Open AccessA COMPARISON OF THE PUSH AND PULL PRODUCTION SYSTEMS AT THEIR OPTI MAL DESIGNS UNDER THE ECONOMIC CONSIDERATION
Author(s) -
Navee Chiadamrong,
P. Kohly
Publication year - 2017
Publication title -
asean journal on science and technology for development/asean journal on science and technology for development
Language(s) - English
Resource type - Journals
eISSN - 2224-9028
pISSN - 0217-5460
DOI - 10.29037/ajstd.168
Subject(s) - profit (economics) , production (economics) , computer science , operations research , taguchi methods , variety (cybernetics) , term (time) , production system (computer science) , constraint (computer aided design) , optimal design , outcome (game theory) , operations management , industrial engineering , risk analysis (engineering) , economics , business , microeconomics , engineering , artificial intelligence , physics , quantum mechanics , machine learning , mechanical engineering
The term “push” and “pull” have been used to explain a wide variety of production inventory systems. The distinction refers to a specific attribute, which can be identified by observing the mechanisms for controlling material flow on the shop floor and a specific policy for the management of inventories and production schedules. This paper gives an attempt to compare these systems under their optimal settings under a constraint resource. Two optimal-seeking methods (Taguchi method and Response Surface Methodology) are used to suggest the optimized design of the system under an economic term, which is the profit generated from the system. Then, a fair comparison can be made where each system is operating at its optimal design. Results from this study will reveal an in teresting outcome, letting us know the impact of the push and pull mechanisms on the systems’ operating costs as well as their profits.