This chapter presents a comprehensive investigation into the modeling and simulation of walking robots using MATLAB, with the overarching goal of advancing the understanding and capabilities of dynamic robotic systems. Drawing inspiration from the biomechanics of living organisms, our study focuses on achieving accurate representations of walking robot kinematics and dynamics, leveraging the computational power of MATLAB for simulation and control system design. A successful implementation might result in nimble robots for a variety of applications. The use of MATLAB provides a comprehensive approach that includes mechanical, electrical, and control components. The initiative seeks practical applications in real‐world robots as well as scholarly discourse. The convergence of engineering and biology in this work is a step toward more adaptable and flexible robotic systems. Despite obstacles, this chapter also gives predictions about the continued breakthroughs in walking robot development and seeks to encourage creativity in the larger area of robotics. The findings are likely to add to the continuing discussion over the synthesis of biological and artificial locomotion, with implications for the future of robotics.
Kinematic and Dynamic Modeling of Robots
2025-06-24
15 pages
Article/Chapter (Book)
Electronic Resource
English
Dynamic modeling , robotic arm , actuator , sensor , MATLAB , controllers
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