author Young-woo Kim 
2nd author Gyusun Hwang, Jinwoo Park 
presenter Young-woo Kim 
info 5th annual world conference of the society for industrial and systems engineering 
year 2016 
category IC 
start / end date 2016.10.13 / 2016.10.14 
city / nation San Francisco Bay Area / USA 
학회 SISE 
keywords information visibility; product lifecycle management; closed-loop supply chain management 
abstract Efficient operation of a closed-loop supply chain should be supported by reasonably good forward and reverse processes. However there exists the chronic problem of uncertainty about returned end-of-life products with regard to timing, quality and quantity, which hinders the efficient operation of closed-loop supply chain. The problems could be solved if we have visibility of physical flow of returned products and its quality by using the Internet-of-Things (IoT) technology. It enables information sharing among all entities in the supply chain and enables us to grasp the actual condition of the returned products accurately. Also information visibility gives chance to improve the process for disassembly and product disposition to minimize cost of the total system. First, we develop a mathematical model of a closed-loop supply chain within the IoT-based information sharing environment consisting of a supplier, a manufacturer, and a reprocessing facility in 3 different markets, namely new products, remanufactured and spare parts. Next we address a multi-period production planning model for multiple products consisting of multiple components with the objective of minimizing the sum of all incurred costs from the standpoint of a manufacturer. We also analyze the behavioral characteristics of the model and conduct experiments to justify the proposed scheme. 

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번호 category 학회 제목 author presenter year
95 IC  ICIMSA  Internet of Things-Enabled Supply Chain Performance Measurement Model file Abdallah J. Dweekat  Abdallah J. Dweekat  2016 
94 IC  ICPR  Business Process Modeling for developing a performance measurement system using the Internet of Things file Gyusun Hwang  Jinwoo Park  2015 
93 IC  CIE  A batch splitting heuristic for dynamic job shop scheduling problem Hanil Jeong    1996 
92 IC  CIE  A decision support model for the initial design of FMS Hosub Shin    1996 
91 IC  ICARCV  A Discrete Control Approach to Robotic Cell Operating System Design Jonghun Park    1996 
90 IC  PCM  An Intelligent Batch Splitting method for Schedule Improvement in MRP Environment Hanil Jeong    1996 
89 IC  PCM  FMS Scheduling Strategies in a Distributed Coordination Environment Jonghun Park    1996 
88 IC  ICPR  A Study on FMS Scheduling Problems Based on Priority Functions Generated by Genetic Programming ChangUk Kim    1997 
87 IC  ICPR  A Scheduling Algorithm considering Subcontract cost in MRP Environment Kichang Lee    1997 
86 IC  IFAC on IMS  A Weighted Load Balancing Heuristic that Minimizes Makespan in Alternative Routing and Machine Environment Kidong Kim    1997 
85 IC  APIEMS  An Integrated Approach for Loading and Scheduling of a Flexible Manufactureing System Sangbok Woo    1999 
84 IC  APIEMS  A Study on Developing a Scheduling System in Alternative Routing and Machine Environment Kidong Kim    1999 
83 IC  IW on IMS  Maximally permissive adaptive control of an automated manufacturing cell Sangkyun Kim    1999 
82 IC  ICPR  An Algrorithm for Job Shop Scheduling Problem with Due Date Constraints Considering Operation Subcontract Daeyoung Chung    2000 
81 IC  INFORMS-KORMS  Hybrid Algorithms in Integrated Quality Design & Scheduling Jonghan Kim    2000 
80 IC  INFORMS-KORMS  Development of capacitated event-driven MRP components using object oriented method Seunghyun Yoon    2000 
79 IC  PAIS  Knowledge Acquisition using Neural Network and Simulator Kitae Shin    2001 
78 IC  SeoulSim  Design for a Hybrid System of Integration Kanban with MRPII Taeyoung Song    2001 
77 IC  GECCO  A Study on the Resource Allocation Planning for Automated Container Terminals Yangja Jang    2001 
76 IC  ICPR  Development of a Decision Support System for the formulation of Manufacturing Kichang Lee    2001