Extraction of ground reaction forces for real-time synthesis of walking sounds

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

11 Citationer (Scopus)
682 Downloads (Pure)

Resumé

A shoe-independent system to synthesize real-time footstep sounds on different materials has been
developed. A footstep sound is considered as the result of an interaction between an exciter (the shoe) and a
resonator (the floor). To achieve our goal, we propose two different solutions. The first solution is based on
contact microphones attached on the exterior part of each shoe, which capture the sound of a footstep. The
second approach consists on using microphones placed on the floor. In both situations, the captured sound is
analysed and used to control a sound synthesis engine. We discuss advantages and disadvantages of the two
approaches.
OriginalsprogEngelsk
TitelProceedings of the 2009 Audio Mostly Conference
RedaktørerDavid Moffat
Antal sider7
Vol/bind1
ForlagGlasgow Caledonian University
Publikationsdato2009
Sider99-105
ISBN (Trykt)978-3-00-022823-0
StatusUdgivet - 2009
BegivenhedAudio Mostly - Glasgow, Storbritannien
Varighed: 2 aug. 20093 aug. 2009

Konference

KonferenceAudio Mostly
LandStorbritannien
ByGlasgow
Periode02/08/200903/08/2009

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walking
shoes
acoustics
synthesis
microphones
engines
interactions

Emneord

  • Lyd Syntese

Citer dette

Serafin, S., Turchet, L., & Nordahl, R. (2009). Extraction of ground reaction forces for real-time synthesis of walking sounds. I D. Moffat (red.), Proceedings of the 2009 Audio Mostly Conference (Bind 1, s. 99-105). Glasgow Caledonian University.
Serafin, Stefania ; Turchet, Luca ; Nordahl, Rolf. / Extraction of ground reaction forces for real-time synthesis of walking sounds. Proceedings of the 2009 Audio Mostly Conference. red. / David Moffat. Bind 1 Glasgow Caledonian University, 2009. s. 99-105
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abstract = "A shoe-independent system to synthesize real-time footstep sounds on different materials has beendeveloped. A footstep sound is considered as the result of an interaction between an exciter (the shoe) and aresonator (the floor). To achieve our goal, we propose two different solutions. The first solution is based oncontact microphones attached on the exterior part of each shoe, which capture the sound of a footstep. Thesecond approach consists on using microphones placed on the floor. In both situations, the captured sound isanalysed and used to control a sound synthesis engine. We discuss advantages and disadvantages of the twoapproaches.",
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Serafin, S, Turchet, L & Nordahl, R 2009, Extraction of ground reaction forces for real-time synthesis of walking sounds. i D Moffat (red.), Proceedings of the 2009 Audio Mostly Conference. bind 1, Glasgow Caledonian University, s. 99-105, Audio Mostly, Glasgow, Storbritannien, 02/08/2009.

Extraction of ground reaction forces for real-time synthesis of walking sounds. / Serafin, Stefania; Turchet, Luca; Nordahl, Rolf.

Proceedings of the 2009 Audio Mostly Conference. red. / David Moffat. Bind 1 Glasgow Caledonian University, 2009. s. 99-105.

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

TY - GEN

T1 - Extraction of ground reaction forces for real-time synthesis of walking sounds

AU - Serafin, Stefania

AU - Turchet, Luca

AU - Nordahl, Rolf

PY - 2009

Y1 - 2009

N2 - A shoe-independent system to synthesize real-time footstep sounds on different materials has beendeveloped. A footstep sound is considered as the result of an interaction between an exciter (the shoe) and aresonator (the floor). To achieve our goal, we propose two different solutions. The first solution is based oncontact microphones attached on the exterior part of each shoe, which capture the sound of a footstep. Thesecond approach consists on using microphones placed on the floor. In both situations, the captured sound isanalysed and used to control a sound synthesis engine. We discuss advantages and disadvantages of the twoapproaches.

AB - A shoe-independent system to synthesize real-time footstep sounds on different materials has beendeveloped. A footstep sound is considered as the result of an interaction between an exciter (the shoe) and aresonator (the floor). To achieve our goal, we propose two different solutions. The first solution is based oncontact microphones attached on the exterior part of each shoe, which capture the sound of a footstep. Thesecond approach consists on using microphones placed on the floor. In both situations, the captured sound isanalysed and used to control a sound synthesis engine. We discuss advantages and disadvantages of the twoapproaches.

KW - Lyd Syntese

KW - Sound Synthesis

KW - Walking

KW - Walking interfaces

M3 - Article in proceeding

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BT - Proceedings of the 2009 Audio Mostly Conference

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Serafin S, Turchet L, Nordahl R. Extraction of ground reaction forces for real-time synthesis of walking sounds. I Moffat D, red., Proceedings of the 2009 Audio Mostly Conference. Bind 1. Glasgow Caledonian University. 2009. s. 99-105