物流工程硕士论文参考文献一
[1] JACK GAJ, VAN DER VORST, ADRIE JM BEULENS. Modelling andsimulating multi-echelon food systems [J].European Journal ofOperational Research, 2000, 122(2): 354-366.
[2] EJACK CHEN, YOUNG M LEE, PAUL L SELIKSON. A simulationstudy of logistics activities in a chemical plant [J].Simulation ModellingPractice and Theory, 2002, 10(3-4): 235-245.
[3] MARCO A DRUAN, LIFEI CHENG. Logistics for world-wide crude oiltransportation using discrete event simulation and optimal control[J].Computers & Chemical Engineering, 2004, 28(6-7): 897-911.
[4] ANA PAULA IANNONI, REINALDO MORABITO. A discrete simulationanalysis of a logistics supply system [J].Transportation R Research Part E:Logistics and Transportation Review,2006, 42(4): 191-210.
[5] AOYAMA YUKO. Modeling the Impact of Business-to-BusinessElectronic Commerce on the Organization of the Logistics Industry[J].Geographical Analysis, 2005, 37(1): 46-68.
[6] CHEN PING, FU ZHAO HUI. Research of Port Warehouse Optimizing inSingapore [J]. IEEE Transactions on Automation Science and Engineering,2004, 7(7): 26-27.
[7] PETERSEN, CHARLES G. Improving order-picking performance throughthe implementation of class-based storage [J].International Journal ofPhysical Distribution & Logistics Management, 2004, 34(7): 534-544.
[8] JIUN-YAN SHIAU, MING-CHANG LEE. A Warehouse ManagementSystem with Sequential Picking for Multi-container Deliveries [J].Computers & Industrial Engineering, 2010, 58(3): 382-392.
[9] SHIVA MIRSHAHI, SENER UYSAL. Integration of RFID and WSN forSupply Chain Intelligence System [J]. International Conference, 2013,27(29): 1-6.
[10] POON TC, CHOY KL, HARRY KH, CHOW. A RFID Case-basedLogistics Resource Management System for Managing Order-pickingOperations in Warehouses [J]. Expert Systems with Applications, 2009,36(4): 8277-8301.
[11] FEI CHENG, SHANJUN HE. How to Construct an Automated WarehouseBased on Colored Timed Petri Nets. Innovations in Computing Sciencesand Software Engineering [J], 2010, 38(3): 227-233.
[12] JAEWOO CHUNG, JOSE MA, TANCHOCO. Material HandlingAutomation in Production and Warehouse Systems [J]. Springer BerlinHeidelberg, 2009, 55(7): 961-979.
[13] RENE DE KOSTER, THO LE-DUC, KEES JAN ROODBERGEN. Designand Control of Warehouse Order Picking: A Literature Review [J].European Journal of Operational Research, 2007, 182(2): 481-501.
[14] MATSON JO, WHITE JA. Operational Research and Material Handling[J]. European Journal of Operational Research, 1982, 11(4): 309-318.
[15] KUSIAK A. Material Handling in Flexible Manufacturing Systems [J].Material Flow, 1985, 11(2): 79-95.
[16] JOHNSON ME, BRANDEAU ML. Stochastic Modeling for AutomatedMaterial Handling System Design and Control [J]. Transportation Science,1996, 30(4): 330-350.
[17] MANDA BS, PALEKAR US. Recent Advances in the Design and Analysisof Material Handling Systems [J]. Journal of Manufacturing Science andEngineering, 1997, 119(4): 841-848.
[18] HERBERT SB. Method Used to Salvage Warehouse Subjected to SevereSettlement and Practice [J]. Periodical Structure and Construction, 1997,2(3): 131-136.
[19] CHUN CHEN LEE. Two-warehouse Inventory Model with Deteriorationunder FIFO Dispatching Policy [J]. European Journal of OperationalResearch, 2006, 174(2): 861-873.
[20] 陈柳钦. 物联网:国内外发展动态及亟待解决的关键问题 [J]. 决策咨询通讯, 2010, (5): 15-25.
[21] 黄银娣, 卞荣花, 张骏. 国内外物流系统仿真软件的应用研究 [J]. 工业工程与管理, 2010, 15(3): 124-128.
[22] BAFNA KM, REED JRR. An Analytical Approach to Design of High-riseStacker Crane Warehouse Systems [J]. Journal of Industrial Engineering,1972, (8): 8-14.
[23] ARI-PEKKA HAMERI, ANTTI PAATELA. Multidimensional Simulationas a Tool for Strategic Logistics Planning [J]. Computers in Industry, 1995,27(3): 273-285.
[24] TOWILL DR, ADEL VECCHIO. The Application of Filter Theory to theStudy of Supply Chain Dynamics [J]. Production Planning and Control,1994, 5(1): 82-96.
[25] ANA PAULA IANNONI, REINALDO MORABITO. A DiscreteSimulation Analysis of a Logistics Supply System [J]. TransportationResearch Part E: Logistics and Transportation Review, 2006, 42(3):191-210.
[26] ROSENBLATT MJ, ROLL Y. Warehouse Design with Storage PolicyConsiderations [J].IIE Transactions, 1984, 22(5): 178-185.
[27] JIE WEI, STEPHEN CHLEUNG. A Simulation Modeling and Analysis forRFID-enabled Mixed-product Loading Strategy for Outbound Logistics: ACase Study [J]. Computers & Industrial Engineering, 2011, 61(1):209-215.
[28] PETER NYHUIS, GREGOR VON CIEMINSKI, ANDREAS FISCHER.Applying Simulation and Analytical Models for Logistic PerformancePrediction [J]. CIRP Annals-Manufacturing Technology, 2005, 54(1):417-422.
[29] 李忠成. 智能仓储物联网的设计与实现 [J]. 计算机系统应用, 2011,20(7): 11-15.
[30] 赵国智, 王喜富, 张仲义. 铁路物流企业仓储及配送管理系统分析及系统设计研究 [J]. 物流技术, 2008, (9): 107-110.
[31] 姜世伟, 项前, 吕志军. 基于 SOA 的自动化立体仓库管理系统实现 [J].计算机工程与设计, 2011, 32(12): 4044-4047.
[32] 倪会娟, 罗继亮. 采用普通 Petri 网的自动化立体仓库系统的 PLC 程序设计 [J]. 华侨大学学报(自然科学版), 2014, 35(2): 146-150.
[33] 丁希辰, 吴竹筠, 王怡婷等. 基于最高响应比法和匈牙利算法的调度系统在流水线、仓储系统中的应用研究 [J]. 工业控制计算机, 2012,25(12): 106-107,110.
[34] 李宝顺. 基于遗传算法的自动仓储系统的优化 [D]. 山东: 山东科技大学, 2004: 17-26.
[35] 邵琳. 自动化立体仓库系统设计优化研究 [D]. 大连: 大连海事大学,2005: 11-46.
[36] 刘永瑞, 闫军. 基于 Petri 网的原材料库存中心的建模与仿真 [J]. 企业技术开发, 2014, 33(1): 13-15, 56.
[37] 欧剑, 闵杰. 需求随机依赖库存环境下的订货仿真优化模型 [J]. 计算机工程与应用, 2014, 50(9): 231-236.
[38] 杨文强, 邓丽, 牛群等. 针对库区分配优化问题的改进型细菌觅食算法 [J]. 计算机集成制造系统, 2014, 20(7): 1684-1690.
[39] 陈伊菲, 左生龙, 孟翔峰. 基于无线技术的仓储拣选作业流程再造方案分析 [J]. 物流技术, 2005, (10): 259-266.
[40] 刘大平. 物流自动化存取过程中的交互控制 [D]. 武汉: 武汉理工大学, 2005: 22-42.
物流工程硕士论文参考文献二
[1] 吴会杰,李菁.我国仓储行业发展的现状、原因及对策分析—以发达国家仓储行业发展为例[J].对外经贸实务,2011,(8):81-84.
[2] 王洋,邵彦慧,王永涛.我国仓储业的走向—第三方仓储管理[J].商场现代化,2010,15(5):19-20.
[3] FABER N. Linking warehouse complexity to warehouse planning and controlstructure: An exploratory study of the use of warehouse managementinformation systems [J]. International Journal of Physical Distribution &Logistics Management, 2002, 32(5): 381-395.
[4] KARKKAINEN. Increasing efficiency in the supply chain for short lifegoods using RFID tagging [J]. International Journal of Retails &Distribution Management, 2003, 31(10): 529-536.
[5] BOEWN T. Slotting optimization for railway freight yard based on geneticalgorithm[C].ICLEM 2010:Logistics for Sustained EconomicDevelopment-Infrastructure, Integration-Proceedings of the 2010International Conference of Logistics Engineering and Management, 2010,(387): 3328-3235.
[6] 中国仓储协会秘书处.2010 年中国仓储行业发展综合报告,物流工程与管理[J].2010,(6):1-6.
[7] 卫三军.自动化立体仓库作业优化与监控技术研究[D].东北大学,2007:10-22.
[8] 郑克磊,郑克俊,倪志敏.浅谈我国现代仓储业存在问题及发展对策[J].物流科技,2009,(02):12-14.
[9] VAN DEN BERG J P, ZIJM WHM. Models for warehouse management:Classification and examples [J]. International Journal of ProductionEconomics, 1999, 21(1): 201-215.
[10] MALMBORG C J. An integrated storage system evaluation model [J].Journal of Applied Mathematics, 1996, 12(8): 175-195.
[11] PETERSEN, CHARLES.G. Improving order-picking performance throughthe implementation of class-based storage [J]. International Journal ofPhysical Distribution & Logistics Management, 2004,(11): 87-95.
[12] HSIEH S, TSAI K C. A BOM oriented class-based storage assignment inautomated storage/retrieval systems [J]. J Adv Manu Techno, 2001, 9(17):38-46.
[13] BYUNG C P, ROBERT D. F, EDWARD E. Performance of system withtwo-class storage [J]. European Journal of Operation Research, 2006, 170(1):180-192.
[14] PIUS J. EMBOLUS. Framework for dynamic positioning ofstorage/retrieval system machines in an automated storage/retrieval system[J]. International Journal of Production Research, 1991, 29(1): 55-67.
[15] THONEMANN U W, BRANDEAU M L. Optimal storage assignmentpolicies for automated storage and retrieval systems with stochastic demands[J]. Management Science, 1998, 41(1): 74-85.
[16] CHULUNG LEE, HUEI CHUEN HUANG, PAUL GOLDSMAN, BIN LIU,ZHIYONG XU. Reservation storage policy for AS/RS at Air cargo terminals[J]. Proceedings of the 2005 Winter Simulation Conference, 2005,(11):56-67.
[17] 李诗珍,陈渔,帅玉妹.立体仓库自动存取系统的作业周期与货位分区管理[J].起重运输机械,2002,10(1):8-10.
[18] 卞美琳.货位优化管理[J].物流技术,2004,21(7):22-24.
[19] 刘金平,周炳海,奚立峰.在线自动化立体仓库的库位分配方法及其实证研究[J].工业工程与管理,2005,(1):11-13.
[20] 吴丽娜,周支立,郑家新.某公司仓库储区和货位的分析与改进[J].工业工程与管理,2006,(4):106-111.
[21] 郑凌莺,张欣,言勇华.物流中心仓库货位优化系统的设计研究[J].物流技术,2006,22(6):33-46.
[22] 顾君.货位布局研究和图形化模拟仓库的实现[J].内蒙古科技与经济,2007,11(2):54-57.
[23] 傅忠宁,张连富,郝红绢,隽志才,张志辉.仓储区货位规划模型与求解方法[J].交通运输系统工程与信息,2008,24(4):109-112.
[24] 肖建,郑力.检修备品库的货位优化模型[J].清华大学学报(自然科学版),2008,11(3):29-35.
[25] 吴婷.基于遗传算法的仓储系统多目标货位优化的研究[D].武汉理工大学,2011:7-32.
[26] 王梦楠.基于遗传算法的物流中心货位优化研究[D].大连海事大学,2011:15-33.
[27] 吴加广.K 电子公司物流仓储货位优化研究[D].武汉理工大学,2012:20-45.
[28] 鄂晓征,祖巧红,曹萌萌.基于遗传算法 的汽车零件自动化仓储货位优化[J].系统仿真学报,2013,15(3):430-435.
[29] 王昭玉.一汽大众物流仓储中心货位优化研究[D].吉林大学,2013:33-56.
[30] 蒋宇.基于预测模型的立体仓库调度策略研究[D].大连海事大学,2008:16-39.
[31] 胡贵彦,邬跃.对日本仓储技术的特点及发展趋势的探讨,物流技术[J].2009(4):142-145.
[32] 刘卉.自动化立体仓库效率优化研究[D].辽宁工程技术大学,2007:33-62.
[33] 任云晖.企业仓库管理系统的设计与实现[J].电脑学习,2007,26(2):12-16.
[34] 陈燕.基于 MAS 和 Petri 网的自动化立体仓库调度控制研究[D].西安理工大学,2009:35-57.
[35] 王军锋.自动化立体仓库储位分配策略优化的研究[D].北京邮电大学,2010:42-63.
[36] CHUNG M. J, Gweon D. G.Modeling of armature slotting effect in themagnetic field distribution of a linear permanent magnet motor [J].Electrical Engineering, 2002, (84): 101-108.
[37] 刘光利.自动化立体仓库及其应用特点[J].机电国际市场,2002,11(4):7-9.
[38] 樊贵香,闫执中.自动化仓库的发展现状及展望[J].机械管理开发,2010,26(1):121-124.
[39] LEE C. K. Development of RFID-based Reverse Logistics System [J].Expert Systems with Application, 2009, 36(5): 9299-9307.
40] ANGEL S.RFID Technologies: Supply-chain applications andimplementation issues [J]. Information Systems Management, 2005, 22(1):51-65.
物流工程硕士论文参考文献三
[1] BUTTON , D HENSHEREDS. The handbook of logistics and supply chainmanagement [J].London: Pergamon/Elsevier, 2001, (9):105-125.
[2] JEAN RODRIGUES,BRIAN SLACK,CLAUDE COMTOIS. Greenlogistics[J].Published in A. M. Brewer, 2012,(7):78-85.
[3] HUANG HUA. A study of developing chinese low carbon logistics in the newrailway period[C]. International Conference.E-Product E-Service andE-Entertainment (ICEEE), Henan, 2011:1-4.
[4] 温蕾.基于低碳经济下的低碳物流发展研究[J].经济问题, 2012,(10):72-74.
[5] CACHON G.Carbon footprint and the management of supply chains[C]. TheINFORMS .Annual Meeting, San Diego, CA,2009:112-119.
[6] KIM N S, JANIC M, VAN WEE B. Trade-off between carbon dioxideemissions and logistics costs based on multiobjectiveoptimization[J].Transportation Research Record: Journal of the TransportationResearch Board, 2009,(1): 107-116.
[7] DAVID C. What the future holds for green logistics[J].Traffic Engineering andcontrol,2009,5(5):215-217.
[8] 董千里,董展.物流高级化的低碳物流运作理论与策略研究[J].中国软科学, 2010,(S2):326-332.
[9] 段向云,张英华.基于主成分分析的我国物流业低碳化发展路径[J] .科技进步与对策,2011,27(22):96-99.
[10] ALAN C MCKINNON. Product-level carbon auditing of supply chains:Environmental imperative or wasteful distraction?[J]. International Journal ofPhysical Distribution & Logistics Management, 2012, 40(1): 42- 60.
[11] 范璐.低碳物流发展路径研究[J].中国流通经济,2011,(8):46-51.
[12] HOFF A. Second Stage DEA :comparison of approaches for modeling theDEA score[J].European Journal of Operational Research,2007,181(1):425-435.
[13] 楚龙娟,冯春.碳足迹在物流和供应链中的应用研究[J].中国软科学,2010,(S1):41-47.
[14] 夏文汇.基于低碳经济的钢铁生产物流配送模型研究[J].重庆理工大学学报(社会科学),2010,(10):47-54.
[15] PAN R Y, XU Y L. Research of Effection about Energy Conservation andEmission Reduction in Logistics Industry Associated with Low CarbonEconomy [C]. International Conference of E- Business and E- Government(IEEE) , guangzhou ,2011:16-18
[16] 何旭.我国制造业低碳物流构建途径分析[J].物流科技,2011,(2):40-42.
[17] 何其超,胡列格,钱红波. 基于多目标规划的低碳销售物流网络规划方法[J].系统工程, 2013,31(7):37-43.
[18] 朱莉.低碳经济下物流优化设计的网络均衡分析[J].中国人口·资源与环境,2013,(7 ): 77-83.
[19] 杨珺,卢巍.低碳政策下多容量等级选址与配送问题研究[J].中国管理科学,2014,22(5):51-60.
[20] 李进,张江华.碳交易机制对物流配送路径决策的影响研究[J].系统工程理论与实践,2014,34(7):1779-1787.
[21] GERSCHENKRON A.Economic back wardness in historical perspective[M].Harvard university Press,1962:113-120.
[22] S ELSON,E HLEPS. Investment in human, technological diffusion, andeconomic growth[J].Americaneconomic review,1966,(5): 355-378.
[23] M LEVY. Modernization and the structure of societies: A setting forInternational relations[M].Princeton university press, 1966: 156-160.
[24] 谷源洋.发展中国家跨世纪的发展[M] .北京:中国社会科学出版社,1997,(1):52-55.
[25] 林毅夫等.中国的奇迹:发展战略与经济改革[M].上海:上海三联书店,1999(1):35-38.
[26] 金军,邹锐.集成创新与技术跨越式发展[J].中国软科学,2002,(12):48-51.
[27] 陈德智,肖宁川.韩国汽车产业引进跨越模式研究[J].管理科学,2003,)(2):86-90.
[28] 王勇.“跨越式发展”:西北少数民族地区公民权利的生成与演进[J].西北师大学报:社会科学版,2006,(4):117-123.
[29] 张群,伍文中.跨越式发展视角下新疆财政科技投入的反思与对策[J].中国软科学,2012,(S2):216-222.
[30] 丁守庆,霍国庆.民族地区跨越式发展的变革领导力研究——基于推进新疆跨越式发展的视角[J].管理评论,2014,26(2):121-127.
[31] 张敏,卢向虎,秦富.借鉴发达国家经验推进农业产业化跨越式发展[J]. 农业经济问题,2011,(4):4-8.
[32] 林国华,曾玉荣,陈志峰等.实现海西休闲旅游农业跨越式发展的思考[J].农业经济问题, 2011,(1):45-48.
[33] 南亮进.日本的经济发展[M].经济管理出版社.1992:97-106.
[34] BREZIS, PAUL KRUMAN,TSIDDON. Leapfrogging in internationalcompetition: A theory of cycles in national technological leadership[J].TheAmerican Economic Review,1993,83( 5) : 1211-1219.
[35] VAN ELKAN. Catching up and slowing down:Learning and growth patterns inan open economy[J].Journal of International Economics,1996,41(1):95-112.
[36] CAMERON,GAVIN. Catch-up and leapfrog between the USA and Japan[D].Oxford:Oxford University, 1998,(19):1-44.
[37] FUDENBERG , STIGLITZ.Preemption, leapfrogging, and competition inpatent races[J].European Economic Review, 1983, 22(1): 3-31.
[38] FINNEY R Z . Market pioneers, late movers, and the resource-based view(RBV): A conceptual model[J]. Journal of Business Research, 2008,61:925-932.
[39] RUSSELL RHINEHART R. Leapfrogging and synoptic Leapfrogging: A newoptimization approach[J]. Computers & Chemical Engineering,2012,40(20):67–81.
[40] FIGGUEIREDO P N. Beyond technological catch-up: An empiricalinvestigation of further innovative capability accumulation outcomes inlatecomer firms with evidence from Brazil[J]. Journal of Engineering andTechnology Management, 2014,31(1):73–102.