Low cost, easily manufactured, highly flexible strain and touch sensitive fiber for robotics applications
Christian Diaz Herrera, Srushti Raste, Simin Liu, Miles Modeste, Jiyang, Yin, Katelyn McCall, Yuxing Jared Yao, Roopkamal Chahal, Simon Chidley, Trung Ha, T. David Westmoreland, Sonia Roberts
- Year
- 2026
- Access
- Open access
Abstract
Existing stretch and touch sensors for robots are generally expensive with respect to at least one of material costs, required manufacturing equipment, or manufacturing time. We present and experimentally characterize a conductive fiber made using only inexpensive commercial off-the-shelf parts (conductive thread at $0.07/ft, silicone tubing at $0.94/ft) and tools (loop-style needle threader at $2), which can be manufactured quickly (20 cm length in 2 minutes.) We demonstrate its use as a resistive strain sensor with three applications: Triggering a grasp in a pneumatically actuated assistive finger, sensing the pose of a pneumatically actuated robotic strap, and estimating the pose of a flexible solid. We also demonstrate that it can be used as a capacitive sensor with two applications: First, as a touch sensor which triggers a commercial robot arm to move, and second, as a near-field sensor enabling the robot arm to follow a moving hand. The capacitive sensors are knitted, showcasing the high flexibility of the fiber. We discuss methods for improving manufacturing scalability and their cost trade-offs. Finally, we demonstrate a method for repairing a cut fiber.
Keywords
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