1. DISTRIBUTED MULTIPLE CONSTRAINTS GENERALIZED
SIDE LOBE CANCELER FOR FULLY CONNECTED
WIRELESS ACOUSTIC SENSOR NETWORKS
ABSTRACT:
This paper proposes a distributed multiple constraints generalized side lobe canceler
(GSC) for speech enhancement in an N-node fully connected wireless acoustic sensor
network (WASN) comprising Microphones. Our algorithm is designed to operate in
reverberant environments with constrained speakers (including both desired and competing
speakers). Rather than broadcasting M microphone signals, a significant communication
bandwidth reduction is obtained by performing local beam forming at the nodes, and utilizing
only transmission channels. Each node processes its own microphone signals together with
the N + P transmitted signals. The GSC-form implementation, by separating the constraints
and the minimization, enables the adaptation of the BF during speech-absent time segments,
and relaxes the requirement of other distributed LCMV based algorithms to re-estimate the
sources RTFs after iteration. We provide a full convergence proof of the proposed structure
to the centralized GSC-beam former (BF). An extensive experimental study of both
narrowband and (wideband) speech signals verifies the theoretical analysis.