In this paper, pole placement and two optimal control techniques which are the linear quadratic regulator and linear quadratic Gaussian are compared. A cart and inverted pendulum which is an inherently unstable dynamical system is used as a case study to analyze their performance and stability margins. Lagrangian equations defining the system dynamics are converted to linear state-space representation. The objective is to keep the pendulum in an upright position as the cart on which it is mounted moves from one position to another. MATLAB is used to solve the optimization problem and simulate the step response of the system. The robustness of both controllers is measured by giving uncertain model parameters to the system and observing the l...
This paper presents the simulation study of several control strategies for an inverted pendulum syst...
Program year: 1994/1995Digitized from print original stored in HDRThe Inverted Pendulum System, whic...
This project mainly discusses about the design of controller for a nonlinear system like rotary inve...
The system of a cart inverted pendulum has many problems such as nonlinearity, complexity, unstable,...
The inverted pendulum represents a challenging control problem. Since, inverted pendulum is inherent...
The objective of this project is to control and stabilize an Inverted Pendulum (IP) Cart System by c...
The paper considers and analyzes the existing methods of controlling systems with a deficit of contr...
The Cart Inverted Pendulum System (CIPS) has been considered among the most classical and difficult ...
In this paper modeling of an inverted pendulum is done using Euler – Lagrange energy equation for st...
The Cart-Inverted Pendulum System (CIPS)is a classical benchmark control problem. Its dynamics resem...
The inverted pendulum is a non-linear control problem permanently tending towards instability. The m...
A cart inverted pendulum is an under actuated system that highly unstable and nonlinear. Therefore, ...
Abstract- This paper deals with the comparative study between linear and nonlinear control strategie...
This paper proposes the use of explicit model predictive control (eMPC) method for the stabilising c...
Numerous practical applications like robot balancing, segway and hover board riding and operation of...
This paper presents the simulation study of several control strategies for an inverted pendulum syst...
Program year: 1994/1995Digitized from print original stored in HDRThe Inverted Pendulum System, whic...
This project mainly discusses about the design of controller for a nonlinear system like rotary inve...
The system of a cart inverted pendulum has many problems such as nonlinearity, complexity, unstable,...
The inverted pendulum represents a challenging control problem. Since, inverted pendulum is inherent...
The objective of this project is to control and stabilize an Inverted Pendulum (IP) Cart System by c...
The paper considers and analyzes the existing methods of controlling systems with a deficit of contr...
The Cart Inverted Pendulum System (CIPS) has been considered among the most classical and difficult ...
In this paper modeling of an inverted pendulum is done using Euler – Lagrange energy equation for st...
The Cart-Inverted Pendulum System (CIPS)is a classical benchmark control problem. Its dynamics resem...
The inverted pendulum is a non-linear control problem permanently tending towards instability. The m...
A cart inverted pendulum is an under actuated system that highly unstable and nonlinear. Therefore, ...
Abstract- This paper deals with the comparative study between linear and nonlinear control strategie...
This paper proposes the use of explicit model predictive control (eMPC) method for the stabilising c...
Numerous practical applications like robot balancing, segway and hover board riding and operation of...
This paper presents the simulation study of several control strategies for an inverted pendulum syst...
Program year: 1994/1995Digitized from print original stored in HDRThe Inverted Pendulum System, whic...
This project mainly discusses about the design of controller for a nonlinear system like rotary inve...