Enhancing Self-Efficacy Through Robotic Safety Support in Balance-Challenging Reach Tasks: Feasibility Study in Young Adults
Daiki Shimotori, Soshi Fujisawa, Masahiro Nishimura, Tatsuya Yoshimi, Kenji Kato

TL;DR
A robotic system that prevents falls can boost users' confidence during balance tasks, even without physical support, suggesting psychological reassurance improves performance.
Contribution
Demonstrates that a ceiling-mounted fall impact mitigation robot enhances self-efficacy in balance tasks through psychological reassurance.
Findings
The experimental group showed significantly higher self-efficacy ratings during balance tasks with the robot.
No significant differences were found in functional reach capacity or COP displacement between groups.
Task persistence trended higher in the experimental group, though not statistically significant.
Abstract
Falls and fear of falling adversely affect the quality of life and independence of older adults. Although various robotic systems have been developed for fall prevention, their psychological effects, particularly on self-efficacy, remain underexplored. A ceiling-mounted fall impact mitigation robot offers continuous protection with almost no limitations on the range of movement; however, its impact on users' psychological state and functional performance is unclear. This study aimed to evaluate the effect of a fall impact mitigation robot on psychological reassurance and task performance during dynamic balance tasks in healthy young adults, with a focus on self-efficacy and functional reach capacity. Twenty-four healthy adults (age: mean 28.9, SD 7.9 years) were randomly assigned to experimental (n=12) or control (n=12) groups. All participants performed a baseline functional reach…
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Taxonomy
TopicsBalance, Gait, and Falls Prevention · Cerebral Palsy and Movement Disorders · Stroke Rehabilitation and Recovery
