Shinichi Furuya and his team at Sony CSL found that a therapeutic robotic hand exoskeleton also increases the dexterity of ...

Trained pianists who hit a plateau improved their finger speed after a half-hour training session with a device that moves ...

Passive training using a robotic exoskeleton hand could help pianists overcome that ceiling effect, according to a paper ...

Haptikos today announced a new hand exoskeleton that pairs with its AI-infused Haptik_OS to provide a complete sense of touch to VR and AR apps and use cases. Haptikos exoskeleton prototypes are ...

The powered exoskeleton could allow pianists to overcome the 'ceiling effect,' in which their performance plateaus after ...

An innovative exoskeleton could help musicians overcome the "ceiling effect," a natural leveling-off of skills following ...

(MENAFN- Adfactors PR) Bengaluru, 13 January 2025: The Indian Institute of Technology Kanpur (IITK) has developed a first-of-its-kind Brain-Computer Interface (BCI)-based Robotic Hand Exoskeleton ...

NeuroPiano Institute in Kyoto has created an exoskeleton that will enhance pianists' performance by helping them to achieve ...

The Indian Institute of Technology Kanpur (IITK) said on Saturday it has developed a unique brain-computer interface-based robotic hand exoskeleton that can help in stroke rehabilitation and ...

Kanpur has developed a first-of-its-kind Brain-Computer Interface (BCI)-based Robotic Hand Exoskeleton to transform stroke rehabilitation and redefine post-stroke therapy by accelerating recovery and ...

The exoskeleton moves individual fingers of a human hand via servos. These are controlled by a computer that simulates piano exercises. This involves fast and complex multi-finger movements.