Updated on 2024/03/28

写真a

 
NAKASHIMA, Kenichi
 
Affiliation
Faculty of Social Sciences, School of Social Sciences
Job title
Professor
Degree
Ph.D
博士(工学)

Research Experience

  • 2017.11
    -
    2020.11

    Beijing Jiaotong University   Adjunct Professor

  • 2018.09
    -
    2020.09

    Waseda University   Faculty of Social Sciences

  • 2018.04
    -
     

    Waseda university   School of Social Sciences   Professor

  • 2016.04
    -
    2018.03

    Kanagawa University   Senior adviser to the President

  • 2010.04
    -
    2018.03

    Kanagawa uniersity   Professor

  • 1995.04
    -
    2010.03

    Osaka Institute of Technology

  • 1998.04
    -
    1999.03

    Massatusetts Institute of Technology   Laboratory for Manufacturing and Productivity   Visiting Assistant Professor

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Committee Memberships

  • 2019.06
    -
    2021.05

    (公社)日本経営工学会  第35期 副会長

  • 2016.10
    -
    2020.11

    (一社)日本品質管理学会  代議員

  • 2020.01
    -
     

    (一財)日本科学技術連盟  デミング賞審査委員会委員

  • 2019.08
    -
     

    Journal of Intelligent Manufacturing  International Editorial Board

  • 2017.05
    -
    2019.05

    (公社)日本経営工学会  第34期理事(国際渉外担当)

  • 2017.08
    -
     

    International Foundation for Production Research  Board member

  • 2016.10
    -
     

    日本品質管理学会  代議員

  • 2013.10
    -
    2015.09

    (社)日本品質管理学会  理事

  • 2015.04
    -
     

    日本規格協会  ISO/TC69 SC4 国内委員会委員

  • 2011.05
    -
    2013.05

    日本経営工学会  第31期理事(研究担当)

  • 2012.12
    -
     

    Asia Pacific Industrial Engineering and Management Systems  Board member

  • 2007.05
    -
    2009.05

    (社)日本経営工学会  第29期理事(国際渉外担当)

  • 2003.10
    -
    2005.10

    日本学術会議(第19期・第3部)  企業行動研究連絡委員会委員

▼display all

Professional Memberships

  •  
     
     

    (公社)日本経営工学会

  •  
     
     

    THE JAPANESE SOCIETY FOR QUALITY CONTROL

  •  
     
     

    JAPAN ASSOCIATION FOR MANAGEMENT SYSTEMS

  •  
     
     

    JAPAN SOCIETY FOR INFORMATION AND MANAGEMENT

Research Areas

  • Social systems engineering   Industrial engineering / Sound material-cycle social systems   環境配慮生産

Research Interests

  • Production management system

  • Supply chain management

  • Quality management

  • Environment management system

Awards

  • 社団法人日本経営工学会平成8年度論文奨励賞〔題目:外注かんばん方式の確率的性質と最適性〕

    1997  

 

Papers

  • A Study on Quality Function Deployment and Industrial Information: Towards Digital Transformation

    M KIUCHI, K NAKASHIMA

    Journal of Japan Industrial Management Association   72 ( 4E ) 281 - 284  2022.01  [Refereed]

    Authorship:Last author

  • Optimal pricing problem for a pay-per-use system based on the Internet of Things with intertemporal demand

    Kimitoshi Sato, Kenichi Nakashima

    International Journal of Production Economics   221  2020.03  [Refereed]

  • Warranty and maintenance analysis of sensor embedded products using internet of things in industry 4.0

    Ammar Y.Alqahtani, Surendra M.Gupt, Kenichi Nakashima

    International Journal of Production Economics   208   483 - 499  2019.02  [Refereed]

  • スーパーマーケットにおける生鮮食品の最適値引き戦略に関する研究

    佐藤公俊, 中本達也, 中島健一

    日本経営工学会論文誌   69 ( 2 ) 77 - 83  2018.07  [Refereed]

  • An Optimal Policy for a Lean Supply Chain Control Problem Considering Forecast Accuracy

    K.Nakashima, T.Sornmanapong, H.Ehm, G.Yachi, K.Sato

    Journal of Japan Industrial Management Association   67 ( 2E ) 135 - 146  2016  [Refereed]

  • Parts quality-based priority policy in remanufacturing environments

    Kenichi Nakashima, Arvinder PS Loomba

    Journal of Advances in Management Research   10 ( 2 ) 162 - 175  2013.08  [Refereed]

  • A Study on Semiconductor Supply Chain Management in the Automotive Industry

    Kenichi NAKASHIMA, Thitma SORNMANAPONG

    Journal of Japan Industrial Management Association   64 ( 2E ) 284 - 292  2013  [Refereed]

  • A study on the risk management of multi Kanban system in a closed loop supply chain

    Kenichi Nakashima, Surendra M. Gupta

    INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS   139 ( 1 ) 65 - 68  2012.09  [Refereed]

     View Summary

    We present a pull system that uses a new approach to facilitate material control and scheduling in a disassembly environment and is called the multi Kanban system for disassembly (MKSD). Within the MKSD is an approach to optimize operation and mitigate supply chain risk factors as well. We also compare the performance of MKSD to its "push" counterpart. Various scenarios are explored using a case example. For the scenarios, the assumptions, input data and results are presented. The study clearly demonstrates the effectiveness of the multi Kanban system over the push system. (C) 2012 Elsevier B.V. All rights reserved.

    DOI

    Scopus

    18
    Citation
    (Scopus)
  • Enhancing value in reverse supply chains by sorting before product recovery

    Arvinder P. S. Loomba, Kenichi Nakashima

    PRODUCTION PLANNING & CONTROL   23 ( 2-3 ) 205 - 215  2012  [Refereed]

     View Summary

    Offering a well-designed reverse supply chain programme can significantly improve the ability of any organisation to differentiate itself, and even to take market share away, from its competitors. Reverse supply chain considerations should be a part of an organisation's corporate strategy. From a macro-level perspective, value propositions of reverse supply chains in for an organisation, and/or the industry in which the organisation operates, include considerations for both strategies (to reuse, repair, refurbish, remanufacture, retrieve parts or cannibalise components, recycle, scrap, redesign returned products, etc.) and effective operations (to handle and sort returns by value and ease of remanufacture) to sustain and even enhance organisational competency. In this article, we examine the role of sorting used products before disassembly for parts retrieval and remanufacturing under stochastic variability based on customer demand using a Markov decision process. We address a problem of managing costs in a remanufacturing environment with stochastically variable demand and model it for two types of used parts. Each part type is assumed to have varying quality and acquisition costs. The cost function includes manufacturing, holding and backlog costs components. We compute optimal purchase policy that maximises the expected average profit per period. Using a case example from photocopier industry, numerical analysis is performed to study the implications of various holding cost for two parts on optimal purchase policy in remanufacturing environments.

    DOI

    Scopus

    52
    Citation
    (Scopus)
  • Coping with disassembly yield uncertainty in remanufacturing using sensor embedded products

    M.A Ilgin, S.M.Gupta, K.Nakashima

    Journal of Remanufacturing    2011  [Refereed]

  • Performance evaluation of SCM in JIT environment

    Mitsutoshi Kojima, Kenichi Nakashima, Katsuhisa Ohno

    INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS   115 ( 2 ) 439 - 443  2008.10  [Refereed]

     View Summary

    Under stochastic demand and deterministic processing times, we discussed a single-stage JIT production system with the production-ordering and supplier kanbans and derived a probability generating function (p.g.f.) of the stationary distributions of the backlogged demand. In this paper, we extend the system to supply chain management (SCM) in JIT environment with two kinds of kanbans under stochastic demand, deterministic processing times and withdrawals with lead time. These conditions are more realistic than the previous papers. We develop an algorithm for the exact performance evaluation of the SCM such as the stationary distributions of the inventory level, production quantities and total backlogged demand in each stage, using discrete-time Markov process. Optimal numbers of two kinds of kanbans in the system are determined by minimizing a general total cost function. Numerical examples are given to show the efficiency of the proposed approach. (c) 2008 Elsevier B.V. All rights reserved.

    DOI

    Scopus

    30
    Citation
    (Scopus)
  • 情報システム監査におけるリスク評価手法に関する研究

    島田裕次, 中島健一, 能勢豊一

    日本情報経営学会誌   28 ( 1 ) 95 - 103  2007  [Refereed]

  • A Study on IS Auditing Process using AHP -An Approach to Audit Engineering -

    Shimada Y, Nakashima K, Nose T

      57 ( 6 ) 511 - 519  2007  [Refereed]

  • A new approach to environmental-performance evaluation

    K. Nakashima, T. Nose, S. Kuriyama

    INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH   44 ( 18-19 ) 4137 - 4143  2006.09  [Refereed]

     View Summary

    This paper proposes a new approach to environmental-performance evaluation (EPE) with consideration for multiple types of environmental management systems (EMSs) for establishing a Plan-Do-Check-Act ( PDCA) management cycle in the system. First, we summarize the background of the environmentally conscious society and manufacturing. Then, ISO14001 is explained as one of the useful approaches in realizing the environmental conscious management system. Finally, we suggest the new approach to EPE using data-envelop analysis (DEA). In this approach, we determine the input and output factors to obtain the performances of each EMS and compare the performances of the same type of companies using DEA. The result is used as information to maintain the continuous improvement in the system.

    DOI

    Scopus

    17
    Citation
    (Scopus)
  • Markov Analysis of an Environmental Conscious Manufacturing System with Stochastic Variability

    K.Nakashima

    International Journal of Global Logistics & Supply Chain   1 ( 1 ) 17 - 24  2006  [Refereed]

  • ISO9000sの有効活用による品質経営情報の体系化に関する研究

    金子浩一, 中島健一, 能勢豊一

      26 ( 4 ) 90 - 96  2006  [Refereed]

  • Performance Evaluation of a Remanufacturing System with Consideration for Remanufacturing Opportunities

    Arimitsu H, Nakashima K, Nose T, Kuriyama S

    International Journal of Operations and Quantitative Management Vol.11, No.2,   11 ( 2 ) 115 - 128  2005  [Refereed]

  • Integration of ISO9000S and TQM-Strategic proactive management by means of ISO9000S

    Kaneko K, Nakashima K, Nose T

    An International Journal Asia Pacific Management Review   10 ( 2 ) 113 - 123  2005  [Refereed]

  • Optimal control of a remanufacturing system

    K Nakashima, H Arimitsu, T Nose, S Kuriyama

    INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH   42 ( 17 ) 3619 - 3625  2004.09  [Refereed]

     View Summary

    An optimal control problem of a remanufacturing system under stochastic demand is studied. The system is formulated by a Markov decision process, which is a class of stochastic sequential processes in which the reward and transition probability depend only on the current state of the system and the current action. The models have gained recognition in such diverse fields as engineering, economics, communications, etc. Each model consists of states, actions, rewards and transition probabilities. The paper considers two types of inventories: the actual product inventory in a factory and the virtual inventory used by a customer. The state of the remanufacturing system is defined by both inventory levels. One can obtain the optimal production policy that minimizes the expected average cost per period. The paper also considers some scenarios under various conditions and shows the example of controlling the remanufacturing system.

    DOI

    Scopus

    81
    Citation
    (Scopus)
  • 循環型生産システムの最適政策に関する研究

    有光大幸, 中島健一, 能勢豊一, 栗山仙之助

    日本経営工学会論文誌(有光氏が平成16年度論文奨励賞受賞)Vol. 55, No. 3,   55 ( 3 ) 139 - 144  2004  [Refereed]

  • Cost analysis of a remanufacturing system

    Nakashima K, Arimitsu H, Nose T, Kuriyama S

    An International Journal Asia Pacific Management Review Vol.9, No.4,   9 ( 4 ) 595 - 602  2004  [Refereed]

  • 循環型生産システムにおけるコスト要因分析

    有光大幸, 中島健一, 能勢豊一, 栗山仙之助

    Office Automation   25 ( 1 ) 88 - 94  2004  [Refereed]

     View Summary

    Industry has mass-produced and consumed resources to optimize only by the criteria of economical efficiencies. Most products are produced without any environmental considerations being enough. Exhaustion of resources happened with mass production, so that waste sites are overflowing. In this paper, we summarize the actions of the manufacturing industry in the Recycling-based Society. We develop a remanufacturing system in which the products are collected from the customers. In this paper, we calculate the average cost per period. We investigate cost factors using design of experiment and discuss their effects on the remanufactoring system.

    CiNii

  • 循環型生産システムに関する研究

    有光大幸, 中島健一, 能勢豊一, 栗山仙之助

        19 - 25  2003  [Refereed]

  • Performance Evaluation of a Supplier Management System with Stochastic Variability

    Nakashima K, Gupta S. M

    International Journal of Manufacturing Technology and Management   5 ( 1/2 ) 28 - 37  2003  [Refereed]

    DOI CiNii

  • A Study on the Effects of Advertisement through the Internet

    Fujita H, Nakashima K, Nose T, Kuriyama S, Kubo S

    International Journal of Manufacturing Technology and Management   5 ( 1/2 ) 62 - 70  2003  [Refereed]

  • Analysis of a product recovery system

    K Nakashima, H Arimitsu, T Nose, S Kuriyama

    INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH   40 ( 15 ) 3849 - 3856  2002.10  [Refereed]

     View Summary

    The continuous growth in consumer waste in recent years has seriously threatened the environment. Environmentally conscious manufacturing and product recovery has become an obligation to the environment and to society. Many countries are contemplating regulations that force manufacturers to take back used products from consumers so that the components and materials retrieved from the products may be reused and/or recycled. We focus on a product recovery system in a remanufacturing system. Product recovery aims to minimize the amount of waste sent to landfills by recovering materials and parts from old or outdated products by means of recycling and remanufacturing. It should be considered when designing and managing the manufacturing systems. We propose a new analytical approach to evaluating the product recovery system with stochastic variability. This model applies the traditional inventory theory to the production/ inventory management with consideration for disposal and return. The system is formulated by a discrete time Markov chain. It is composed of the states denoted by the number of the inventory, the transition probabilities between states and the costs associated with the transitions. Using the Markov analysis, we can calculate the total expected average cost per period exactly. Numerical examples are given to show the property of the management system and optimize the product recovery system.

    DOI

    Scopus

    44
    Citation
    (Scopus)
  • Allocating kanbans for a production system in a general configuration with a new control strategy

    XB Zhao, K Nakashima, ZG Zhang

    IEEE TRANSACTIONS ON SYSTEMS MAN AND CYBERNETICS PART A-SYSTEMS AND HUMANS   32 ( 3 ) 446 - 452  2002.05  [Refereed]

     View Summary

    We consider a production system in a general cofifiguration with a new control strategy: the push policy for the part sending and the kanban mechanism for the work-in-process (WIP). The production system is composed of many stations (or workshops) such as an entry station, a set of workstations, a central station, and an exit station. This type of system is modeled as an open queueing network (OQN) in a general configuration with a Markov-type part sending policy and a machine no blocking (MNB) mechanism. The most important performance measures of the production system are the total throughput of the workstations and the total blocking flow of blocked parts sent from the workstations to the central station. This paper discusses an optimization problem with multiple objectives: allocate kanbans to the workstations so as to simultaneously maximize the total throughput and minimize the total blocking flow. Based on a semi-open decomposition approach, several useful properties of the system are characterized. These properties are used to develop a marginal algorithm for the optimization problem. Moreover, a dynamic simulation approach is devised as a tool for evaluating the quality of the solutions obtained by the algorithm. Numerical experiments are provided demonstrate the efficiency of the algorithm through the simulation approach.

    DOI

    Scopus

    3
    Citation
    (Scopus)
  • Analysis of a production system in a general configuration

    XB Zhao, QG Gong, K Nakashima

    NAVAL RESEARCH LOGISTICS   48 ( 2 ) 128 - 143  2001.03  [Refereed]

     View Summary

    We consider a production system comprising multiple stations (or workshops) such as an entry station, a set of work stations, a central station, and an exit station, which are arranged in a general configuration. A worker (or a vehicle tool) is assigned to each station, who sends a part from the station to the destination station according to the required process path of the part. Any part is allowed to visit a work station more than once if its process path requires. We propose a new control strategy with the push policy for instructing each worker to send a part and the kanban mechanism for controlling the work-in-process (WIP) in each work station. As all work stations have limited local buffers, the central station is used for storing blocked parts temporarily. Such a production system is modeled as an open queueing network in a general configuration with a Markovian part sending policy and a machine no blocking mechanism. The queueing network is analytically characterized. Some important performance measures are compared with other control strategies. A semi-open decomposition approach is applied to the queueing network for computing the blocking probabilities when parts arrive at the work stations. An algorithm is developed based on the semi-open decomposition approach. Numerical experiments show the quality of the solutions obtained by the algorithm as well as a property of a performance measure. (C) 2001 John Wiley & Sons, Inc.

  • 顧客満足を考慮したセット販売計画に関する研究

    小川淳, 中島健一, 能勢豊一, 栗山仙之助

    日本経営システム学会誌   18 ( 1 ) 59 - 64  2001  [Refereed]

    CiNii

  • ユーザの満足度を考慮したウェブページの要因分析と設計

    藤田弘典, 能勢豊一, 栗山仙之助, 中島健一

    オフィス・オートメーション   22 ( 1 ) 110 - 117  2001  [Refereed]

  • An optimal part sending policy for a production system in a general configuration with a new control strategy

    XB Zhao, K Nakashima

    IEEE TRANSACTIONS ON SYSTEMS MAN AND CYBERNETICS PART A-SYSTEMS AND HUMANS   30 ( 2 ) 159 - 165  2000.03  [Refereed]

     View Summary

    We consider a production system in a general configuration with a new control strategy: the push mechanism for the part transport and the kanban technique for the work-in-process (WIP). The production system is composed of many stations such as an entrance station, a set of work stations, a central station, and an exit station, that are arranged in a general configuration. The push mechanism is followed for transporting a part from a station to a destination station. The kanban technique is adopted for controlling the WIP in a work station. The production system is modeled by a closed queuing network in a general configuration with a Markov part sending mechanism and a machine no blocking (MNB) technique. An optimal part sending policy that maximizes the expected system throughput is formulated into a long run average semi-Markov decision process. Three solution approaches are developed for obtaining optimal or suboptimal solutions. Numerical examples are given to evaluate the quality of the solutions obtained by the solution approaches.

  • Performance evaluation of a multi-stage JIT production system by decomposition technique

    OHNO K.

    Journal of Decision Systems   9 ( 1 ) 25 - 39  2000  [Refereed]

    CiNii

  • A design for a management information system with consideration for stochastic variability

    K Nakashima

    INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS   60-1   171 - 176  1999.04

     View Summary

    A management information system (MIS) is one of the important systems to control materials and information harmoniously. The previous design approaches dealt with it qualitatively. Therefore, it was impossible to smooth the office works in the management system. In this paper, we design the MIS using a stochastic Petri net (SPN). First, we describe a typical MIS and explain the concept of SPN. Next, we construct the MIS as the SPN model and obtain the total expected sojourn time of documents in each section. Finally, we propose the design for the MIS with consideration for the smoothing of the office works. (C) 1999 Elsevier Science B.V. All rights reserved.

  • 統合化オブジェクト指向システム分析・設計に関する研究

    日本経営システム学会誌Vol.15, No.2     51 - 56  1999  [Refereed]

  • Performance Evaluation of a JIT Production System

    Advances in Production Management Systems(Selected paper) Chapman & Hall     315 - 326  1998  [Refereed]

  • 外注かんばん方式の確率的性質と最適性

    中島健一, 大野勝久

    日本経営工学会誌(平成8年度論文奨励賞受賞)   47 ( 2 ) 100 - 106  1996  [Refereed]

  • OPTIMAL NUMBERS OF 2 KINDS OF KANBANS IN A JIT PRODUCTION SYSTEM

    K OHNO, K NAKASHIMA, M KOJIMA

    INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH   33 ( 5 ) 1387 - 1401  1995.05  [Refereed]

     View Summary

    The production-ordering and withdrawal kanbans are used in a Just-in-Time (JIT) production system. In particular, a withdrawal kanban used for a vendor is called a supplier kanban. This paper deals with the JIT production system with the production-ordering and supplier kanbans under stochastic demand. A necessary and sufficient condition, called a stability condition, is derived under which the JIT production system has a stationary distribution of the backlogged demand. An algorithm is devised for determining optimal numbers of two kinds of kanbans that minimize an expected average cost per period. In other words, it determines optimal values of the safety stocks included in the popular formulas for computing the numbers of kanbans. Numerical results are given to show its efficiency.

  • Optimality of a Just-in-Time production system

    K.NAKASHIMA, K.Ohno

    Proceedings of Asian-Pacific Operational Research Societies '94 (selected paper)World Scientific     390 - 398  1995  [Refereed]

  • JIT生産システムにおける引き取り周期を考慮した外注かんばん枚数の最適化

    大野勝久, 小島貢利, 松本雅人, 中島健一

    日本経営工学会誌   45 ( 6 ) 505 - 513  1995  [Refereed]

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Books and Other Publications

  • モノづくりマネジメント入門

    中島 健一( Part: Sole author)

    日科技連出版社  2020.04 ISBN: 9784817196972

  • Responsible Manufacturing: Issues pertaining to sustainability

    Ammar Y. Alqahtani, Surendra M. Gupta, Kenichi Nakashima( Part: Joint author)

    CRC Press Taylor & Francis Group  2019.03

  • 科学的先手管理入門-工程戦略・戦術の考え方とその導入―

    金子浩一, 中島健一( Part: Joint author)

    日科技連出版  2015.11

  • Modeling Supplier Selection in Reverse Supply Chains, Reverse Supply Chains: Issues and Analysis (Edited by Surendra M. Gupta

    Kenichi Nakashima, Prof. Gupta( Part: Joint author, pp. 113-124)

    CRC Press Taylor & Francis Group  2013.01

  • 新編生産管理システム

    中島 健一( Part: Joint author)

    朝倉書店  2012

  • 淀川学 持続可能な社会と技術者 改訂版

    常勝学園 大阪工業大学  2009

  • アジアの経済発展と環境問題ー 社会科学からの展望

    明石書店  2009

  • Environment Conscious Manufacturing

    CRC Press Taylor& Francis Group  2008

  • サプライチェーンハンドブック

    朝倉書店  2008

  • サプライチェーンマネジメント入門-QCDE戦略と手法-

    朝倉書店  2008

  • Environment Conscious Manufacturing

    CRC Press Taylor& Francis Group  2008

  • ジャストインタイム生産システム

    日刊工業新聞社  2004

  • 生産管理大辞典

    朝倉書店  2004

  • 生産管理システム

    朝倉書店  2002

  • 生産管理用語辞典

    日本規格協会  2002

  • OR事典2000

    (社)日本オペレーションズ・リサーチ学会 編  2000

  • 生産管理ハンドブック

    日刊工業新聞社  1999

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Presentations

  • <招待講演>Optimization of Production and Distribution Systems with Stochastic Variability

    国立大学法人東京工業大学 大岡山キャンパス 

    Presentation date: 2005

  • <招待講演>循環型社会と企業経営

    国立大学法人東北大学 川内キャンパス 

    Presentation date: 2006

  • <招待講演>Environmental Management Systems for the Sustainable Development

    中国浙江省寧波市寧波開元大酒店 

    Presentation date: 2008

  • <招待講演>農業分野のJITは可能か?-工業分野のジャストインタイム(JIT)生産システムの基礎を学ぼう-

    国立大学法人東京大学 本郷キャンパス 

    Presentation date: 2008

  • <招待講演>JIT生産システムの基礎概念

    長春大学(中国長春市) 

    Presentation date: 2009

  • Data-based global supply chain management: from the perspective of manufacturing industries

    Kenichi NAKASHIMA  [Invited]

    Supply Chain Resilience and Digital Transformation 

    Presentation date: 2021.09

    Event date:
    2021.09
     
     
  • Session 2: Shaping global digital governance: multilateralism and third-party cooperation (Panel)

    Kenichi NAKASHIMA  [Invited]

    Envisioning a future EU-Japan digital partnership: A stepping stone towards greater influence in the digital transition? (Webinar) 

    Presentation date: 2022.02

    Event date:
    2022.02
     
     

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Research Projects

  • 超スマート社会における環境配慮型サプライチェー ン・マネジメントに関する研究

    科学研究費 基盤(C) 

    Project Year :

    2020.04
    -
    2024.03
     

    中島健一

     View Summary

    本研究では、日本的ものづくりの強みであったQ(品質)、C(コスト)、D(納期)を複合的な性能評価指標とする現場力向上マネジメントシステムを基礎に、持続可能な経済発展を目指すために環境を配慮したサプライチェーン・マネジメントシステム(SCM)の構築を目指す。ここではジャストインタイム生産システムにSociety5.0のサイバーフィジカルシステムを融合させ、IoT(Internet of Things)を駆使したデータ中心の生産・物流マネジメントシステムの提案を行う。さらに、持続可能な環境配慮型グローバル・サプライチェーンマネジメントモデルの提案を行い、SDGsを目指す国際社会への貢献を目指す

  • サ-ビスプロトタイプのデータ基盤構築及び概念実証

    戦略的イノベーション創造プログラム(SIP)スマート物流サービス 

    Project Year :

    2019
    -
    2020
     

    中島健一(支援研究者)

  • A Research on Methodologies and System Development for Supply Chain Disruption Risk Management

    Project Year :

    2013.04
    -
    2018.03
     

     View Summary

    In this research we constructed a new supply chain disruption risk management system which consists of with four methodologies and one platform. Four methodologies are (1) the risk analysis and risk structure model, (2) the resilience analysis and associated structure model, (3) the robust supply network design model, and (4) the supply chain safety stock calculation and dynamic allocation model. One platform is the supply chain visualization system which enable data collection and value added information generation utilizing the four methodologies. Over hundred research achievements are published on journals and conference proceedings, while we distributed our research achievement to society through international conference, domestic conference, symposium, keio-techno-mall (exhibition), open lecture, and forum. We will develop an extended platform, the integrated supply chain visualization system for applying the methodologies to real business in the future

  • Investigation of product remanufacturing businesses and development of a market diffusion simulator

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research

    Project Year :

    2012.04
    -
    2015.03
     

    MATSUMOTO Mitsutaka, NAKASHIMA Kenichi, YAMADA Tetsuo, FUKUSHIGE Shinichi

     View Summary

    Product remanufacturing is effective for energy saving, material saving, and fostering material circulation of product manufacturing. While in many developed countries such as in the US and European countries, remanufacturing has been promoted actively by industries, academia, and the governments, the practices in Japan are relatively undeveloped. In this study, we investigated the status quo of remanufacturing practices in Japan and in other countries, and addressed the requrements for remanufacturing to be successful in the market. Based on the insights on the requirements, a simulation model for remanufactured product markets was developed. In addition, a product life cycle model to estimate the future demands for remanufactured products by referring to the time series sales data was developed. The model was applied to data of an auto parts remanufacturing company, and the effectivenss of the model was investigated.

  • Just in time innovation for problem solving in the global era

    Project Year :

    2011.04
    -
    2015.03
     

  • Research of Environment-conscious Manufacturing System in China's automobile Industry

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research

    Project Year :

    2010.04
    -
    2013.03
     

    FANG Suchun, NAKASHIMA Kenichi

     View Summary

    The aim of the research was to carry out a field survey of the auto industry within China. We visited major national and privately owned companies such as Changchun Fist Automobile and Geely Automobile and proceeded with the interview survey to gather information in order to understand the present situation of local auto industries. From the knowledge gained by the recent investigation and research we have introduced the Japan environment-conscious manufacturing system including, from the perspective of management engineering, the JIT system to the parties concerned. In addition, we also collaborated in research and attended special lectures and meetings at several local Universities and put forward proposals for the environment-conscious manufacturing system.

  • A study on environmental conscious global management system for sustainability

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research

    Project Year :

    2007.04
    -
    2010.03
     

    NAKASHIMA Kenichi

     View Summary

    This study proposes new environment conscious manufacturing systems which save energy and resources in a global society. The systems are investigated with consideration for environmental and economic issues in the management and/or the production systems. Optimal control and the related problems are solved by the systems modeling and optimization with uncertainty, Quality management and Operations research approaches based on the Industrial engineering and management.

  • 循環型経営システムの構築とその最適管理に関する研究

    科学研究費 基盤(C) 

    Project Year :

    2004.04
    -
    2007.03
     

    中島健一

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Syllabus

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Teaching Experience

  • Production systems, Quality management

    Waseda University  

    2021.04
    -
    Now
     

  • Global supply chain management, Informatics

    Waseda University  

    2018.04
    -
    Now
     

  • Quality management, Production system engineering

    Kanagawa University  

    2012.04
    -
    2018.03
     

  • カイゼン基礎工学

    神奈川大学  

    2010.04
    -
    2012.03
     

  • Production system

    Osaka Institute of Technology  

    1996.04
    -
    2010.03
     

 

Social Activities

  • 茅ヶ崎市LED防犯灯ESCO事業企画提案者選考会議アドバイザー

    茅ヶ崎市 

    2016.06
    -
    2016.07

  • 鎌倉市防犯灯LED化事業契約審査委員会委員

    鎌倉市 

    2015.04
    -
    2015.05

Internal Special Research Projects

  • ICTを活用した最適在庫マネジメントシステムに関する研究

    2021  

     View Summary

     生産物流システム分野においては,ICT(情報通信技術)を活用した在庫管理・作業管理・品質管理の効率化が進められ,従来の管理技術に基づく改善活動に加え,SDGsを考慮した取り組みが求められている.本研究ではこれまでモノづくりの実践的分野において成果をあげてきた管理手法を基礎として,ICTを活用した在庫マネジメント及びそれに関連した品質・作業マネジメントの検討を行った.ここでは,生産物流システムにおいて重要な役割を果たす在庫及びその品質管理に関して従来のTQM(総合的品質管理)等をもとに,持続可能な工程管理のためのモデルについての提案を行った.

  • 日本型スマートファクトリーの構築と最適運用

    2019  

     View Summary

     我が国が進めるSociety5.0においては、ITに基づく「生産性革新」や「持続可能な社会の構築」に向け、産業界をはじめとしてあらゆる分野でその実現を目指した取り組みが行われている。そのような背景のもと、本研究課題においては、今後到来するスマート社会において、従来型のモノづくりシステムをブレークスルーするための新たなスマートファクトリーモデルの構築と最適運用方策の提案を行った。従来型のモノづくりやサービス、付加価値創出プロセスにおいて業務改革とITの活用を結びつけ、経営における需要の不確実性等を考慮した一般化モデルを提案し、データに基づいた新たなビジネスモデルの検討を行った。

  • IoT時代におけるスマート生産・物流システムに関する研究

    2018  

     View Summary

     近年IoT (Internet of Things)を活用した生産・物流システムにおける効率化が注目を浴びている.本研究課題では, IoTを活用した新たな生産・物流システムの構築について提案を行った.ここでは,与えられた生産計画のもとで,安全在庫量,計画達成生産量等のデータを用いて,限られた保全作業員のもと,IoTに基づく故障情報等の活用により,設備修復優先順位付け問題のモデル化を行った.具体的には,要求される生産計画達成基準のもとで,安全在庫量を意思決定の判断基準に含め,保全作業員の最適割当問題において,AHP(階層化意思決定)法をダイナミックに適用することにより,従来ルールよりも優れた設備修復順序を示した.

  • Society5.0時代の次世代KAIZENマネジメントに関する研究

    2018  

     View Summary

     本研究では、日本的ものづくりの強みであったQuality(品質)、Cost(コスト)、Delivery(納期・リードタイム)管理を複合的なKPI(Key Performance Index)としてとらえ,Plan-Do-Check-Act (PDCA)サイクルに基づいた現場力向上アプローチを基礎に、持続可能社会構築を目指し,グリーン・イノベーションを取り入れた次世代型生産・物流システムの構築を行った。提案モデルでは,製品ライフサイクル終了後に製品を回収,再生産するモデルの構築を行い,平均コストを最小化する最適再生産・発注政策を示した.