Single machine scheduling with symmetric earliness and tardiness penalties

This research focuses on scheduling jobs with varying processing times and distinct due dates on a single machine subject to earliness and tardiness penalties. Hence, this work will find application in a just-in-time (JIT) production environment. The scheduling problem is formulated as a 0–1 linear integer program with three sets of constraints, where the objective is to minimize the sum of the absolute deviations between job completion times and their respective due dates. The first two sets of constraints are equivalent to the supply and demand constraints of an assignment problem. The third set, which represents the process time non-overlap constraints, is relaxed to form the Lagrangian dual problem. The dual problem is then solved using the subgradient algorithm. Efficient heuristics have also been developed in this work to yield initial primal feasible solutions and to convert primal infeasible solutions to feasibility. The computational results show that the relative deviation from optimality obtained by the subgradient algorithm is less than 3% for problem sizes varying from 10 to 100 jobs.