TY - JOUR
T1 - Simulation-based decision support system for economical supply chain management of rebar
AU - Polat, Gul
AU - Arditi, David
AU - Mungen, Ugur
PY - 2007
Y1 - 2007
N2 - The economics of a materials management system is defined by the size of the shipments, the scheduling strategy that allows contractors to handle uncertainty and variability in the supply chain, and the timing of the shipments, which in turn depend on the environment in which the project is taking place. This study presents a simulation-based decision support system to assist contractors in selecting the most economical rebar management system prior to the start of construction by recommending lot sizes (large, small), a scheduling strategy (optimistic, neutral, pessimistic), and buffer sizes (large, medium, small) given the conditions of the project. This model is of benefit to contractors and researchers because it generates the probable cost of inventory of 18 alternative rebar management systems ranging from just in case (JIC) to just in time (JIT) and including different variations in between. It allows contractors to select the alternative with least cost of inventory at the planning stages of a project. The simulation model was tested by using actual data obtained from a trade center project in Istanbul, Turkey. As expected, the test indicated that JIC was the most economical rebar management system in a case study conducted in a developing country, as it generated a savings of 4.8% over JIT.
AB - The economics of a materials management system is defined by the size of the shipments, the scheduling strategy that allows contractors to handle uncertainty and variability in the supply chain, and the timing of the shipments, which in turn depend on the environment in which the project is taking place. This study presents a simulation-based decision support system to assist contractors in selecting the most economical rebar management system prior to the start of construction by recommending lot sizes (large, small), a scheduling strategy (optimistic, neutral, pessimistic), and buffer sizes (large, medium, small) given the conditions of the project. This model is of benefit to contractors and researchers because it generates the probable cost of inventory of 18 alternative rebar management systems ranging from just in case (JIC) to just in time (JIT) and including different variations in between. It allows contractors to select the alternative with least cost of inventory at the planning stages of a project. The simulation model was tested by using actual data obtained from a trade center project in Istanbul, Turkey. As expected, the test indicated that JIC was the most economical rebar management system in a case study conducted in a developing country, as it generated a savings of 4.8% over JIT.
KW - Construction materials
KW - Decision support systems
KW - Simulation models
KW - Turkey
UR - http://www.scopus.com/inward/record.url?scp=33845809157&partnerID=8YFLogxK
U2 - 10.1061/(ASCE)0733-9364(2007)133:1(29)
DO - 10.1061/(ASCE)0733-9364(2007)133:1(29)
M3 - Article
AN - SCOPUS:33845809157
SN - 0733-9364
VL - 133
SP - 29
EP - 39
JO - Journal of Construction Engineering and Management - ASCE
JF - Journal of Construction Engineering and Management - ASCE
IS - 1
ER -