Buradasınız

Anasayfa » Content

KABLOSUZ ÖRGÜ AĞLAR İÇİN ÖLÇEKLENEBİLİR YÖNLENDİRME PROTOKOLÜ

A SCALABLE ROUTING PROTOCOL FOR WIRELESS MESH NETWORKS

Journal Name:

  • Gazi Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi

Publication Year:

  • 2012

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
In this study, routing protocols for wireless mesh networks have been investigated in terms of scalability and a scalability routing protocol has been developed for wireless mesh networks. Developed protocol, Ad-hoc on Demand Scalable Routing Protocol (ADSRP), has been activated whenever it needs to find a route. The protocol prevents packet loss due to scalability in network. Moreover, it needs less routing overhead than the others. It does not need unnecessary route request packets using heuristic route. The protocol enables scalability of network with low cost. ADSRP has been tested using ns-2 simulation tool and experimental results have been compared with Ad-hoc On Demand Distance Vector (AODV) and Ad-hoc On Demand Multipath Distance Vector (AOMDV) protocols extensively. Obtained results show that the developed protocol is successful for wireless mesh networks.
Bookmark/Search this post with
Abstract (Original Language): 
Bu çalışmada, kablosuz örgü ağlarda yönlendirme protokolleri ağın ölçeklenebilirliği açısından ele alınmış ve kablosuz örgü ağlar için ölçeklenebilir bir yönlendirme protokolü geliştirilmiştir. Geliştirilen protokol Ad-hoc on Demand Scalable Routing Protocol (ADSRP) rota bulmaya gerek duyulduğu anda devreye girmektedir. Protokol, ağın ölçeklenebilirliğinden dolayı oluşacak paket kayıplarını engellemektedir. Ayrıca, diğerlerinden daha az yönlendirme yüküne ihtiyaç duymaktadır. Sezgisel rota kullanarak gereksiz rota istek paketlerine ihtiyaç duymamaktadır. ADSRP, ns-2 benzetim aracı kullanılarak test edilmiştir ve deneysel sonuçlar yaygın olarak kullanılan Ad-hoc On Demand Distance Vector (AODV) ve Ad-hoc On Demand Multipath Distance Vector (AOMDV) protokolleri ile karşılaştırılmıştır. Elde edilen deneysel sonuçlar geliştirilen protokolün kablosuz örgü ağlarda başarılı olduğunu göstermiştir.
FULL TEXT (PDF): 
PDF icon arastirmax-kablosuz-orgu-aglar-icin-olceklenebilir-yonlendirme-protokolu.pdf
  • 4
891
899
  • Turkish

REFERENCES

References: 

1. Zhang, Z., Pazzi, R.W., Boukerche, A., “A
mobility management scheme for wireless mesh
networks based on a hybrid routing protocol”,
Computer Communications, Cilt 54, No 4, 558-
572, 2010.
2. Jun, J., Sichitiu, M.L., “MRP: Wireless mesh
networks routing protocol”, Computer
Communications, Cilt 31, No 7, 1413-1435,
2008.
3. Zheng, J., Lee, M.J., “A resource-efficient and
scalable wireless mesh routing protocol”, Ad Hoc
Networks, Cilt 5, No 6, 704-718, 2007.
4. Akyıldız, I.F., Wang, X., Wang, W., “Wireless
mesh networks: a survey”, Computer Networks,
Cilt 47, No 4, 445-487, 2005.
5. Alotaibi, E., Mukherjee, B., “A survey on routing
algorithms for wireless Ad-Hoc and mesh
networks”, Computer Networks, Cilt 56, No 2,
940-965, 2012.
6. Kim, S., Lee, O., Choi, S., Lee, S., “Comparative
analysis of link quality metrics and routing
protocols for optimal route construction in
wireless mesh networks”, Ad Hoc Networks,
Cilt 9, No 7, 1343-1358, 2011.
7. Pal, A., Nasipuri, A., “A quality based routing
protocol for wireless mesh networks”, Pervasive
and Mobile Computing, Cilt 7, No 5, 611-626,
2011.
8. Jeng, A.A., Jan, R., Li, C., Chen, C., “Releasetime-
based multi-channel MAC protocol for
wireless mesh networks”, Computer Networks,
Cilt 55, No 9, 2176-2195, 2011.
9. Chen, F., Wang, Y., Liu, J., Li, Z., “Probingbased
anypath forwarding routing algorithms in
wireless mesh networks”, Ad Hoc Networks,
(Basımda), 2011.
10. Benyamina, D., Hafid, A., Gendreau, M.,
Maureira, J.C., “On the design of reliable
wireless mesh network infrastructure with QoS
constraints”, Computer Communications, Cilt
55, No 8, 1631-1647, 2011.
11. Zhao, W., Xie, J., “OPNET-based modeling and
simulation study on handoffs in Internet-based
infrastructure wireless mesh networks”,
Computer Networks, Cilt 55, No 12, 2675-
2688, 2011.
12. Caillouet, C., Perennes, S., Rivano, H.
“Framework for optimizing the capacity of
wireless mesh networks”, Computer
Communications, Cilt 34, No 13, 1645-1659,
2011.
13. Wellons, J., Xue, Y., “The robust joint solution
for channel assignment and routing for wireless
mesh networks with time partitioning”, Ad Hoc
Networks, (Basımda), 2011.
14. Gomes, R.L., Junio, W.M., Cerqueira, E.,
Abelem, A.J., “Using fuzzy link cost and
dynamic choice of link quality metrics to achieve
QoS and QoE in wireless mesh networks”,
Journal of Network and Computer
Applications, Cilt 34, No 2, 506- 516, 2011.
15. Li, F., Fang, Y., Hu, F., Liu, X., “Load-aware
multicast routing metrics in multi-radio multichannel
wireless mesh networks”, Computer
Communications, Cilt 55, No 9, 2150-2167,
2011.

Thank you for copying data from http://www.arastirmax.com