This paper investigates the modelling and closedloop tracking control issues of a novel elastic underactuated multibody system. A torsional inverted pendulum cart-pole system with a single rotary actuator at the pivot of the cart is proposed. The system dynamics which incorporates with motion planning is firstly described. An optimization procedure is then discussed to plan the feasible trajectories that not just meet the performance requirements but also obtain optimality with respect to the cart displacement and average velocity. A closed-loop tracking controller is designed under collocated partial feedback linearization (CPFL). Subsequent presentation of simulation demonstrates that the proposed system is promising as compared to the pr...
This paper presents a set of basic problems concerning the control of an underactuated dynamic syste...
We consider planning and control problems for underactuated manipulators, a special instance of mech...
A novel strategy to design time invariant motion controllers for underactuated mobile systems is app...
This paper investigates the modelling and closedloop tracking control issues of a novel elastic unde...
This paper investigates a new modelling and control issue: the tracking control problem of underactu...
This paper investigates a new modelling and control issue: the tracking control problem of underactu...
n this paper, we use an example - a pendulum-driven cart-pole system studied in Li et al. (2005) to ...
In this paper, we address the trajectory tracking issue of underactuated dynamic systems using a spe...
The problem of trajectory planning and control design for underactuated mechanicalsystems is a nontr...
Trajectory tracking control of underactuated systems is one of the challenging issues. This paper pr...
Abstract: The significant advantage of ground mobile robots (GMRs) is their accessibility to areas t...
In this paper we present the dynamic Lagrangian modeling, system analysis, and nonlinear control of ...
The controlled multibody systems are under the consideration. At the lecture special emphasis is put...
Graduation date: 2015Bipedal robots represent a unique class of control problems that combine many o...
In this paper, a special underactuated system a capsule robot, also called capsubot, is studied to i...
This paper presents a set of basic problems concerning the control of an underactuated dynamic syste...
We consider planning and control problems for underactuated manipulators, a special instance of mech...
A novel strategy to design time invariant motion controllers for underactuated mobile systems is app...
This paper investigates the modelling and closedloop tracking control issues of a novel elastic unde...
This paper investigates a new modelling and control issue: the tracking control problem of underactu...
This paper investigates a new modelling and control issue: the tracking control problem of underactu...
n this paper, we use an example - a pendulum-driven cart-pole system studied in Li et al. (2005) to ...
In this paper, we address the trajectory tracking issue of underactuated dynamic systems using a spe...
The problem of trajectory planning and control design for underactuated mechanicalsystems is a nontr...
Trajectory tracking control of underactuated systems is one of the challenging issues. This paper pr...
Abstract: The significant advantage of ground mobile robots (GMRs) is their accessibility to areas t...
In this paper we present the dynamic Lagrangian modeling, system analysis, and nonlinear control of ...
The controlled multibody systems are under the consideration. At the lecture special emphasis is put...
Graduation date: 2015Bipedal robots represent a unique class of control problems that combine many o...
In this paper, a special underactuated system a capsule robot, also called capsubot, is studied to i...
This paper presents a set of basic problems concerning the control of an underactuated dynamic syste...
We consider planning and control problems for underactuated manipulators, a special instance of mech...
A novel strategy to design time invariant motion controllers for underactuated mobile systems is app...