Modelling and Control of Mechatronic and Robotic Systems

Modelling and Control of Mechatronic and Robotic Systems

Currently, the modelling and control of mechatronic and robotic systems is an open and challenging field of investigation in both industry and academia. The book encompasses the kinematic and dynamic modelling, analysis, design, and control of mechatronic and robotic systems, with the scope of impro...

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Bibliographic Details
HerausgeberIn:
Seriani, Stefano
Scalera, Lorenzo
Sonstige:
Gasparetto, Alessandro
Seriani, Stefano
Scalera, Lorenzo
Year of Publication:2021
Language:English
Physical Description:1 electronic resource (404 p.)
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520 |a Currently, the modelling and control of mechatronic and robotic systems is an open and challenging field of investigation in both industry and academia. The book encompasses the kinematic and dynamic modelling, analysis, design, and control of mechatronic and robotic systems, with the scope of improving their performance, as well as simulating and testing novel devices and control architectures. A broad range of disciplines and topics are included, such as robotic manipulation, mobile systems, cable-driven robots, wearable and rehabilitation devices, variable stiffness safety-oriented mechanisms, optimization of robot performance, and energy-saving systems. 
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650 7 |a Technology: general issues  |2 bicssc 
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653 |a synthesis 
653 |a exoskeleton 
653 |a finger motion rehabilitation 
653 |a super-twisting control law 
653 |a robot manipulators 
653 |a fast terminal sliding mode control 
653 |a semi-active seat suspension 
653 |a integrated model 
653 |a control 
653 |a fuzzy logic-based self-tuning 
653 |a PID 
653 |a super-twisting 
653 |a sliding mode extended state observer 
653 |a saturation function 
653 |a fuzzy logic 
653 |a attenuate disturbance 
653 |a pHRI 
653 |a variable stiffness actuator 
653 |a V2SOM 
653 |a friendly cobots 
653 |a safety criteria 
653 |a human-robot collisions 
653 |a underwater vehicle-manipulator system 
653 |a motion planning 
653 |a coordinated motion control 
653 |a inertial delay control 
653 |a fuzzy compensator 
653 |a extended Kalman filter 
653 |a feedback linearization 
653 |a CPG 
653 |a self-growing network 
653 |a quadruped robot 
653 |a trot gait 
653 |a directional index 
653 |a serial robot 
653 |a performance evaluation 
653 |a kinematics 
653 |a hydraulic press 
653 |a energy saving 
653 |a energy efficiency 
653 |a installed power 
653 |a processing performance 
653 |a space robotics 
653 |a planetary surface exploration 
653 |a terrain awareness 
653 |a mechanics of vehicle-terrain interaction 
653 |a vehicle dynamics 
653 |a multi-support shaft system vibration control 
653 |a combined simulation 
653 |a transverse bending vibration 
653 |a Smart Spring 
653 |a adaptive control 
653 |a hydraulics 
653 |a differential cylinder 
653 |a feedforward 
653 |a motion control 
653 |a manipulator arm 
653 |a trajectory optimization 
653 |a "whip-lashing" method 
653 |a reduction of cycle time 
653 |a trajectory planning 
653 |a SolidWorks and MATLAB software applications 
653 |a dynamic modeling 
653 |a multibody simulation 
653 |a robotic lander 
653 |a variable radius drum 
653 |a impact analysis 
653 |a cable-driven parallel robots 
653 |a cable-suspended robots 
653 |a dynamic workspace 
653 |a throwing robots 
653 |a casting robot 
653 |a redesign 
653 |a slider-crank mechanism 
653 |a optimization 
653 |a synthesis problem 
653 |a rehabilitation devices 
653 |a six-wheel drive (6WD) 
653 |a skid steering 
653 |a electric unmanned ground vehicle (EUGV) 
653 |a driving force distribution 
653 |a vehicle motion control 
653 |a maneuverability and stability 
653 |a hexapod robot 
653 |a path planning 
653 |a energy consumption 
653 |a cost of transport 
653 |a heuristic optimization 
653 |a mobile robots 
653 |a tractor-trailer 
653 |a wheel slip compensation 
653 |a gait optimization 
653 |a genetic algorithm 
653 |a quadrupedal locomotion 
653 |a evolutionary programming 
653 |a optimal contact forces 
653 |a micro aerial vehicles 
653 |a visual-based control 
653 |a Kalman filter 
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700 1 |a Scalera, Lorenzo  |4 edt 
700 1 |a Gasparetto, Alessandro  |4 oth 
700 1 |a Seriani, Stefano  |4 oth 
700 1 |a Scalera, Lorenzo  |4 oth 
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