HapticPuppet: A Kinesthetic Mid-air Multidirectional Force-Feedback Drone-based Interface

Martin Feick, Anthony Tang, and Krug̈er. (2022). HapticPuppet: A Kinesthetic Mid-air Multidirectional Force-Feedback Drone-based Interface . In UIST ’22: The Adjunct Publication of the 35th Annual ACM Symposium on User Interface Software and Technology.

Abstract

Providing kinesthetic force-feedback for human-scale interactions is challenging due to the relatively large forces needed. Therefore, robotic actuators are predominantly used to deliver this kind of haptic feedback; however, they offer limited flexibility and spatial resolution. In this work, we introduce HapticPuppet, a drone-based force-feedback interface which can exert multidirectional forces onto the human body. This can be achieved by attaching strings to different parts of the human body such as fingers, hands or ankles, which can then be affixed to multiple coordinated drones - pup- peteering the user. HapticPuppet opens up a wide range of potential applications in virtual, augmented and mixed reality, exercising, physiotherapy, remote collaboration as well as haptic guidance.

Materials

PDF File ( http://hcitang.org/papers/2022-uist2022poster-feick-hapticpuppet.pdf)
Video ( http://hcitang.org/papers/2022-uist2022poster-feick-hapticpuppet.mp4)
DOI (https://doi.org/10.1145/3526114.3558694)

BibTeX

@inproceedings{feick2022hapticpuppet,
  author = {Feick, Martin and Tang, Anthony and Kru\"ger},
  title = { HapticPuppet: A Kinesthetic Mid-air Multidirectional Force-Feedback Drone-based Interface },
  booktitle = {UIST '22: The Adjunct Publication of the 35th Annual ACM Symposium on User Interface Software and Technology},
  editor = {},
  pdfurl = { http://hcitang.org/papers/2022-uist2022poster-feick-hapticpuppet.pdf},
  videourl = { http://hcitang.org/papers/2022-uist2022poster-feick-hapticpuppet.mp4},
  year = {2022},
  type = {poster},
  doi = {https://doi.org/10.1145/3526114.3558694}
}