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Linear Programming and Extensions.

By: Material type: TextTextSeries: Princeton Landmarks in Mathematics and PhysicsPublication details: Princeton University Press, 2016.Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 1400884179
  • 9781400884179
Subject(s): Genre/Form: DDC classification:
  • 519.6 23
LOC classification:
  • T57.74
Online resources:
Contents:
Frontmatter -- Preface -- Contents -- 1. The Linear Programming Concept -- 2. Origins and Influences -- 3. Formulating a Linear Programming Model -- 4. Linear Equation and Inequality Systems -- 5. The Simplex Method -- 6. Proof of the Simplex Algorithm and the Duality Theorem -- 7. The Geometry of Linear Programs -- 8. Pivoting, Vector Spaces, Matrices, and Inverses -- 9. The Simplex Method Using Multipliers -- 10. Finiteness of the Simplex Method under Perturbation -- 11. Variants of the Simplex Algorithm -- 12. The Price Concept in Linear Programming -- 13. Games And Linear Programs -- 14. The Classical Transportation Problem -- 15. Optimal Assignment and Other Distribution Problems -- 16. The Transshipment Problem -- 17. Networks and the Transshipment Problem -- 18. Variables with Upper Bounds -- 19. Maximal Flows in Networks -- 20. The Primal-Dual Method for Transportation Problems -- 21. The Weighted Distribution Problem -- 22. Programs with Variable Coefficients -- 23. A Decomposition Principle for Linear Programs -- 24. Convex Programming -- 25. Uncertainty -- 26. Discrete-Variable Extremum Problems -- 27. Stigler's Nutrition Model: An Example of Formulation and Solution -- 28. The Allocation of Aircraft to Routes under Uncertain Demand -- Bibliography -- Subject Index -- Name Index -- Selected Rand Books
Summary: In real-world problems related to finance, business, and management, mathematicians and economists frequently encounter optimization problems. In this classic book, George Dantzig looks at a wealth of examples and develops linear programming methods for their solutions. He begins by introducing the basic theory of linear inequalities and describes the powerful simplex method used to solve them. Treatments of the price concept, the transportation problem, and matrix methods are also given, and key mathematical concepts such as the properties of convex sets and linear vector spaces are covered. George Dantzig is properly acclaimed as the "father of linear programming." Linear programming is a mathematical technique used to optimize a situation. It can be used to minimize traffic congestion or to maximize the scheduling of airline flights. He formulated its basic theoretical model and discovered its underlying computational algorithm, the "simplex method," in a pathbreaking memorandum published by the United States Air Force in early 1948. Linear Programming and Extensions provides an extraordinary account of the subsequent development of his subject, including research in mathematical theory, computation, economic analysis, and applications to industrial problems. Dantzig first achieved success as a statistics graduate student at the University of California, Berkeley. One day he arrived for a class after it had begun, and assumed the two problems on the board were assigned for homework. When he handed in the solutions, he apologized to his professor, Jerzy Neyman, for their being late but explained that he had found the problems harder than usual. About six weeks later, Neyman excitedly told Dantzig, "I've just written an introduction to one of your papers. Read it so I can send it out right away for publication." Dantzig had no idea what he was talking about. He later learned that the "homework" problems had in fact been two famous unsolved.
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Frontmatter -- Preface -- Contents -- 1. The Linear Programming Concept -- 2. Origins and Influences -- 3. Formulating a Linear Programming Model -- 4. Linear Equation and Inequality Systems -- 5. The Simplex Method -- 6. Proof of the Simplex Algorithm and the Duality Theorem -- 7. The Geometry of Linear Programs -- 8. Pivoting, Vector Spaces, Matrices, and Inverses -- 9. The Simplex Method Using Multipliers -- 10. Finiteness of the Simplex Method under Perturbation -- 11. Variants of the Simplex Algorithm -- 12. The Price Concept in Linear Programming -- 13. Games And Linear Programs -- 14. The Classical Transportation Problem -- 15. Optimal Assignment and Other Distribution Problems -- 16. The Transshipment Problem -- 17. Networks and the Transshipment Problem -- 18. Variables with Upper Bounds -- 19. Maximal Flows in Networks -- 20. The Primal-Dual Method for Transportation Problems -- 21. The Weighted Distribution Problem -- 22. Programs with Variable Coefficients -- 23. A Decomposition Principle for Linear Programs -- 24. Convex Programming -- 25. Uncertainty -- 26. Discrete-Variable Extremum Problems -- 27. Stigler's Nutrition Model: An Example of Formulation and Solution -- 28. The Allocation of Aircraft to Routes under Uncertain Demand -- Bibliography -- Subject Index -- Name Index -- Selected Rand Books

In real-world problems related to finance, business, and management, mathematicians and economists frequently encounter optimization problems. In this classic book, George Dantzig looks at a wealth of examples and develops linear programming methods for their solutions. He begins by introducing the basic theory of linear inequalities and describes the powerful simplex method used to solve them. Treatments of the price concept, the transportation problem, and matrix methods are also given, and key mathematical concepts such as the properties of convex sets and linear vector spaces are covered. George Dantzig is properly acclaimed as the "father of linear programming." Linear programming is a mathematical technique used to optimize a situation. It can be used to minimize traffic congestion or to maximize the scheduling of airline flights. He formulated its basic theoretical model and discovered its underlying computational algorithm, the "simplex method," in a pathbreaking memorandum published by the United States Air Force in early 1948. Linear Programming and Extensions provides an extraordinary account of the subsequent development of his subject, including research in mathematical theory, computation, economic analysis, and applications to industrial problems. Dantzig first achieved success as a statistics graduate student at the University of California, Berkeley. One day he arrived for a class after it had begun, and assumed the two problems on the board were assigned for homework. When he handed in the solutions, he apologized to his professor, Jerzy Neyman, for their being late but explained that he had found the problems harder than usual. About six weeks later, Neyman excitedly told Dantzig, "I've just written an introduction to one of your papers. Read it so I can send it out right away for publication." Dantzig had no idea what he was talking about. He later learned that the "homework" problems had in fact been two famous unsolved.

In English.

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