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22421 Evaluation of DECT-ULE for robust communication in dense wireless sensor networks
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Das, K. and Havinga, P.J.M. (2012) Evaluation of DECT-ULE for robust communication in dense wireless sensor networks. In: Proceedings of the International Conference on the Internet of Things (IOT 2012), 24-26 Oct 2012, Wuxi, China. pp. 183-190. IEEE Communications Society. ISBN 978-1-4673-1347-6

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In today’s world wireless sensor networks (WSNs) have enormous applications which made our everyday life much easier. In most of these applications, the unlicensed 2.4 GHz frequency band has been used for sensor communications. Due to the wide use, the chance of getting interference in this frequency band is quite high. Thus, a reliable and real-time communication in mass WSNs can not be guaranteed, which is essential for industrial applications. In this paper, we evaluate the performance of Digital Enhanced Cordless Telecommunications - Ultra Low Energy (DECT-ULE) for robust communication in dense WSNs and found that it can cope with the limitations of existing standards. We show that DECT-ULE can elegantly handle dense WSNs by allocating communication channels with excellent quality and minimum delay.

Item Type:Conference or Workshop Paper (Full Paper, Talk)
Research Group:EWI-PS: Pervasive Systems
Research Program:CTIT-WiSe: Wireless and Sensor Systems
Research Project:WIBRATE: Wireless Self Powered Vibration Monitoring And Control For Complex Industrial Systems, iCARE: Personal Climate And Ambience Control For Zero Energy Buildings
Uncontrolled Keywords:DECT-ULE, IoT, Robust communication, Dense industrial network, Low latency.
ID Code:22421
Deposited On:14 November 2012
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