Stochastic Modeling of Impulse Responses in Reverberating Environments

Abstract: Propagation of waves within media supporting reverberation is usually regarded as a direct extension of the case of multi-path propagation, where a set of independent paths, equivalent to plane-wave contributions, can be drawn between a transmitter and a receiver. This paper adopts an alternative approach, based on modal theory, in order to derive models of the stochastic behavior of impulse responses (IRs) measured within such media. IRs can be represented as stationary Gaussian random processes whose amplitu… Show more

“…The electromagnetic environment widely existing in enclosed (or semi-enclosed) reflective spaces, e.g., below-deck ship compartments, aircraft cabins, or even metal buildings, has always been the focus of electromagnetic compatibility (EMC) community [1,2,3]. Very often, these spaces have presented a certain energy storage capacity like that of a classical Faraday cage, the waves reflect many times, and consequently the electronics may be threatened by the overlapping modes excited from frequency or source stirring [4].…”

Alternative method for the determination of the ideal electromagnetic reverberant frequency with frequency stirring technique

“…The electromagnetic environment widely existing in enclosed (or semi-enclosed) reflective spaces, e.g., below-deck ship compartments, aircraft cabins, or even metal buildings, has always been the focus of electromagnetic compatibility (EMC) community [1,2,3]. Very often, these spaces have presented a certain energy storage capacity like that of a classical Faraday cage, the waves reflect many times, and consequently the electronics may be threatened by the overlapping modes excited from frequency or source stirring [4].…”

Alternative method for the determination of the ideal electromagnetic reverberant frequency with frequency stirring technique

On the Statistical Analysis of Space-Time Wave Physics in Complex Enclosures