Add to ORKG[[abstract]]Based on the switching Takagi-Sugeno (T-S) fuzzy control theorem, this study investigates the position control for a developed differential-drive two-wheeled mobile robot (TWMR). The developed TWMR is introduced, followed by a description of the kinematic equations of the TWMR, which are represented by exact T-S fuzzy systems. The uncontrollable problem of the derived T-S fuzzy model is avoided by considering the switching section mechanism. The switching T-S fuzzy model is synthesized by a switching parallel distributed compensation. Moreover, a guaranteed cost control issue is considered to obtain proper control signals and improve state responses for the developed TWMR. A feasible controller is obtained by solving the derived...
This paper presents a self-tuning fuzzy PD controller designed to improve a control strategy for a w...
A two-wheeled self-balancing robot with a fuzzy PD control method is described and analyzed as an ex...
The inherently unstable nature of mobile inverted pendulum type two-wheeled robot discriminates it f...
This paper presents the control of a two-wheeled mobile robot (WMR) using a fuzzy model approach. A ...
[[abstract]]This study focused on the Takagi–Sugeno (T–S) fuzzy-model-based control design for the d...
10.1109/TIE.2012.2230600IEEE Transactions on Industrial Electronics60125717-5728ITIE
This paper presents the design of a fuzzy tracking controller for balancing and velocity control of ...
[[abstract]]A GA-based fuzzy controller design method is proposed for a two-wheeled mobile robot to ...
The paper performs the sensitivity study with respect to the parametric variations of the controlled...
This article presents experimental studies of fuzzy logic application to control a two-wheel mobile ...
The paper studies the control of wheeled land mobile robots (MRs) using nonlinear equations and non-...
Abstract: The paper performs the sensitivity analysis with respect to the parametric variations of t...
Human–machine cooperative driving is an important stage in the development of autonomous driving tec...
This paper focuses on the steering motion control of an in-wheel motor-drive robot. The influence of...
This research presents a nonlinear adaptive fuzzy control method as an analytical design and a simpl...
This paper presents a self-tuning fuzzy PD controller designed to improve a control strategy for a w...
A two-wheeled self-balancing robot with a fuzzy PD control method is described and analyzed as an ex...
The inherently unstable nature of mobile inverted pendulum type two-wheeled robot discriminates it f...
This paper presents the control of a two-wheeled mobile robot (WMR) using a fuzzy model approach. A ...
[[abstract]]This study focused on the Takagi–Sugeno (T–S) fuzzy-model-based control design for the d...
10.1109/TIE.2012.2230600IEEE Transactions on Industrial Electronics60125717-5728ITIE
This paper presents the design of a fuzzy tracking controller for balancing and velocity control of ...
[[abstract]]A GA-based fuzzy controller design method is proposed for a two-wheeled mobile robot to ...
The paper performs the sensitivity study with respect to the parametric variations of the controlled...
This article presents experimental studies of fuzzy logic application to control a two-wheel mobile ...
The paper studies the control of wheeled land mobile robots (MRs) using nonlinear equations and non-...
Abstract: The paper performs the sensitivity analysis with respect to the parametric variations of t...
Human–machine cooperative driving is an important stage in the development of autonomous driving tec...
This paper focuses on the steering motion control of an in-wheel motor-drive robot. The influence of...
This research presents a nonlinear adaptive fuzzy control method as an analytical design and a simpl...
This paper presents a self-tuning fuzzy PD controller designed to improve a control strategy for a w...
A two-wheeled self-balancing robot with a fuzzy PD control method is described and analyzed as an ex...
The inherently unstable nature of mobile inverted pendulum type two-wheeled robot discriminates it f...