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Multiple ping sonar accuracy improvement using robust motion estimation and ping fusion
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Noise degrades the accuracy of sonar systems. We demonstrate a practical method for increasing the effective signal-to-noise ratio (SNR) by fusing time delay information from a burst of multiple sonar pings. This approach can be useful when there is no relative motion between the sonar and the target during the burst of sonar pinging. Otherwise, the relative motion degrades the fusion and therefore, has to be addressed before fusion can be used. In this paper, we present a robust motion estimation algorithm which uses information from multiple receivers to estimate the relative motion between pings in the burst. We then compensate for motion, and show that the fusion of information from the burst of motion compensated pings improves both the resilience to noise and sonar accuracy, consequently increasing the operating range of the sonar system.
Acoustical Society of America (ASA)
Title: Multiple ping sonar accuracy improvement using robust motion estimation and ping fusion
Description:
Noise degrades the accuracy of sonar systems.
We demonstrate a practical method for increasing the effective signal-to-noise ratio (SNR) by fusing time delay information from a burst of multiple sonar pings.
This approach can be useful when there is no relative motion between the sonar and the target during the burst of sonar pinging.
Otherwise, the relative motion degrades the fusion and therefore, has to be addressed before fusion can be used.
In this paper, we present a robust motion estimation algorithm which uses information from multiple receivers to estimate the relative motion between pings in the burst.
We then compensate for motion, and show that the fusion of information from the burst of motion compensated pings improves both the resilience to noise and sonar accuracy, consequently increasing the operating range of the sonar system.
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