Scheduling multiple agents for picking products in a warehouse

In this paper, the final stage of a multiphase approach for solving the picking problem in a warehouse is addressed. Given a number of agents, each with its own set of picking sequences (trips or routes) to accomplish, a dispatching problem is described and shown to have a non-polynomial search space with respect to the number of agents and number of routes. A simulation-based scheduling procedure is proposed to solve the problem. The aim is to reduce potential delays induced by agent queues. Extensive statistical simulations on a realistic warehouse operating at varying conditions are conducted to show that the said dispatching procedure is able to make significant improvements with respect to minimizing operating time, on the average, over the case when no dispatching policy is applied to the agents

[1]  Moshe Dror,et al.  Vehicle routing with split deliveries , 1994, Discret. Appl. Math..

[2]  Da-Yin Liao,et al.  Speedy delivery - dynamic OHT allocation and dispatching in large-scale, 300-mm AMHS management , 2004, IEEE Robotics & Automation Magazine.

[3]  Pius J. Egbelu,et al.  Characterization of automatic guided vehicle dispatching rules , 1984 .

[4]  Byung-In Kim,et al.  Intelligent agent based framework for warehouse control , 2004, 37th Annual Hawaii International Conference on System Sciences, 2004. Proceedings of the.

[5]  P. Jackson,et al.  The warehouse scheduling problem: formulation and algorithms , 1996 .

[6]  Jun Ota,et al.  Route generation for warehouse management using fast heuristics , 2004, 2004 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) (IEEE Cat. No.04CH37566).

[7]  Roman Barták Mixing Planning and Scheduling to Model Complex Process Environments , 2000 .

[8]  H. D. Ratliff,et al.  Order-Picking in a Rectangular Warehouse: A Solvable Case of the Traveling Salesman Problem , 1983, Oper. Res..

[9]  Yoram Koren,et al.  Potential field methods and their inherent limitations for mobile robot navigation , 1991, Proceedings. 1991 IEEE International Conference on Robotics and Automation.

[10]  Maria L. Gini,et al.  A team of robotic agents for surveillance , 2000, AGENTS '00.

[11]  Randolph W. Hall,et al.  DISTANCE APPROXIMATIONS FOR ROUTING MANUAL PICKERS IN A WAREHOUSE , 1993 .

[12]  L. C. Jain,et al.  Human and artificial intelligence systems : from control to autonomy , 2004 .

[13]  A.J.R.M. Gademann,et al.  An order batching algorithm for wave picking in a parallel-aisle warehouse , 1996 .