A New Method of Energy Harvesting for Self-Governing Robotic Systems

Abstract

The need for sustainable and self-sufficient robotic systems is growing, which has sparked creative energy harvesting research. An innovative approach for self-governing robotic systems is presented in this abstract, along with a thorough analysis of its guiding principles, obstacles, and practical applications. By utilising ambient energy sources, the suggested energy harvesting technique promises to increase autonomy and decrease dependency on conventional power sources for robotic platforms. This review delves into the basic principles and explains the methods that facilitate the extraction of energy from the environment. Design factors that address issues of scalability, efficiency, and adaptability are thoroughly examined. These considerations include hardware architecture, sensor setups, and integration features. Practical and versatile uses of the suggested method in self-governing robotic systems are demonstrated with examples from the real world, including environmental monitoring and exploration. A comparison with current energy-collecting methods highlights the advantages and special qualities of the new strategy. Notwithstanding the unavoidable difficulties, current research initiatives and possible fixes are examined. The final section of the abstract highlights the transformative influence of this energy-harvesting technology on the field of autonomous robotic systems, as well as future research paths and prospects.