Optimum Loss Factor for a Perfectly Matched Layer in Finite-Difference Time-Domain Acoustic Simulation

Optimum Loss Factor for a Perfectly Matched Layer in Finite-Difference Time-Domain Acoustic Simulation

A perfectly matched layer (PML) is commonly used in finite-difference time-domain (FDTD) simulation to absorb outgoing waves and thereby reduce artifactual reflections from the computational domain boundaries. However, previous two-dimensional studies have noted that increasing the PML loss factor d...

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Veröffentlicht in:IEEE transactions on audio, speech, and language processing speech, and language processing, 2010-07, Vol.18 (5), p.1068-1071
Hauptverfasser: Mokhtari, Parham, Takemoto, Hironori, Nishimura, Ryouichi, Kato, Hiroaki
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic reflection
Acoustic simulation
Acoustic waves
Computational modeling
Computer simulation
Degradation
Estimating
Finite difference method
Finite difference methods
Finite difference time domain method
finite-difference time-domain (FDTD)
Mathematical analysis
Optimization
perfectly matched layer (PML)
Perfectly matched layers
Performance loss
Signal resolution
Time domain analysis
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Zusammenfassung:A perfectly matched layer (PML) is commonly used in finite-difference time-domain (FDTD) simulation to absorb outgoing waves and thereby reduce artifactual reflections from the computational domain boundaries. However, previous two-dimensional studies have noted that increasing the PML loss factor does not monotonically improve the PML's performance. This paper evaluates the PML in three-dimensional FDTD acoustic simulations. It confirms the existence of an optimum loss factor, with higher values degrading PML performance. An empirical formula is offered for estimating the optimum loss factor for a linear or a quadratic profile, that depends on the PML depth, sound speed, and grid resolution.
ISSN:1558-7916
2329-9290
1558-7924
2329-9304
DOI:10.1109/TASL.2009.2035036