Energy and delay trade‐off of the GTS allocation mechanism in IEEE 802.15.4 for wireless sensor networks
Identifieur interne : 004E04 ( Main/Merge ); précédent : 004E03; suivant : 004E05Energy and delay trade‐off of the GTS allocation mechanism in IEEE 802.15.4 for wireless sensor networks
Auteurs : Anis Koubaa [Portugal] ; Mário Alves [Portugal] ; Eduardo Tovar [Portugal]Source :
- International Journal of Communication Systems [ 1074-5351 ] ; 2007-07.
English descriptors
- Teeft :
- Active period, Allocation mechanism, Alves, Angular point, Arrival curve, Bandwidth, Beacon frames, Beacon interval, Bstair, Burst size, Calculus, Commun, Copyright, Cumulative arrival function, Data transmission, Delay, Delay bounds, Delay guarantee, Delay guarantees, Delay requirement, Delay requirements, Duty cycle, Energy consumption, Full duty cycle, Ieee, Ieee cluster, Ieee parameters, Ieee protocol, Inactive period, John wiley sons, Kbit, Koubaa, Latency, Lower superframe orders, Lowest delay, Lowest duty cycle, Maximum latency, Network calculus, Node, Polytechnic institute, Protocol, Sensor, Service curve, Service curves, Slot, Superframe, Superframe duration, Superframe order, Superframe orders, Superframe structure, Syst, Tdata, Tdma, Tidle, Time slot, Time slot allocation, Time slots, Timeliness guarantees, Timing constraints, Timing performance, Tovar, Wireless, Wireless sensor networks.
Abstract
The IEEE 802.15.4 protocol proposes a flexible communication solution for low‐rate wireless personal area networks (LR‐WPAN) including wireless sensor networks (WSNs). It presents the advantage to fit different requirements of potential applications by adequately setting its parameters. When in beacon‐enabled mode, the protocol can provide timeliness guarantees by using its Guaranteed Time Slot (GTS) mechanism. However, power‐efficiency and timeliness guarantees are often two antagonistic requirements in wireless sensor networks. The purpose of this paper is to analyze and propose a methodology for setting the relevant parameters of IEEE 802.15.4‐compliant WSNs that takes into account a proper trade‐off between power‐efficiency and delay bound guarantees. First, we propose two accurate models of service curves for a GTS allocation as a function of the IEEE 802.15.4 parameters, using Network Calculus formalism. We then evaluate the delay bound guaranteed by a GTS allocation and express it as a function of the duty cycle. Based on the relation between the delay requirement and the duty cycle, we propose a power‐efficient superframe selection method that simultaneously reduces power consumption and enables meeting the delay requirements of real‐time flows allocating GTSs. The results of this work may pave the way for a power‐efficient management of the GTS mechanism in an IEEE 802.15.4 cluster. Copyright © 2006 John Wiley & Sons, Ltd.
Url:
DOI: 10.1002/dac.845
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It presents the advantage to fit different requirements of potential applications by adequately setting its parameters. When in beacon‐enabled mode, the protocol can provide timeliness guarantees by using its Guaranteed Time Slot (GTS) mechanism. However, power‐efficiency and timeliness guarantees are often two antagonistic requirements in wireless sensor networks. The purpose of this paper is to analyze and propose a methodology for setting the relevant parameters of IEEE 802.15.4‐compliant WSNs that takes into account a proper trade‐off between power‐efficiency and delay bound guarantees. First, we propose two accurate models of service curves for a GTS allocation as a function of the IEEE 802.15.4 parameters, using Network Calculus formalism. We then evaluate the delay bound guaranteed by a GTS allocation and express it as a function of the duty cycle. Based on the relation between the delay requirement and the duty cycle, we propose a power‐efficient superframe selection method that simultaneously reduces power consumption and enables meeting the delay requirements of real‐time flows allocating GTSs. The results of this work may pave the way for a power‐efficient management of the GTS mechanism in an IEEE 802.15.4 cluster. Copyright © 2006 John Wiley & Sons, Ltd.</div></front></TEI></record>Pour manipuler ce document sous Unix (Dilib)
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