Paper Info
Title
Normally-off technologies for healthcare appliance
Abstract
Battery mass and power consumption of wearable system must be reduced because the key factors affecting wearable system usability are miniaturization and weight reduction. This report describes a wearable biosignal monitoring system using normally-off technologies to minimize the power consumption. Especially we focused on daily-life monitoring and electrocardiograph (ECG) processor. Our system employs Ferroelectric Random Access Memory (FeRAM) and Near Field Communication (NFC) for normally-off data logging and normally-off data communication. A robust heart rate monitor and Cortex M0 core are used to on-node processing for logging data reduction.
Year
DOI
Venue
2014
10.1109/ASPDAC.2014.6742853
Design Automation Conference
Keywords
Field
DocType
data loggers,data reduction,electrocardiography,ferroelectric storage,medical signal processing,patient monitoring,power consumption,random-access storage,telemedicine,Cortex M0 core,ECG processor,FeRAM,NFC,battery mass,electrocardiograph,ferroelectric random access memory,healthcare appliance,heart rate monitor,logging data reduction,miniaturization,near field communication,normally-off data communication,normally-off data logging,normally-off technologies,on-node processing,power consumption,wearable biosignal monitoring system,wearable system usability,weight reduction
Near field communication,Data logger,Wearable computer,Remote patient monitoring,Computer science,Usability,Electronic engineering,Computer hardware,Biosignal,Heart rate monitor,Embedded system,Random access
Conference
ISSN
Citations 
PageRank 
2153-6961
1
0.34
References 
Authors
8
4
Name
Order
Citations
PageRank
Shintaro Izumi18231.56
Hiroshi Kawaguchi210.34
Masahiko Yoshimoto310.34
Yoshikazu Fujimori410.34