Institut des Sciences de la Terre, CNRS, UMR5275 IFSTTAR Université de Savoie Université Joseph Fourier-Grenoble I INSU OSUG IRD: UR219, France.
J Acoust Soc Am. 2012 Jan;131(1):EL21-7. doi: 10.1121/1.3665397.
Passive methods for the recovery of Green's functions from ambient noise require strong hypotheses, including isotropic distribution of the noise sources. Very often, this distribution is nonisotropic, which introduces bias in the Green's function reconstruction. To minimize this bias, a spatiotemporal inverse filter is proposed. The method is tested on a directive noise field computed from an experimental active seismic data set. The results indicate that the passive inverse filter allows the manipulation of the spatiotemporal degrees of freedom of a complex wave field, and it can efficiently compensate for the noise wavefield directivity.
从环境噪声中恢复格林函数的被动方法需要很强的假设,包括噪声源的各向同性分布。通常,这种分布是各向异性的,这会给格林函数重建引入偏差。为了最小化这种偏差,提出了一种时空逆滤波器。该方法在从实验主动地震数据集计算的定向噪声场进行了测试。结果表明,被动逆滤波器允许对复杂波场的时空自由度进行操作,并且可以有效地补偿噪声波场的方向性。