Abstract — Rendering a stiff virtual wall remains a core challenge in the field of haptics. A passivity study of this problem is presented, which relates the maximum achievable wall stiffness to the system discretization and sampling delays, to the quantization of the encoder, to the inertia of the haptic device, as well as to both the natural viscous and Coulomb damping present in the haptic device. The resulting stability criterion generalizes previously known results. Its analytic derivation is verified in both simulation and experiments on a one degree of freedom testbed
Abstract — The influence of viscous damping and delay on the stability of haptic systems is studied ...
Abstract — In this paper the passivity algorithm proposed in [12] is revisited. This algorithm gener...
Abstract — In this paper, two problems related to the simula-tion of virtual environments for haptic...
This paper presents a passivity and a stability analysis of a one degree of freedom haptic device th...
Abstract — Rendering stiff virtual objects remains a core chal-lenge in the field of haptics. A stud...
Rendering stiff virtual objects remains a core challenge in the field of haptics. A study of this pr...
Abstract—Physical damping is increasing the z-width of haptic simulations. This paper derives the no...
Physical damping is increasing the z-width of haptic simulations. This paper derives the normalized ...
Abstract In a haptic system, a virtual wall is modeled as a virtual spring. The larger the stiffness...
Abstract: This paper is about haptic simulations of virtual walls, which are represented by a discre...
In this report we study haptic interaction with slowly updated virtual environments (VEs). Such syst...
©1995 ASMEPresented at the 1995 International Mechanical Engineering Congress and Exposition (IMECE)...
In this paper the passivity algorithm proposed in is revisited. This algorithm generates passive hap...
Recent analysis on the stability boundary for haptic rendering assumed a stabilizing effect through ...
Instability in conventional haptic rendering destroys the perception of rigid objects in virtual env...
Abstract — The influence of viscous damping and delay on the stability of haptic systems is studied ...
Abstract — In this paper the passivity algorithm proposed in [12] is revisited. This algorithm gener...
Abstract — In this paper, two problems related to the simula-tion of virtual environments for haptic...
This paper presents a passivity and a stability analysis of a one degree of freedom haptic device th...
Abstract — Rendering stiff virtual objects remains a core chal-lenge in the field of haptics. A stud...
Rendering stiff virtual objects remains a core challenge in the field of haptics. A study of this pr...
Abstract—Physical damping is increasing the z-width of haptic simulations. This paper derives the no...
Physical damping is increasing the z-width of haptic simulations. This paper derives the normalized ...
Abstract In a haptic system, a virtual wall is modeled as a virtual spring. The larger the stiffness...
Abstract: This paper is about haptic simulations of virtual walls, which are represented by a discre...
In this report we study haptic interaction with slowly updated virtual environments (VEs). Such syst...
©1995 ASMEPresented at the 1995 International Mechanical Engineering Congress and Exposition (IMECE)...
In this paper the passivity algorithm proposed in is revisited. This algorithm generates passive hap...
Recent analysis on the stability boundary for haptic rendering assumed a stabilizing effect through ...
Instability in conventional haptic rendering destroys the perception of rigid objects in virtual env...
Abstract — The influence of viscous damping and delay on the stability of haptic systems is studied ...
Abstract — In this paper the passivity algorithm proposed in [12] is revisited. This algorithm gener...
Abstract — In this paper, two problems related to the simula-tion of virtual environments for haptic...