In this paper, a novel neural network (NN)-based four-channel wave-based time domain passivity approach (TDPA) is proposed for a teleoperation system with time-varying delays. The designed wave-based TDPA aims to robustly guarantee the channels passivity and provide higher transparency than the previous power-based TDPA. The applied NN is used to estimate and eliminate the system’s dynamic uncertainties. The system stability with linearity assumption on human and environment has been analyzed using Lyapunov method. The proposed algorithm is validated through experimental work based on a 3-DOF bilateral teleoperation platform in the presence of different time delays
In this article, subject to time-varying delay and uncertainties in dynamics, we propose a novel ada...
In this paper, a passive bilateral control scheme is proposed for a teleoperator with time-varying c...
Bilateral teleoperation systems connected to computer networks such as the internet must be able to ...
In this paper, a novel neural network (NN)-based four-channel wave-based time domain passivity appro...
In this paper, a novel neural network (NN)-based four-channel wave-based time domain passivity appro...
An innovative wave-based time-domain passivity approach applied to a four-channel nonlinear teleoper...
A novel approach applying the extended prescribed performance control (PPC) and the wavebased time d...
This paper studies the model uncertainties of Internet-based bilateral teleoperation systems under a...
This paper presents an adaptive teleoperation which is robust to time-delay and environmental uncert...
A bilateral neural network adaptive controller is designed for a class of teleoperation systems with...
A general framework to stabilize multilateral teleoperation system over a communication time delay b...
A control scheme for teleoperation systems with time delay is developed based on the concept of pass...
This paper presents initial results of a set of experiments to compare time-delayed teleoperation pe...
A flexible dual-master-dual-slave teleoperation system is proposed. On the master side, a new contro...
金沢大学理工研究域電子情報学系This paper deals with the stability for nonlinear teleoperation with time varying com...
In this article, subject to time-varying delay and uncertainties in dynamics, we propose a novel ada...
In this paper, a passive bilateral control scheme is proposed for a teleoperator with time-varying c...
Bilateral teleoperation systems connected to computer networks such as the internet must be able to ...
In this paper, a novel neural network (NN)-based four-channel wave-based time domain passivity appro...
In this paper, a novel neural network (NN)-based four-channel wave-based time domain passivity appro...
An innovative wave-based time-domain passivity approach applied to a four-channel nonlinear teleoper...
A novel approach applying the extended prescribed performance control (PPC) and the wavebased time d...
This paper studies the model uncertainties of Internet-based bilateral teleoperation systems under a...
This paper presents an adaptive teleoperation which is robust to time-delay and environmental uncert...
A bilateral neural network adaptive controller is designed for a class of teleoperation systems with...
A general framework to stabilize multilateral teleoperation system over a communication time delay b...
A control scheme for teleoperation systems with time delay is developed based on the concept of pass...
This paper presents initial results of a set of experiments to compare time-delayed teleoperation pe...
A flexible dual-master-dual-slave teleoperation system is proposed. On the master side, a new contro...
金沢大学理工研究域電子情報学系This paper deals with the stability for nonlinear teleoperation with time varying com...
In this article, subject to time-varying delay and uncertainties in dynamics, we propose a novel ada...
In this paper, a passive bilateral control scheme is proposed for a teleoperator with time-varying c...
Bilateral teleoperation systems connected to computer networks such as the internet must be able to ...