Management models and industrial applications of linear programming
[by] A. Charnes [and] W.W. Cooper.
- New York, Wiley [1961]
- 2 v. illus. 27 cm.
Includes index.
Suggested Topical Outline Glossary of Symbols A Survey of Some Salient Topics The Stepping-Stone Method for Transportation-Type Models Input-Output: An Example Elements of Matrix Algebra Elements of Matrix Algebra The Simplex Method and Some Geometry in Linear Spaces Appendix A: Some Further Geometrical Concepts Data Interpretations by Direct and Dual Relations Appendix B: Basic Existence Theorems and Goal Programming Solutions and Requirements Spaces: Geometry for the Constraints Appendix C: Some Basic Theorems in the Theory of Linear Inequalities Geometry of the Functional Theory and Computations for Delegation Models of Activity-Analysis Type: K-Efficiency, Functional Efficiency, and Goals Nonlinearity-A Functional Oriented Strategy Horizons and Surrogates in a Dynamic Model for Production Scheduling Appendix D: The Kuhn-Tucker Theorem and Some Applications to Storage, Inventory, and Functional Efficiency Degeneracy, Perturbation, and Complete Regularization Appendix E: Consolidation and Classification Issues with Reference to Leontief Matrices / Bibliography Index Suggested Topical Outline Glossary of Symbols The Modified Simplex and Dual Methods, and the Revised Simplex Code for Electronic Calculators Transportation-type Models Dyadic Models and Subdual Methods Prototypes, Compression, and Emphases in an Oil-field Development Example Appendix F: The Double-Reverse Method Networks and Models of Incidence Type Appendix G: Mixing Routines for a Class of Coupled Models Miscellaneous Topics Some Relations between the Theory of Games and Linear Programming Appendix H: Some Further Aspects of Saddle Points and Min.-Max. Operators Game Theory: Extensions and Applications Final Appendix Bibliography Index