This article develops and evaluates state-dependent parameter (SDP) control systems for the hydraulically actuated dual-manipulators of a mobile nuclear decommissioning robot. A unified framework for calibration and SDP model identification is proposed, in which the state-dependent variable is a delayed voltage input associated with the time-varying system gain. Such nonlinearities can cause undesirable joint movements under automatic control. Hence, the present article develops a nonlinear pole assignment algorithm for the SDP model. Closed-loop experimental data shows that the SDP design more closely follows the joint angle commands than an equivalent linear algorithm, offering improved resolved motion
Robotics technology is booming and it is projected to dominate in the coming decade. Although roboti...
Nuclear decommissioning environments are an ideal example of where robotics can be utilised incredib...
The article develops two novel feedback control-based Inverse Kinematics (IK) solvers. They are eval...
This article considers the identification of state-dependent parameter~(SDP) models for the hydrauli...
This article develops state-dependent parameter (SDP) control systems for the hydraulically actuated...
This article considers pole assignment control of nonlinear dynamic systems described by State Depen...
The robotic platform in this study has dual, seven-function, hydraulically actuated manipulators, wh...
In this paper the problem of system integration and dynamic modeling of a hydraulically actuated man...
The article develops a generic framework for the control of a dual-manipulator mobile robotic system...
The robotic platform in this study is being used for research into assisted tele-operation for commo...
This poster summarises research at Lancaster University into the modelling and control of mobile rob...
This paper addresses the important topic of electro-mechanical systems identification with an applic...
In nuclear power plants (NPP), dismantling is the most technically involved process during their lif...
The focus of a recently-awarded Nuclear Decommissioning Authority (NDA) doctoral bursary in the UK i...
Mobile robots are used in many hazardous environments, including explosive ordnance disposal, milita...
Robotics technology is booming and it is projected to dominate in the coming decade. Although roboti...
Nuclear decommissioning environments are an ideal example of where robotics can be utilised incredib...
The article develops two novel feedback control-based Inverse Kinematics (IK) solvers. They are eval...
This article considers the identification of state-dependent parameter~(SDP) models for the hydrauli...
This article develops state-dependent parameter (SDP) control systems for the hydraulically actuated...
This article considers pole assignment control of nonlinear dynamic systems described by State Depen...
The robotic platform in this study has dual, seven-function, hydraulically actuated manipulators, wh...
In this paper the problem of system integration and dynamic modeling of a hydraulically actuated man...
The article develops a generic framework for the control of a dual-manipulator mobile robotic system...
The robotic platform in this study is being used for research into assisted tele-operation for commo...
This poster summarises research at Lancaster University into the modelling and control of mobile rob...
This paper addresses the important topic of electro-mechanical systems identification with an applic...
In nuclear power plants (NPP), dismantling is the most technically involved process during their lif...
The focus of a recently-awarded Nuclear Decommissioning Authority (NDA) doctoral bursary in the UK i...
Mobile robots are used in many hazardous environments, including explosive ordnance disposal, milita...
Robotics technology is booming and it is projected to dominate in the coming decade. Although roboti...
Nuclear decommissioning environments are an ideal example of where robotics can be utilised incredib...
The article develops two novel feedback control-based Inverse Kinematics (IK) solvers. They are eval...