Cited By
View all- Lenders MAmsüss CGündogan CNawrocki MSchmidt TWählisch M(2023)Securing Name Resolution in the IoT: DNS over CoAPProceedings of the ACM on Networking10.1145/36094231:CoNEXT2(1-25)Online publication date: 28-Sep-2023
Maximum throughput and minimum delay in IEEE 802.15.4
Authors: 
Benoît Latré, Pieter De Mil, Ingrid Moerman, Niek Van Dierdonck, Bart Dhoedt, Piet DemeesterAuthors Info & Claims
Pages 866 - 876
Abstract
This paper investigates the maximum throughput and minimum delay of the new IEEE 802.15.4-standard. This standard was designed as a highly reliable and low-power protocol working at a low data rate and offers a beaconed and unbeaconed version. We will give the exact formulae for a transmission between one sender and one receiver for the unbeaconed version as this one has the least overhead. Further, the influence of the different address schemes, i.e. no addresses or the use of long and short addresses, is investigated. It is shown that the maximum throughput is not higher than 163 kbps when no addresses are used and that the maximum throughput drops when the other address schemes are used. Finally, we will measure the throughput experimentally in order to validate our theoretical analysis.
References
[1]
IEEE Std. 802.15.4: IEEE Standard for Wireless Medium Access Control and Physical Layer specifications for Low-Rate Wireless Personal Area Networks, 2003
[2]
Ed Callaway et al.,"Home Networking with IEEE 802.15.4: A developing Standard for Low-Rate Wireless Personal Area Networks", IEEE Communications Magazine, Vol 40 No. 8, pp 70-77, Aug. 2002
[3]
José A. Gutierrez, Marco Naeve, Ed Callaway, Monique Bourgeois, Vinay Mitter, Bob Heile, "IEEE 802. 15.4: A developing standard for low-power low-cost wireless personal area networks", IEEE Network, vol. 15, no. 5, September/October 2001 pp. 12-19
[4]
ZigBee Alliance, www.zigbee.org
[5]
Xiao Y. and Rosdahl J., "Throughput and delay limits of 802.11", IEEE Communications Letter, Vol. 6, No. 8, August 2002, pp. 355-357
[6]
Soo Young Shin, Sunghyun Choi, Hong Seong Park, Wook Hyun Kwon, "Packet Error Rate Analysis of IEEE 802.15.4 under IEEE 802.11b Interference", Wired/Wireless Internet Communications 2005, LCNS 3510, May 2005, pp.279-288
[7]
Jianliang Zheng and Myung J. Lee "Will IEEE 802.15.4 make Ubiquitous networking a reality?: A discussion on a potential low power, low bit rate standard", IEEE Communica-tions Magazine, Vol. 42, No. 6, Jun 2004, pp. 140 - 146
[8]
N. Golmie, D. Cypher, and O. Rebala, "Performance Evaluation of Low Rate WPANs for Sensors and Medical Applications", Proceedings of Military Communications Conference (MILCOM 2004), Oct. 31 - Nov. 3, 2004
[9]
Freescale Inc. http://www.freescale.com/ZigBee
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Berlin, Heidelberg
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Published: 13 December 2005
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View all- Lenders MAmsüss CGündogan CNawrocki MSchmidt TWählisch M(2023)Securing Name Resolution in the IoT: DNS over CoAPProceedings of the ACM on Networking10.1145/36094231:CoNEXT2(1-25)Online publication date: 28-Sep-2023