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A Novel Transmission Scheme for Compressed Health Data Using ISO/IEEE11073-20601

Authors
Kim, Sang-KonKim, Tae-KonLee, Hyungkeun
Issue Date
31-12월-2017
Publisher
KSII-KOR SOC INTERNET INFORMATION
Keywords
Compressed health data; ISO/IEEE11073; personal health device; PM-store; PM-segment
Citation
KSII TRANSACTIONS ON INTERNET AND INFORMATION SYSTEMS, v.11, no.12, pp.5855 - 5877
Indexed
SCIE
SCOPUS
KCI
Journal Title
KSII TRANSACTIONS ON INTERNET AND INFORMATION SYSTEMS
Volume
11
Number
12
Start Page
5855
End Page
5877
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/81090
DOI
10.3837/tiis.2017.12.010
ISSN
1976-7277
Abstract
In view of personal health and disease management based on cost effective healthcare services, there is a growing need for real-time monitoring services. The electrocardiogram (ECG) signal is one of the most important of health information and real-time monitoring of the ECG can provide an efficient way to cope with emergency situations, as well as assist in everyday health care. In this system, it is essential to continuously collect and transmit large amount of ECG data within a given time and provide maximum user convenience at the same time. When considering limited wireless capacity and unstable channel conditions, appropriate signal processing and transmission techniques such as compression are required. However, ISO/IEEE 11073 standards for interoperability between personal health devices cannot properly support compressed data transmission. Therefore, in the present study, the problems for handling compressed data are specified and new extended agent and manager are proposed to address the problems while maintaining compatibility with existing devices. Extended devices have two PM-stores enabling compression and a novel transmission scheme. A variety of compression techniques can be applied; in this paper, discrete cosine transformation (DCT) is used. And the priority of information after DCT compression enables new transmission techniques for performance improvement. The performance of the compressed signal and the original uncompressed signal transmitted over the noisy channel are compared in terms of percent root mean square difference (PRD) using our simulation results. Our transmission scheme shows a better performance and complies with 11073 standards.
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KIM, Tae Kon
과학기술대학 (전자및정보공학과)
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