Garrett van Ryzin
Probabilistic analysis of a generalized bin packing problem and applications
Coauthor(s): Awi Federgruen.
We give a unified probabilistic analysis for a general class of bin packing problems by directly analyzing corresponding mathematical programs. In this general class of packing problems, objects are described by a given number of attribute values. (Some attributes may be discrete; others may be continuous.) Bins are sets of objects, and the collection of feasible bins is merely required to satisfy some general consistency properties. We characterize the asymptotic optimal value as the value of an easily specified linear program whose size is independent of the number of objects to be packed, or as the limit of a sequence of such linear program values. We also provide bounds for the rate of convergence of the average cost to its asymptotic value. The analysis suggests an (a.s.) asymptotically ε-optimal heuristic that runs in linear time. The heuristics can be designed to be asymptotically optimal while still running in polynomial time. We also show that in several important cases, the algorithm has both polynomially fast convergence and polynomial running time. This heuristic consists of solving a linear program and rounding its solution up to the nearest integer vector. We show how our results can be used to analyze a general vehicle routing model with capacity and time window constraints.
Source: Operations Research
Federgruen, Awi, and Garrett van Ryzin. "Probabilistic analysis of a generalized bin packing problem and applications." Operations Research 45, no. 4 (1997): 596-609.