Open access
Date
2014-07Type
- Journal Article
Abstract
Soft material structures exhibit high deformability and conformability which can be useful for many engineering applications such as robots adapting to unstructured and dynamic environments. However, the fact that they have almost infinite degrees of freedom challenges conventional sensory systems and sensorization approaches due to the difficulties in adapting to soft structure deformations. In this paper, we address this challenge by proposing a novel method which designs flexible sensor morphologies to sense soft material deformations by using a functional material called conductive thermoplastic elastomer (CTPE). This model-based design method, called Strain Vector Aided Sensorization of Soft Structures (SVAS3), provides a simulation platform which analyzes soft body deformations and automatically finds suitable locations for CTPE-based strain gauge sensors to gather strain information which best characterizes the deformation. Our chosen sensor material CTPE exhibits a set of unique behaviors in terms of strain length electrical conductivity, elasticity, and shape adaptability, allowing us to flexibly design sensor morphology that can best capture strain distributions in a given soft structure. We evaluate the performance of our approach by both simulated and real-world experiments and discuss the potential and limitations. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000086918Publication status
publishedExternal links
Journal / series
SensorsVolume
Pages / Article No.
Publisher
MDPISubject
Sensor morphology design; Soft strain gauges; Conductive thermoplastic elastomer; Soft robotics; Wearable electronicsOrganisational unit
03835 - Iida, Fumiya (SNF-Professur) (ehemalig)
Funding
619319 - A Coordination Action for Soft Robotics (EC)
288219 - A framework for musculoskeletal robot development (EC)
More
Show all metadata