Estimating a Green's Function from “Field-Field” Correlations in a Random Medium

Traditional imaging methods use coherent signals as data. Here, we discuss recent developments in imaging that aim at exploiting as data incoherent noisy signals that are not associated with well-defined arrival times. Indeed, signal constituents that in a classical setting may be regarded as noise may contain important information about the medium to be imaged. We show how it is possible to use the statistics of such noisy signals, specifically, the second-order statistics, for imaging. We consider two particular situations: first, the estimation of an (“empirical”) Green's function from noisy signals which can subsequently be used in imaging; second, the localization of a cluster of random sources from noisy signals (passive imaging). The analysis presented here is based on assuming a remote sensing scaling and the paraxial approximation, and it uses in part the results set forth in Papanicolaou, Ryzhik, and Solna [SIAM J. Appl. Math., 64 (2004), pp. 1133–1155] that relate to time-reversal, statistical ...