Dynamics and Control of Robot Manipulators

© 2022 by the authors; CC BY-NC-ND license

pattern moving; partial form dynamic linearization (PFDL); nonlinear system; two-player zero-sum game; model free adaptive control (MFAC); industrial robot; kinetic parameter identification; beetle swarm optimization algorithm; stochastic perturbation; parallel robots; mechatronics; motion simulation; mirror therapy; medical robot; redundancy resolution; human-robot interaction; torque-control; Doppler sonography; impedance control; fractional calculus; half-order derivative; parallel kinematics machine; underactuation; vacuum grasping; suction cups; grasping configurations; inertial effects; cable-driven parallel robot; cable failure; cable break; modeling; simulation; nonlinear model prediction; emergency strategies; force distribution; robotic art; watercolor; sponge painting; etching; image processing; cable-driven robots; control design; motion assistance; manipulator; multiple constraints; adaptive neural network; smooth-switching for gain; Barrier Lyapunov Function; shaking force and shaking moment balancing; low settling time; natural frequencies; inverted four-bar mechanism; robotic manipulators; flexible manipulator; state-constrained; finite-time control; back-stepping control; active fault-tolerant control; synchronous fast terminal sliding mode control; active fault-tolerant control; robot manipulator control; extended state observer; fault; motion planning; mobile robots; actuator dynamics and control; cable-driven parallel robots; wire-driven parallel robots; tendon-driven parallel robots; actuators; winch; design; picking manipulator; sliding mode control; adaptive control; friction compensation; genetic algorithm; cable-driven parallel manipulator; dynamic control; wrench feasible workspace; dynamics model; vibration control