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Adaptive personalisation for researcher-independent brain-body interface usage

Research output: Chapter in Book/Report/Conference proceedingChapter (peer-reviewed)peer-review

Standard

Adaptive personalisation for researcher-independent brain-body interface usage. / Gnanayutham, Paul; Cockton, G.

CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems. New York : ACM, 2009. p. 3003-3019.

Research output: Chapter in Book/Report/Conference proceedingChapter (peer-reviewed)peer-review

Harvard

Gnanayutham, P & Cockton, G 2009, Adaptive personalisation for researcher-independent brain-body interface usage. in CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems. ACM, New York, pp. 3003-3019.

APA

Gnanayutham, P., & Cockton, G. (2009). Adaptive personalisation for researcher-independent brain-body interface usage. In CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems (pp. 3003-3019). ACM.

Vancouver

Gnanayutham P, Cockton G. Adaptive personalisation for researcher-independent brain-body interface usage. In CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems. New York: ACM. 2009. p. 3003-3019

Author

Gnanayutham, Paul ; Cockton, G. / Adaptive personalisation for researcher-independent brain-body interface usage. CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems. New York : ACM, 2009. pp. 3003-3019

Bibtex

@inbook{cf32d2f797004573a240e26ee8e43c7a,
title = "Adaptive personalisation for researcher-independent brain-body interface usage",
abstract = "In this case study, we report what we believe to be the first prolonged in-situ use of a brain-body interface for rehabilitation of individuals with severe neurological impairment due to traumatic brain injury with no development researchers present. We attribute this success to the development of an adaptive cursor acceleration algorithm based on screen tiling, which we combined with an adaptable user interface to achieve inclusive design through personalisation for each individual. A successful evaluation of this approach encouraged us to leave our Brain-Body Interface in the care settings of our evaluation participants with traumatic brain injury, where it was used with support from health care professionals and other members of participants{\textquoteright} care circles.",
author = "Paul Gnanayutham and G. Cockton",
year = "2009",
month = apr,
language = "English",
isbn = "9781605582474",
pages = "3003--3019",
booktitle = "CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems",
publisher = "ACM",

}

RIS

TY - CHAP

T1 - Adaptive personalisation for researcher-independent brain-body interface usage

AU - Gnanayutham, Paul

AU - Cockton, G.

PY - 2009/4

Y1 - 2009/4

N2 - In this case study, we report what we believe to be the first prolonged in-situ use of a brain-body interface for rehabilitation of individuals with severe neurological impairment due to traumatic brain injury with no development researchers present. We attribute this success to the development of an adaptive cursor acceleration algorithm based on screen tiling, which we combined with an adaptable user interface to achieve inclusive design through personalisation for each individual. A successful evaluation of this approach encouraged us to leave our Brain-Body Interface in the care settings of our evaluation participants with traumatic brain injury, where it was used with support from health care professionals and other members of participants’ care circles.

AB - In this case study, we report what we believe to be the first prolonged in-situ use of a brain-body interface for rehabilitation of individuals with severe neurological impairment due to traumatic brain injury with no development researchers present. We attribute this success to the development of an adaptive cursor acceleration algorithm based on screen tiling, which we combined with an adaptable user interface to achieve inclusive design through personalisation for each individual. A successful evaluation of this approach encouraged us to leave our Brain-Body Interface in the care settings of our evaluation participants with traumatic brain injury, where it was used with support from health care professionals and other members of participants’ care circles.

M3 - Chapter (peer-reviewed)

SN - 9781605582474

SP - 3003

EP - 3019

BT - CHI '09: Proceedings of the 27th international conference extended abstracts on Human factors in computing systems

PB - ACM

CY - New York

ER -

ID: 134488