Publisher's Synopsis
This advanced text/reference presents the mathematical foundations of integer and combinatorial optimization models and the algorithms that can be used to solve a variety of problems in resource allocation, location, distribution, scheduling and production. Chapters on polyhedral theory and model formulation with integer variables are included. Part 1 covers linear programming, graphs and networks and computational complexity. Part 2 covers integer programming, including duality, relaxation and strong cutting planes, and presents algorithms. Part 3 addresses combinatorial optimization, including 0-1 matrices, matching, and submodular function optimization. The book contains many examples and applications.
