Modeling of Moving Sound Sources Based on Array Measurements

When auralizing moving sound sources in Virtual Reality (VR) environments, the two main input parameters are the location and radiated signal of the source. An array measurement-based model is developed to characterize moving sound sources regarding the two parameters in this thesis. This model util...

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Autore principale: Meng, Fanyu
Natura: Online
Lingua:inglese
Pubblicazione: Logos Verlag Berlin 2022
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Accesso online:OCN: 1261773243
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author Meng, Fanyu
author_browse Meng, Fanyu
author_facet Meng, Fanyu
author_sort Meng, Fanyu
collection Directory of Open Access Books
description When auralizing moving sound sources in Virtual Reality (VR) environments, the two main input parameters are the location and radiated signal of the source. An array measurement-based model is developed to characterize moving sound sources regarding the two parameters in this thesis. This model utilizes beamforming, i.e. delay and sum beamforming (DSB) and compressive beamforming (CB) to obtain the locations and signals of moving sound sources. A spiral and a pseudorandom microphone array are designed for DSB and CB, respectively, to yield good localization ability and meet the requirement of CB. The de-Dopplerization technique is incorporated in the time-domain DSB to address moving source problems. Time-domain transfer functions (TDTFs) are calculated in terms of the spatial locations within the steering window of the moving source. TDTFs then form the sensing matrix of CB, thus allowing CB to solve moving source problem. DSB and CB are further extended to localize moving sound sources, and the reconstructed signals from the beamforming outputs are investigated to obtain the source signals. Moreover, localization and signal reconstruction are evaluated through varying parameters in the beamforming procedures, i.e. steering position, steering window length and source speed for a moving periodic signal using DSB, and regularization parameter, signal to noise ratio (SNR), steering window length, source speed, array to source motion trajectory and mismatch for a moving engine signal using CB. The parameter studies show guidelines of parameter selection based on the given situations in this thesis for modeling moving source using beamforming. Both algorithms are able to reconstruct the moving signals in the given scenarios. Although CB outperforms DSB in terms of signal reconstruction under particular conditions, the localization abilities of the two algorithms are quite similar. The practicability of the model has been applied on pass-by measurements of a moving loudspeaker using the designed arrays, and the results can match the conclusions drawn above from simulations. Finally, a framework on how to apply the model for moving source auralization is proposed.
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spelling doab-20.500.12854ir-843172025-07-31T16:12:48Z Modeling of Moving Sound Sources Based on Array Measurements Meng, Fanyu Science Chemistry Technology & Engineering Construction Technology & Engineering When auralizing moving sound sources in Virtual Reality (VR) environments, the two main input parameters are the location and radiated signal of the source. An array measurement-based model is developed to characterize moving sound sources regarding the two parameters in this thesis. This model utilizes beamforming, i.e. delay and sum beamforming (DSB) and compressive beamforming (CB) to obtain the locations and signals of moving sound sources. A spiral and a pseudorandom microphone array are designed for DSB and CB, respectively, to yield good localization ability and meet the requirement of CB. The de-Dopplerization technique is incorporated in the time-domain DSB to address moving source problems. Time-domain transfer functions (TDTFs) are calculated in terms of the spatial locations within the steering window of the moving source. TDTFs then form the sensing matrix of CB, thus allowing CB to solve moving source problem. DSB and CB are further extended to localize moving sound sources, and the reconstructed signals from the beamforming outputs are investigated to obtain the source signals. Moreover, localization and signal reconstruction are evaluated through varying parameters in the beamforming procedures, i.e. steering position, steering window length and source speed for a moving periodic signal using DSB, and regularization parameter, signal to noise ratio (SNR), steering window length, source speed, array to source motion trajectory and mismatch for a moving engine signal using CB. The parameter studies show guidelines of parameter selection based on the given situations in this thesis for modeling moving source using beamforming. Both algorithms are able to reconstruct the moving signals in the given scenarios. Although CB outperforms DSB in terms of signal reconstruction under particular conditions, the localization abilities of the two algorithms are quite similar. The practicability of the model has been applied on pass-by measurements of a moving loudspeaker using the designed arrays, and the results can match the conclusions drawn above from simulations. Finally, a framework on how to apply the model for moving source auralization is proposed. 2022-06-19T04:07:02Z 2022-06-19T04:07:02Z 2022-06-18T05:43:00Z 2018 book OCN: 1261773243 https://library.oapen.org/handle/20.500.12657/56837 9783832547592 https://directory.doabooks.org/handle/20.500.12854/84317 eng open access image/jpeg image/jpeg image/jpeg image/jpeg image/jpeg n/a n/a n/a n/a n/a https://library.oapen.org/bitstream/20.500.12657/56837/1/external_content.pdf https://library.oapen.org/bitstream/20.500.12657/56837/1/external_content.pdf https://library.oapen.org/bitstream/20.500.12657/56837/1/external_content.pdf https://library.oapen.org/bitstream/20.500.12657/56837/1/external_content.pdf https://library.oapen.org/bitstream/20.500.12657/56837/1/external_content.pdf Logos Verlag Berlin Logos Verlag Berlin https://doi.org/10.30819/4759 https://doi.org/10.30819/4759 04b263a1-7fba-4491-9eae-1c394ac42fc3 Knowledge Unlatched 9783832547592 Knowledge Unlatched (KU) KU Open Services Logos Verlag Berlin open access
spellingShingle Science
Chemistry
Technology & Engineering
Construction
Technology & Engineering
Meng, Fanyu
Modeling of Moving Sound Sources Based on Array Measurements
title Modeling of Moving Sound Sources Based on Array Measurements
title_full Modeling of Moving Sound Sources Based on Array Measurements
title_fullStr Modeling of Moving Sound Sources Based on Array Measurements
title_full_unstemmed Modeling of Moving Sound Sources Based on Array Measurements
title_short Modeling of Moving Sound Sources Based on Array Measurements
title_sort modeling of moving sound sources based on array measurements
topic Science
Chemistry
Technology & Engineering
Construction
Technology & Engineering
topic_facet Science
Chemistry
Technology & Engineering
Construction
Technology & Engineering
url OCN: 1261773243
work_keys_str_mv AT mengfanyu modelingofmovingsoundsourcesbasedonarraymeasurements