Enhancing Quality of Service in Heterogeneous Wireless Network using EDLAS

Full Text (PDF, 368KB), PP.54-60

Views: 0 Downloads: 0

Author(s)

Divya 1,* Suman 2

1. CSED, MVSIT, Jagdishpur, Sonepat

2. CSED, DCRUST, Murthal, Sonepat

* Corresponding author.

DOI: https://doi.org/10.5815/ijcnis.2017.03.07

Received: 11 Jul. 2016 / Revised: 1 Oct. 2016 / Accepted: 15 Dec. 2016 / Published: 8 Mar. 2017

Index Terms

Delay, EDLAS, fuzzy, residual battery power, throughput, Quality of Service

Abstract

The transmission through different interfaces of the different wireless network is a challenging issue. This paper presents an enhanced dynamic link aggregation scheme (EDLAS), an enhanced technique for the transmission of data through different interfaces present in different wireless networks. The proposed technique uses the existing sequential and parallel DLAS technique by using the fuzzy. The fuzzy system decides whether to transfer data by using sequential or the parallel DLAS depending upon the number of the chunks, user mobility, the number of users, chunk size. The work is implemented using the MATLAB. The simulation results generated using the MATLAB shows the effectiveness of the technique with increased throughput with same residual battery power.

Cite This Paper

Divya, Suman, "Enhancing Quality of Service in Heterogeneous Wireless Network using EDLAS", International Journal of Computer Network and Information Security(IJCNIS), Vol.9, No.3, pp. 54-60, 2017. DOI:10.5815/ijcnis.2017.03.07

Reference

[1]Tomislav Shuminoski, Toni Janevski (2013) Radio Network Aggregation for 5G Mobile terminals in Heterogeneous Wireless Networks, in Telsiks 2013.
[2]Zhu, D., Mutka, M. W., & Cen, Z. (2004, October). QoS Aware Wireless Bandwidth Aggregation(QAWBA) by Integrating Cellular and Ad-Hoc Networks. In QSHINE (pp. 156-163).
[3]Sharma, P., Lee, S. J., Brassil, J., & Shin, K. G. (2004, October). Handheld routers: Intelligent bandwidth aggregation for mobile collaborative communities. In Broadband Networks, 2004. BroadNets 2004. Proceedings. First International Conference on (pp. 537-547). IEEE.
[4]Gupta, B. K., Lal, M., & Sharma, S. C. (2005, November). Improving quality of service parameters in wireless asynchronous transfer mode network. In Mobile Technology, Applications and Systems, 2005 2nd International Conference on(pp. 1-8). IEEE.
[5]Saliba, A. J., Beresford, M. A., Ivanovich, M., & Fitzpatrick, P. (2005). User-perceived quality of service in wireless data networks. Personal and Ubiquitous Computing, 9(6), 413-422.
[6]Chebrolu, K., & Rao, R. R. (2006). Bandwidth aggregation for real-time applications in heterogeneous wireless networks. Mobile Computing, IEEE Transactions on, 5(4), 388-403.
[7]Romaszko, S., & Blondia, C. (2006). Dynamic distributed contention window control in wireless ad hoc LANs. In Proceedings of the Australian Telecommunication Networks and Applications Conference (ATNAC 06), Melbourne, Australia.
[8]Patil, S., & de Veciana, G. (2007). Managing resources and quality of service in heterogeneous wireless systems exploiting opportunism. IEEE/ACM Transactions on Networking (TON), 15(5), 1046-1058.
[9]Jin, N., & Jordan, S. (2008). On the feasibility of dynamic congestion-based pricing in differentiated services networks. IEEE/ACM Transactions on Networking (TON), 16(5), 1001-1014.
[10]Elias Z. Tragos and George Tsiropoulos (2008) Admission Control for QoS Support in Heterogeneous 4G Wireless Networks, in IEEE Network ? May/June 2008
[11]Kirubakaran, S., & MANOHARAN, D. C. (2010). Reducing Packet Delay and Loss in Heterogeneous Mobile Wireless Networks. Global Journal of Computer Science and Technology, 9(5).
[12]Mairh, A., & Pati, H. K. (2011, February). Quality-of-service at data link layer in wireless cellular networks. In Proceedings of the 2011 International Conference on Communication, Computing & Security (pp. 162-165). ACM
[13]Jha, R. K., Limkar, S. V., & Dalal, U. (2011, February). A Performance comparison for QoS with different WiMAX environment for video application. InProceedings of the International Conference & Workshop on Emerging Trends in Technology (pp. 785-790). ACM.
[14]MALA, K. S., & NAVANEETHAN, P. (2012). TCP-WLAware: Wireless Loss-Aware TCP for IEEE 802.16 Networks. WSEAS Transactions on Communications, Volume11 Issue(12).
[15]Mansouri, W., Zarai, F., Mnif, K., Obaidat, M. S., & Kamoun, L. (2013, June). End-to-end delay distribution in wireless heterogeneous networks. In Communications (ICC), 2013 IEEE International Conference on (pp. 2969-2973). IEEE.
[16]Jun Huang, (2014) Guaranteeing End-to-End Quality-of-Service with A Generic Routing Approach, Applied Computing Review JUN. 2014, VOL. 14, NO. 2.
[17]Bui, D. H., Lee, K., Oh, S., Shin, I., Shin, H., Woo, H., & Ban, D. (2013, December). GreenBag: energy-efficient bandwidth aggregation for real-time streaming in heterogeneous mobile wireless networks. In Real-Time Systems Symposium (RTSS), 2013 IEEE 34th (pp. 57-67). IEEE.
[18]Bala Murali Krishna K, Madhuri S, Vanlin Sathya and Bheemarjuna Reddy Tamma, (2014) A Dynamic Link Aggregation Scheme for Heterogeneous Wireless Networks, IEEE CONECCT2014 1569825269.