An EMI-Aware Prioritized Wireless Access Scheme for e-Health Applications in Hospital Environments

An EMI-Aware Prioritized Wireless Access Scheme for e-Health Applications in Hospital Environments

Wireless communications technologies can support efficient healthcare services in medical and patient-care environments. However, using wireless communications in a healthcare environment raises two crucial issues. First, the RF transmission can cause electromagnetic interference (EMI) to biomedical...

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Bibliographic Details
Published in:IEEE transactions on information technology in biomedicine Vol. 14; no. 5; pp. 1247 - 1258
Main Authors: Phunchongharn, P, Niyato, D, Hossain, E, Camorlinga, S
Format: Journal Article
Language:English
Published: United States IEEE 01-09-2010
Subjects:
Access protocols
Algorithms
Channels
Communications technology
Computer Communication Networks
Devices
Electromagnetic Fields
Electromagnetic interference
Electromagnetic interference (EMI)
electronic health (e-Health) applications
Electronic Health Records
Electronics
Health care
Hospitals
Humans
Markov Chains
Medical
Medical services
Models, Theoretical
Power system modeling
Quality of service
quality of service (QoS)
queueing analysis
Queues
Radio frequency
Telemetry - instrumentation
Telemetry - methods
wireless access
Wireless application protocol
Wireless communication
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Summary:Wireless communications technologies can support efficient healthcare services in medical and patient-care environments. However, using wireless communications in a healthcare environment raises two crucial issues. First, the RF transmission can cause electromagnetic interference (EMI) to biomedical devices, which could critically malfunction. Second, the different types of electronic health (e-Health) applications require different quality of service (QoS). In this paper, we introduce an innovative wireless access scheme, called EMI-aware prioritized wireless access, to address these issues. First, the system architecture for the proposed scheme is introduced. Then, an EMI-aware handshaking protocol is proposed for e-Health applications in a hospital environment. This protocol provides safety to the biomedical devices from harmful interference by adapting transmit power of wireless devices based on the EMI constraints. A prioritized wireless access scheme is proposed for channel access by two different types of applications with different priorities. A Markov chain model is presented to study the queuing behavior of the proposed system. Then, this queuing model is used to optimize the performance of the system given the QoS requirements. Finally, the performance of the proposed wireless access scheme is evaluated through extensive simulations.
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ISSN:1089-7771
1558-0032
DOI:10.1109/TITB.2010.2047507