Underwater Sound Source Localization Based on Passive Time-Reversal Mirror and Ray Theory

Abstract: This study investigates the performance of a passive time-reversal mirror (TRM) combined with acoustic ray theory in localizing underwater sound sources with high frequencies (3–7 kHz). The TRM was installed on a floating buoy and comprised four hydrophones. The ray-tracing code BELLHOP was used to determine the transfer function between a sound source and a field point. The transfer function in the frequency domain obtained from BELLHOP was transformed into the time domain. The pressure field was then obtaine… Show more

“…The sound waves emitted by a sonar are reflected from a target object, and the reflected waves are received by a sonar receiver. The position of the target is then determined by analyzing the reflected signals using various signal processing techniques, such as triangulation, beamforming, and time-reversal mirror [ 1 ]. To improve the stealth performance of a submarine, the sound-absorbing properties of the hull material at various submergence depths must be determined.…”

Development and Applications of a Pressurized Water-Filled Impedance Tube

“…The sound waves emitted by a sonar are reflected from a target object, and the reflected waves are received by a sonar receiver. The position of the target is then determined by analyzing the reflected signals using various signal processing techniques, such as triangulation, beamforming, and time-reversal mirror [ 1 ]. To improve the stealth performance of a submarine, the sound-absorbing properties of the hull material at various submergence depths must be determined.…”

Development and Applications of a Pressurized Water-Filled Impedance Tube

Research on Passive Localization Techniques for UAV Formations Based on the Law of Sines

DOA Estimation of Underwater Acoustic Array Signal Based on Wavelet Transform With Double Branch Convolutional Neural Network