Tangles: Unpacking Extended Collision Experiences with Soma Trajectories

Steve Benford; Rachael  Garrett; Christine Li; PAUL  TENNENT; Claudia  Núñez Pacheco; Ayse  Kucukyilmaz; Vasiliki  Tsaknaki; KRISTINA  HÖÖK; Praminda  Caleb-Solly; Joe Marshall; Eike  Schneiders; Kristina  Popova; Jude  Afana

doi:10.1145/3723875

Tangles: Unpacking Extended Collision Experiences with Soma Trajectories

Steve Benford
, Rachael Garrett
, Christine Li
, PAUL TENNENT
, Claudia Núñez Pacheco
, Ayse Kucukyilmaz
, Vasiliki Tsaknaki
, KRISTINA HÖÖK
, Praminda Caleb-Solly
, Joe Marshall
, Eike Schneiders
, Kristina Popova
, Jude Afana

University of Nottingham
KTH Royal Institute of Technology
Stockholm University
University of Southampton

Research output: Journal Article or Conference Article in Journal › Journal article › Research › peer-review

Abstract

We reappraise the idea of colliding with robots, moving from a position that tries to avoid or mitigate collisions to one that considers them an important facet of human interaction. We report on a soma design workshop that explored how our bodies could collide with telepresence robots, mobility aids and a quadruped robot. Based on our findings, we employed soma trajectories to analyse collisions as extended experiences that negotiate key transitions of consent, preparation, launch, contact, ripple, sting, untangle, debris and reflect. We then employed these ideas to analyse two collision experiences, an accidental collision between a person and a drone and the deliberate design of a robot to play with cats, revealing how real-world collisions involve the complex and ongoing entanglement of soma trajectories. We discuss how viewing collisions as entangled trajectories, or ‘tangles’, can be used analytically, as a design approach, and as a lens to broach ethical complexity.

Original language	English
Article number	37
Journal	ACM Transactions on Computer-Human Interaction
Volume	32
Issue number	4
Pages (from-to)	37:1 - 37:34
Number of pages	34
ISSN	1073-0516
DOIs	https://doi.org/10.1145/3723875
Publication status	Published - 2025

Keywords

Collision
Robot
Soma Design
Trajectories
Tangles
Safety
Ethics
Drones
Cats
Telepresence Robot
Mobility Aids
Quadruped Robot
Consent
Entanglement

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10.1145/3723875Licence: CC BY

Tangles: Unpacking Extended Collision Experiences with Soma TrajectoriesLicence: CC BY

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Benford, S., Garrett, R., Li, C., TENNENT, PAUL., Núñez Pacheco, C., Kucukyilmaz, A., Tsaknaki, V., HÖÖK, KRISTINA., Caleb-Solly, P., Marshall, J., Schneiders, E., Popova, K., & Afana, J. (2025). Tangles: Unpacking Extended Collision Experiences with Soma Trajectories. ACM Transactions on Computer-Human Interaction, 32(4), 37:1 - 37:34. Article 37. https://doi.org/10.1145/3723875

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title = "Tangles: Unpacking Extended Collision Experiences with Soma Trajectories",

abstract = "We reappraise the idea of colliding with robots, moving from a position that tries to avoid or mitigate collisions to one that considers them an important facet of human interaction. We report on a soma design workshop that explored how our bodies could collide with telepresence robots, mobility aids and a quadruped robot. Based on our findings, we employed soma trajectories to analyse collisions as extended experiences that negotiate key transitions of consent, preparation, launch, contact, ripple, sting, untangle, debris and reflect. We then employed these ideas to analyse two collision experiences, an accidental collision between a person and a drone and the deliberate design of a robot to play with cats, revealing how real-world collisions involve the complex and ongoing entanglement of soma trajectories. We discuss how viewing collisions as entangled trajectories, or {\textquoteleft}tangles{\textquoteright}, can be used analytically, as a design approach, and as a lens to broach ethical complexity.",

keywords = "Collision, Robot, Soma Design, Trajectories, Tangles, Safety, Ethics, Drones, Cats, Telepresence Robot, Mobility Aids, Quadruped Robot, Consent, Entanglement",

author = "Steve Benford and Rachael Garrett and Christine Li and PAUL TENNENT and \{N{\'u}{\~n}ez Pacheco\}, Claudia and Ayse Kucukyilmaz and Vasiliki Tsaknaki and KRISTINA H{\"O}{\"O}K and Praminda Caleb-Solly and Joe Marshall and Eike Schneiders and Kristina Popova and Jude Afana",

year = "2025",

doi = "10.1145/3723875",

language = "English",

volume = " 32",

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Benford, S, Garrett, R, Li, C, TENNENT, PAUL, Núñez Pacheco, C, Kucukyilmaz, A, Tsaknaki, V, HÖÖK, KRISTINA, Caleb-Solly, P, Marshall, J, Schneiders, E, Popova, K & Afana, J 2025, 'Tangles: Unpacking Extended Collision Experiences with Soma Trajectories', ACM Transactions on Computer-Human Interaction, vol. 32, no. 4, 37, pp. 37:1 - 37:34. https://doi.org/10.1145/3723875

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T1 - Tangles: Unpacking Extended Collision Experiences with Soma Trajectories

AU - Benford, Steve

AU - Garrett, Rachael

AU - Li, Christine

AU - TENNENT, PAUL

AU - Núñez Pacheco, Claudia

AU - Kucukyilmaz, Ayse

AU - Tsaknaki, Vasiliki

AU - HÖÖK, KRISTINA

AU - Caleb-Solly, Praminda

AU - Marshall, Joe

AU - Schneiders, Eike

AU - Popova, Kristina

AU - Afana, Jude

PY - 2025

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N2 - We reappraise the idea of colliding with robots, moving from a position that tries to avoid or mitigate collisions to one that considers them an important facet of human interaction. We report on a soma design workshop that explored how our bodies could collide with telepresence robots, mobility aids and a quadruped robot. Based on our findings, we employed soma trajectories to analyse collisions as extended experiences that negotiate key transitions of consent, preparation, launch, contact, ripple, sting, untangle, debris and reflect. We then employed these ideas to analyse two collision experiences, an accidental collision between a person and a drone and the deliberate design of a robot to play with cats, revealing how real-world collisions involve the complex and ongoing entanglement of soma trajectories. We discuss how viewing collisions as entangled trajectories, or ‘tangles’, can be used analytically, as a design approach, and as a lens to broach ethical complexity.

AB - We reappraise the idea of colliding with robots, moving from a position that tries to avoid or mitigate collisions to one that considers them an important facet of human interaction. We report on a soma design workshop that explored how our bodies could collide with telepresence robots, mobility aids and a quadruped robot. Based on our findings, we employed soma trajectories to analyse collisions as extended experiences that negotiate key transitions of consent, preparation, launch, contact, ripple, sting, untangle, debris and reflect. We then employed these ideas to analyse two collision experiences, an accidental collision between a person and a drone and the deliberate design of a robot to play with cats, revealing how real-world collisions involve the complex and ongoing entanglement of soma trajectories. We discuss how viewing collisions as entangled trajectories, or ‘tangles’, can be used analytically, as a design approach, and as a lens to broach ethical complexity.

KW - Collision

KW - Robot

KW - Soma Design

KW - Trajectories

KW - Tangles

KW - Safety

KW - Ethics

KW - Drones

KW - Cats

KW - Telepresence Robot

KW - Mobility Aids

KW - Quadruped Robot

KW - Consent

KW - Entanglement

U2 - 10.1145/3723875

DO - 10.1145/3723875

M3 - Journal article

SN - 1073-0516

VL - 32

SP - 37:1 - 37:34

JO - ACM Transactions on Computer-Human Interaction

JF - ACM Transactions on Computer-Human Interaction

IS - 4

M1 - 37

ER -

Tangles: Unpacking Extended Collision Experiences with Soma Trajectories

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Keywords

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