We present a branch-and-bound algorithm for minimizing a convex quadratic objective function over integer variables subject to convex constraints. In a given node of the enumeration tree, corresponding to the fixing of a subset of the variables, a lower bound is given by the continuous minimum of the restricted objective function. We improve this bound by exploiting the integrality of the variables using suitably-defined lattice-free ellipsoids. Experiments show that our approach is very fast on both unconstrained problems and problems with box constraints. The main reason is that all expensive calculations can be done in a preprocessing phase, while a single node in the enumeration tree can be processed in linear time in the problem dimension.
An Effective Branch-and-Bound Algorithm for Convex Quadratic Integer Programming / C. Buchheim; A. Caprara; A. Lodi. - STAMPA. - (2010), pp. 285-298. (Intervento presentato al convegno 14th International Conference, IPCO 2010 tenutosi a Lausanne nel 9-11 giugno 2010) [10.1007/978-3-642-13036-6_22].
An Effective Branch-and-Bound Algorithm for Convex Quadratic Integer Programming
CAPRARA, ALBERTO;LODI, ANDREA
2010
Abstract
We present a branch-and-bound algorithm for minimizing a convex quadratic objective function over integer variables subject to convex constraints. In a given node of the enumeration tree, corresponding to the fixing of a subset of the variables, a lower bound is given by the continuous minimum of the restricted objective function. We improve this bound by exploiting the integrality of the variables using suitably-defined lattice-free ellipsoids. Experiments show that our approach is very fast on both unconstrained problems and problems with box constraints. The main reason is that all expensive calculations can be done in a preprocessing phase, while a single node in the enumeration tree can be processed in linear time in the problem dimension.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
