Design and Implementation of a Mechatronic System for Unmanned Aerial Vehicles (UAVS)

Abstract

The design and implementation of mechatronic systems for unmanned aerial vehicles (UAVs) have gained significant attention in recent years. Mechatronics combines mechanical, electrical, and computer engineering principles to create integrated systems with enhanced functionality and performance. This paper presents a comprehensive study on the design and implementation of a mechatronic system specifically tailored for UAVs, with a focus on improving their flight capabilities, autonomy, and overall operational efficiency.The development of UAVs has revolutionized various industries, including aerial surveillance, disaster management, agriculture, and delivery services. However, there are several challenges associated with their design and operation. This research aims to address these challenges by proposing a mechatronic system that integrates advanced sensing, actuation, and control technologies. This research presents a comprehensive approach to the design and implementation of a mechatronic system for UAVs. The integration of mechanical, electrical, and computer engineering principles enables the development of enhanced flight capabilities, autonomy, and operational efficiency. The proposed system addresses the challenges associated with UAV design and operation, making significant contributions to the field of unmanned aerial vehicles. Future work can focus on further optimizing the mechatronic system and exploring additional applications in different domains.