This paper presents an adaptive teleoperation which is robust to time-delay and environmental uncertainties while assuring the transparent performance. A novel theoretical framework and algorithms for the teleoperation system have been built up with neural network-based multiple model control and time forward state observer. Conditions for stability and transparency performance are also identified. Simulations show that the system is stable and in good performance
SUMMARY In this study, a bilateral teleoperation control algorithm is developed in which the model-m...
There are two significant goals in teleoperation systems: Stability and performance. This paper intr...
Teleoperation systems are designed to project the human sensing and manipulation ability at differe...
This paper studies the model uncertainties of Internet-based bilateral teleoperation systems under a...
A bilateral neural network adaptive controller is designed for a class of teleoperation systems with...
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...
A neural-network-based adaptive control scheme is developed for bilateral teleoperation systems with...
Model-mediated teleoperation (MMT) employs an environment model at the master side to compute feedba...
Most studies on bilateral teleoperation assume known system kinematics and only consider dynamical u...
In this paper, an observer-based input-to-state stable approach is proposed to stabilize teleoperati...
In this article, subject to time-varying delay and uncertainties in dynamics, we propose a novel ada...
This paper presents a new control model, ideal for teleoperation, which takes into account the probl...
The performances of position synchronization and force interaction of the teleoperation system provi...
It is well known that parameter convergence in adaptive control can bring about an improvement of sy...
SUMMARY In this study, a bilateral teleoperation control algorithm is developed in which the model-m...
There are two significant goals in teleoperation systems: Stability and performance. This paper intr...
Teleoperation systems are designed to project the human sensing and manipulation ability at differe...
This paper studies the model uncertainties of Internet-based bilateral teleoperation systems under a...
A bilateral neural network adaptive controller is designed for a class of teleoperation systems with...
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...
A neural-network-based adaptive control scheme is developed for bilateral teleoperation systems with...
Model-mediated teleoperation (MMT) employs an environment model at the master side to compute feedba...
Most studies on bilateral teleoperation assume known system kinematics and only consider dynamical u...
In this paper, an observer-based input-to-state stable approach is proposed to stabilize teleoperati...
In this article, subject to time-varying delay and uncertainties in dynamics, we propose a novel ada...
This paper presents a new control model, ideal for teleoperation, which takes into account the probl...
The performances of position synchronization and force interaction of the teleoperation system provi...
It is well known that parameter convergence in adaptive control can bring about an improvement of sy...
SUMMARY In this study, a bilateral teleoperation control algorithm is developed in which the model-m...
There are two significant goals in teleoperation systems: Stability and performance. This paper intr...
Teleoperation systems are designed to project the human sensing and manipulation ability at differe...