SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2899229270> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W2899229270 abstract "Robots are becoming a popular means of rehabilitation since they can decrease the laborious work of a therapist, and associated costs, and provide well-controlled repeatable tasks. Many researchers have postulated that human motor control can be mathematically represented using optimal control theories, whereby some cost function is effectively maximized or minimized. However, such abilities are compromised in stroke patients. In this study, to promote rehabilitation of the stroke patient, a rehabilitation robot has been developed using optimal control theory. Despite numerous studies of control strategies for rehabilitation, there is a limited number of rehabilitation robots using optimal control theory. The main idea of this work is to show that impedance control gains cannot be kept constant for optimal performance of the robot using a feedback linearization approach. Hence, a general method for the real-time and optimal impedance control of an end-effector-based rehabilitation robot is proposed. The controller is developed for a 2 degree-of-freedom upper extremity stroke rehabilitation robot, and compared to a feedback linearization approach that uses the standard optimal impedance derived from covariance propagation equations. The new method will assign optimal impedance gains at each configuration of the robot while performing a rehabilitation task. The proposed controller is a linear quadratic regulator mapped from the operational space to the joint space. Parameters of the two controllers have been tuned using a unified biomechatronic model of the human and robot. The performances of the controllers were compared while operating the robot under four conditions of human movements (impaired, healthy, delayed, and time-advanced) along a reference trajectory, both in simulations and experiments. Despite the idealized and approximate nature of the human-robot model, the proposed controller worked well in experiments. Simulation and experimental results with the two controllers showed that, compared to the standard optimal controller, the rehabilitation system with the proposed optimal controller is assisting more in the active-assist therapy while resisting in active-constrained case. Furthermore, in passive therapy, the proposed optimal controller maintains the position error and interaction forces in safer regions. This is the result of updating the impedance in the operational space using a linear time-variant impedance model." @default.
W2899229270 created "2018-11-09" @default.
W2899229270 creator A5018717578 @default.
W2899229270 creator A5018868087 @default.
W2899229270 creator A5088867034 @default.
W2899229270 date "2018-11-01" @default.
W2899229270 modified "2023-09-27" @default.
W2899229270 title "Configuration-Dependent Optimal Impedance Control of an Upper Extremity Stroke Rehabilitation Manipulandum" @default.
W2899229270 cites W1516483762 @default.
W2899229270 cites W1622752417 @default.
W2899229270 cites W1632481816 @default.
W2899229270 cites W1885639605 @default.
W2899229270 cites W1966282171 @default.
W2899229270 cites W1967377907 @default.
W2899229270 cites W1970567055 @default.
W2899229270 cites W1980440818 @default.
W2899229270 cites W1997932767 @default.
W2899229270 cites W2011085796 @default.
W2899229270 cites W2015109675 @default.
W2899229270 cites W2018018299 @default.
W2899229270 cites W2022365837 @default.
W2899229270 cites W2030268430 @default.
W2899229270 cites W2054326469 @default.
W2899229270 cites W2079917322 @default.
W2899229270 cites W2081519959 @default.
W2899229270 cites W2093945540 @default.
W2899229270 cites W2110499725 @default.
W2899229270 cites W2111104319 @default.
W2899229270 cites W2119985669 @default.
W2899229270 cites W2132773469 @default.
W2899229270 cites W2135003278 @default.
W2899229270 cites W2153918512 @default.
W2899229270 cites W2160711351 @default.
W2899229270 cites W2164553222 @default.
W2899229270 cites W2239851305 @default.
W2899229270 cites W2296480550 @default.
W2899229270 cites W2312703239 @default.
W2899229270 cites W2336933027 @default.
W2899229270 cites W2343135308 @default.
W2899229270 cites W236978204 @default.
W2899229270 cites W2474765308 @default.
W2899229270 cites W2492237406 @default.
W2899229270 cites W2494521127 @default.
W2899229270 cites W2574453250 @default.
W2899229270 cites W2611484009 @default.
W2899229270 cites W2730302180 @default.
W2899229270 cites W2735479064 @default.
W2899229270 cites W2743378341 @default.
W2899229270 cites W2746964380 @default.
W2899229270 cites W2772046756 @default.
W2899229270 cites W4240172577 @default.
W2899229270 cites W1992793623 @default.
W2899229270 doi "https://doi.org/10.3389/frobt.2018.00124" @default.
W2899229270 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7805823" @default.
W2899229270 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33501003" @default.
W2899229270 hasPublicationYear "2018" @default.
W2899229270 type Work @default.
W2899229270 sameAs 2899229270 @default.
W2899229270 citedByCount "3" @default.
W2899229270 countsByYear W28992292702019 @default.
W2899229270 countsByYear W28992292702022 @default.
W2899229270 countsByYear W28992292702023 @default.
W2899229270 crossrefType "journal-article" @default.
W2899229270 hasAuthorship W2899229270A5018717578 @default.
W2899229270 hasAuthorship W2899229270A5018868087 @default.
W2899229270 hasAuthorship W2899229270A5088867034 @default.
W2899229270 hasBestOaLocation W28992292701 @default.
W2899229270 hasConcept C119599485 @default.
W2899229270 hasConcept C127413603 @default.
W2899229270 hasConcept C154945302 @default.
W2899229270 hasConcept C17829176 @default.
W2899229270 hasConcept C1862650 @default.
W2899229270 hasConcept C2775924081 @default.
W2899229270 hasConcept C2778818304 @default.
W2899229270 hasConcept C2780645631 @default.
W2899229270 hasConcept C41008148 @default.
W2899229270 hasConcept C71924100 @default.
W2899229270 hasConcept C78519656 @default.
W2899229270 hasConcept C99508421 @default.
W2899229270 hasConceptScore W2899229270C119599485 @default.
W2899229270 hasConceptScore W2899229270C127413603 @default.
W2899229270 hasConceptScore W2899229270C154945302 @default.
W2899229270 hasConceptScore W2899229270C17829176 @default.
W2899229270 hasConceptScore W2899229270C1862650 @default.
W2899229270 hasConceptScore W2899229270C2775924081 @default.
W2899229270 hasConceptScore W2899229270C2778818304 @default.
W2899229270 hasConceptScore W2899229270C2780645631 @default.
W2899229270 hasConceptScore W2899229270C41008148 @default.
W2899229270 hasConceptScore W2899229270C71924100 @default.
W2899229270 hasConceptScore W2899229270C78519656 @default.
W2899229270 hasConceptScore W2899229270C99508421 @default.
W2899229270 hasLocation W28992292701 @default.
W2899229270 hasLocation W28992292702 @default.
W2899229270 hasOpenAccess W2899229270 @default.
W2899229270 hasPrimaryLocation W28992292701 @default.
W2899229270 hasRelatedWork W1487862863 @default.
W2899229270 hasRelatedWork W2131833427 @default.
W2899229270 hasRelatedWork W2187054182 @default.
W2899229270 hasRelatedWork W2299888487 @default.
W2899229270 hasRelatedWork W2419434265 @default.