Solving multi-item lot-sizing problems with an MIP solver using classification and reformulation

Based on research on the polyhedral structure of lot-sizing models over the last twenty years, we claim that there is a nontrivial fraction of practical lot-sizing problems that can now be solved by nonspecialists just by taking an appropriate a priori reformulation of the problem, and then feeding the resulting formulation into a commercial mixed integer programming solver. This claim uses the fact that many multi-item problems decompose naturally into a set of single-item problems with linking constraints, and that there is now a large body of knowledge about single-item problems. To put this knowledge to use, we propose a classification of lot-sizing problems (in large part single-item), and then indicate in a set of Tables what is known about a particular problem class, and how useful it might be. Specifically we indicate for each class i) whether a tight extended formulation is known, and its size, ii) whether one or more families of valid inequalities are known defining the convex hull of solutions, and the complexity of the corresponding separation algorithms, and iii) the complexity of the corresponding optimization algorithms (which would be useful if a column generation or Lagrangian relaxation approach was envisaged).