A Java multithread audio acquisition for audio surveillance

This paper presents a real time audio acquisition using a personal computer and multiple USB microphones. When audio stream is available, audio processing techniques can be added to make a real time audio surveillance. The output of this work can be used in audio processing techniques that require a...

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Main Authors:	Dadula, Cristina P., Dadios, Elmer P.
Format:	text
Published:	Animo Repository 2018
Subjects:	Audio data mining Sound—Analysis Electronic surveillance Simultaneous multithreading processors Manufacturing
Online Access:	https://animorepository.dlsu.edu.ph/faculty_research/2037
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Institution:	De La Salle University

id	oai:animorepository.dlsu.edu.ph:faculty_research-3036
record_format	eprints
spelling	oai:animorepository.dlsu.edu.ph:faculty_research-30362021-08-12T01:15:21Z A Java multithread audio acquisition for audio surveillance Dadula, Cristina P. Dadios, Elmer P. This paper presents a real time audio acquisition using a personal computer and multiple USB microphones. When audio stream is available, audio processing techniques can be added to make a real time audio surveillance. The output of this work can be used in audio processing techniques that require audio signals from multiple microphones like source localization and source separation. The designed algorithm implements Java threads and Java sound API (Applications Programming Interface ). Two to five microphone threads were run for about 1 second. Each setup was run for 5 trials. The 2-, 3-, and 4-microphone setup provided a promising result for a given hardware specification. The maximum difference for 2-microphone setup was 939 samples or 117 milliseconds duration. For 3-microphone setup, the maximum difference was 1109 samples or 138 milliseconds duration but the two-microphone setup got equal number of samples for about 60% of the trials. For 4-microphone set-up, the maximum number of difference was 1024 samples or about 128 milliseconds but 3 microphones3 microphones got equal number of samples for about 40% of the trials. The 5-microphone setup demonstrated that system resources cannot support that much number of microphones because the one microphone got a very low number of samples compared to other 4 microphones. © 2018 Universiti Teknikal Malaysia Melaka. All rights reserved. 2018-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/2037 Faculty Research Work Animo Repository Audio data mining Sound—Analysis Electronic surveillance Simultaneous multithreading processors Manufacturing
institution	De La Salle University
building	De La Salle University Library
continent	Asia
country	Philippines Philippines
content_provider	De La Salle University Library
collection	DLSU Institutional Repository
topic	Audio data mining Sound—Analysis Electronic surveillance Simultaneous multithreading processors Manufacturing
spellingShingle	Audio data mining Sound—Analysis Electronic surveillance Simultaneous multithreading processors Manufacturing Dadula, Cristina P. Dadios, Elmer P. A Java multithread audio acquisition for audio surveillance
description	This paper presents a real time audio acquisition using a personal computer and multiple USB microphones. When audio stream is available, audio processing techniques can be added to make a real time audio surveillance. The output of this work can be used in audio processing techniques that require audio signals from multiple microphones like source localization and source separation. The designed algorithm implements Java threads and Java sound API (Applications Programming Interface ). Two to five microphone threads were run for about 1 second. Each setup was run for 5 trials. The 2-, 3-, and 4-microphone setup provided a promising result for a given hardware specification. The maximum difference for 2-microphone setup was 939 samples or 117 milliseconds duration. For 3-microphone setup, the maximum difference was 1109 samples or 138 milliseconds duration but the two-microphone setup got equal number of samples for about 60% of the trials. For 4-microphone set-up, the maximum number of difference was 1024 samples or about 128 milliseconds but 3 microphones3 microphones got equal number of samples for about 40% of the trials. The 5-microphone setup demonstrated that system resources cannot support that much number of microphones because the one microphone got a very low number of samples compared to other 4 microphones. © 2018 Universiti Teknikal Malaysia Melaka. All rights reserved.
format	text
author	Dadula, Cristina P. Dadios, Elmer P.
author_facet	Dadula, Cristina P. Dadios, Elmer P.
author_sort	Dadula, Cristina P.
title	A Java multithread audio acquisition for audio surveillance
title_short	A Java multithread audio acquisition for audio surveillance
title_full	A Java multithread audio acquisition for audio surveillance
title_fullStr	A Java multithread audio acquisition for audio surveillance
title_full_unstemmed	A Java multithread audio acquisition for audio surveillance
title_sort	java multithread audio acquisition for audio surveillance
publisher	Animo Repository
publishDate	2018
url	https://animorepository.dlsu.edu.ph/faculty_research/2037
_version_	1709757371659583488

A Java multithread audio acquisition for audio surveillance

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