Design of a Mathematical Model for Production and Delivery Planning in the Supply Chain Systems.
Subject Areas : Futurology
1 - ندارد
2 - نویسنده مسئول یا طرف مکاتبه
Keywords: Kanban, Withdrawll Kanban, Production Kanban, Just–in–time System, Supply chain, Processing Time and Transporta, Deterministic Demand, Products (One – Product, Multi – Product), planning horizon, Nonlinear Programming, Integer Programming,
Abstract :
The 1980s witnessed the establishment of many new production strategies, including Just-in-timemanufacturing, Lean manufacturing, Kanban systems, and Total quality management. (TQM)These strategies have been applied by many companies to improve system management, enhance productand process quality, and reduce operating and inventory costs, in order to better compete in differentmarkets.Recently, however, the strategies have focused more on improving supply chain management to achievethese goals. Many of the advances in supply chain management can be analyzed with the aid of a computer.Computer – aided decision - support tools play a very important role in assisting and supporting decisionmakers managing a complex supply chain system.This dissertation develops a computer - aided decision - support tool: an integer linear optimization modelof a deterministic multi - item, multi - stage, multi - period, capacitated, with deterministic demandgeneralized network supply chain system. The model uses a kanban control system to plan and allocateproduction and delivery throughout the supply chain - The main objective of the model is to minimize thecost of Kanban injection, the cost of finished goods inventory, and the cost of work - in - process inventoryin the system. Practical problems of supply chain systems with associated optimal production and deliveryallocation are also presented.
