Providing QoS Guarantees in Broadband Ad Hoc Networks

Natkaniec, M.; Kosek-Szott, K.; Szott, S.; Głowach, A.; Pach, A. R.

Artykuł - szczegóły

Tytuł artykułu

Providing QoS Guarantees in Broadband Ad Hoc Networks

Autorzy

Natkaniec M. , Kosek-Szott K. , Szott S. , Głowach A. , Pach A. R.

Treść / Zawartość

Pełne teksty:

httpwww_itl_waw_plczasopismajtit2011492.pdf

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Języki publikacji

Abstrakty

This paper presents a novel QoS architecture for IEEE 802.11 multihop broadband ad hoc networks integrated with infrastructure. The authors describe its features, including MAC layer measurements, traffic differentiation, and admission control. The modules required by the network elements as well as their integration are also presented. Additionally, the paper presents results which validate its correct operation and prove its superiority over plain IEEE 802.11. The authors are convinced that the proposed solution will provide QoS support for a variety of services in future mobile ad hoc networks.

Słowa kluczowe

ad hoc networks QoS IEEE 802.11 EDCA

Wydawca

Instytut Łączności - Państwowy Instytut Badawczy

Czasopismo

Journal of Telecommunications and Information Technology

Rocznik

2011

Tom

nr 4

Strony

92--98

Opis fizyczny

Bibliogr. 11 poz., rys.

Twórcy

autor

Natkaniec M.

autor

Kosek-Szott K.

autor

Szott S.

autor

Głowach A.

autor

Pach A. R.

Department of Telecommunication, AGH University of Science and Technology, Mickiewicza Av. 30, 30-059 Kraków, Poland, natkanie@kt.agh.edu.pl

Bibliografia

[1] “IEEE 802.11 Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications”. IEEE Inc., New York, June 2007.
[2] G.-S. Ahn et al., “Supporting service differentiation for real-time and best-effort traffic in stateless wireless ad-hoc networks (SWAN)”, IEEE Trans. Mobile Comp., vol. 1, no. 3, pp. 192–207, 2002.
[3] S. B. Lee et al., “INSIGNIA: An IP-based quality of service framework for mobile ad hoc networks”, J. Parallel and Distrib. Comp., Wirel. Mobile Comput. Commun., special iss, vol. 60, no. 4, pp. 374–406, 2000.
[4] M. Inayatullah, S. Ahmad, and A. Salam, “Optimized QOS protocols for small-sized manets”, in Proc. Int. Conf. Emerging Technol. IEEE ICET 2006, Peshawar, Pakistan, 2006.
[5] “MADWiFi – Multiband Atheros Driver for WiFi” [Online]. Available: http://madwifi.org
[6] R. de Renesse, V. Friderikos, and H. Aghvami, “Cross-layer cooperation for accurate admission control decisions in mobile ad hoc networks”, IET Commun., vol.1, no. 4, pp. 577–586, 2007.
[7] W. Liu and Y. Fang, “Courtesy piggybacking: supporting differentiated services in multihop mobile ad hoc networks”, in Proc. 23rd Ann. Joint Conf. Comp. Commun. Soc. INFOCOM 2004, Hong Kong, China, 2004, vol. 2, pp. 1273–1283.
[8] R. Braden, D. Clark, and S. Shenker, “Integrated Services in the Internet Architecture-an Overview”, IETF RFC 1663, June 1994.
[9] P. Sinha, R. Sivakumar, and V. Bharghavan, “CEDAR: a coreextraction distributed ad hoc routing algorithm”, in Proc. Conf. Comp. Commun. INFOCOM’99, New York, NY, USA, 1999, pp. 202–209.
[10] Q. Xue and A. Ganz, “Ad hoc QoS on-demand routing in mobile ad hoc networks”, J. Parallel Distrib. Comput., vol. 63, iss. 2, pp. 154–165, 2003.
[11] C. Perkins et al., “Ad hoc On-Demand Distance Vector Routing”, IETF RFC 3561, July 2003.

Typ dokumentu

Bibliografia

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