Design considerations of IEEE 802.15.4m low-rate WPAN in TV white space

This article provides an overview of technical design considerations for IEEE 802.15.4m LRWPAN operating in TVWS. We summarize and discuss TVWS regulatory requirements and LRWPAN applications, the two major driving forces motivating the formation of the new IEEE 802.15.4m standard. These forces defi...

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Veröffentlicht in:IEEE communications magazine 2013-04, Vol.51 (4), p.74-82
Hauptverfasser: Sum, Chin-Sean, Lu, Liru, Zhou, Ming-Tuo, Kojima, Fumihide, Harada, Hiroshi
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Lu, Liru
Zhou, Ming-Tuo
Kojima, Fumihide
Harada, Hiroshi
description This article provides an overview of technical design considerations for IEEE 802.15.4m LRWPAN operating in TVWS. We summarize and discuss TVWS regulatory requirements and LRWPAN applications, the two major driving forces motivating the formation of the new IEEE 802.15.4m standard. These forces define the criteria necessary for consideration during IEEE 802.15.4m system design to meet regulatory requirements and optimize performance. First, system design is presented from the perspective of LR-WPAN channelization with reference to the TV channel plan. Next, design considerations for network architecture and topology are discussed by relating the architecture requirement in TVWS regulations to that in the legacy IEEE 802.15.4 standard. Third, the PHY and MAC layer designs, which are crucial for meeting the criterion of optimizing LR-WPAN performance to support potential applications, are studied. In the PHY layer, the existing design in IEEE 802.15.4 is listed and discussed with regard to its applicability and reusability in TVWS. In the MAC layer, two functional entities, the TVWS operation-enabling feature and the dynamic frequency-band switching mechanism, are discussed with respect to their necessity and practicality for performance enhancement.
doi_str_mv 10.1109/MCOM.2013.6495764
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subjects Architecture
Channels
Criteria
Design engineering
Digital audio broadcasting
IEEE 802.15 Standards
Legacy
Network topology
Peer-to-peer computing
Phase modulation
Studies
System analysis and design
Systems design
Television
White spaces
title Design considerations of IEEE 802.15.4m low-rate WPAN in TV white space
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