Publications Re Touch Lab

Radio Re Touch Lab Y. visell, n. lepora, m. hartmann, v. hayward, biology to technology in active touch sensing – introduction to the special issue on active touch sensing in humans, robots, and other animals [pdf]. We design haptic devices, create soft or wearable robots, investigate new material technologies, advance applications in vr and health, and explore the human mind. recent developments in.

Publications Re Touch Lab Publications by categories in reversed chronological order. we demonstrate an initial progress prototype toward a surface morphable tactile interface. the surface is composed of thin film type electro active material (eap) and its initial shape is maintained to be a flat membrane. Publications our research output explore our contributions to the field of haptics and robotics. In short, we create novel haptic devices and systems for simulating the feel of touched objects, and use these devices to creatively explore multimodal aspects of touch perception. Search across a wide variety of disciplines and sources: articles, theses, books, abstracts and court opinions.

Publications Re Touch Lab In short, we create novel haptic devices and systems for simulating the feel of touched objects, and use these devices to creatively explore multimodal aspects of touch perception. Search across a wide variety of disciplines and sources: articles, theses, books, abstracts and court opinions. Visell directs the re touch lab, where they pursue fundamental and applied research on the future of interactive technologies, with emphasis on haptics, robotics, and electronics, including emerging opportunities in human computer interaction, sensorimotor augmentation, soft robotics, and interaction in virtual reality. Our work is informed by opportunities in a spectrum of application domains. in fundamental science, our research clarifies fundamental mechanisms of physical interaction (i.e. haptics), including interrelated processes of touch perception and action. the lab is directed by professor yon visell. Y. visell, n. lepora, m. hartmann, v. hayward, biology to technology in active touch sensing – introduction to the special issue on active touch sensing in humans, robots, and other animals [pdf]. Dr. visell directs the re touch lab, where the researchers pursue fundamental and applied research on the future of interactive technologies, with emphasis on haptics, robotics, and electronics, including emerging opportunities in human computer interaction, sensorimotor augmentation, soft robotics, and interaction in virtual reality.

Publications Re Touch Lab Visell directs the re touch lab, where they pursue fundamental and applied research on the future of interactive technologies, with emphasis on haptics, robotics, and electronics, including emerging opportunities in human computer interaction, sensorimotor augmentation, soft robotics, and interaction in virtual reality. Our work is informed by opportunities in a spectrum of application domains. in fundamental science, our research clarifies fundamental mechanisms of physical interaction (i.e. haptics), including interrelated processes of touch perception and action. the lab is directed by professor yon visell. Y. visell, n. lepora, m. hartmann, v. hayward, biology to technology in active touch sensing – introduction to the special issue on active touch sensing in humans, robots, and other animals [pdf]. Dr. visell directs the re touch lab, where the researchers pursue fundamental and applied research on the future of interactive technologies, with emphasis on haptics, robotics, and electronics, including emerging opportunities in human computer interaction, sensorimotor augmentation, soft robotics, and interaction in virtual reality.

Publications Re Touch Lab Y. visell, n. lepora, m. hartmann, v. hayward, biology to technology in active touch sensing – introduction to the special issue on active touch sensing in humans, robots, and other animals [pdf]. Dr. visell directs the re touch lab, where the researchers pursue fundamental and applied research on the future of interactive technologies, with emphasis on haptics, robotics, and electronics, including emerging opportunities in human computer interaction, sensorimotor augmentation, soft robotics, and interaction in virtual reality.