论文信息 - Enhancing Branch-and-Bound Algorithms for Order Acceptance and Scheduling with Genetic Programming

Enhancing Branch-and-Bound Algorithms for Order Acceptance and Scheduling with Genetic Programming

Order acceptance and scheduling OAS is an important planning activity in make-to-order manufacturing systems. Making good acceptance and scheduling decisions allows the systems to utilise their manufacturing resources better and achieve higher total profit. Therefore, finding optimal solutions for OAS is desirable. Unfortunately, the exact optimisation approaches previously proposed for OAS are still very time consuming and usually fail to solve the problem even for small instances in a reasonable computational time. In this paper, we develop a new branch-and-bound B&B approach to finding optimal solutions for OAS. In order to design effective branching strategies for B&B, a new GP method has been proposed to discover good ordering rules. The results show that the B&B algorithms enhanced by GP can solve the OAS problem more effectively than the basic B&B algorithm and the CPLEX solver on the Mixed Integer Linear Programming model.

[1] John R. Koza,et al. Genetic programming - on the programming of computers by means of natural selection , 1993, Complex adaptive systems.

[2] F. Sibel Salman,et al. Order acceptance and scheduling decisions in make-to-order systems , 2010 .

[3] Michael Pinedo,et al. Scheduling: Theory, Algorithms, and Systems , 1994 .

[4] Ceyda Oguz,et al. A tabu search algorithm for order acceptance and scheduling , 2012, Comput. Oper. Res..

[5] Shih-Wei Lin,et al. Increasing the total net revenue for single machine order acceptance and scheduling problems using an artificial bee colony algorithm , 2013, J. Oper. Res. Soc..

[6] Mark Johnston,et al. Learning Reusable Initial Solutions for Multi-objective Order Acceptance and Scheduling Problems with Genetic Programming , 2013, EuroGP.

[7] Walter O. Rom,et al. Order acceptance using genetic algorithms , 2009, Comput. Oper. Res..

[8] Mark Johnston,et al. Genetic programming for order acceptance and scheduling , 2013, 2013 IEEE Congress on Evolutionary Computation.

[9] Paolo Toth,et al. Knapsack Problems: Algorithms and Computer Implementations , 1990 .

[10] Thomas E. Morton,et al. Selecting jobs for a heavily loaded shop with lateness penalties , 1996, Comput. Oper. Res..

[11] Jay B. Ghosh,et al. Job selection in a heavily loaded shop , 1997, Comput. Oper. Res..

[12] Susan A. Slotnick,et al. Order acceptance with weighted tardiness , 2007, Comput. Oper. Res..