Sonifying Walking: A Perceptual Comparison of Swing Phase Mapping Schemes

Prithvi Ravi Kantan; Sofia Dahl; Erika G. Spaich; Roberto Bresin

Sonifying Walking: A Perceptual Comparison of Swing Phase Mapping Schemes

Prithvi Ravi Kantan, Sofia Dahl^*, Erika G. Spaich^*, Roberto Bresin^*

^*Kontaktforfatter

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

Abstract

Past research on the interactive sonification of footsteps has shown that the signal properties of digitally generated or processed footstep sounds can affect the perceived congruence between sensory channel inputs, leading to measurable changes in gait characteristics. In this study, we designed musical and nonmusical swing phase sonification schemes with signal characteristics corresponding to high and low ‘energy’ timbres (in terms of the levels of physical exertion and arousal they expressed), and assessed their perceived arousal, valence, intrusiveness, and congruence with fast (5 km/h) and slow (1.5 km/h) walking . In a web-based perceptual test with 52 participants, we found that the nonmusical high energy scheme received higher arousal ratings, and the musical equivalent received more positive valence ratings than the respective low
energy counterparts. All schemes received more positive arousal and valence ratings when applied to fast walking than slow walking data. Differences in perceived movement-sound congruence among the schemes were more evident for slow walking than fast walking. Lastly, the musical schemes were rated to be less intrusive to listen to for both slow and fast walking than their nonmusical
counterparts. With some modifications, the designed schemes will be used during walking to assess their effects on gait qualities.

Originalsprog	Engelsk
Titel	Proceedings of ISon 2022, 7th Interactive Sonification Workshop, BSCC, University of Bremen, Germany, September 22–23, 2022
Antal sider	8
Publikationsdato	2022
Status	Udgivet - 2022
Begivenhed	Interactive Sonification Workshop (ISon 2022) - Virtual Varighed: 22 sep. 2022 → 23 sep. 2022 https://www.interactive-sonification.org/ISon2022

Workshop

Workshop	Interactive Sonification Workshop (ISon 2022)
Lokation	Virtual
Periode	22/09/2022 → 23/09/2022
Internetadresse	https://www.interactive-sonification.org/ISon2022

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https://seafile.zfn.uni-bremen.de/f/0768449a6f1b4d898229/?dl=1Licens: Ikke-specificeret

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1 Afsluttet
1 Igangværende

NordicSMC: Nordic Sound and Music Computing Network
Serafin, S., Dahl, S., Willemsen, S., Kantan, P. R. & Paisa, R.
01/01/2018 → …
Projekter: Projekt › Forskning
Embodied Sonification Design for Augmented Feedback Purposes in Sit-to-Stand and Gait Rehabilitation
Kantan, P. R., Dahl, S. & Spaich, E. G.
01/01/2021 → 31/12/2023
Projekter: Projekt › Ph.d.-projekt

Citationsformater

@inproceedings{fde863d841e141b782833500639e4556,

title = "Sonifying Walking: A Perceptual Comparison of Swing Phase Mapping Schemes",

abstract = "Past research on the interactive sonification of footsteps has shown that the signal properties of digitally generated or processed footstep sounds can affect the perceived congruence between sensory channel inputs, leading to measurable changes in gait characteristics. In this study, we designed musical and nonmusical swing phase sonification schemes with signal characteristics corresponding to high and low {\textquoteleft}energy{\textquoteright} timbres (in terms of the levels of physical exertion and arousal they expressed), and assessed their perceived arousal, valence, intrusiveness, and congruence with fast (5 km/h) and slow (1.5 km/h) walking . In a web-based perceptual test with 52 participants, we found that the nonmusical high energy scheme received higher arousal ratings, and the musical equivalent received more positive valence ratings than the respective lowenergy counterparts. All schemes received more positive arousal and valence ratings when applied to fast walking than slow walking data. Differences in perceived movement-sound congruence among the schemes were more evident for slow walking than fast walking. Lastly, the musical schemes were rated to be less intrusive to listen to for both slow and fast walking than their nonmusicalcounterparts. With some modifications, the designed schemes will be used during walking to assess their effects on gait qualities. ",

author = "Kantan, {Prithvi Ravi} and Sofia Dahl and Spaich, {Erika G.} and Roberto Bresin",

year = "2022",

language = "English",

booktitle = "Proceedings of ISon 2022, 7th Interactive Sonification Workshop, BSCC, University of Bremen, Germany, September 22–23, 2022",

note = "Interactive Sonification Workshop (ISon 2022) ; Conference date: 22-09-2022 Through 23-09-2022",

url = "https://www.interactive-sonification.org/ISon2022",

}

Kantan, PR , Dahl, S , Spaich, EG & Bresin, R 2022, Sonifying Walking: A Perceptual Comparison of Swing Phase Mapping Schemes. i Proceedings of ISon 2022, 7th Interactive Sonification Workshop, BSCC, University of Bremen, Germany, September 22–23, 2022. Interactive Sonification Workshop (ISon 2022), 22/09/2022. <https://seafile.zfn.uni-bremen.de/f/0768449a6f1b4d898229/?dl=1>

Sonifying Walking: A Perceptual Comparison of Swing Phase Mapping Schemes. / Kantan, Prithvi Ravi ; Dahl, Sofia ; Spaich, Erika G. et al.
Proceedings of ISon 2022, 7th Interactive Sonification Workshop, BSCC, University of Bremen, Germany, September 22–23, 2022. 2022.

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Sonifying Walking

T2 - Interactive Sonification Workshop (ISon 2022)

AU - Kantan, Prithvi Ravi

AU - Dahl, Sofia

AU - Spaich, Erika G.

AU - Bresin, Roberto

PY - 2022

Y1 - 2022

N2 - Past research on the interactive sonification of footsteps has shown that the signal properties of digitally generated or processed footstep sounds can affect the perceived congruence between sensory channel inputs, leading to measurable changes in gait characteristics. In this study, we designed musical and nonmusical swing phase sonification schemes with signal characteristics corresponding to high and low ‘energy’ timbres (in terms of the levels of physical exertion and arousal they expressed), and assessed their perceived arousal, valence, intrusiveness, and congruence with fast (5 km/h) and slow (1.5 km/h) walking . In a web-based perceptual test with 52 participants, we found that the nonmusical high energy scheme received higher arousal ratings, and the musical equivalent received more positive valence ratings than the respective lowenergy counterparts. All schemes received more positive arousal and valence ratings when applied to fast walking than slow walking data. Differences in perceived movement-sound congruence among the schemes were more evident for slow walking than fast walking. Lastly, the musical schemes were rated to be less intrusive to listen to for both slow and fast walking than their nonmusicalcounterparts. With some modifications, the designed schemes will be used during walking to assess their effects on gait qualities.

AB - Past research on the interactive sonification of footsteps has shown that the signal properties of digitally generated or processed footstep sounds can affect the perceived congruence between sensory channel inputs, leading to measurable changes in gait characteristics. In this study, we designed musical and nonmusical swing phase sonification schemes with signal characteristics corresponding to high and low ‘energy’ timbres (in terms of the levels of physical exertion and arousal they expressed), and assessed their perceived arousal, valence, intrusiveness, and congruence with fast (5 km/h) and slow (1.5 km/h) walking . In a web-based perceptual test with 52 participants, we found that the nonmusical high energy scheme received higher arousal ratings, and the musical equivalent received more positive valence ratings than the respective lowenergy counterparts. All schemes received more positive arousal and valence ratings when applied to fast walking than slow walking data. Differences in perceived movement-sound congruence among the schemes were more evident for slow walking than fast walking. Lastly, the musical schemes were rated to be less intrusive to listen to for both slow and fast walking than their nonmusicalcounterparts. With some modifications, the designed schemes will be used during walking to assess their effects on gait qualities.

M3 - Article in proceeding

BT - Proceedings of ISon 2022, 7th Interactive Sonification Workshop, BSCC, University of Bremen, Germany, September 22–23, 2022

Y2 - 22 September 2022 through 23 September 2022

ER -

Sonifying Walking: A Perceptual Comparison of Swing Phase Mapping Schemes

Abstract

Workshop

Adgang til dokumentet

AUB Link

Fingeraftryk

Projekter

NordicSMC: Nordic Sound and Music Computing Network

Embodied Sonification Design for Augmented Feedback Purposes in Sit-to-Stand and Gait Rehabilitation

Citationsformater