Fundamentals of Robotic Mechanical Systems

Author: Jorge Angeles

Description

Topics covered include: kinematics and dynamics of serial manipulators with decoupled architectures; trajectory planning; determination of the angular velocity and angular acceleration of a rigid body from point data; inverse and direct kinematics manipulators; dynamics of general parallel manipulators of the platform type; and the kinematics and dynamics of rolling robots. Since the publication of the previous edition there have been numerous advances in both the applications of robotics (including in laprascopy, haptics, manufacturing, and most notably space exploration) as well as in the theoretical aspects (for example, the proof that Husty's 40th-degree polynomial is indeed minimal - mentioned as an open question in the previous edition).

Keywords

actuated joint rates natural orthogonal complement reproduced below for quick reference robotic mechanical systems overall manipulator inertia dyad subscripted brackets scalar angular velocity serial robotic manipulators active roller rolling robots decoupled type isotropic manipulator prismatic pair generalized inertia matrix omnidirectional wheels ith wheel unactuated joints foregoing matrices jth joint given coordinate frame generalized speeds spherical wrist serial manipulators minimum condition number

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