Add to ORKGWhen a trainee is (re)learning a skilled movement, physical guidance from a trainer is crucial. Yet, providing physical cues to guide movements is highly challenging when training is digitally mediated (e.g.remotely). This work demonstrates the utility of pseudo forces generated by a wearable tactile interface for providing non-intrusive movement guidance. First, we developed hardware to generate pseudo forces using asymmetric vibrations, whose frequency and amplitude can be tuned to vary the acceleration of the pseudo forces. Maximum acceleration of 160 m/sec^2 is obtained at a frequency of 40Hz and amplitude of 1. Second, the utility of the generated pseudo forces to provide movement guidance was explored by involving 19 participants in 4...
In this paper we explore the possibilities of tactile displays in sports applications, and report an...
Emergence of mobile technologies, with their ever increasing computing power, embedded sensors, and ...
We present and evaluate an arm-motion guidance system that uses magnetic tracking sensors and low co...
Assistive rehabilitation devices have been developed to help post-stroke patients to recover and liv...
We present four wearable tactile actuators capable of recreating physical sensations commonly experi...
Humans rely on the feedbacks they received from a teacher in learning a new motor skill. The most ef...
It has been reported in the literature that sensory information is a valuable and desired form of fe...
This dissertation explores the use of interactive systems to support movement guidance, with applica...
: Wearable haptic systems can be easily integrated with the human body and represent an effective so...
Many handheld force-feedback devices have been proposed to provide a rich experience with mobile dev...
In real world scenarios, visual and auditory channels may be overloaded with a huge quantity of stim...
What is often missing from many virtual worlds and training simulations is a physical sense of the c...
Wearable technology has become a hot topic within the ‘tech’ world in the recent years. Wearable is ...
Wearable haptic systems can be easily integrated with the human body and represent an effective solu...
International audienceIn the absence of vision, mobility and orientation are challenging. Audio and ...
In this paper we explore the possibilities of tactile displays in sports applications, and report an...
Emergence of mobile technologies, with their ever increasing computing power, embedded sensors, and ...
We present and evaluate an arm-motion guidance system that uses magnetic tracking sensors and low co...
Assistive rehabilitation devices have been developed to help post-stroke patients to recover and liv...
We present four wearable tactile actuators capable of recreating physical sensations commonly experi...
Humans rely on the feedbacks they received from a teacher in learning a new motor skill. The most ef...
It has been reported in the literature that sensory information is a valuable and desired form of fe...
This dissertation explores the use of interactive systems to support movement guidance, with applica...
: Wearable haptic systems can be easily integrated with the human body and represent an effective so...
Many handheld force-feedback devices have been proposed to provide a rich experience with mobile dev...
In real world scenarios, visual and auditory channels may be overloaded with a huge quantity of stim...
What is often missing from many virtual worlds and training simulations is a physical sense of the c...
Wearable technology has become a hot topic within the ‘tech’ world in the recent years. Wearable is ...
Wearable haptic systems can be easily integrated with the human body and represent an effective solu...
International audienceIn the absence of vision, mobility and orientation are challenging. Audio and ...
In this paper we explore the possibilities of tactile displays in sports applications, and report an...
Emergence of mobile technologies, with their ever increasing computing power, embedded sensors, and ...
We present and evaluate an arm-motion guidance system that uses magnetic tracking sensors and low co...