Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training

Jessica Tsimeris; Duncan Stevenson; Michael Broughton; Tom Gedeon

doi:10.1145/2838739.2838750

Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training

Jessica Tsimeris, Duncan Stevenson, Michael Broughton, Tom Gedeon

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

This paper presents our work towards adapting ForceForm, a 2.5D actuated surface, for use as a medical training apparatus for rebound tenderness, an application area which lacks prior research from computing researchers. Rebound tenderness is used by health practitioners to physically examine a patient's abdomen by applying and then releasing pressure with the hands. This paper demonstrates a novel technique to allow an actuated shape display to detect interactions caused by the user pressing down upon a soft surface by means of a Hall effect sensor. User evaluation of the interaction reveals that the further the user is required to press down into the surface, the more accurately the task is performed when visual cues are present, but the relationship between accuracy and depth is inverted when users are required to perform a depth recall task without the presence of visual cues. The results of this research support the continued development of ForceForm for rebound tenderness simulations and suggest that unexpected user performance patterns may occur when utilising soft interfaces.

Original language	English
Title of host publication	OzCHI 2015
Subtitle of host publication	Being Human - Conference Proceedings
Editors	Marcus Carter, Martin Gibbs, Wally Smith, Frank Vetere, Bernd Ploderer
Publisher	Association for Computing Machinery (ACM)
Pages	549-556
Number of pages	8
ISBN (Electronic)	9781450336734
DOIs	https://doi.org/10.1145/2838739.2838750
Publication status	Published - 7 Dec 2015
Event	27th Australian Computer-Human Interaction Conference, OzCHI 2015 - Parkville, Australia Duration: 7 Dec 2015 → 10 Dec 2015

Publication series

Name	OzCHI 2015: Being Human - Conference Proceedings

Conference

Conference	27th Australian Computer-Human Interaction Conference, OzCHI 2015
Country/Territory	Australia
City	Parkville
Period	7/12/15 → 10/12/15

Access to Document

10.1145/2838739.2838750

Cite this

Tsimeris, J., Stevenson, D., Broughton, M., & Gedeon, T. (2015). Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training. In M. Carter, M. Gibbs, W. Smith, F. Vetere, & B. Ploderer (Eds.), OzCHI 2015: Being Human - Conference Proceedings (pp. 549-556). (OzCHI 2015: Being Human - Conference Proceedings). Association for Computing Machinery (ACM). https://doi.org/10.1145/2838739.2838750

Tsimeris, Jessica ; Stevenson, Duncan ; Broughton, Michael et al. / Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training. OzCHI 2015: Being Human - Conference Proceedings. editor / Marcus Carter ; Martin Gibbs ; Wally Smith ; Frank Vetere ; Bernd Ploderer. Association for Computing Machinery (ACM), 2015. pp. 549-556 (OzCHI 2015: Being Human - Conference Proceedings).

@inproceedings{3d129b26ed484d159763eef348395876,

title = "Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training",

abstract = "This paper presents our work towards adapting ForceForm, a 2.5D actuated surface, for use as a medical training apparatus for rebound tenderness, an application area which lacks prior research from computing researchers. Rebound tenderness is used by health practitioners to physically examine a patient's abdomen by applying and then releasing pressure with the hands. This paper demonstrates a novel technique to allow an actuated shape display to detect interactions caused by the user pressing down upon a soft surface by means of a Hall effect sensor. User evaluation of the interaction reveals that the further the user is required to press down into the surface, the more accurately the task is performed when visual cues are present, but the relationship between accuracy and depth is inverted when users are required to perform a depth recall task without the presence of visual cues. The results of this research support the continued development of ForceForm for rebound tenderness simulations and suggest that unexpected user performance patterns may occur when utilising soft interfaces.",

keywords = "Human computer interaction, Soft interfaces, Tangible user interfaces, User evaluation",

author = "Jessica Tsimeris and Duncan Stevenson and Michael Broughton and Tom Gedeon",

note = "Publisher Copyright: Copyright is held by the owner/author(s).; 27th Australian Computer-Human Interaction Conference, OzCHI 2015 ; Conference date: 07-12-2015 Through 10-12-2015",

year = "2015",

month = dec,

day = "7",

doi = "10.1145/2838739.2838750",

language = "English",

series = "OzCHI 2015: Being Human - Conference Proceedings",

publisher = "Association for Computing Machinery (ACM)",

pages = "549--556",

editor = "Marcus Carter and Martin Gibbs and Wally Smith and Frank Vetere and Bernd Ploderer",

booktitle = "OzCHI 2015",

address = "United States",

}

Tsimeris, J, Stevenson, D, Broughton, M & Gedeon, T 2015, Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training. in M Carter, M Gibbs, W Smith, F Vetere & B Ploderer (eds), OzCHI 2015: Being Human - Conference Proceedings. OzCHI 2015: Being Human - Conference Proceedings, Association for Computing Machinery (ACM), pp. 549-556, 27th Australian Computer-Human Interaction Conference, OzCHI 2015, Parkville, Australia, 7/12/15. https://doi.org/10.1145/2838739.2838750

Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training. / Tsimeris, Jessica; Stevenson, Duncan; Broughton, Michael et al.
OzCHI 2015: Being Human - Conference Proceedings. ed. / Marcus Carter; Martin Gibbs; Wally Smith; Frank Vetere; Bernd Ploderer. Association for Computing Machinery (ACM), 2015. p. 549-556 (OzCHI 2015: Being Human - Conference Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training

AU - Tsimeris, Jessica

AU - Stevenson, Duncan

AU - Broughton, Michael

AU - Gedeon, Tom

N1 - Publisher Copyright: Copyright is held by the owner/author(s).

PY - 2015/12/7

Y1 - 2015/12/7

N2 - This paper presents our work towards adapting ForceForm, a 2.5D actuated surface, for use as a medical training apparatus for rebound tenderness, an application area which lacks prior research from computing researchers. Rebound tenderness is used by health practitioners to physically examine a patient's abdomen by applying and then releasing pressure with the hands. This paper demonstrates a novel technique to allow an actuated shape display to detect interactions caused by the user pressing down upon a soft surface by means of a Hall effect sensor. User evaluation of the interaction reveals that the further the user is required to press down into the surface, the more accurately the task is performed when visual cues are present, but the relationship between accuracy and depth is inverted when users are required to perform a depth recall task without the presence of visual cues. The results of this research support the continued development of ForceForm for rebound tenderness simulations and suggest that unexpected user performance patterns may occur when utilising soft interfaces.

AB - This paper presents our work towards adapting ForceForm, a 2.5D actuated surface, for use as a medical training apparatus for rebound tenderness, an application area which lacks prior research from computing researchers. Rebound tenderness is used by health practitioners to physically examine a patient's abdomen by applying and then releasing pressure with the hands. This paper demonstrates a novel technique to allow an actuated shape display to detect interactions caused by the user pressing down upon a soft surface by means of a Hall effect sensor. User evaluation of the interaction reveals that the further the user is required to press down into the surface, the more accurately the task is performed when visual cues are present, but the relationship between accuracy and depth is inverted when users are required to perform a depth recall task without the presence of visual cues. The results of this research support the continued development of ForceForm for rebound tenderness simulations and suggest that unexpected user performance patterns may occur when utilising soft interfaces.

KW - Human computer interaction

KW - Soft interfaces

KW - Tangible user interfaces

KW - User evaluation

UR - http://www.scopus.com/inward/record.url?scp=84963512343&partnerID=8YFLogxK

U2 - 10.1145/2838739.2838750

DO - 10.1145/2838739.2838750

M3 - Conference contribution

T3 - OzCHI 2015: Being Human - Conference Proceedings

SP - 549

EP - 556

BT - OzCHI 2015

A2 - Carter, Marcus

A2 - Gibbs, Martin

A2 - Smith, Wally

A2 - Vetere, Frank

A2 - Ploderer, Bernd

PB - Association for Computing Machinery (ACM)

T2 - 27th Australian Computer-Human Interaction Conference, OzCHI 2015

Y2 - 7 December 2015 through 10 December 2015

ER -

Tsimeris J, Stevenson D, Broughton M, Gedeon T. Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training. In Carter M, Gibbs M, Smith W, Vetere F, Ploderer B, editors, OzCHI 2015: Being Human - Conference Proceedings. Association for Computing Machinery (ACM). 2015. p. 549-556. (OzCHI 2015: Being Human - Conference Proceedings). doi: 10.1145/2838739.2838750

Adapting a soft 2.5D actuated shape display for rebound tenderness simulation and training

Abstract

Publication series

Conference

Access to Document

Other files and links

Fingerprint

Cite this