On-body Edge Computing through E-Textile Programmable Logic Array

TL;DR

This paper introduces on-body edge computing using embroidered programmable logic arrays integrated into e-textiles, enabling close-to-skin data processing for enhanced security, privacy, and energy harvesting in wearable tech.

Contribution

It proposes a novel embroidered PLA design for e-textiles, demonstrating its feasibility for on-body edge computing with experimental validation.

Findings

Successful implementation of embroidered PLA circuits in e-textiles.

Reliable logic computation demonstrated through voltage and performance tests.

Potential for enhanced security and energy efficiency in wearable devices.

Abstract

E-textiles has received tremendous attention in recent years due to the capability of integrating sensors into a garment to provide high precision sensing of the human body. Besides sensing, a number of solutions for e-textile garments have also integrated wireless interfaces allowing these sensing data to be transmitted and also sensors that allow users to provide instructions through touching. While this has provided a new level of sensing that can result in unprecedented applications, there has been little attention placed on on-body computing for e-textiles. Facilitating computing on e-textiles can result in a new form of On-body Edge Computing, where sensor information are processed very close to the body before being transmitted to an external device or wireless access point. This form of computing can provide new security and data privacy capabilities and at the same time provide opportunities for new energy harvesting mechanisms to process the data through the garment. This paper proposes this concept through embroidered Programmable Logic Array (PLA) integrated into e-textiles. In the way that PLAs have programmable logic circuits by interconnecting different AND, NOT and OR gates, we propose e-textile based gates that are sewn into a garment and connected through conductive thread stitching. Two designs are proposed and this includes Single and Multi-Layered PLA. Experimental validations have been conducted at the individual gates as well as the entire PLA circuits to determine the voltage utilization as well as logic computing reliability. Our proposed approach can usher in a new form of On-Body Edge Computing for e-textile garments for future wearable technologies