An efficient approach to distributionally robust network capacity planning
An efficient approach to distributionally robust network capacity planning
In this paper, we consider a network capacity expansion problem in the context of telecommunication networks, where there is uncertainty associated with the expected traffic demand. We employ a distributionally robust stochastic optimization (DRSO) framework where the ambiguity set of the uncertain demand distribution is constructed using the moments information, the mean and variance. The resulting DRSO problem is formulated as a bilevel optimization problem. We develop an efficient solution algorithm for this problem by characterizing the resulting worst-case two-point distribution, which allows us to reformulate the original problem as a convex optimization problem. In computational experiments the performance of this approach is compared to that of the robust optimization approach with a discrete uncertainty set. The results show that solutions from the DRSO model outperform the robust optimization approach on highly risk-averse performance metrics, whereas the robust solution is better on the less risk-averse metric.
math.OC
Dokka Venkata Satyanaraya, Trivikram
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Garuba, Francis
239677a2-f6a0-4f4b-958f-ec34e20d9ad2
Goerigk, Marc
7ddd9716-c7fe-4491-8e39-68a5bdbeff61
Jacko, Peter
935b23a2-dff5-4779-b9a1-d8d116f86ba5
Dokka Venkata Satyanaraya, Trivikram
ae18a6ad-3ad7-459b-ba3f-bfabe9ea6633
Garuba, Francis
239677a2-f6a0-4f4b-958f-ec34e20d9ad2
Goerigk, Marc
7ddd9716-c7fe-4491-8e39-68a5bdbeff61
Jacko, Peter
935b23a2-dff5-4779-b9a1-d8d116f86ba5
Dokka Venkata Satyanaraya, Trivikram, Garuba, Francis, Goerigk, Marc and Jacko, Peter
(2020)
An efficient approach to distributionally robust network capacity planning.
arXiv.
(In Press)
Abstract
In this paper, we consider a network capacity expansion problem in the context of telecommunication networks, where there is uncertainty associated with the expected traffic demand. We employ a distributionally robust stochastic optimization (DRSO) framework where the ambiguity set of the uncertain demand distribution is constructed using the moments information, the mean and variance. The resulting DRSO problem is formulated as a bilevel optimization problem. We develop an efficient solution algorithm for this problem by characterizing the resulting worst-case two-point distribution, which allows us to reformulate the original problem as a convex optimization problem. In computational experiments the performance of this approach is compared to that of the robust optimization approach with a discrete uncertainty set. The results show that solutions from the DRSO model outperform the robust optimization approach on highly risk-averse performance metrics, whereas the robust solution is better on the less risk-averse metric.
Text
An Efficient Approach to Distributionally Robust Network Capacity Planning
- Accepted Manuscript
More information
Accepted/In Press date: 9 April 2020
Keywords:
math.OC
Identifiers
Local EPrints ID: 446878
URI: http://eprints.soton.ac.uk/id/eprint/446878
ISSN: 2331-8422
PURE UUID: 62cbd48f-921c-4f71-9a68-fd6f1544651d
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Date deposited: 25 Feb 2021 17:30
Last modified: 16 Mar 2024 10:55
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Contributors
Author:
Trivikram Dokka Venkata Satyanaraya
Author:
Francis Garuba
Author:
Marc Goerigk
Author:
Peter Jacko
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