Letchford, A N and Lodi, A (2003) An augment-and-branch-and-cut framework for mixed 0-1 programming. In: Combinatorial Optimization. Lecture Notes in Computer Science . Springer, Berlin, pp. 119-133. ISBN 3-540-00580-3Full text not available from this repository.
In recent years the branch-and-cut method, a synthesis of the classical branch-and-bound and cutting plane methods, has proven to be a highly successful approach to solving large-scale integer programs to optimality. This is especially true for mixed 0-1 and pure 0-1 problems. However, other approaches to integer programming are possible. One alternative is provided by so-called augmentation algorithms, in which a feasible integer solution is iteratively improved (augmented) until no further improvement is possible. Recently, Weismantel suggested that these two approaches could be combined in some way, to yield an augment-and-branch-and-cut (ABC) algorithm for integer programming. In this paper we describe a possible implementation of such a finite ABC algorithm for mixed 0-1 and pure 0-1 programs. The algorithm differs from standard branch-and-cut in several important ways. In particular, the terms separation, branching, and fathoming take on new meanings in the primal context.
|Item Type:||Contribution in Book/Report/Proceedings|
|Departments:||Lancaster University Management School > Management Science|
|Deposited On:||11 Jul 2011 20:56|
|Last Modified:||26 Jul 2012 22:25|
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