LINEAR FORWARD AND BACKWORD LOCOMOTION FOR AMPHIBIOUS VEHICLE WITH ROCKER BOGIE MECHANISM 

Abstract

Amphibious vehicles, capable of operating on both land and water, are essential for applications such as search and rescue, environmental monitoring, and military operations. This study investigates the linear forward and backward locomotion of an amphibious vehicle using advanced simulation tools. A detailed 3D model from SolidWorks was integrated into MATLAB's Simulink and Simscape to simulate and analyze the vehicle's motion dynamics. The simulation results demonstrated efficient and stable linear locomotion, with effective control mechanisms ensuring smooth and controlled movement. These findings validate the robustness of the design and highlight areas for potential optimization. Future work will focus on further refining the vehicle's design and conducting real-world testing to validate and enhance its performance.