AUTHOR=Cleary Frances , Henshall David C. , Balasubramaniam Sasitharan 

TITLE=On-Body Edge Computing Through E-Textile Programmable Logic Array

JOURNAL=Frontiers in Communications and Networks

VOLUME=Volume 2 - 2021

YEAR=2021

URL=https://www.frontiersin.org/journals/communications-and-networks/articles/10.3389/frcmn.2021.688419

DOI=10.3389/frcmn.2021.688419

ISSN=2673-530X

ABSTRACT=E-textiles has received tremendous attention in recent years due to the capability of integrating sensors into a garment enabling high precision sensing of the human body. Besides sensing, a number of solutions for e-textile garments have also integrated wireless interfaces allowing sensing data to be transmitted and also inbuilt capacitive touch sensors allowing users to provide instructions. While this has provided a new level of sensing that can result in unprecedented applications, there has been little attention placed around On-body Edge computing for e-textiles.This paper focuses on the need for a non-invasive and remote health monitoring solution with inbuilt On-body Edge computing and how enabling such sensing and computing capabilities in a fabric environment, can act as a new method for healthcare monitoring through the use of embedded computing intelligence in smart garments. Facilitating computing on e-textiles can result in a new form of On-body Edge Computing, where sensor information is 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 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. The Multi-Layered PLA garment superseded the single layered garment with higher levels of accuracy in the yielded results due to enhanced design layout, hence decreasing the potential for short circuits and errors occurring. Our proposed approach can usher in a new form of On-body Edge Computing for e-textile garments for future wearable technologies, and in particular with the current pandemic that requires non-invasive remote health monitoring applications.