A spherical microphone array-based system for the determination of spatial information in reverberant sound fields

Abstract

A measurement system has been developed for analysis of the directional and spatial variations in reverberant sound fields. Two spherical, 32-element arrays of microphones are used to generate narrow beams over two different frequency ranges, together covering 300–3300 Hz. Using an omnidirectional loudspeaker as excitation in a room, the pressure impulse response in each of 60 steering directions is measured. Through analysis of these responses, the variation of arriving energy with direction is studied. The system was first validated in simple sound fields in an anechoic chamber and in a reverberation chamber. The system characterizes these sound fields as expected, both quantitatively through numerical descriptors and qualitatively from plots of the arriving energy versus direction. The system was then used to measure the sound fields in several actual rooms. These sound fields were highly anisotropic, influenced greatly by the direct sound and early-arriving reflections. The rate of sound decay was not independent of direction, sound being absorbed more rapidly in some directions than in others.