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Inverse Problems in Science and Engineering Volume 29, 2021 - Issue 12
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Research Article

A simple method of reconstructing a point-like scatterer according to time-dependent acoustic wave propagation

Bo ChenCollege of Science, Civil Aviation University of China, Tianjin, People's Republic of ChinaCorrespondence[email protected]
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Yao SunCollege of Science, Civil Aviation University of China, Tianjin, People's Republic of ChinaView further author information
Pages 1895-1911 | Received 19 Dec 2019, Accepted 28 Jan 2021, Published online: 09 Feb 2021

References

  • Colton D, Kress R. Inverse acoustic and electromagnetic scattering theory. 3rd ed. Berlin: Springer; 2013.
  • Sayas FJ. Retarded potentials and time domain boundary integral equations: a road-map. Switzerland: Springer; 2016. (Springer Series in Computational Mathematics).
  • Colton D, Kirsch A. A simple method for solving inverse scattering problems in the resonance region. Inverse Probl. 1996;12(4):383–393.
  • Guo Y, Hömberg D, Hu G, et al. A time domain sampling method for inverse acoustic scattering problems. J Comput Phys. 2016;314:647–660.
  • Li J, Liu H, Zou J. Strengthened linear sampling method with a reference ball. SIAM J Sci Comput. 2009;31(6):4013–4040.
  • Challa DP, Sini M. Inverse scattering by point-like scatterers in the Foldy regime. Inverse Probl. 2012;28(12):1224–1246.
  • Cheney M. The linear sampling method and the MUSIC algorithm. Inverse Probl. 2001;17(4):591–595.
  • Cheng J, Liu J, Nakamura G. The numerical realization of the probe method for the inverse scattering problems from the near-field data. Inverse Probl. 2005;21(3):839–855.
  • Ikehata M. Reconstruction of the shape of the inclusion by boundary measurements. Commun Partial Differ Equ. 1998;23(7-8):1459–1474.
  • Bao G, Hou S, Li P. Inverse scattering by a continuation method with initial guesses from a direct imaging algorithm. J Comput Phys. 2007;227(1):755–762.
  • Barucq H, Faucher F, Pham H. Localization of small obstacles from back-scattered data at limited incident angles with full-waveform inversion. J Comput Phys. 2018;370:1–24.
  • Hou S, Solna K, Zhao H. A direct imaging method using far-field data. Inverse Probl. 2007;23(4):1533–1546.
  • Challa DP, Hu G, Sini M. Multiple scattering of electromagnetic waves by finitely many point-like obstacles. Math Models Methods Appl Sci. 2014;24(5):863–899.
  • Gintides D, Sini M, Thành NT. Detection of point-like scatterers using one type of scattered elastic waves. J Comput Appl Math. 2012;236(8):2137–2145.
  • Chen X. Multiple signal classification method for detecting point-like scatterers embedded in an inhomogeneous background medium. J Acoust Soc Am. 2010;127(4):2392–2397.
  • Hu G, Andrea M, Mourad S. Direct and inverse acoustic scattering by a collection of extended and point-like scatterers. Multiscale Model Simul. 2014;12(3):996–1027.
  • Lai J, Li M, Li P, et al. A fast direct imaging method for the inverse obstacle scattering problem with nonlinear point scatterers. Inverse Prob Imag. 2018;12(3):635–665.
  • Yin T, Hu G, Xu L. Near-field imaging point-like scatterers and extended elastic solid in a fluid. Commun Comput Phys. 2016;19(5):1317–1342.
  • Ha-Duong T. On retarded potential boundary integral equations and their discretisation. Topics Comput Wave Propag. 2003;31:301–336.
  • Banjai L, Sauter S. Rapid solution of the wave equation in unbounded domains. SIAM J Numer Anal. 2008;47(1):227–249.
  • Hackbusch W, Kress W, Sauter SA. Sparse convolution quadrature for time domain boundary integral formulations of the wave equation. IMA J Numer Anal. 2009;29(1):15–20.
  • Laliena AR, Sayas FJ. Theoretical aspects of the application of convolution quadrature to scattering of acoustic waves. Numer Math. 2009;112(4):637–678.
  • Chen B, Guo Y, Ma F, et al. Numerical schemes to reconstruct three dimensional time dependent point sources of acoustic waves. Inverse Probl. 2020;36(7):075009.
  • Chen B, Ma F, Guo Y. Time domain scattering and inverse scattering problems in a locally perturbed half-plane. Appl Anal. 2017;96(8):1303–1325.
  • Chen Q, Haddar H, Lechleiter A, et al. A sampling method for inverse scattering in the time domain. Inverse Probl. 2010;26(8):85001–85017.
  • Guo Y, Monk P, Colton D. Toward a time domain approach to the linear sampling method. Inverse Probl. 2013;29(9):095016.
  • Chen B, Ma F, Guo Y. Acoustic scattering from open cavities in the time domain. Electron J Differ Equ. 2019;2019(131):1–14.
  • Colton D, Kress R. Integral equation methods in scattering theory. New York (NY): John Wiley; 1983.
  • Sun Y. Indirect boundary integral equation method for the Cauchy problem of the Laplace equation. J Sci Comput. 2017;71(2):469–498.
  • Barucq H, Diaz J, Mattesi V, et al. Asymptotic behavior of acoustic waves scattered by very small obstacles. ESAIM: Math Model Numer Anal. doi:https://doi.org/10.1051/m2an/2020047
  • Treeby BE, Cox BT. K-Wave: MATLAB toolbox for the simulation and reconstruction of photoacoustic wave fields. J Biomed Opt. 2010;15(2):021314.

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