Add to ORKGA dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systematic procedure for estimation of model dynamic parameters is suggested. It consists of the following steps: (i) identification of friction model parameters for each joint; (ii) calculation of optimal exciting trajectories, required for estimation of the remaining dynamic model parameters; (iii) estimation of these parameters using a least-squares method. The estimated model satisfactory reconstructs experimental control signals, justifying its use in model-based nonlinear control
This chapter deals with the problems of robot modelling and identification for high-performance mode...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
This paper presents closed-form kinematic and dynamic models of a robot with three rotational degree...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
This paper presents closed-form kinematic and dynamic models of a robot with three rotational degree...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
A dynamic model of a robot with 3 rotational degrees of freedom is derived in closed form. A systema...
This paper presents closed-form kinematic and dynamic models of a robot with three rotational degree...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
This paper presents closed-form kinematic and dynamic models of a robot with three rotational degree...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
We explain a procedure for getting models of robot kinematics and dynamics that are appropriate for ...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
This chapter deals with the problems of robot modelling and identification for high-performance mode...
This chapter deals with the problems of robot modelling and identification for high-performance mode...