The Robogymnast is a triple link underactuated pendulum that mimics a human gymnast hanging from a horizontal bar. In this paper, two multi-objective optimization methods are developed using invasive weed optimization (IWO). The first method is the weighted criteria method IWO (WCMIWO) and the second method is the fuzzy logic IWO hybrid (FLIWOH). The two optimization methods were used to investigate the optimum diagonal values for the Q matrix of the linear quadratic regulator (LQR) controller that can balance the Robogymnast in an upright configuration. Two LQR controllers were first developed using the parameters obtained from the two optimization methods. The same process was then repeated, but this time with disturbance applied to the R...
Inverted pendulum systems, such as double or single, rotational or translational inverted pendulums ...
The inverted pendulum represents a challenging control problem. Since, inverted pendulum is inherent...
A two-wheeled single seat Segway robot is a special kind of wheeled mobile robot, using it as a huma...
In this study, invasive weed optimization (IWO) was used to investigate the optimum Q values of the ...
In this paper Invasive Weed Optimization (IWO) was used to investigate the optimum values of the con...
Complex under-actuated multilink mechanism involves a system whose number of control inputs is small...
This research focuses on integrating artificial intelligence and knowledge-based systems to improve ...
This study applies a Linear Quadratic Regulator, LQR and a fuzzy logic linear quadratic regulator co...
This research aims to optimise performance in a Fuzzy Linear Quadratic Regulator controller by imple...
In the research presented here, a Fuzzy logic controller is tuned for both a Linear Quadratic Regula...
This paper presents a linear quadratic optimal controller design for a nonlinear inverted pendulum. ...
© 2016 IEEE. This paper describes a new modified versions of invasive weed optimization algorithm wi...
An approach to controlling the three-link Robogymnast robotic gymnast and assessing stability is pro...
The objective of this project is to control and stabilize an Inverted Pendulum (IP) Cart System by c...
Inverted pendulum systems, such as double or single, rotational or translational inverted pendulums ...
The inverted pendulum represents a challenging control problem. Since, inverted pendulum is inherent...
A two-wheeled single seat Segway robot is a special kind of wheeled mobile robot, using it as a huma...
In this study, invasive weed optimization (IWO) was used to investigate the optimum Q values of the ...
In this paper Invasive Weed Optimization (IWO) was used to investigate the optimum values of the con...
Complex under-actuated multilink mechanism involves a system whose number of control inputs is small...
This research focuses on integrating artificial intelligence and knowledge-based systems to improve ...
This study applies a Linear Quadratic Regulator, LQR and a fuzzy logic linear quadratic regulator co...
This research aims to optimise performance in a Fuzzy Linear Quadratic Regulator controller by imple...
In the research presented here, a Fuzzy logic controller is tuned for both a Linear Quadratic Regula...
This paper presents a linear quadratic optimal controller design for a nonlinear inverted pendulum. ...
© 2016 IEEE. This paper describes a new modified versions of invasive weed optimization algorithm wi...
An approach to controlling the three-link Robogymnast robotic gymnast and assessing stability is pro...
The objective of this project is to control and stabilize an Inverted Pendulum (IP) Cart System by c...
Inverted pendulum systems, such as double or single, rotational or translational inverted pendulums ...
The inverted pendulum represents a challenging control problem. Since, inverted pendulum is inherent...
A two-wheeled single seat Segway robot is a special kind of wheeled mobile robot, using it as a huma...