Abstract
The feasibility of resolving target returns within receive signals collected by a continuously transmitting quasi-monostatic, broadband, autonomous underwater vehicle (AUV) based sonar is explored. Theoretical studies supported by experimental results suggest that it is possible to capture the source-to-receiver coupling response and target scattering with sufficient fidelity during the continuous transmission to enable detection and (potentially) classification processing. Demonstrations focused upon the detection of a bottomed target object at sea using transmit signals with duty cycles of 60% and 100% indicate that such an approach is feasible for a representative AUV-based side looking sonar system operating in shallow water.
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CITATION STYLE
Waters, Z. J., Kost, J. L., Yoder, T. J., Amon, D. L., Saniga, M. L., Berdoz, A. R., … Gendron, P. J. (2019). Demonstration of a quasi-monostatic autonomous underwater vehicle based high duty cycle active sonar. The Journal of the Acoustical Society of America, 145(1), EL90–EL96. https://doi.org/10.1121/1.5088029
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