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This paper addresses some results on the development of an approximate method for computing the acoustic field scattered by a three-dimensional penetrable object immersed into an incompressible fluid. The basic idea of the method consists in using on-surface differential operators that locally reproduce the interior propagation phenomenon. This approach leads to integral equation formulations with a reduced computational cost compared to standard integral formulations coupling both the transmitted...
This paper addresses some results on the development of an approximate method
for computing the acoustic field scattered by a three-dimensional penetrable object immersed into an incompressible
fluid. The basic idea of the method consists in using on-surface differential
operators that locally reproduce the interior propagation phenomenon. This approach leads to
integral equation formulations with a reduced computational cost compared to standard integral formulations coupling
both the transmitted...
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