Paper Info
Title
A Generalized Steered Response Power Method for Computationally Viable Source Localization
Abstract
The process of locating an acoustic source given measurements of the sound field at multiple microphones is of significant interest as both a classical array signal processing problem, and more recently, as a solution to the problems of automatic camera steering, teleconferencing, hands-free processing, and others. Despite the proven efficacy of steered-beamformer approaches to localization in harsh conditions, their practical application to real-time settings is hindered by undesirably high computational demands. This paper presents a computationally viable implementation of the steered response power (SRP) source localization method. The conventional approach is generalized by introducing an inverse mapping that maps relative delays to sets of candidate locations. Instead of traversing the three-dimensional location space, the one-dimensional relative delay space is traversed; at each lag, all locations which are inverse mapped by that delay are updated. This means that the computation of the SRP map is no longer performed sequentially in space. Most importantly, by subsetting the space of relative delays to only those that achieve a high level of cross-correlation, the required number of algorithm updates is drastically reduced without compromising localization accuracy. The generalization is scalable in the sense that the level of subsetting is an algorithm parameter. It is shown that this generalization may be viewed as a spatial decomposition of the SRP energy map into weighted basis functions-in this context, it becomes evident that the full SRP search considers all basis functions (even the ones with very low weighting). On the other hand, it is shown that by only including a few basis functions per microphone pair, the SRP map is quite accurately represented. As a result, in a real environment, the proposed generalization achieves virtually the same anomaly rate as the full SRP search while only performing 10% the amount of algorithm updates as the full sea- rch.
Year
DOI
Venue
2007
10.1109/TASL.2007.906694
IEEE Transactions on Audio, Speech & Language Processing
Keywords
Field
DocType
srp energy map,three-dimensional location space,localization accuracy,algorithm parameter,one-dimensional relative delay space,basis function,srp map,generalized steered response power,computationally viable source localization,full srp search,algorithm updates,full sea,cross correlation,real time,three dimensional,power method,spectral estimation
Cross-correlation,Signal processing,Weighting,Weight function,Computer science,Speech recognition,Basis function,Power iteration,Computation,Scalability
Journal
Volume
Issue
ISSN
15
8
1558-7916
Citations 
PageRank 
References 
41
2.09
10
Authors
3
Name
Order
Citations
PageRank
J. P. Dmochowski1412.09
Jacob Benesty21941146.01
S. Affes346538.31