r802:134852d7fb0a
Sat, 10 Oct 2009 08:18:46
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This group contains the common graph search algorithms, namely |
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\e breadth-first \e search (BFS) and \e depth-first \e search (DFS) |
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\e breadth-first \e search (BFS) and \e depth-first \e search (DFS) |
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\ref clrs01algorithms. |
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*/ |
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This group contains the algorithms for finding shortest paths in digraphs |
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This group contains the algorithms for finding shortest paths in digraphs |
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\ref clrs01algorithms. |
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This group contains the algorithms for finding minimum cost spanning |
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trees and arborescences. |
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trees and arborescences \ref clrs01algorithms. |
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*/ |
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This group contains the algorithms for finding maximum flows and |
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feasible circulations. |
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feasible circulations \ref clrs01algorithms, \ref amo93networkflows. |
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LEMON contains several algorithms for solving maximum flow problems: |
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- \ref EdmondsKarp Edmonds-Karp algorithm. |
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- \ref Preflow Goldberg-Tarjan's preflow push-relabel algorithm. |
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- \ref DinitzSleatorTarjan Dinitz's blocking flow algorithm with dynamic trees. |
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- \ref GoldbergTarjan Preflow push-relabel algorithm with dynamic trees. |
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- \ref EdmondsKarp Edmonds-Karp algorithm |
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\ref edmondskarp72theoretical. |
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- \ref Preflow Goldberg-Tarjan's preflow push-relabel algorithm |
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\ref goldberg88newapproach. |
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- \ref DinitzSleatorTarjan Dinitz's blocking flow algorithm with dynamic trees |
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\ref dinic70algorithm, \ref sleator83dynamic. |
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- \ref GoldbergTarjan !Preflow push-relabel algorithm with dynamic trees |
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\ref goldberg88newapproach, \ref sleator83dynamic. |
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In most cases the \ref Preflow |
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In most cases the \ref Preflow algorithm provides the |
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fastest method for computing a maximum flow. All implementations |
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This group contains the algorithms for finding minimum cost flows and |
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circulations. For more information about this problem and its dual |
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solution see \ref min_cost_flow "Minimum Cost Flow Problem". |
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circulations \ref amo93networkflows. For more information about this |
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problem and its dual solution, see \ref min_cost_flow |
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"Minimum Cost Flow Problem". |
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- \ref NetworkSimplex Primal Network Simplex algorithm with various |
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pivot strategies. |
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pivot strategies \ref dantzig63linearprog, \ref kellyoneill91netsimplex. |
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- \ref CostScaling Push-Relabel and Augment-Relabel algorithms based on |
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cost scaling |
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cost scaling \ref goldberg90approximation, \ref goldberg97efficient, |
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\ref bunnagel98efficient. |
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- \ref CapacityScaling Successive Shortest %Path algorithm with optional |
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capacity scaling. |
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- \ref CancelAndTighten The Cancel and Tighten algorithm. |
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capacity scaling \ref edmondskarp72theoretical. |
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- \ref CancelAndTighten The Cancel and Tighten algorithm |
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\ref goldberg89cyclecanceling. |
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- \ref CycleCanceling Cycle-Canceling algorithms |
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\ref klein67primal, \ref goldberg89cyclecanceling. |
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/** |
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@defgroup lp_group |
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@defgroup lp_group LP and MIP Solvers |
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@ingroup gen_opt_group |
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\brief |
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\brief LP and MIP solver interfaces for LEMON. |
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This group contains Lp and Mip solver interfaces for LEMON. The |
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various LP solvers could be used in the same manner with this |
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This group contains LP and MIP solver interfaces for LEMON. |
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Various LP solvers could be used in the same manner with this |
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high-level interface. |
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The currently supported solvers are \ref glpk, \ref clp, \ref cbc, |
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\ref cplex, \ref soplex. |
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*/ |
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\subsection whatis What is LEMON |
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LEMON stands for <b>L</b>ibrary for <b>E</b>fficient <b>M</b>odeling |
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and <b>O</b>ptimization in <b>N</b>etworks. |
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It is a C++ template |
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library aimed at combinatorial optimization tasks which |
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often involve in working |
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with graphs. |
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<b>LEMON</b> stands for <i><b>L</b>ibrary for <b>E</b>fficient <b>M</b>odeling |
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and <b>O</b>ptimization in <b>N</b>etworks</i>. |
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It is a C++ template library providing efficient implementation of common |
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data structures and algorithms with focus on combinatorial optimization |
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problems in graphs and networks. |
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The project is maintained by the |
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<a href="http://www.cs.elte.hu/egres/">Egerváry Research Group on |
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Combinatorial Optimization</a> \ref egres |
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at the Operations Research Department of the |
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<a href="http://www.elte.hu/">Eötvös Loránd University, |
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Budapest</a>, Hungary. |
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LEMON is also a member of the <a href="http://www.coin-or.org/">COIN-OR</a> |
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initiative \ref coinor. |
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\section howtoread How to Read the Documentation |
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@ |
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@article{edmondskarp72theoretical,
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author = {Jack Edmonds and Richard M. Karp},
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title = {Theoretical improvements in algorithmic efficiency
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for network flow problems}, |
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journal = {Journal of the ACM},
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year = 1972, |
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volume = 19, |
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number = 2, |
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pages = {248-264}
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} |
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@article{goldberg88newapproach,
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author = {Andrew V. Goldberg and Robert E. Tarjan},
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title = {A new approach to the maximum flow problem},
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booktitle = {STOC '86: Proceedings of the Eighteenth Annual ACM
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Symposium on Theory of Computing}, |
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year = 1986, |
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publisher = {ACM Press},
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address = {New York, NY},
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pages = {136-146}
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journal = {Journal of the ACM},
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year = 1988, |
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volume = 35, |
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number = 4, |
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pages = {921-940}
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} |
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@ |
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@article{goldberg89cyclecanceling,
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author = {Andrew V. Goldberg and Robert E. Tarjan},
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negative cycles}, |
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booktitle = {STOC '88: Proceedings of the Twentieth Annual ACM
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Symposium on Theory of Computing}, |
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year = 1988, |
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publisher = {ACM Press},
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address = {New York, NY},
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pages = {388-397}
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journal = {Journal of the ACM},
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year = 1989, |
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volume = 36, |
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number = 4, |
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pages = {873-886}
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} |
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@article{edmondskarp72theoretical,
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author = {Jack Edmonds and Richard M. Karp},
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title = {Theoretical improvements in algorithmic efficiency
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for network flow problems}, |
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journal = {Journal of the ACM},
|
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year = 1972, |
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volume = 19, |
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number = 2, |
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pages = {248-264}
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} |
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@inproceedings{goldberg87approximation,
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author = {Andrew V. Goldberg and Robert E. Tarjan},
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title = {Solving minimum-cost flow problems by successive
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approximation}, |
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booktitle = {STOC '87: Proceedings of the Nineteenth Annual ACM
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Symposium on Theory of Computing}, |
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year = 1987, |
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publisher = {ACM Press},
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address = {New York, NY},
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pages = {7-18}
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} |
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@article{goldberg90finding,
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@article{goldberg90approximation,
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author = {Andrew V. Goldberg and Robert E. Tarjan},
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@book{dantzig63linearprog,
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author = {George B. Dantzig},
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title = {Linear Programming and Extensions},
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publisher = {Princeton University Press},
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year = 1963 |
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} |
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@mastersthesis{kellyoneill91netsimplex,
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} |
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@techreport{lobel96networksimplex,
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author = {Andreas L{\"o}bel},
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title = {Solving large-scale real-world minimum-cost flow
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problems by a network simplex method}, |
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institution = {Konrad-Zuse-Zentrum fur Informationstechnik Berlin
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({ZIB})},
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address = {Berlin, Germany},
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year = 1996, |
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number = {SC 96-7}
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} |
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@article{frangioni06computational,
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author = {Antonio Frangioni and Antonio Manca},
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title = {A Computational Study of Cost Reoptimization for
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Min-Cost Flow Problems}, |
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journal = {INFORMS Journal On Computing},
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year = 2006, |
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volume = 18, |
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number = 1, |
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pages = {61-70}
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} |
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/// \ref NetworkSimplex implements the primal Network Simplex algorithm |
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/// for finding a \ref min_cost_flow "minimum cost flow" |
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/// for finding a \ref min_cost_flow "minimum cost flow" |
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/// \ref amo93networkflows, \ref dantzig63linearprog, |
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/// \ref kellyoneill91netsimplex. |
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/// This algorithm is a specialized version of the linear programming |
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/// \e push-relabel algorithm producing a \ref max_flow |
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/// "flow of maximum value" in a digraph |
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/// "flow of maximum value" in a digraph \ref clrs01algorithms, |
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/// \ref amo93networkflows, \ref goldberg88newapproach. |
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/// The preflow algorithms are the fastest known maximum |
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