- Title
- Energy-efficient priority-based routing scheme for the healthcare wireless sensor networks
- Creator
- Saeed, Ather; Stranieri, Andrew; Dazeley, Richard
- Date
- 2014
- Type
- Text; Conference paper
- Identifier
- http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/104025
- Identifier
- vital:11006
- Identifier
- ISBN:978-960-474-350-6
- Abstract
- Abstract: - In time-critical and data intensive applications, efficient acquisition of sensitive datasets is a challenge because of network congestion, void regions and node failures that commonly occur in wireless sensor networks (WSN), while monitoring the wellbeing of patients with serious medical conditions. The sensor devices attached to such patients are used for monitoring the vital signs of those with serious heart problems, Parkinson disease, Epilepsy and high blood pressure. This paper typically focuses on the reliable acquisition of datasets and provides a fault-tolerant priority based routing scheme with Dynamic Jumping (FTMPR-DJ) for the energy-efficient acquisition and dissemination of datasets. A new fault-tolerant scheme has been proposed that will significantly minimize data loss and network congestion and is well supported with extensive experiments to show effectiveness of the proposed routing scheme.
- Publisher
- WSEAS Press
- Relation
- 9th WSEAS International Conference on Remote Sensing, Budapest 10/12/2103 pg 19-27
- Rights
- Copyright unknown
- Rights
- This metadata is freely available under a CCO license
- Subject
- Wireless sensor networks; Energy-efficient; Fault-tolerant; Priority-based routing; Network; Latency; Context-sensitive
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