Analysis of a Novel Training Game with Eye Tracking and Electromyography for Autonomous Wheelchair Control

Analysis of a Novel Training Game with Eye Tracking and Electromyography for Autonomous Wheelchair Control

A novel electromyography (EMG)-based wheelchair interface was developed that uses contractions from the temporalis muscle to control a wheelchair. To aid in the training process for users of this interface, a serious training game, <i>Limbitless Journey</i>, was developed to support pati...

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Bibliographic Details
Main Authors: Peter Smith, Matt Dombrowski, Viviana Rivera, Maanya Pradeep, Delaney Gunnell, John Sparkman, Albert Manero
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Applied Sciences
Subjects:
electromyography
amyotrophic lateral sclerosis
serious games
usability
eye tracking
Online Access:https://www.mdpi.com/2076-3417/15/10/5268
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Summary:A novel electromyography (EMG)-based wheelchair interface was developed that uses contractions from the temporalis muscle to control a wheelchair. To aid in the training process for users of this interface, a serious training game, <i>Limbitless Journey</i>, was developed to support patients. Amyotrophic Lateral Sclerosis (ALS) is a condition that causes progressive motor function loss, and while many people with ALS use wheelchairs as mobility devices, a traditional joystick-based wheelchair interface may become inaccessible as the condition progresses. <i>Limbitless Journey</i> simulates the wheelchair interface by utilizing the same temporalis muscle contractions for control of in-game movements, but in a low-stress learning environment. A usability study was conducted to evaluate the serious-game-based training platform. A major outcome of this study was qualitative data gathered through a concurrent think-aloud methodology. Three cohorts of five participants participated in the study. Audio recordings of participants using <i>Limbitless Journey</i> were transcribed, and a sentiment analysis was performed to evaluate user perspectives. The goal of the study was twofold: first, to perform a think-aloud usability study on the game; second, to determine whether accessible controls could be as effective as manual controls. The user comments were coded into the following categories: game environment, user interface interactions, and controller usability. The game environment category had the most positive comments, while the most negative comments were primarily related to usability challenges with the flexion-based controller. Interactions with the user interface were the main topic of feedback for improvement in future game versions. This game will be utilized in subsequent trials conducted at the facility to test its efficacy as a novel training system for the ALS population. The feedback collected will be implemented in future versions of the game to improve the training process.
ISSN:2076-3417

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