Adaptable navigational assistance for intelligent wheelchairs by means of an implicit personalized user model

Adaptable navigational assistance for intelligent wheelchairs by means of an implicit personalized user model

Elderly and disabled people can experience considerable difficulties when driving a powered wheelchair, especially if they do not possess the fine steering capacities that are required to perform certain manoeuvres, like avoiding obstacles or docking at tables. In order to help these people, several...

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Bibliographic Details
Published in:Robotics and autonomous systems Vol. 58; no. 8; pp. 963 - 977
Main Authors: Vanhooydonck, Dirk, Demeester, Eric, Hüntemann, Alexander, Philips, Johan, Vanacker, Gerolf, Van Brussel, Hendrik, Nuttin, Marnix
Format: Journal Article
Language:English
Published: Elsevier B.V 31-08-2010
Subjects:
Adaptability
Computer simulation
Docking
Estimates
Implicit user model
Intelligent wheelchairs
Personalized
Shared control
Steering
Tables
Tasks
User intention estimation
Wheelchairs
Implicit user model
Intelligent wheelchairs
User intention estimation
Shared control
Adaptability
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Summary:Elderly and disabled people can experience considerable difficulties when driving a powered wheelchair, especially if they do not possess the fine steering capacities that are required to perform certain manoeuvres, like avoiding obstacles or docking at tables. In order to help these people, several “intelligent” wheelchairs have been developed in the past, meaning that a powered wheelchair was endowed with the abilities to provide navigational assistance to its user. In such a scenario, control over the wheelchair is shared between the user and the intelligent assistance. The problem of the existing intelligent wheelchairs is, however, that the rules for assistance are hard-coded and by consequence not adaptable to the personal handicap and needs of a specific user. Therefore, this paper proposes a new, more user-centered approach to shared wheelchair control. The presented framework executes two tasks: it continuously estimates the user’s intention and it determines whether the user needs assistance to achieve that intention. An implicit user model is introduced and incorporated in the framework, in order to make the execution of both tasks adaptable to a specific user. This paper presents the proposed framework, along with experimental results in simulation and on a real wheelchair.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0921-8890
1872-793X
DOI:10.1016/j.robot.2010.04.002