%0 Conference Paper %1 erhart_personalized_2016 %A Erhart, Matthew %A Nguyen, Angie %A Shivaswamy, Ruchika %A Anderson, Brian %A Emmenegger, Colleen %A Weibel, Nadir %B Proceedings of the 10th EAI International Conference on Pervasive Computing Technologies for Healthcare %C ICST, Brussels, Belgium, Belgium %D 2016 %I ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering) %K amyotrophic augmentative brain communication, computer eye impairment interfaces, lateral locked-in motor sclerosis, syndrome, tracking, %P 211--214 %T Personalized Multimodal Computer Interfaces for the Motor Impaired %U http://dl.acm.org/citation.cfm?id=3021319.3021350 %X Severe motor disorders such as LIS and ALS are characterized by an inability to move or communicate effectively. Though it is essential to provide assistance to these groups, motor and cognitive function within these groups varies so widely that one static design cannot serve the group as a whole. Despite this variety, eye movements and brain functions are often under conscious control and can potentially be exploited for communication. We believe that to provide the most effective communication systems for individuals with progressive neurological disorders, it will be essential to create adaptive eye and biosignal computer interfaces that dynamically fit the changing abilities of the user as inexpensively as possible. %@ 978-1-63190-051-8

@inproceedings{erhart_personalized_2016, abstract = {Severe motor disorders such as LIS and ALS are characterized by an inability to move or communicate effectively. Though it is essential to provide assistance to these groups, motor and cognitive function within these groups varies so widely that one static design cannot serve the group as a whole. Despite this variety, eye movements and brain functions are often under conscious control and can potentially be exploited for communication. We believe that to provide the most effective communication systems for individuals with progressive neurological disorders, it will be essential to create adaptive eye and biosignal computer interfaces that dynamically fit the changing abilities of the user as inexpensively as possible.}, added-at = {2019-02-18T07:11:07.000+0100}, address = {ICST, Brussels, Belgium, Belgium}, author = {Erhart, Matthew and Nguyen, Angie and Shivaswamy, Ruchika and Anderson, Brian and Emmenegger, Colleen and Weibel, Nadir}, biburl = {https://www.bibsonomy.org/bibtex/2279f8b583a7bf60ea7a8a2cc28bea543/weibel}, booktitle = {Proceedings of the 10th {EAI} {International} {Conference} on {Pervasive} {Computing} {Technologies} for {Healthcare}}, file = {ACM Full Text PDF:/Users/weibel/Zotero/storage/BQBSAKGL/Erhart et al. - 2016 - Personalized Multimodal Computer Interfaces for th.pdf:application/pdf}, interhash = {f3fc5e33b1791f51999e7e342cd2b06f}, intrahash = {279f8b583a7bf60ea7a8a2cc28bea543}, isbn = {978-1-63190-051-8}, keywords = {amyotrophic augmentative brain communication, computer eye impairment interfaces, lateral locked-in motor sclerosis, syndrome, tracking,}, note = {Poster}, pages = {211--214}, publisher = {ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering)}, series = {{PervasiveHealth} '16}, timestamp = {2019-02-18T07:11:07.000+0100}, title = {Personalized {Multimodal} {Computer} {Interfaces} for the {Motor} {Impaired}}, url = {http://dl.acm.org/citation.cfm?id=3021319.3021350}, urldate = {2018-12-06}, year = 2016 }