Abstract
This paper describes a haptic interface with a virtual coupling, including fractional derivatives. A haptic interface is a force feedback technology in virtual reality that takes advantage of the human sense of touch. In a haptic interface, virtual impedance, that is called virtual coupling (VC), is commonly used between the virtual and real objects to calculate reaction force. VC generally consists of a virtual stiffness and damper, but the stiffness has to be set low in a system with long sampling periods. In order to increase the virtual stiffness, this paper considers a VC including fractional derivatives approximated by an FIR approximation. First, we theoretically analyse effects of a single fractional derivative term by using the passivity analysis, but the result shows that its effects depend on the occurred frequency. This paper, therefore, proposes a method to combine multiple fractional derivative terms in a VC and a method to optimize parameters in each fractional derivative term. Finally, experiments are performed to measure the maximum value of the stiffness to illustrate the effects of the proposed method.
Highlights
A haptic interface is a force feedback technology in virtual reality that takes advantage of the human sense of touch
Virtual impedance called “virtual coupling (VC)” is designed between the virtual and real objects, and the force that the operator senses is calculated from the impedance
In an impedance display in a haptic interface, the force sensed by an operator is calculated using a VC that typically consists of a virtual stiffness and damper
Summary
A haptic interface is a force feedback technology in virtual reality that takes advantage of the human sense of touch. Virtual impedance called “virtual coupling (VC)” is designed between the virtual and real objects, and the force that the operator senses is calculated from the impedance. Applications of fractional derivatives [9] to control methods or model physical phenomena have been recently studied [10-17]. When a fractional derivative is used in control methods, it can describe the intermediate effects between ordinal integer-order derivatives. This research studies the effects of a VC including a fractional derivative, approximated by a finite impulse response (FIR approximation) [13, 14]. This paper proposes a method to use multiple terms of a fractional derivative and optimize parameters on each term. Experiments are performed to measure the maximum value of the stiffness to illustrate the effects of the proposed method
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