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Vehicle-manipulator systems: modeling for simulation, analysis, and control

Furthering the aim of reducing human exposure to hazardous environments, this monograph presents a detailed study of the modeling and control of vehicle-manipulator systems. The text shows how complex interactions can be performed at remote locations using systems that combine the manipulability of...

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Detalles Bibliográficos
Autores principales: From, Pal Johan, Gravdahl, Jan Tommy, Pettersen, Kristin Ytterstad
Lenguaje:eng
Publicado: Springer 2014
Materias:
Acceso en línea:https://dx.doi.org/10.1007/978-1-4471-5463-1
http://cds.cern.ch/record/1627000
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author From, Pal Johan
Gravdahl, Jan Tommy
Pettersen, Kristin Ytterstad
author_facet From, Pal Johan
Gravdahl, Jan Tommy
Pettersen, Kristin Ytterstad
author_sort From, Pal Johan
collection CERN
description Furthering the aim of reducing human exposure to hazardous environments, this monograph presents a detailed study of the modeling and control of vehicle-manipulator systems. The text shows how complex interactions can be performed at remote locations using systems that combine the manipulability of robotic manipulators with the ability of mobile robots to locomote over large areas.  The first part studies the kinematics and dynamics of rigid bodies and standard robotic manipulators and can be used as an introduction to robotics focussing on robust mathematical modeling. The monograph then moves on to study vehicle-manipulator systems in great detail with emphasis on combining two different configuration spaces in a mathematically sound way. Robustness of these systems is extremely important and Modeling and Control of Vehicle-manipulator Systems effectively represents the dynamic equations using a mathematically robust framework. Several tools from Lie theory and differential geometry are used to obtain globally valid representations of the dynamic equations of vehicle-manipulator systems.   The specific characteristics of several different types of vehicle-manipulator systems are included and the various application areas of these systems are discussed in detail. For underwater robots buoyancy and gravity, drag forces, added mass properties, and ocean currents are considered. For space robotics the effects of free fall environments and the strong dynamic coupling between the spacecraft and the manipulator are discussed. For wheeled robots wheel kinematics and non-holonomic motion is treated, and finally the inertial forces are included for robots mounted on a forced moving base.   Modeling and Control of Vehicle-manipulator Systems will be of interest to researchers and engineers studying and working on many applications of robotics: underwater, space, personal assistance, and mobile manipulation in general, all of which have similarities in the equations required for modeling and control. Advances in Industrial Control aims to report and encourage the transfer of technology in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. The series offers an opportunity for researchers to present an extended exposition of new work in all aspects of industrial control.
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spelling cern-16270002021-04-21T21:38:52Zdoi:10.1007/978-1-4471-5463-1http://cds.cern.ch/record/1627000engFrom, Pal JohanGravdahl, Jan TommyPettersen, Kristin YtterstadVehicle-manipulator systems: modeling for simulation, analysis, and controlEngineeringFurthering the aim of reducing human exposure to hazardous environments, this monograph presents a detailed study of the modeling and control of vehicle-manipulator systems. The text shows how complex interactions can be performed at remote locations using systems that combine the manipulability of robotic manipulators with the ability of mobile robots to locomote over large areas.  The first part studies the kinematics and dynamics of rigid bodies and standard robotic manipulators and can be used as an introduction to robotics focussing on robust mathematical modeling. The monograph then moves on to study vehicle-manipulator systems in great detail with emphasis on combining two different configuration spaces in a mathematically sound way. Robustness of these systems is extremely important and Modeling and Control of Vehicle-manipulator Systems effectively represents the dynamic equations using a mathematically robust framework. Several tools from Lie theory and differential geometry are used to obtain globally valid representations of the dynamic equations of vehicle-manipulator systems.   The specific characteristics of several different types of vehicle-manipulator systems are included and the various application areas of these systems are discussed in detail. For underwater robots buoyancy and gravity, drag forces, added mass properties, and ocean currents are considered. For space robotics the effects of free fall environments and the strong dynamic coupling between the spacecraft and the manipulator are discussed. For wheeled robots wheel kinematics and non-holonomic motion is treated, and finally the inertial forces are included for robots mounted on a forced moving base.   Modeling and Control of Vehicle-manipulator Systems will be of interest to researchers and engineers studying and working on many applications of robotics: underwater, space, personal assistance, and mobile manipulation in general, all of which have similarities in the equations required for modeling and control. Advances in Industrial Control aims to report and encourage the transfer of technology in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. The series offers an opportunity for researchers to present an extended exposition of new work in all aspects of industrial control.Springeroai:cds.cern.ch:16270002014
spellingShingle Engineering
From, Pal Johan
Gravdahl, Jan Tommy
Pettersen, Kristin Ytterstad
Vehicle-manipulator systems: modeling for simulation, analysis, and control
title Vehicle-manipulator systems: modeling for simulation, analysis, and control
title_full Vehicle-manipulator systems: modeling for simulation, analysis, and control
title_fullStr Vehicle-manipulator systems: modeling for simulation, analysis, and control
title_full_unstemmed Vehicle-manipulator systems: modeling for simulation, analysis, and control
title_short Vehicle-manipulator systems: modeling for simulation, analysis, and control
title_sort vehicle-manipulator systems: modeling for simulation, analysis, and control
topic Engineering
url https://dx.doi.org/10.1007/978-1-4471-5463-1
http://cds.cern.ch/record/1627000
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AT pettersenkristinytterstad vehiclemanipulatorsystemsmodelingforsimulationanalysisandcontrol