Exploring Fatigue Levels Resulting from Extended Use of Exoskeletal Boots

This thesis investigates the impact of extended use of exoskeletal boots on fatigue levels during physical activity. The study examines the effects of exoskeletal boots on physiological responses, including heart rate, R-R intervals, VO2 levels, and walking durations, compared to conditions without the boots. Participants underwent walking tasks while wearing the boots and performed physiological assessments. Results indicate that exoskeletal boots may mitigate fatigue and enhance endurance, as evidenced by longer walking durations and potentially reduced metabolic demand compared to conditions without the boots. Furthermore, analysis of heart rate and R-R interval data suggests modulation of autonomic nervous system activity with the use of exoskeletal boots. These findings offer insights into the potential benefits of exoskeletal boots in reducing fatigue and improving performance during prolonged physical activity, with implications for various domains including sports, rehabilitation, and military applications. Further research is warranted to elucidate the underlying mechanisms and optimize the utilization of exoskeletal boots for enhancing human performance and well-being.