Use this URL to cite or link to this record in EThOS: http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.721711
Title: Development and evaluation of an electromyography biofeedback-based virtual reality system for hand motion rehabilitation
Author: Ma, Sha
Awarding Body: University of Central Lancashire
Current Institution: University of Central Lancashire
Date of Award: 2010
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Abstract:
Individuals who have upper limb movement problems include people with cere­bral palsy (CP) and stroke victim . Both thes conditions lead to difficulties in daily activities such as reaching, gra ping etc. Loss of motor function can be improved or recovered via relevant target specific movement rehabilitation. This r search aims to d velop and evaluate an electromyography (EMG) biofeedback based virtual reality (VR) system targeted towards CP and stroke patients that could provide an engaging and effective way to practice and improve hand and arm motion functions. VR, which could provide a repetitive multimodal task­orient d r habilitation environment for patients to undertake elf-training in safety, is con id red to be a suitabl tool for medical health rehabilitation. Using EMG biofeedback in rehabilitation could provide pati nts with opportunities to improve their ability by ass ssing th ir muscle activity r spons and learning self-control of mov m nt during specific training tasks. Th syst m development incorporat s concepts f om motor learning, visual art and programming, and provid s visual and audio feedback that guides the us r' move­m nt to becom smoother and more fficient. Using compo ite multiple feedback in upp r limb r habilitation enables th individual with upp r limb probl m to per­ceiv similar r al-world p rformanc in th virtual world. Howev r, it i r cognised that such fe dback might cause information overload, 1 ading to the individual feel­ing confused and distract d during training. The necessity of involving healthy subject in f asibility tudies is also recognised. Therefore, thi study focuses on healthy subjects to investigate the effectiveness of separate function-specific fe d­back training exercises in order to overcome the information overload problem. Two s ts of xp riments based on 2D display and 3D display were carried out in thi research. A total of sixty healthy subjects participated in the experiments, thirty for the 2D display tests and thirty for the 3D display tests. The developed EMG biof edback based VR system provided the participants with position, orientation, and muscle activity response information. This allow d combined task-oriented multiple feedback which aimed to improve the performance in the virtual environment. In order to preempt and deal with the information overload problem, three prior individual fe dback pre-training game-like tasks were designed based on the distinctive functions of the individual VR interactive inter­faces (magnetic track r and EMG system). As in video games, where preparative modes are provided, and the player can learn the key functions and the game sce­nario through prior practice, so as to improve their performance in the full game. This allows the multimodal and multiform fe dback training exercises are broken down into individual function-specific feedback exercises. The training tasks were designed in the form of gam -like tasks, which could offer better motivation and allow easier hierarchical delivery. Candle lighting, ball balancing and cup grasping game-like tasks, which are position movement, orientation movement and muscle contraction pre-training tasks respectively, were designed based on th distinctive function of magnetic tracking and EMG systems. The balloon shooting main game, which is re-engineered ba ed on a tutorial provided by th XNA game studio, was developed for th multiform feedback training task. The d veloped game-like VR rehabilitation tasks could make th information from the biological level visible to participant with multimodal and multiform feedback. In both 2D and 3D display tests, th r are two experimental groups with pre-training prior to th main game and a control group with th main task only. The empirical results of both 2D and 3D display t t indicate that the developed EM G biofe d back based VR system and tasks are useful to improv the ability of ome of th upp r limb activitie , and th prior individual feedback pre-training tasks are h lpful for b tt r performance in the main multiform fe dback task . This tudy show d that the information ov rload occurring in th integrat d VR syst m with multiple forms of£ edback can b ov rcom with prop rly design pre -training tasks.
Supervisor: Not available Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.721711  DOI: Not available
Keywords: Engineering design
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