Journal of Systems Engineering and Electronics ›› 2008, Vol. 19 ›› Issue (1): 99-111.

• SYSTEMS ENGINEERING • Previous Articles     Next Articles

Combined heuristics for determining order quantity under time-varying demands

Tang Jiafu, Pan Zhendong, Gong Jun & Liu Shixin   

  1. Dept. of Systems Engineering, Key Lab of Integrated Automation of Process Industry of MOE, Northeastern Univ., Shenyang 110004, P. R. China
  • Online:2008-02-21 Published:2010-01-03

Abstract:

The time-varying demands for a certain period are often assumed to be less than the basic economic order quantity (EOQ) so that total replenishment quantity rather than economic order quantity is normally considered by most of the heuristics. This acticle focuses on a combined heuristics method for determining order quantity under generalized time-varying demands. The independent policy (IP), abnormal independent policy (AIP) and dependent policies are studied and compared. Using the concepts of normal/abnormal periods and the properties of dependent policies, a dependent policy-based heuristics (DPH) is proposed for solving the order quantity problems with a kind of time-varying demands pattern under which the first period is normal. By merging the Silver-Meal (S-M) heuristics and the dependent policy-based heuristics (DPH), a combined heuristics (DPH/S-M) is developed for solving order quantity problems with generalized time-varying demands. The experimentation shows that (1) for the problem with one normal period, no matter which position the normal period stands, the DPH/S-M could not guarantee better than the S-M heuristics, however it is superior to the S-M heuristics in the case that the demands in the abnormal periods are in descending order, and (2) The DPH/S-M is superior to the S-M heuristics for problems with more than one normal period, and the more the number of normal periods, the greater the improvements.