposed, which utilizes the frequency spectrum of the warped signal autocorrelation function via warping transform. For an ideal waveguide, there are invariable frequency features both in the frequency spectrum of the warped signal corresponding to modal cut-off frequencies and the warped signal autocorrelation function due to modal interference. These intrinsic frequency features can be used to passive source ranging. So, the approximate relationship between the frequency of warped signal at an unknown source range and the intrinsic frequency extracted by the time warping transform is derived. These rules can be generalized to an actual shallow water waveguide. Employing an acoustic model to offer the invariable frequency spectrum features, the impulsive signal data collected by a single hydrophone in the North Yellow Sea in December 2011 are analyzed to verify the proposed source ranging approach. The estimated ranges are in good agreement with the ranges measured by GPS, and the mean relative error of range estimation is less than 10%.