Kumar, A. ; Rastogi, R. ; Silberschatz, A. ; Yener, B. (2002) Algorithms for provisioning virtual private networks in the hose model IEEE/ACM Transactions on Networking, 10 (4). pp. 565-578. ISSN 1063-6692
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Official URL: http://doi.org/10.1109/TNET.2002.802141
Related URL: http://dx.doi.org/10.1109/TNET.2002.802141
Abstract
Virtual private networks (VPNs) provide customers with predictable and secure network connections over a shared network. The recently proposed hose model for VPNs allows for greater flexibility since it permits traffic to and from a hose endpoint to be arbitrarily distributed to other endpoints. We develop novel algorithms for provisioning VPNs in the hose model. We connect VPN endpoints using a tree structure and our algorithms attempt to optimize the total bandwidth reserved on edges of the VPN tree. We show that even for the simple scenario in which network links are assumed to have infinite capacity, the general problem of computing the optimal VPN tree is NP-hard. Fortunately, for the special case when the ingress and egress bandwidths for each VPN endpoint are equal, we can devise an algorithm for computing the optimal tree whose time complexity is O(mn), where m and n are the number of links and nodes in the network, respectively. We present a novel integer programming formulation for the general VPN tree computation problem (that is, when ingress and egress bandwidths of VPN endpoints are arbitrary) and develop an algorithm that is based on the primal-dual method. Our experimental results with synthetic network graphs indicate that the VPN trees constructed by our proposed algorithms dramatically reduce bandwidth requirements (in many instances, by more than a factor of 2) compared to scenarios in which Steiner trees are employed to connect VPN endpoints.
Item Type: | Article |
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Source: | Copyright of this article belongs to Institute of Electrical and Electronics Engineers. |
ID Code: | 123565 |
Deposited On: | 30 Sep 2021 11:14 |
Last Modified: | 30 Sep 2021 11:14 |
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