11:55 AM - 12:10 PM
[S01B-05] Shape reconstruction for a defect using 3-D elastodynamic time-reversal analysis with topological sensitivity
Keywords:Time-domain BEM, Topological sensitivity, Time-reversal method, Matrix array transducer, 3-D elastodynamics
This study conducts 3-D elastodynamic time-reversal analysis using topological sensitivity. The timereversal method is one of the effective inverse scattering technique to detect a defect in elastic solids.
The topological sensitivity is utilized to determine the convergence area of time-reversed waves from
receiver points. The convolution quadrature time-domain boundary element method(CQBEM) for
3-D elastodynamics is used to obtain scattered and time-reversed wave fields. Some defect detection
results obtained by using this approach are demonstrated to investigate the performance of the
present method.
The topological sensitivity is utilized to determine the convergence area of time-reversed waves from
receiver points. The convolution quadrature time-domain boundary element method(CQBEM) for
3-D elastodynamics is used to obtain scattered and time-reversed wave fields. Some defect detection
results obtained by using this approach are demonstrated to investigate the performance of the
present method.