Novel Actuator Designs for High-Precision Mechatronic Systems

Abstract

Mechatronic systems require high-precision actuators to achieve accurate and reliable control of mechanical movements. This abstract focuses on the development and implementation of novel actuator designs aimed at enhancing the performance of high-precision mechatronic systems. The objective is to address the limitations of existing actuator technologies and provide improved solutions for applications requiring precise positioning, fine manipulation, and rapid response. This abstract provides a comprehensive overview of the development and implementation of novel actuator designs for high-precision mechatronic systems. It emphasizes the limitations of conventional actuator technologies and explores the advantages offered by cutting-edge designs. By incorporating these innovative actuators, mechatronic systems can achieve enhanced precision, accuracy, and performance, enabling a wide range of applications in diverse fields. Future research and development efforts should focus on refining these novel actuator designs and addressing the remaining challenges to further advance high-precision mechatronics