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Resource optimisation for robust IP networking provisioning.

Amin, Mina. (2008) Resource optimisation for robust IP networking provisioning. Doctoral thesis, University of Surrey (United Kingdom)..

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Abstract

The current Internet consists of a large collection of Autonomous Systems (ASes) or domains, each being a network or group of networks managed by a single authority such as an Internet Service Provider (ISP) or a commercial enterprise. These ASes employ their own network policies and routing protocols. In order to support all the Internet traffic caused by everyday applications such as peer-to-peer content downloading, multimedia streaming, voice over IP, online gaming, video conferencing, etc., network providers seek to optimise their network resource usage in an efficient manner utilising Traffic Engineering (TE) techniques. These techniques control traffic routing so as to optimise operational IP network performance and can be classified into intra-AS and inter-AS. Network providers use intra-AS TE techniques to control traffic routing within their network to achieve objectives such as load balancing and/or minimising resource consumption. On the other hand, they use inter-AS TE techniques to control inbound and outbound traffic to achieve load balancing over inter-AS resources and/or minimise peering costs. Unfortunately, due to a variety of events such as malicious attacks, misconfiguration, router CPU overload, interface failure and accidental damage, various failures, and in particular link failures, occur as part of daily network operations. Research has revealed that both single intra- and inter- AS link failure are common events and transient in nature. The potential impact of a link failure can be delay, packet discard, service disruption and severe congestion due to the shifting of an excessive amount of traffic to alternative paths that are already highly utilised. Given the shortlived nature of transient failures, network operators may not have sufficient time to re-configure their networks before the failure is restored, resulting to the detrimental failure impact. In order to manage this situation, in this thesis we propose proactive network provisioning approaches that predict the impact of transient link failures and implement remedial solutions to alleviate the detrimental failure impact. The contributions of our thesis are as follows: o Improving intra-AS primary path robustness. Routing traffic flows though high availability network segments results in minimising their path failure probability and also in reducing the amount of backup resources required to protect these primary paths. We therefore propose a heuristic algorithm with four link cost functions that take link availability into account to improve primary path availability in MPLS networks while optimising network resources. o Making inter-AS outbound TE robust to inter-AS link failure for long-term and short-term network provisioning. Transient inter-AS link failures are as common as intra-AS link failures and can have similar detrimental consequences. We therefore propose an IP tunnelling approach that can provide fast rerouting and also an algorithm that provides primary and secondary egress points to achieve load balancing under both no failure and also single inter-AS link failure states for long-term network provisioning. We solve this algorithm using a tabu search heuristic. Additionally, network conditions such as traffic variations and destination prefix reachability change, these events may make the long-term outbound TE solutions inaccurate. We therefore propose a short-term network provisioning framework that provides inter-AS outbound robust TE solutions considering the network dynamics. Making both intra-AS and inter-AS outbound TE robust to intra- or inter-AS link failure. Due to the common and transient nature of both intra- and inter-AS link failures, there are significant interactions between them. As a result, the overall network performance may not be truly robust to intra- and inter-AS link failures if they are considered separately. We therefore propose a joint robust TE approach that balances the intra- and inter-AS load balancing under intra- or inter-AS link failure taking into account their interactions. In summary, in this thesis we aim to propose robust approaches for both intra-AS and inter-AS outbound TE so as to optimise IP operational network performance under both normal and also failure conditions.

Item Type: Thesis (Doctoral)
Divisions : Theses
Authors :
NameEmailORCID
Amin, Mina.UNSPECIFIEDUNSPECIFIED
Date : 2008
Contributors :
ContributionNameEmailORCID
http://www.loc.gov/loc.terms/relators/THSUNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Depositing User : EPrints Services
Date Deposited : 09 Nov 2017 12:15
Last Modified : 09 Nov 2017 14:43
URI: http://epubs.surrey.ac.uk/id/eprint/843724

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