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Full Description
This open access book presents a differential geometric formulation for kinematics and dynamics of roboticmanipulators, both nonredundant and redundant, resulting in a rigorous treatment of ordinarydifferential equations (ODE) for manipulator dynamics that are ideally suited for either input oroperational space robot control. The author assumes no background in abstract topology ofdifferential geometry; mathematical and computational concepts are introduced using onlymultivariable calculus at the undergraduate level applied to model engineering applications.Examples are treated throughout to provide a foundation for understanding modern conceptsand techniques that have often only been presented at an abstract mathematical level intheoretical robotics literature that is not generally accessible to the engineer. The formulationpresented in this book further obtains ordinary differential equations that represent thedynamics of robotic systems that are reliably solved numerically with established Runge-Kuttamethods. Lagrange multipliers that are ill-suited for robotic control are avoided . Examples ofrealistic manipulators are presented with numerical results that demonstrate the desiredperformance of modern analytical and computational methods.
Contents
Mechanical system kinematics and dynamics.- Kinematic analysis.- Dynamic simulation of mechanical systems.- Vehicle dynamics.- Friction modelling and analysis.
