Paper Title
DESIGN AND DEVELOPMENT OF A PNEUMATICALLY POWERED EXOSKELETON SUIT FOR ENHANCED MOBILITY AND STRENGTH

Abstract
This research introduces an innovative exoskeleton suit that harnesses pneumatic power to augment human mobility and reduce fatigue. By integrating biomechanical principles, the suit optimizes movement efficiency and minimizes user strain. The suit's versatile design enables applications in rehabilitation, industry, search and rescue, and military contexts, yielding benefits such as enhanced task efficiency, reduced injury risk, and improved user experience. Key design considerations included weight reduction, energy efficiency, and user comfort. Through iterative testing and refinement, the suit's performance was significantly enhanced. Results demonstrate substantial improvements in mobility, strength, and user experience. This technology has far-reaching potential to transform industries and improve quality of life. Future research will focus on design optimization, expanded applications, and performance enhancement. This pneumatically powered exoskeleton suit revolutionizes human capability, providing enhanced mobility, strength, and well-being for users across various sectors. Keywords - Exoskeleton Suit, Pneumatically Powered Actuators, Biomechanics, Load Redistribution.