Discrete reference tracking control to swing up an electric wheelchair

Mobility using wheelchair is a crucial feature for disabled people. Between a manual wheelchair and an electric wheelchair, there is a very interesting and promising solution consisting of an electrical kit that converts a manual wheelchair to an electric wheelchair. Autonomad‐Mobility is a company...

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Published in	Asian journal of control Vol. 25; no. 5; pp. 3369 - 3383
Main Authors	Gray, Michael, Guerra, Thierry Marie, Delprat, Sébastien, Mohammad, S.
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc 01.09.2023 Asian Control Association (ACA) and Chinese Automatic Control Society (CACS)
Subjects	Automatic Control Engineering Barriers Brushless motors Computer Science descriptor system Linear matrix inequalities Parameter varying control People with disabilities quasi‐LPV reference tracking robust control Takagi–Sugeno Tracking control wheelchair Wheelchairs Wheels Robust control Descriptor system Reference tracking Wheelchair Takagi Sugeno Descriptor system Reference tracking Robust control quasi-LPV Takagi Sugeno Wheelchair quasi-LPV
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ISSN	1561-8625 1934-6093
DOI	10.1002/asjc.3053

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Abstract	Mobility using wheelchair is a crucial feature for disabled people. Between a manual wheelchair and an electric wheelchair, there is a very interesting and promising solution consisting of an electrical kit that converts a manual wheelchair to an electric wheelchair. Autonomad‐Mobility is a company selling such kits, where the wheels are equipped with a brushless motor. It presents new possibilities for mobility, especially for crossing obstacles and running on different types of soil. Several methods have been tested, from linear to nonlinear ones including the linear parameter‐varying control framework. Nevertheless, the most dangerous and critical issue is to be able to produce a so‐called safe and robust swing‐up: the transition from standard mode (four wheels on the ground) to gyroscopic mode (the wheelchair balancing on the rear push‐wheels). The gyroscopic mode is a unique feature improving mobility by providing a way to overcome obstacles that would normally be unsurpassable due to the caster wheels. Whereas some results exist, the solution must be compatible with any wheelchair and any disabled person whatever is her/his height and weight. Robustness of this unstable feature is therefore the key point of the work knowing that “exact” modeling is unrealistic. With the model in descriptor form and using the quasi‐linear parameter‐varying framework new stabilization conditions formulated as linear matrix inequality constraints are developed for attaining the goal. Simulations and real‐time experiments demonstrate the interest of this approach.
AbstractList	Mobility using wheelchair is a crucial feature for disabled people. Between a manual wheelchair and an electric wheelchair, there is a very interesting and promising solution consisting of an electrical kit that converts a manual wheelchair to an electric wheelchair. Autonomad‐Mobility is a company selling such kits, where the wheels are equipped with a brushless motor. It presents new possibilities for mobility, especially for crossing obstacles and running on different types of soil. Several methods have been tested, from linear to nonlinear ones including the linear parameter‐varying control framework. Nevertheless, the most dangerous and critical issue is to be able to produce a so‐called safe and robust swing‐up: the transition from standard mode (four wheels on the ground) to gyroscopic mode (the wheelchair balancing on the rear push‐wheels). The gyroscopic mode is a unique feature improving mobility by providing a way to overcome obstacles that would normally be unsurpassable due to the caster wheels. Whereas some results exist, the solution must be compatible with any wheelchair and any disabled person whatever is her/his height and weight. Robustness of this unstable feature is therefore the key point of the work knowing that “exact” modeling is unrealistic. With the model in descriptor form and using the quasi‐linear parameter‐varying framework new stabilization conditions formulated as linear matrix inequality constraints are developed for attaining the goal. Simulations and real‐time experiments demonstrate the interest of this approach. Abstract Mobility using wheelchair is a crucial feature for disabled people. Between a manual wheelchair and an electric wheelchair, there is a very interesting and promising solution consisting of an electrical kit that converts a manual wheelchair to an electric wheelchair. Autonomad‐Mobility is a company selling such kits, where the wheels are equipped with a brushless motor. It presents new possibilities for mobility, especially for crossing obstacles and running on different types of soil. Several methods have been tested, from linear to nonlinear ones including the linear parameter‐varying control framework. Nevertheless, the most dangerous and critical issue is to be able to produce a so‐called safe and robust swing‐up: the transition from standard mode (four wheels on the ground) to gyroscopic mode (the wheelchair balancing on the rear push‐wheels). The gyroscopic mode is a unique feature improving mobility by providing a way to overcome obstacles that would normally be unsurpassable due to the caster wheels. Whereas some results exist, the solution must be compatible with any wheelchair and any disabled person whatever is her/his height and weight. Robustness of this unstable feature is therefore the key point of the work knowing that “exact” modeling is unrealistic. With the model in descriptor form and using the quasi‐linear parameter‐varying framework new stabilization conditions formulated as linear matrix inequality constraints are developed for attaining the goal. Simulations and real‐time experiments demonstrate the interest of this approach.
Author	Gray, Michael Mohammad, S. Guerra, Thierry Marie Delprat, Sébastien
Author_xml	– sequence: 1 givenname: Michael surname: Gray fullname: Gray, Michael email: michael.gray@autonomad-mobility.com organization: Autonomad‐Mobility – sequence: 2 givenname: Thierry Marie orcidid: 0000-0001-5483-9651 surname: Guerra fullname: Guerra, Thierry Marie email: thierry.guerra@uphf.fr organization: Université Polytechnique Hauts‐de‐France, CNRS, UMR 8201—LAMIH – sequence: 3 givenname: Sébastien orcidid: 0000-0002-6860-0278 surname: Delprat fullname: Delprat, Sébastien email: sebastain.delprat@uphf.fr organization: Université Polytechnique Hauts‐de‐France, CNRS, UMR 8201—LAMIH – sequence: 4 givenname: S. surname: Mohammad fullname: Mohammad, S. organization: Autonomad‐Mobility
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Copyright	2023 Chinese Automatic Control Society and John Wiley & Sons Australia, Ltd Distributed under a Creative Commons Attribution 4.0 International License
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Keywords	Robust control Descriptor system Reference tracking Wheelchair Takagi Sugeno Descriptor system Reference tracking Robust control quasi-LPV Takagi Sugeno Wheelchair quasi-LPV
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Notes	Funding information This work was supported in part by Autonomad‐Mobility and by the French Association Nationale Recherche Technologie. It was also supported by the ELSAT2020 project and co‐financed by the European Union with the European Regional Development Fund, the French state, and the Hauts‐de‐France Region Council. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14
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Snippet	Mobility using wheelchair is a crucial feature for disabled people. Between a manual wheelchair and an electric wheelchair, there is a very interesting and... Abstract Mobility using wheelchair is a crucial feature for disabled people. Between a manual wheelchair and an electric wheelchair, there is a very...
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SubjectTerms	Automatic Control Engineering Barriers Brushless motors Computer Science descriptor system Linear matrix inequalities Parameter varying control People with disabilities quasi‐LPV reference tracking robust control Takagi–Sugeno Tracking control wheelchair Wheelchairs Wheels
Title	Discrete reference tracking control to swing up an electric wheelchair
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