Adaptive tactile interaction transfer via digitally embroidered smart gloves
Vassar College · Massachusetts Institute of Technology · +1 more institution
Abstract
Human-machine interfaces for capturing, conveying, and sharing tactile information across time and space hold immense potential for healthcare, augmented and virtual reality, human-robot collaboration, and skill development. To realize this potential, such interfaces should be wearable, unobtrusive, and scalable regarding both resolution and body coverage. Taking a step towards this vision, we present a textile-based wearable human-machine interface with integrated tactile sensors and vibrotactile haptic actuators that are digitally designed and rapidly fabricated. We leverage a digital embroidery machine to seamlessly embed piezoresistive force sensors and arrays of vibrotactile actuators into textiles in a…
Citation impact
- FWCI
- 35.57
- Percentile
- 100%
- References
- 44
Authors
11Topics & keywords
- Haptic technology
- Computer science
- Wearable computer
- Human–computer interaction
- Tactile sensor
- Teleoperation
- Actuator
- Robot