[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.3837/tiis.2016.09.015

QoS-Aware Approach for Maximizing Rerouting Traffic in IP Networks

Cui, Wenyan (College of Information and Navigation, Air Force Engineering University)
Meng, Xiangru (College of Information and Navigation, Air Force Engineering University)
Yang, Huanhuan (College of Information and Navigation, Air Force Engineering University)
Kang, Qiaoyan (College of Information and Navigation, Air Force Engineering University)
Zhao, Zhiyuan (College of Information and Navigation, Air Force Engineering University)

Publication Information

KSII Transactions on Internet and Information Systems (TIIS) / v.10, no.9, 2016 , pp. 4287-4306 More about this Journal

Abstract

Network resilience provides an effective way to overcome the problem of network failure and is crucial to Internet protocol (IP) network management. As one of the main challenges in network resilience, recovering from link failure is important to maintain the constancy of packets being transmitted. However, existing failure recovery approaches do not handle the traffic engineering problem (e.g., tuning the routing-protocol parameters to optimize the rerouting traffic flow), which may cause serious congestions. Moreover, as the lack of QoS (quality of service) restrictions may lead to invalid rerouting traffic, the QoS requirements (e.g., bandwidth and delay) should also be taken into account when recovering the failed links. In this paper, we first develop a probabilistically correlated failure model that can accurately reflect the correlation between link failures, with which we can choose reliable backup paths (BPs). Then we construct a mathematical model for the failure recovery problem, which takes maximum rerouting traffic as the optimizing objective and the QoS requirements as the constraints. Moreover, we propose a heuristic algorithm for link failure recovery, which adopts the improved k shortest path algorithm to splice the single BP and supplies more protection resources for the links with higher priority. We also prove the correctness of the proposed algorithm. Moreover, the time and space complexity are also analyzed. Simulation results under NS2 show that the proposed algorithm improves the link failure recovery rate and increases the QoS satisfaction rate significantly.

Keywords

Network Resilience; Link Failure; Recovery; Reroute; Multiple Backup Paths; quality of service;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	J. Tajne and V. Gulhane, “Multipath node-disjoint routing protocol to minimize end to end delay and routing overhead for MANETs,” International Journal of Engineering Research and Applications, vol. 3, no. 4, pp. 1691-1698, Apr. 2013.
2	J. Liao, S. Tian, J. Wang, T. Li and Q. Qi, “Load-balanced one-hop overlay multipath routing with path diversity,” KSII Transactions on Internet and Information Systems, vol. 8, no. 2, pp. 443-461, Feb., 2014. Article (CrossRef Link). DOI
3	G. Teresa, Miguel S and C. Jose, “Two heuristics for calculating a shared risk link group disjoint set of paths of min-sum cost,” Journal of Network and System Management, vol. 37, no. 10, pp. 332-338, Oct. 2014. Article (CrossRef Link).
4	M. Johnston, H. Lee and E. Modiano, “A robust optimization approach to backup network design with random failures,” IEEE/ACM Transactions on Networking, vol. 23, no. 4, pp. 1216 - 1228, Apr. 2011. Article (CrossRef Link). DOI
5	L. Zhou and J .Wang, “Path nodes-driven least-cost shortest path tree algorithm,” Journal of Computer Research and Development, vol. 48, no. 5, pp. 721-728, May 2011.
6	K. Imura and T. Yoshihiro, “Reactive load balancing during failure state in IP fast reroute schemes,” Journal of Information Processing, vol. 22, no. 3, pp. 527-535, Mar. 2014. Article (CrossRef Link). DOI
7	B. Yang, J. Liu and S. Shenker, “Keep forwarding: Towards k-link failure resilient routing,” in Proc. of INFOCOM, pp. 1617-1625, Apr. 27 –May 2, 2014. Article (CrossRef Link).
8	G. Wellbrock and T. Xia, “How will optical transport deal with future network traffic growth?” in Proc. of 2014 The European Conference on Optical Communication (ECOC), pp. 21-25, Sept. 21-25, 2014. Article (CrossRef Link).
9	D. Turner, K. Levchenko and A. Snoeren, “California fault lines: understanding the causes and impact of network failures,” in Proc. of ACM SIGCOMM, pp. 315-326, Aug. 30 –Sept. 3, 2010. Article (CrossRef Link).
10	Y. Wang, Z. Wang and L. Zhang, “A failure recovery method for routing system based on structured backup subgraph,” Jounal of Electronics and Information Technology, vol. 35, no. 9, pp. 2254-2260, Sept. 2013. Article (CrossRef Link). DOI
11	H. Ngo and M. Kim, “MRFR-Multipath-based routing protocol with fast-recovery of failures on MANETs,” KSII Transactions on Internet and Information Systems, vol. 6, no. 12, pp. 3081-3099, Feb., 2012. Article (CrossRef Link). DOI
12	Y. Wang, H. Wang and A. Mahimkar, “R3: resilient routing reconfiguration,” in Proc. of ACM SIGCOMM, pp. 291-302, Aug. 30 –Sept. 3, 2010. Article (CrossRef Link).
13	M. Suchara, D. Xu and R. Doverspike, “Network architecture for joint failure recovery and traffic engineering,” in Proc. of ACM SIGMETRICS, pp. 97-108, Jun. 4 – 11, 2011. Article (CrossRef Link).
14	R. Banner and A. Orda, “Designing low-capacity backup networks for fast restoration,” in Proc. of INFOCOM, pp. 1-9, Mar. 14-19, 2010. Article (CrossRef Link).
15	Q. Zheng, G. Cao and F. Thomas, “Cross-layer approach for minimizing routing disruption in IP networks,” IEEE Transactions on Parallel and Distributed Systems, vol. 25, no. 7, pp. 1659-1669, Jul., 2014. Article (CrossRef Link). DOI
16	Q. Zheng, J. Zhao and G. Cao, “A cross-layer approach for IP network protection,” in Proc. of Dependable Systems and Networks(DSN), pp. 1-12, Jun. 25-28, 2012. Article (CrossRef Link).
17	S. Misra, G. Xue L and D. Yang, “Polynomial time approximations for multi-path routing with bandwidth and delay constrains,” in Proc. of INFOCOM, pp. 558-566, Apr. 19-25, 2009. Article (CrossRef Link).
18	Q. Zheng, G. Cao and T. Porta, “Optimal recovery from large-scale failures in IP networks,” in Proc. of IEEE ICDCS, pp. 295-304, Jun. 18-21, 2012. Article (CrossRef Link).