In this paper, a pole-independent, single-input, multi-output explicit linear MPC controller is proposed to stabilize the fourth-order cart–inverted-pendulum system around the desired equilibrium points. To circumvent an obvious stability problem, a generalized prediction model is proposed that yields an MPC controller with four tuning parameters. The first two parameters, namely the horizon time and the relative cart–pendulum weight factor, are automatically adjusted to ensure a priori prescribed system gain margin and fast pendulum response while the remaining two parameters, namely the pendulum and cart velocity weight factors, are maintained as free tuning parameters. The comparison of the proposed method with some optimal control metho...
A cart inverted pendulum is an under actuated system that highly unstable and nonlinear. Therefore, ...
AbstractIn this paper, a multirate output feedback (MROF) based on discrete time sliding mode contro...
Sponsor ing organization Ti tle and subti t le Gradient-Based Model Predictive Control in a Pendulum...
A new linear observer-free output-feedback controller with five adjustable parameters is proposed to...
This paper proposes the use of explicit model predictive control (eMPC) method for the stabilising c...
Model Predictive Control (MPC) is applied to a pendulum system consisting of a pendulum and a cart. ...
The problem of stabilizing an inverted pendulum on a cart while enabling manual control of the cart ...
Model predictive control (MPC) is applied to a physical pendulum system consisting of a pendulum and...
Program year: 1994/1995Digitized from print original stored in HDRThe Inverted Pendulum System, whic...
A simple stabilizing controller for the cart-pendulum system is designed in this paper. Our control ...
The Cart-Inverted Pendulum System (CIPS)is a classical benchmark control problem. Its dynamics resem...
In this paper, pole placement and two optimal control techniques which are the linear quadratic regu...
This paper presents the application of multirate output feedback with discrete time sliding mode con...
In this paper Modelica and Optimica are used to solve two different optimal control problems for a s...
The system of a cart inverted pendulum has many problems such as nonlinearity, complexity, unstable,...
A cart inverted pendulum is an under actuated system that highly unstable and nonlinear. Therefore, ...
AbstractIn this paper, a multirate output feedback (MROF) based on discrete time sliding mode contro...
Sponsor ing organization Ti tle and subti t le Gradient-Based Model Predictive Control in a Pendulum...
A new linear observer-free output-feedback controller with five adjustable parameters is proposed to...
This paper proposes the use of explicit model predictive control (eMPC) method for the stabilising c...
Model Predictive Control (MPC) is applied to a pendulum system consisting of a pendulum and a cart. ...
The problem of stabilizing an inverted pendulum on a cart while enabling manual control of the cart ...
Model predictive control (MPC) is applied to a physical pendulum system consisting of a pendulum and...
Program year: 1994/1995Digitized from print original stored in HDRThe Inverted Pendulum System, whic...
A simple stabilizing controller for the cart-pendulum system is designed in this paper. Our control ...
The Cart-Inverted Pendulum System (CIPS)is a classical benchmark control problem. Its dynamics resem...
In this paper, pole placement and two optimal control techniques which are the linear quadratic regu...
This paper presents the application of multirate output feedback with discrete time sliding mode con...
In this paper Modelica and Optimica are used to solve two different optimal control problems for a s...
The system of a cart inverted pendulum has many problems such as nonlinearity, complexity, unstable,...
A cart inverted pendulum is an under actuated system that highly unstable and nonlinear. Therefore, ...
AbstractIn this paper, a multirate output feedback (MROF) based on discrete time sliding mode contro...
Sponsor ing organization Ti tle and subti t le Gradient-Based Model Predictive Control in a Pendulum...