In this paper the passivity algorithm proposed in is revisited. This algorithm generates passive haptic feedback by monitoring the energy flows in the virtual environment. The original formulation of the algorithm could not deal well with large internal dissipation and high sampling frequencies. An alteration is proposed on how internal dissipation is handled. This alteration improves the robustness of the algorithm for a wider range of parameter values and sample times. The improved version of the algorithm is demonstrated in a virtual wall experiment
© 2015 IEEE. Passivity has been a major criterion on designing a stable haptic interface due to many...
Passivity has been a major criterion on designing a stable haptic interface due to many advantages. ...
Abstract—We propose a new time-domain passivity observer (PO) and passivity controller (PC) which re...
Abstract — In this paper the passivity algorithm proposed in [12] is revisited. This algorithm gener...
We describe a time-domain passivity control methodology that uses programmable eddy current viscous ...
Abstract — The wave variable transformation cannot be ex-ploited for the control of sampled-data and...
Abstract — Rendering a stiff virtual wall remains a core challenge in the field of haptics. A passiv...
This paper presents a novel way to approach the interconnection of a continuous time and a discrete ...
Passivity analysis of any haptic system requires the knowledge of the environment impedance, i.e., p...
Abstract — In this paper, two problems related to the simula-tion of virtual environments for haptic...
Several causes of instabilities in the interaction of users with ac-tively controlled haptic devices...
A recently proposed method for stabilizing haptic interfaces and teleoperation systems was tested w...
In this report we study haptic interaction with slowly updated virtual environments (VEs). Such syst...
This paper addresses the problem of following an arbi-trary path with a dissipative passive haptic d...
This paper presents a passivity and a stability analysis of a one degree of freedom haptic device th...
© 2015 IEEE. Passivity has been a major criterion on designing a stable haptic interface due to many...
Passivity has been a major criterion on designing a stable haptic interface due to many advantages. ...
Abstract—We propose a new time-domain passivity observer (PO) and passivity controller (PC) which re...
Abstract — In this paper the passivity algorithm proposed in [12] is revisited. This algorithm gener...
We describe a time-domain passivity control methodology that uses programmable eddy current viscous ...
Abstract — The wave variable transformation cannot be ex-ploited for the control of sampled-data and...
Abstract — Rendering a stiff virtual wall remains a core challenge in the field of haptics. A passiv...
This paper presents a novel way to approach the interconnection of a continuous time and a discrete ...
Passivity analysis of any haptic system requires the knowledge of the environment impedance, i.e., p...
Abstract — In this paper, two problems related to the simula-tion of virtual environments for haptic...
Several causes of instabilities in the interaction of users with ac-tively controlled haptic devices...
A recently proposed method for stabilizing haptic interfaces and teleoperation systems was tested w...
In this report we study haptic interaction with slowly updated virtual environments (VEs). Such syst...
This paper addresses the problem of following an arbi-trary path with a dissipative passive haptic d...
This paper presents a passivity and a stability analysis of a one degree of freedom haptic device th...
© 2015 IEEE. Passivity has been a major criterion on designing a stable haptic interface due to many...
Passivity has been a major criterion on designing a stable haptic interface due to many advantages. ...
Abstract—We propose a new time-domain passivity observer (PO) and passivity controller (PC) which re...