We combine mixed integer linear programming (MILP) and constraint programming (CP) to minimize tardiness in planning and scheduling. Tasks are allocated to facilities using MILP and scheduled using CP, and the two are linked via logic-based Benders decomposition. We consider two objectives: minimizing the number of late tasks, and minimizing total tardiness. Our main theoretical contribution is a relaxation of the cumulative scheduling subproblem, which is critical to performance. We obtain substantial computational speedups relative to the state of the art in both MILP and CP. We also obtain much better solutions for problems that cannot be solved to optimality
This paper considers the problem of scheduling a given set of jobs on a single machine in order to m...
Abstract. A hybrid technique using constraint programming and linear programming is applied to the p...
International audienceWe study the scheduling situation in which a set of jobs subjected to release ...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to minimize tardi...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to solve planning...
We combine mixed-integer linear programming (MILP) and constraint programming (CP) to solve an impor...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to solve an impor...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to solve planning...
Logic-based Benders decomposition (LBBD) has improved the state of the art for solving a variety of ...
AbstractThis paper studies the single machine family scheduling problem in which the goal is to mini...
Logic-based Benders decomposition can combine mixed integer programming and constraint programming t...
This dissertation addresses the problem of scheduling a set of jobs under two different measures of ...
International audienceThe just-in-time (JIT) scheduling problems which minimize the earliness-tardin...
This dissertation analyzes three scheduling problems motivated by real life situa-tions. In many man...
In this study, we introduce a mixed nonlinear integer programming formulation for parallel machine e...
This paper considers the problem of scheduling a given set of jobs on a single machine in order to m...
Abstract. A hybrid technique using constraint programming and linear programming is applied to the p...
International audienceWe study the scheduling situation in which a set of jobs subjected to release ...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to minimize tardi...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to solve planning...
We combine mixed-integer linear programming (MILP) and constraint programming (CP) to solve an impor...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to solve an impor...
We combine mixed integer linear programming (MILP) and constraint programming (CP) to solve planning...
Logic-based Benders decomposition (LBBD) has improved the state of the art for solving a variety of ...
AbstractThis paper studies the single machine family scheduling problem in which the goal is to mini...
Logic-based Benders decomposition can combine mixed integer programming and constraint programming t...
This dissertation addresses the problem of scheduling a set of jobs under two different measures of ...
International audienceThe just-in-time (JIT) scheduling problems which minimize the earliness-tardin...
This dissertation analyzes three scheduling problems motivated by real life situa-tions. In many man...
In this study, we introduce a mixed nonlinear integer programming formulation for parallel machine e...
This paper considers the problem of scheduling a given set of jobs on a single machine in order to m...
Abstract. A hybrid technique using constraint programming and linear programming is applied to the p...
International audienceWe study the scheduling situation in which a set of jobs subjected to release ...