Showing total 2 results

1. A Constraint-Programming-Based Branch-and-Price-and-Cut Approach for Operating Room Planning and Scheduling.

Author

Hashemi Doulabi, Seyed Hossein, Rousseau, Louis-Martin, and Pesant, Gilles

Subjects

CONSTRAINT programming, OPERATING rooms, PRODUCTION scheduling, SURGEONS, ALGORITHMS, MATHEMATICAL models

Abstract

This paper presents an efficient algorithm for an integrated operating room planning and scheduling problem. It combines the assignment of surgeries to operating rooms and scheduling over a short-term planning horizon. This integration results in more stable planning through consideration of the operational details at the scheduling level, and this increases the chance of successful implementation. We take into account the maximum daily working hours of surgeons, prevent the overlapping of surgeries performed by the same surgeon, allow time for the obligatory cleaning when switching from infectious to noninfectious cases, and respect the surgery deadlines. We formulate the problem using a mathematical programming model and develop a branch-and-price-and-cut algorithm based on a constraint programming model for the subproblem. We also develop dominance rules and a fast infeasibility-detection algorithm based on a multidimensional knapsack problem to improve the efficiency of the constraint programming model. The computational results show that our method has an average optimality gap of 2.81% and significantly outperforms a compact mathematical formulation in the literature. [ABSTRACT FROM AUTHOR]

Published

2016

2. Solving Variants of the Job Shop Scheduling Problem Through Conflict-Directed Search.

Author

Grimes, Diarmuid and Hebrard, Emmanuel

Subjects

PRODUCTION scheduling, PROBLEM solving, SEARCH algorithms, MACHINE theory, COMBINATORIAL optimization

Abstract

We introduce a simple technique for disjunctive machine scheduling problems and show that this method can match or even outperform state-of-the-art algorithms on a number of problem types. Our approach combines a number of generic search techniques such as restarts, adaptive heuristics, and solution-guided branching on a simple model based on a decomposition of disjunctive constraints and on the reification of these disjuncts. This paper describes the method and its application to variants of the job shop scheduling problem (JSP). We show that our method can easily be adapted to handle additional side constraints and different objective functions, often outperforming the state-of-the-art and closing a number of open problems. Moreover, we perform in-depth analysis of the various factors that make this approach efficient. We show that, while most of the factors give moderate benefits, the variable and value ordering components are key. [ABSTRACT FROM AUTHOR]

Published

2015