( ISSN 2277 - 9809 (online) ISSN 2348 - 9359 (Print) ) New DOI : 10.32804/IRJMSH

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HYBRID QUALITY OF SERVICE ISSUES AND CHALLENGES OF ROUTING IN WMNS

    2 Author(s):  NIDHI DHANDA, DR. ROSHANLAL HIRANWAL

Vol -  9, Issue- 1 ,         Page(s) : 88 - 102  (2018 ) DOI : https://doi.org/10.32804/IRJMSH

Abstract

A Mobile Network is a self configuring network of wireless devices connected by wireless links. Quality of service is more difficult to guarantee in ad hoc networks than in most other type of networks, because the network topology changes as the nodes move and network state information is generally imprecise. This requires extensive collaboration between the nodes, both to establish the route and to secure the resources necessary to provide the QoS. Issues like limited availability of resources, insecure medium make QoS provisioning very challenging in such networks. The traditional MANET routing protocol does not employ power aware routing as well as feasible security features making QoS provisioning difficult. WMNs (Wireless Mesh Networks) are a special kind of MANET (Mobile Ad Hoc Network) and this research started out from the study and development of the MANETs. Compared with traditional networks, WMNs have many useful characteristics and peculiarities, such as dynamic self-organization, self-configuring, self-healing, high scalability and reliable services and are able to balance traffic and provide support to drop connections to fixed or mobile clients. In this way, it can prevent the decline of its services and avoid problems with flows where there is a need for bandwidth and high rates that are constantly required. This is achieved through a reconfiguration that always seeks the best alternative path to a better distribution of network traffic.

1. Guerin R., Orda A., “QoS-based routing in networks with inaccurate information: Theory and algorithms”, in Proc. IEEE INFOCOM’97, Japan,pp. 75-83.
2. J. L. Sobrinho and A. S. Krishnakumar, “Quality-of-Service in ad hoc Carrier Sense Multiple Access Wireless Networks,” IEEE JSAC, vol. 17, no. 8, Aug. 1999, pp. 1353–1414.
3. T. Chen, M. Gerla, and J. T. Tsai, “QoS Routing Performance in a Multi-Hop, Wireless Network,” Proc. IEEE ICUPC ’97.
4. C. R. Lin and J.-S. Liu, “QoS Routing in Ad Hoc Wireless Networks,” IEEE JSAC, vol. 17, no. 8, Aug. 1999, pp.1426–38.
5. Broch J., Johnson D., Maltz A., “The Dynamic Source Routing Protocol for Mobile Ad Hoc Networks”, draft-ietf-manet-dsr-03.txt, work in progress. October 1999.
6. A. Iwata et al., “Scalable Routing Strategies for Ad hoc Wireless Networks,” IEEE JSAC, vol. 17, no. 8, Aug. 1999, pp. 1369–79.
7. R. Ramanathan and M. Steenstrup, “Hierarchically Organized, Multihop Mobile Wireless Networks for Quality of Service Support,” Mobile Network and Apps., vol. 3, 1998, pp. 101–19.
8. J. G. Andrews, A. Ghosh, and R. Muhamed, “Fundamentals of WiMAX: Understanding Broadband Wireless Networking”. Englewood Cliffs, NJ: Prentice-Hall, 2007.
9. M. Kas, B. Yargicoglu, I. Korpeoglu, and E. Karasan, “A survey on scheduling in IEEE 802.16 mesh mode” Commun. Surveys Tuts., vol. 12, no. 2, pp. 205–221, 2010.
10. IEEE 802.16e-2005 Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems Amendment 2: Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands, 2005.
11. M. Sollner, C. Gorg, K. Pentikousis, J. M. Cabero Lopez, M. Ponce de Leon, and P. Bertin, “Mobility scenarios for the Future Internet: The 4WARD approach” in Proc. 11th International Symposium on Wireless Personal Multimedia Communications (WPMC), Saariselkä, Finland, September, 2008.
12. Y. A. Sekercioglu, M. Ivanovich, A. Yegin, “A Survey of MAC based QoS implemen- tation for WiMAX networks”, Computer Networks, 2009.
13. Winkler, S. “Perceptual video quality metrics – a review, in Digital Video Image Quality and Perceptual Coding”, eds. H. R. Wu, K. R. Rao, cha 5, CRC Press, 2005.
14. Ian. F.Akyildiz, Xudong Wang. ”A Survey on Wireless Mesh Networks”, IEEE Radio Communications, September, 2005.
15. Min Kim, Ilkyeun Ra, Jisang Yoo, Dongwook Kim, Hwasung Kim. “QoS Mesh Rout- ing Protocol for IEEE 802.16 based Wireless Mesh Networks”, Advanced Communi- cation Technology, ICACT 2008. 10th International Conference. February, 2008.
16. Grosh, S. Basu, K. and Das, S. K. ”What a Mesh! An Architecture for Next-Generation Radio Access Networks”, IEEE Network, October, 2005.

17. Akyildiz, I. F., Wang, X. e Wang, W. “Wireless mesh networks: a survey”. Computer Networks Journal (Elsevier), vol. 47, no. 4, p. 445-487. March, 2005.
18. Y. Li, Y. Yang, C. Cao and L. Zhou, “QoS Issues in IEEE 802.16 Mesh Networks”, 1 st International Conference on Information Science and Engineering, 2009.
19. E. O. Attia, A. S. Amin, and H. M. El Henawy, “Novel IEEE 802.16 Mesh Node Archi- tecture to Achieve QoS in Coordinated Distributed Mode”, 14th International Confer- ence Advanced Communication Technology, 2012.
20. NS-2 The Network Simulator, “http://www.isi.edu/nsnam/ns/”, 2012.
21. NIST WiMAX, “http://ndsl.ie.cuhk.edu.hk/”, 2012.

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