Bottleneck capacity expansion problems with general budget constraints

Rainer E. Burkard; Bettina Klinz; Jianzhong Zhang

doi:10.1051/ro:2001100

Bottleneck capacity expansion problems with general budget constraints

Rainer E. Burkard, Bettina Klinz, Jianzhong Zhang

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

14 Citations (Scopus)

Abstract

This paper presents a unified approach for bottleneck capacity expansion problems. In the bottleneck capacity expansion problem, BCEP, we are given a finite ground set E, a family ℱ of feasible subsets of E and a nonnegative real capacity ĉ_e for all e ∈ E. Moreover, we are given monotone increasing cost functions f_e for increasing the capacity of the elements e ∈ E as well as a budget B. The task is to determine new capacities c_e ≥ ĉe such that the objective function given by max_F∈ℱ min_e∈F c_e is maximized under the side constraint that the overall expansion cost does not exceed the budget B. We introduce an algebraic model for defining the overall expansion cost and for formulating the budget constraint. This models allows to capture various types of budget constraints in one general model. Moreover, we discuss solution approaches for the general bottleneck capacity expansion problem. For an important subclass of bottleneck capacity expansion problems we propose algorithms which perform a strongly polynomial number of steps. In this manner we generalize and improve a recent result of Zhang et al. [15]. © EDP Sciences 2001.

Original language	English
Pages (from-to)	1-20
Journal	RAIRO - Operations Research
Volume	35
Issue number	1
DOIs	https://doi.org/10.1051/ro:2001100
Publication status	Published - 2001
Externally published	Yes

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Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to <a href="mailto:[email protected]">[email protected]</a>.

Research Keywords

Algebraic optimization
Bottleneck problem
Capacity expansion
Strongly polynomial algorithm

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AU - Klinz, Bettina

AU - Zhang, Jianzhong

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PY - 2001

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N2 - This paper presents a unified approach for bottleneck capacity expansion problems. In the bottleneck capacity expansion problem, BCEP, we are given a finite ground set E, a family ℱ of feasible subsets of E and a nonnegative real capacity ĉe for all e ∈ E. Moreover, we are given monotone increasing cost functions fe for increasing the capacity of the elements e ∈ E as well as a budget B. The task is to determine new capacities ce ≥ ĉe such that the objective function given by maxF∈ℱ mine∈F ce is maximized under the side constraint that the overall expansion cost does not exceed the budget B. We introduce an algebraic model for defining the overall expansion cost and for formulating the budget constraint. This models allows to capture various types of budget constraints in one general model. Moreover, we discuss solution approaches for the general bottleneck capacity expansion problem. For an important subclass of bottleneck capacity expansion problems we propose algorithms which perform a strongly polynomial number of steps. In this manner we generalize and improve a recent result of Zhang et al. [15]. © EDP Sciences 2001.

AB - This paper presents a unified approach for bottleneck capacity expansion problems. In the bottleneck capacity expansion problem, BCEP, we are given a finite ground set E, a family ℱ of feasible subsets of E and a nonnegative real capacity ĉe for all e ∈ E. Moreover, we are given monotone increasing cost functions fe for increasing the capacity of the elements e ∈ E as well as a budget B. The task is to determine new capacities ce ≥ ĉe such that the objective function given by maxF∈ℱ mine∈F ce is maximized under the side constraint that the overall expansion cost does not exceed the budget B. We introduce an algebraic model for defining the overall expansion cost and for formulating the budget constraint. This models allows to capture various types of budget constraints in one general model. Moreover, we discuss solution approaches for the general bottleneck capacity expansion problem. For an important subclass of bottleneck capacity expansion problems we propose algorithms which perform a strongly polynomial number of steps. In this manner we generalize and improve a recent result of Zhang et al. [15]. © EDP Sciences 2001.

KW - Algebraic optimization

KW - Bottleneck problem

KW - Capacity expansion

KW - Strongly polynomial algorithm

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Bottleneck capacity expansion problems with general budget constraints

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Research Keywords

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