Items Authored/Edited by Richardson, Daniel C.

Number of items: 9.
2025
Rai, Laura A.; Lee, Haeeun; Becke, Emma; Trenado, Carlos; Abad-Hernando, Sonia; Sperling, Matthias; Vidaurre, Diego; Wald-Fuhrmann, Melanie; Richardson, Daniel C.; Ward, Jamie A and Orgs, Guido.
2025.
Delta-band audience brain synchrony tracks engagement with live and recorded dance.
iScience, 28(7),
112922.
ISSN 2589-0042
[Article]
2024
Stamm, Julie C; Richardson, Daniel C. and Ward, Jamie A.
2024.
Squeeze and Slide: Real-time continuous self-reports with physiological arousal to evaluate emotional engagement in short films of contemporary dance.
CHI EA '24: Extended Abstracts of the 2024 CHI Conference on Human Factors in Computing Systems,
301.
[Article]
2022
Millman, L.S. Merritt; Richardson, Daniel C. and Orgs, Guido.
2022.
Continuous and collective measures of real-time audience engagement.
In: Matthew Reason; Lynne Conner; Katya Johanson and Ben Walmsley, eds.
Routledge Companion to Audiences and the Performing Arts.
Abingdon: Routledge, pp. 293-307.
ISBN 9780367470753
[Book Section]
2018
Ward, Jamie A; Richardson, Daniel C.; Orgs, Guido; Hunter, Kelly and Hamilton, Antonia.
2018.
'Sensing Interpersonal Synchrony between Actors and Autistic Children in Theatre Using Wrist-worn Accelerometers'.
In: International Symposium on Wearable Computers (ISWC). Singapore, Singapore 8-12 October 2018.
[Conference or Workshop Item]
Hänsel, Katrin; Katevas, Kleomenis; Orgs, Guido; Richardson, Daniel C.; Alomainy, Akram and Haddadi, Hamed.
2018.
'The potential of wearable technology for monitoring social interactions based on interpersonal synchrony'.
In: Wearable Systems, 2018. Munich, Germany 10 June 2018.
[Conference or Workshop Item]
2017
Vicary, Staci; Sperling, Matthias; von Zimmermann, Jorina; Richardson, Daniel C. and Orgs, Guido.
2017.
Joint action aesthetics.
PLoS ONE, 12(7),
e0180101.
ISSN 1932-6203
[Article]
2016
0204
Orgs, Guido; Vicary, Staci; Sperling, Matthias; Richardson, Daniel C. and Williams, Adrian L..
0204.
Movement synchrony among dance performers predicts brain synchrony among dance spectators.
OSF,
[Article]