07302nam 2201861 a 450 991081292030332120220308025052.01-283-25611-897866132561191-4008-4110-010.1515/9781400841103(CKB)2670000000114042(EBL)768550(OCoLC)749265038(SSID)ssj0000545200(PQKBManifestationID)11362484(PQKBTitleCode)TC0000545200(PQKBWorkID)10554795(PQKB)10026176(DE-B1597)447249(OCoLC)1054881878(OCoLC)979579454(DE-B1597)9781400841103(Au-PeEL)EBL768550(CaPaEBR)ebr10496632(CaONFJC)MIL325611(MiAaPQ)EBC768550(EXLCZ)99267000000011404220060724d2006 uy 0engurnnu---|u||utxtccrThe traveling salesman problem[electronic resource] a computational study /David L. Applegate ... [et al.]Course BookPrinceton Princeton University Pressc20061 online resource (606 p.)Princeton series in applied mathematics"A Princeton University Press e-book."--Cover.0-691-12993-2 Includes bibliographical references (p. [541]-581) and index.Front matter --Contents --Preface --Chapter 1. The Problem --Chapter 2. Applications --Chapter 3. Dantzig, Fulkerson, and Johnson --Chapter 4. History of TSP Computation --Chapter 5. LP Bounds and Cutting Planes --Chapter 6. Subtour Cuts and PQ-Trees --Chapter 7. Cuts from Blossoms and Blocks --Chapter 8. Combs from Consecutive Ones --Chapter 9. Combs from Dominoes --Chapter 10. Cut Metamorphoses --Chapter 11. Local Cuts --Chapter 12. Managing the Linear Programming Problems --Chapter 13. The Linear Programming Solver Chapter 14. Branching --Chapter 14. Branching --Chapter 15. Tour Finding --Chapter 16. Computation --Chapter 17. The Road Goes On --Bibliography --IndexThis book presents the latest findings on one of the most intensely investigated subjects in computational mathematics--the traveling salesman problem. It sounds simple enough: given a set of cities and the cost of travel between each pair of them, the problem challenges you to find the cheapest route by which to visit all the cities and return home to where you began. Though seemingly modest, this exercise has inspired studies by mathematicians, chemists, and physicists. Teachers use it in the classroom. It has practical applications in genetics, telecommunications, and neuroscience. The authors of this book are the same pioneers who for nearly two decades have led the investigation into the traveling salesman problem. They have derived solutions to almost eighty-six thousand cities, yet a general solution to the problem has yet to be discovered. Here they describe the method and computer code they used to solve a broad range of large-scale problems, and along the way they demonstrate the interplay of applied mathematics with increasingly powerful computing platforms. They also give the fascinating history of the problem--how it developed, and why it continues to intrigue us.Princeton series in applied mathematics.Traveling salesman problemAT&T Labs.Accuracy and precision.Addition.Algorithm.Analysis of algorithms.Applied mathematics.Approximation algorithm.Approximation.Basic solution (linear programming).Best, worst and average case.Bifurcation theory.Big O notation.CPLEX.CPU time.Calculation.Chaos theory.Column generation.Combinatorial optimization.Computation.Computational resource.Computer.Connected component (graph theory).Connectivity (graph theory).Convex hull.Cutting-plane method.Delaunay triangulation.Determinism.Disjoint sets.Dynamic programming.Ear decomposition.Engineering.Enumeration.Equation.Estimation.Euclidean distance.Euclidean space.Family of sets.For loop.Genetic algorithm.George Dantzig.Georgia Institute of Technology.Greedy algorithm.Hamiltonian path.Hospitality.Hypergraph.Implementation.Instance (computer science).Institute.Integer.Iteration.Linear inequality.Linear programming.Mathematical optimization.Mathematics.Model of computation.Neuroscience.Notation.Operations research.Optimization problem.Order by.Pairwise.Parameter (computer programming).Parity (mathematics).Percentage.Polyhedron.Polytope.Pricing.Princeton University.Processing (programming language).Project.Quantity.Reduced cost.Requirement.Result.Rice University.Rutgers University.Scientific notation.Search algorithm.Search tree.Self-similarity.Simplex algorithm.Solution set.Solver.Source code.Special case.Stochastic.Subroutine.Subsequence.Subset.Summation.Test set.Theorem.Theory.Time complexity.Trade-off.Travelling salesman problem.Tree (data structure).Upper and lower bounds.Variable (computer science).Variable (mathematics).Traveling salesman problem.511.6Applegate David L1617322Bixby Robert E.authttp://id.loc.gov/vocabulary/relators/autChvátal Vašekauthttp://id.loc.gov/vocabulary/relators/autMiAaPQMiAaPQMiAaPQBOOK9910812920303321The traveling salesman problem3948444UNINA