Haptic Intelligence

Cutaneous Electrohydraulic (CUTE) Wearable Devices for Pleasant Broad-Bandwidth Haptic Cues

2024

Article

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By focusing on vibrations, current wearable haptic devices underutilize the skin's perceptual capabilities. Devices that provide richer haptic stimuli, including contact feedback and/or variable pressure, are typically heavy and bulky due to the underlying actuator technology and the low sensitivity of hairy skin, which covers most of the body. This paper presents a system architecture for compact wearable devices that deliver salient and pleasant broad-bandwidth haptic cues: Cutaneous Electrohydraulic (CUTE) devices combine a custom materials design for soft haptic electrohydraulic actuators that feature high stroke, high force, and electrical safety with a comfortable mounting strategy that places the actuator in a non-contact resting position. A prototypical wrist-wearable CUTE device produces rich tactile sensations by making and breaking contact with the skin (2.44 mm actuation stroke), applying high controllable forces (exceeding 2.3 N), and delivering vibrations at a wide range of amplitudes and frequencies (0-200 Hz). A perceptual study with fourteen participants achieved 97.9% recognition accuracy across six diverse cues and verified their pleasant and expressive feel. This system architecture for wearable devices gives unprecedented control over the haptic cues delivered to the skin, providing an elegant and discreet way to activate the user's sense of touch.

Author(s): Natalia Sanchez-Tamayo and Zachary Yoder and Philipp Rothemund and Giulia Ballardini and Christoph Keplinger and Katherine J. Kuchenbecker
Journal: Advanced Science
Number (issue): 2402461
Pages: 1--14
Year: 2024
Month: September

Department(s): Haptic Intelligence, Robotic Materials
Bibtex Type: Article (article)
Paper Type: Journal

DOI: 10.1002/advs.202402461
State: Published

BibTex

@article{Sanchez-Tamayo24-AS-CUTE,
  title = {Cutaneous Electrohydraulic ({CUTE}) Wearable Devices for Pleasant Broad-Bandwidth Haptic Cues},
  author = {Sanchez-Tamayo, Natalia and Yoder, Zachary and Rothemund, Philipp and Ballardini, Giulia and Keplinger, Christoph and Kuchenbecker, Katherine J.},
  journal = {Advanced Science},
  number = {2402461},
  pages = {1--14},
  month = sep,
  year = {2024},
  doi = {10.1002/advs.202402461},
  month_numeric = {9}
}