2017
DOI: 10.1007/978-981-10-4157-0_83
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Mobile HapticAid: Wearable Haptic Augmentation System Using a Mobile Platform

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Cited by 3 publications
(3 citation statements)
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“…Recently, several researchers have described wearable electronic systems for capturing, amplifying, and reproducing natural tactile signals via skin-worn electronics. These include prior research in our lab [7], [28], and Makino et al [29] as well as several collaborative works by Minamizawa, Maeda, Kakehi, Nakatani, Tsuchiya, Mihara, Peiris, and Tachi [30]- [32]. This research shows how it is possible to realize evocative experiences by concurrently sensing tactile signals elicited through skin-object contact and by amplifying the sensed signals to provide feedback on the same limb or another part of the body.…”
Section: A Backgroundmentioning
confidence: 75%
“…Recently, several researchers have described wearable electronic systems for capturing, amplifying, and reproducing natural tactile signals via skin-worn electronics. These include prior research in our lab [7], [28], and Makino et al [29] as well as several collaborative works by Minamizawa, Maeda, Kakehi, Nakatani, Tsuchiya, Mihara, Peiris, and Tachi [30]- [32]. This research shows how it is possible to realize evocative experiences by concurrently sensing tactile signals elicited through skin-object contact and by amplifying the sensed signals to provide feedback on the same limb or another part of the body.…”
Section: A Backgroundmentioning
confidence: 75%
“…Recently, several groups, including our own, have explored wearable electronic systems for capturing, amplifying, and reproducing natural tactile signals via skin-worn sensors and actuators [9], [10], [11], [12]. These devices can provide evocative experiences by amplifying and reproducing tactile signals on the same limb or another part of the body, or via a tool, as in the "tactile magnification" system of Yao and Hayward [13].…”
Section: A Backgroundmentioning
confidence: 99%
“…After that, stretch the racket arm to back as far as possible to provide an optimal momentum for a greater speed and acceleration of the forward swing (Rusdiana et al, 2020). The optimal speed of the forward swing movement depends on the occurring inertia moment, including the distance of the racket head must be closer to the hips, the further the position of the racket arm behind the body, the greater the generated momentum and speed of angular velocity; the application of this principle will certainly increase a greater sum of force during the impact point by involving major muscle movements followed by a series of minor muscle movements (Maeda et al, 2017). It is in line with the tennis service research reported by that "Force summation is an important biomechanical principle for optimal tennis serve techniques.…”
Section: Introductionmentioning
confidence: 99%