Title :
Learning the precedence effect: initial real-world tests
Author_Institution :
Lab. Comput. Sci. & Artificial Intelligence, MIT, Cambridge, MA, USA
Abstract :
Audio source localization in reverberant environments has proved difficult for automated microphone array systems. Certain features observable in the audio signal, such as sudden increases in audio energy, provide cues to indicate time-frequency regions that are particularly useful for audio localization, but previous approaches have not systematically exploited these cues. We give an overview of a system that we have designed that exploits these cues by learning a mapping from reverberated signal spectrograms to localization precision. We then describe initial tests of the system that demonstrate improved source localization on real audio data using the generalized cross-correlation (GCC) framework. We also relate the system´s learned mappings to the well-known precedence effect from psychoacoustic studies.
Keywords :
array signal processing; audio signal processing; microphone arrays; time-frequency analysis; audio source localization; automated microphone array systems; generalized cross-correlation framework; precedence effect; psychoacoustic studies; real-world tests; reverberant environments; reverberated signal spectrograms; time-frequency regions; Array signal processing; Microphone arrays; Psychoacoustic models; Psychology; Reverberation; Signal to noise ratio; System testing; Time frequency analysis; Uncertainty; Working environment noise;
Conference_Titel :
Applications of Signal Processing to Audio and Acoustics, 2005. IEEE Workshop on
Print_ISBN :
0-7803-9154-3
DOI :
10.1109/ASPAA.2005.1540189
