2015
DOI: 10.1109/toh.2015.2404357
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Kinesthetic Force Feedback and Belt Control for the Treadport Locomotion Interface

Abstract: This paper describes an improved control system for the Treadport immersive locomotion interface, with results that generalize to any treadmill that utilizes an actuated tether to enable self-selected walking speed. A new belt controller is implemented to regulate the user's position; when combined with the user's own volition, this controller also enables the user to naturally self-select their walking speed as they would when walking over ground. A new kinesthetic-force-feedback controller is designed for th… Show more

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Cited by 20 publications
(10 citation statements)
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“…Figure 1 shows a force moment balance kinetic model of TUS (Hejrati et al, 2015). By taking the human body as a mass point, a basic kinematic equation of TUS can be described by…”
Section: Acceleration Design Of Tus Using a Virtual Force Moment Balamentioning
confidence: 99%
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“…Figure 1 shows a force moment balance kinetic model of TUS (Hejrati et al, 2015). By taking the human body as a mass point, a basic kinematic equation of TUS can be described by…”
Section: Acceleration Design Of Tus Using a Virtual Force Moment Balamentioning
confidence: 99%
“…Recently, ground reaction force (GRF) of the treadmill is introduced to reflect the user’s intention of accelerating or decelerating, and the treadmill velocity is then updated by using the GRF. For example, a mechanical tether that is attached to the user’s body is used to measure the GRF during the treadmill walking (Christensen et al, 2000; Hejrati et al, 2015; Zitzewitz et al, 2007). But the force produced by the mechanical tether leads to a hard restriction for the user’s natural motions and an extra disturbance for the immersive sense in virtual environments, which is highly undesired for the user.…”
Section: Introductionmentioning
confidence: 99%
“…The proctor of the experiment used the phrase, "at your normal pace," to describe how subjects should walk for each collection session. Unlike self-selected speed on ordinary treadmills, self-selected speed on the Treadport is attained by walking over the belt and attaining a steady-state walking pattern, as described in Hejrati et al (2015).…”
Section: Experimental Protocolmentioning
confidence: 99%
“…The Treadport has been analyzed for enhancing the naturalness of virtual reality walking from three different perspectives: (1) perception of walking (which controller values create the most natural walking experience for the users) as discussed in Hejrati et al (2015); (2) walking functions (attaining any desired self-selected speeds (normal, fast, jogging, backward), maintaining walking speed during steady-state walking, and naturally changing speed) as described in Hejrati et al (2015); and (3) biomechanics of walking. This article is concerned with the final aspect, and it shows that subjects have similar biomechanics on the Treadport and overground in 13 of 14 gait parameters.…”
Section: Treadport Systemmentioning
confidence: 99%
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