Your search keyword '"Jensenius, Alexander Refsum"' showing total 7 results

1. Methods for Studying Music-Related Body Motion

Author

Jensenius, Alexander Refsum and Bader, Rolf, editor

Published

2018

2. Exploring Micromovements with Motion Capture and Sonification

Author

Jensenius, Alexander Refsum, Bjerkestrand, Kari Anne Vadstensvik, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Coulson, Geoffrey, Series editor, and Brooks, Anthony L., editor

Published

2012

3. SMC 2023 Data

Author

Burnim, Kayla, Upham, Finn, Jensenius, Alexander Refsum, Bishop, Laura, and Maham Riaz

Subjects

sound, standstill, ambisonics, 360 video, stillstanding, audio, motion capture, sound and music computing, video

Abstract

Supplementary material for the paper "Comparing Inertial Motion Sensors for Capturing Human Micromotion" presented at the Sound and Music Computing Conference in Stockholm, June 2023.

Published

2023

4. Group behaviour and interpersonal synchronization to electronic dance music.

Author

Solberg, Ragnhild Torvanger and Jensenius, Alexander Refsum

Abstract

The present study investigates how people move and relate to each other – and to the dance music – in a club-like setting created within a motion capture laboratory. Three groups of participants (29 in total) each danced to a 10-minute-long DJ mix consisting of four tracks of electronic dance music (EDM). Two of the EDM tracks had little structural development, while the two others included a typical "break routine" in the middle of the track, consisting of three distinct passages: (a) "breakdown", (b) "build-up" and (c) "drop". The motion capture data show similar bodily responses for all three groups in the break routines: a sudden decrease and increase in the general quantity of motion. More specifically, the participants demonstrated an improved level of interpersonal synchronization after the drop, particularly in their vertical movements. Furthermore, the participants' activity increased and became more pronounced after the drop. This may suggest that the temporal removal and reintroduction of a clear rhythmic framework, as well as the use of intensifying sound features, have a profound effect on a group's beat synchronization. Our results further suggest that the musical passages of EDM efficiently lead to the entrainment of a whole group, and that a break routine effectively "re-energizes" the dancing. [ABSTRACT FROM AUTHOR]

Published

2019

5. Correspondences Between Music and Involuntary Human Micromotion During Standstill.

Author

Gonzalez-Sanchez, Victor E., Zelechowska, Agata, and Jensenius, Alexander Refsum

Subjects

LOUDNESS, ELECTRONIC dance music, VERTICAL motion, MUSIC, MUSICAL form, BIG data

Abstract

The relationships between human body motion and music have been the focus of several studies characterizing the correspondence between voluntary motion and various sound features. The study of involuntary movement to music, however, is still scarce. Insight into crucial aspects of music cognition, as well as characterization of the vestibular and sensorimotor systems could be largely improved through a description of the underlying links between music and involuntary movement. This study presents an analysis aimed at quantifying involuntary body motion of a small magnitude (micromotion) during standstill, as well as assessing the correspondences between such micromotion and different sound features of the musical stimuli: pulse clarity, amplitude, and spectral centroid. A total of 71 participants were asked to stand as still as possible for 6 min while being presented with alternating silence and music stimuli: Electronic Dance Music (EDM), Classical Indian music, and Norwegian fiddle music (Telespringar). The motion of each participant's head was captured with a marker-based, infrared optical system. Differences in instantaneous position data were computed for each participant and the resulting time series were analyzed through cross-correlation to evaluate the delay between motion and musical features. The mean quantity of motion (QoM) was found to be highest across participants during the EDM condition. This musical genre is based on a clear pulse and rhythmic pattern, and it was also shown that pulse clarity was the metric that had the most significant effect in induced vertical motion across conditions. Correspondences were also found between motion and both brightness and loudness, providing some evidence of anticipation and reaction to the music. Overall, the proposed analysis techniques provide quantitative data and metrics on the correspondences between micromotion and music, with the EDM stimulus producing the clearest music-induced motion patterns. The analysis and results from this study are compatible with embodied music cognition and sensorimotor synchronization theories, and provide further evidence of the movement inducing effects of groove-related music features and human response to sound stimuli. Further work with larger data sets, and a wider range of stimuli, is necessary to produce conclusive findings on the subject. [ABSTRACT FROM AUTHOR]

Published

2018

6. Cognitive load causes kinematic changes in both elite and non-elite rowers.

Author

Herrebrøden, Henrik, Jensenius, Alexander Refsum, Espeseth, Thomas, Bishop, Laura, and Vuoskoski, Jonna Katariina

Subjects

*COGNITIVE load, *ROWERS, *BODY movement, *RANGE of motion of joints, *DISEASE risk factors, *GAIT in humans

Abstract

The current motor literature suggests that extraneous cognitive load may affect performance and kinematics in a primary motor task. A common response to increased cognitive demand, as observed in past studies, might be to reduce movement complexity and revert to previously learned movement patterns, in line with the progression-regression hypothesis. However, according to several accounts of automaticity, motor experts should be able to cope with dual task demands without detriment to their performance and kinematics. To test this, we conducted an experiment asking elite and non-elite rowers to use a rowing ergometer under conditions of varying task load. We employed single-task conditions with low cognitive load (i.e., rowing only) and dual-task conditions with high cognitive load (i.e., rowing and solving arithmetic problems). The results of the cognitive load manipulations were mostly in line with our hypotheses. Overall, participants reduced movement complexity, for example by reverting towards tighter coupling of kinematic events, in their dual-task performance as compared to single-task performance. The between-group kinematic differences were less clear. In contradiction to our hypotheses, we found no significant interaction between skill level and cognitive load, suggesting that the rowers' kinematics were affected by cognitive load irrespective of skill level. Overall, our findings contradict several past findings and automaticity theories, and suggest that attentional resources are required for optimal sports performance. • Elite and non-elite rowers used an ergometer under single- and dual-task conditions. • Cognitive load caused kinematic changes, irrespective of skill level. • Rowers reduced their movement complexity under high cognitive load. • Elite athletes rely on attentional resources for optimal performance. [ABSTRACT FROM AUTHOR]

Published

2023

7. Moving to the Beat: Studying Entrainment to Micro-Rhythmic Changes in Pulse by Motion Capture.

Author

Danielsen, Anne, Haugen, Mari Romarheim, and Jensenius, Alexander Refsum

Subjects

ENTRAINMENT (Physics), BEATS (Acoustics), INTERFERENCE (Sound), MUSICAL acoustics & physics, MICROTONES

Abstract

Pulse is a fundamental reference for the production and perception of rhythm. In this paper, we study entrainment to changes in the micro-rhythmic design of the basic pulse of the groove in 'Left & Right' by D'Angelo. In part 1 of the groove the beats have one specific position; in part 2, on the other hand, the different rhythmic layers specify two simultaneous but alternative beat positions that are approximately 50-80 ms apart. We first anticipate listeners' perceptual response using the theories of entrainment and dynamic attending as points of departure. We then report on a motion capture experiment aimed at engaging listeners' motion patterns in response to the two parts of the tune. The results show that when multiple onsets are introduced in part 2, the half note becomes a significant additional level of entrainment and the temporal locations of the perceived beats are drawn towards the added onsets. [ABSTRACT FROM AUTHOR]

Published

2015