Robust Optimization of Large-Scale Systems

Mulvey, John M.; Vanderbei, Robert J.; Zenios, Stavros A.

doi:10.1287/opre.43.2.264

Cited by 1,589 publications

(914 citation statements)

References 55 publications

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“…Mulvey et al [18] propose a different approach and consider robustness of solutions in a set of scenarios. They introduce a penalty function to the objective function to achieve a tradeoff between optimality and feasibility.…”

Section: Related Workmentioning

confidence: 99%

Risk management policies for dynamic capacity control

Koenig

Meissner

2015

Computers & Operations Research

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Consider a dynamic decision making model under risk with a fixed planning horizon, namely the dynamic capacity control model. The model describes a firm, operating in a monopolistic setting and selling a range of products consuming a single resource. Demand for each product is time-dependent and modeled by a random variable. The firm controls the revenue stream by allowing or denying customer requests for product classes. We investigate risk-sensitive policies in this setting, for which risk concerns are important for many non-repetitive events and short-time considerations.Numerically analyzing several risk-averse capacity control policies in terms of standard deviation and conditional-value-at-risk, our results show that only a slight modification of the risk-neutral solution is needed to apply a risk-averse policy. In particular, risk-averse policies which decision rules are functions depending only on the marginal values of the riskneutral policy perform well. From a practical perspective, the advantage is that a decision maker does not need to compute any risk-averse dynamic program. Risk sensitivity can be easily achieved by implementing risk-averse functional decision rules based on a risk-neutral solution.

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Section: Related Workmentioning

confidence: 99%

Risk management policies for dynamic capacity control

Koenig

Meissner

2015

Computers & Operations Research

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“…Note that this problem can also be seen as a robust knapsack problem with linear penalty (Mulvey et al, 1995). With C uniformly distributed, (5.5) becomes: …”

Section: Fixed Weights and Uniformly Distributed Capacitymentioning

confidence: 99%

Models and algorithms for network design problems

Poss¹

2011

4OR-Q J Oper Res

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“…Mula et al (2006) have provided a review of literature in production planning under uncertainty. Stochastic programming (Dantzig 1955;Kall and Wallace 1994;Birge and Louveaux 1997;Kall and Mayer 2005) and robust optimization (Mulvey et al 1995) has seen several successful applications in production planning. In Escudero et al (1993), a multi-stage stochastic programming approach was used for addressing a MPMP production planning model with random demand.…”

Section: Introductionmentioning

confidence: 99%

Determining production level under uncertainty using fuzzy simulation and bootstrap technique, a case study

et al. 2017

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In every production plant, it is necessary to have an estimation of production level. Sometimes there are many parameters affective in this estimation. In this paper, it tried to find an appropriate estimation of production level for an industrial factory called Barez in an uncertain environment. We have considered a part of production line, which has different production time for different kind of products, which means both environmental and system uncertainty. To solve the problem we have simulated the line and because of the uncertainty in the times, fuzzy simulation is considered. Required fuzzy numbers are estimated by the use of bootstrap technique. The results are used in production planning process by factory experts and have had satisfying consequences. Opinions of these experts about the efficiency of using this methodology, has been attached.

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Robust Optimization of Large-Scale Systems

Cited by 1,589 publications

References 55 publications

Risk management policies for dynamic capacity control

Risk management policies for dynamic capacity control

Models and algorithms for network design problems

Determining production level under uncertainty using fuzzy simulation and bootstrap technique, a case study

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