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东南大学自动化学院导师教师师资介绍简介-汪峥

本站小编 Free考研考试/2021-02-16


汪峥教授
学历:博士
系:自动化学院
学科组:
邮箱:wangz@seu.edu.cn
个人概况:

个人简介:

汪峥,1973年生,东南大学自动化学院教授,博士生导师,IEEE高级会员(Senior Member),INFORMS会员
通信地址:南京东南大学自动化学院
邮政编码:210096
办公电话:
电子邮箱:wangz@seu.edu.cn

教育背景
2001 东南大学,控制理论与控制工程,工学博士
1998 东南大学,控制理论与控制工程,工学硕士
1993 长春光学精密机械学院,机械工程,工学学士

工作经历
1993-1995 电子工业部第十四研究所,助理工程师
2001-2003 上海交通大学机械与动力工程学院,博士后研究人员
2004.04 -2012.04 东南大学自动化学院,副教授
2012.04 -至今 东南大学自动化学院,教授,博士生导师

学术访问经历
2004.04 – 2004.07 香港大学工业与制造系统工程系,研究助理
2008.07 – 2008.09 香港科技大学工业工程与物流管理系,访问****
2009.01 – 2010.01 麻省理工学院工程系统学部,访问副教授
2012.07 – 2012.08, 2014.07 – 2014.08
2015.07 – 2015.08, 2016.07 – 2016.08 香港理工大学工业及系统工程学系,访问****
2017.01-2017.02 特鲁瓦科技大学,高级研究****
2017.08 – 2018.02 麻省理工学院数据系统与社会研究所,高级研究****

研究领域
库存及供应链系统的鲁棒控制;
制造系统分析与控制;
产品与工程系统设计过程分析与优化;
优化方法与最优控制;
离散事件系统(Discrete Event Systems)理论

课程教学
制造系统控制 (研究生课程)
运筹学与最优化 (本科生课程)
工程图学(本科生课程)

研究项目
2017-2020 “生鲜农产品库存、价格及质量综合控制与优化”,国家自然科学基金面上项目,项目编号: **,项目负责人,在研.
2014-2017 “克服库存不精确的鲁棒集成补货、生产控制及分销策略”,国家自然科学基金面上项目,项目编号: **,项目负责人,已结题.
2014-2016 “制造系统设计与控制中的鲁棒耦合优化方法”,教育部高等学校博士学科点专项科研基金博导类课题,项目编号: 20**4. 项目负责人, 已结题.
2010-2012 “基于RFID/EPC 技术的网络化单件生产实时监控”,国家自然科学基金面上项目,项目编号: **,项目负责人, 已结题.
2010-2013 “知识化制造系统优化方法研究与应用”,国家自然科学基金重点项目,项目编号: **,项目参加者(排名第三), 已结题.
2006-2008 “精益设计过程动力学宏观与微观综合分析”,国家自然科学基金青年基金项目,项目编号: **,项目负责人, 已结题.

论文发表:

期刊论文
[1]Yajun Zhang andZheng Wang, 2018. Optimal RFID deployment in a multiple-stage production system under inventory inaccuracy and robust control policy.IEEE Transactions on Industrial Informatics, DOI: 10.1109/TII.2018.**.(Corresponding author)
[2]Wenliang Chen andZheng Wang, 2018. Analysis of the steady state probability distribution of a manufacturing system under the prioritised hedging point control policy.International Journal of Production Research, DOI: 10.1080/**.2018.**. (Corresponding author)
[3]Zheng Wang, Felix T. S. Chan and Ming Li, 2018. A robust production control policy for hedging against inventory inaccuracy in a multiple-stage production system with time delay.IEEE Transactions on Engineering Management,Vol. 65, No. 3, pp. 474-486. (Corresponding author)
[4]Ming Li andZheng Wang,2018. An integrated robust replenishment/ production/distribution policy under inventory inaccuracy.International Journal of Production Research, Vol. 56, No. 12, pp. 4115-4131.(Corresponding author)
[5]X. T. Sun, S. H. Chung, Felix T. S. Chan,Zheng Wang, 2018. The impact of liner shipping unreliability on the production–distribution scheduling of a decentralized manufacturing system.Transportation Research Part E, Vol. 114, No. 1, pp. 242–269.
[6]Ming Li,Zheng Wangand Felix T. S. Chan, 2017. An inventory routing policy under replenishment lead time.IEEE Transactions on Systems, Man, and Cybernetics: Systems, Vol. 47, No. 12, pp. 3150-3164.(Corresponding author)
[7]Ming Li,Zheng Wangand Haoxun Chen, 2017. A robust reorder-time/order-quantity policy under invisible stock loss.IEEE Transactions on Systems, Man, and Cybernetics: Systems, Vol. 47, No. 12, pp. 3102-3119.(Corresponding author)
[8]Li Ming andZheng Wang, 2017. An integrated replenishment and production control policy under inventory inaccuracy and time-delay.Computers and Operations Research, Vol. 88, No. 1, pp. 137-149. (Corresponding author)
[9]WenliangChen,Zheng Wangand Felix T. S. Chan, 2017. Robust production capacity planning under uncertain wafer lots transfer probabilities for semiconductor automated material handling systems.European Journal of Operational Research,Vol. 261, No. 3, pp. 929-940.(Corresponding author)
[10]Ming Li,Zheng Wangand Felix T.S. Chan, 2016. A robust inventory routing policy under inventory inaccuracy and replenishment lead-time.Transportation Research Part E, Vol. 91, pp. 290–305. (Corresponding author)
[11]Zheng Wangand Stanley B. Gershwin, 2015. Heuristic production and sale policy for a two-product-type manufacturing system with downward substitution.IEEE Transactions on Systems, Man, and Cybernetics: Systems, Vol. 45, No. 6, pp. 929-942. (Corresponding author)
[12]Zheng Wangand Felix T. S. Chan, 2015. A robust replenishment and production control policy for a single-stage production/inventory system with inventory inaccuracy.IEEE Transactions on Systems, Man and Cybernetics: Systems, Vol. 45, No. 2, pp. 326-337.
[13]Ming Li, Li Yao, Jin Yang andZheng Wang, 2015. Due date assignment and dynamic scheduling of one-of-a-kind assembly production with uncertain processing time.International Journal of Computer Integrated Manufacturing, Vol. 28, No. 6, pp. 616-627. (Corresponding author)
[14]Felix T. S. Chan andZheng Wang, 2014. Robust production control policy for a multiple machines and multiple product-types manufacturing system with inventory inaccuracy.International Journal of Production Research, Vol. 52, No. 16, pp. 4803-4819.
[15]Zheng Wangand Felix T. S. Chan, 2014. Independence of the hedging points in PHP control policy.Journal of the Operational Research Society, Vol. 65, No. 5, pp. 645-659. (Corresponding author)
[16]Zheng Wangand Christopher L. Magee, 2012. Convergence analysis and iteration estimation for a coupled design process with overlap in redesign.IEEE Transactions on Engineering Management, Vol. 59, No. 4, pp. 621-633. (Corresponding author)
[17]Zheng Wangand Yugang Yu, 2012. Robust production control policy for a single machine and single part-type manufacturing system with inaccurate observation of production surplus.IIE Transactions, Vol. 44, No. 12, pp. 1061-1082. (Corresponding author)
[18]Ying Yan andZheng Wang, 2012. A two-layer dynamic scheduling method for minimizing the earliness and tardiness of a reentrant production line.International Journal of Production Research,Vol. 50, No. 2, pp. 499-515. (Corresponding author)
[19]Yugang Yu,Zheng Wangand Liang Liang, 2012. A vendor managed inventory supply chain with deteriorating raw materials and products.International Journal of Production Economics, Vol. 136, pp. 266-274.
[20]Bin Wang, Zilong Cao, Ying Yan, Weiping Liu andZheng Wang, 2011 Fundamental technology for RFID-based supervisory control of shop floor production system.International Journal of Advanced Manufacturing Technology, Vol. 57, pp. 1123–1141. (Corresponding author)
[21]Zheng Wang, Zilong Cao, 2010. Time-synchronizing control of self-organizing shop floors for networked manufacturing.Journal of Intelligent Manufacturing,Vol. 21, No. 6, pp. 647-656.(Corresponding author)
[22]Haiyan Huang andZheng Wang, 2010. Solving coupled task assignment and capacity planning problems for a job shop by using a concurrent genetic algorithm.International Journal of Production Research,Vol. 48, No. 24, pp. 7507-7522. (Corresponding author)
[23]Zheng Wang, Qi Chen, Jia Hu and Haiyan Huang, 2010. A proportional–integral control policy of two coupled concurrent design optimization processes.Concurrent Engineering: Research and Applications,Vol. 18, No. 1, pp. 55-63.(Corresponding author)
[24]Hong-Sen Yan, Bin Wang, Duo Xu andZheng Wang, 2010. Computing completion time and optimal scheduling of design activities in concurrent product development process.IEEE Transactions on Systems, Man, and Cybernetics—Part A: Systems and Humans, Vol. 40, No. 1, pp. 76-89.
[25]Felix T. S. Chan,Zheng Wang, Jie Zhang and S. Wadhwa, 2008. Two-level hedging point control of a manufacturing system with multiple product-types and uncertain demands.International Journal of Production Research, Vol.46, No.12, pp. 3259-3295.
[26]Felix T. S. Chan,Zheng Wangand Jie Zhang, 2007. A two-level hedging point policy for controlling a manufacturing system with time-delay, demand uncertainty and extra capacity.European Journal of Operational Research, Vol. 176, pp. 1528–1558.
[27]Zheng Wangand Hong-Sen Yan, 2005. Optimizing the concurrency for a group of design activities.IEEE Transactions on Engineering Management, Vol. 52, No. 1, pp. 102-118.
[28]Zheng Wang, Jie Zhang and Felix T. S. Chan, 2005. A hybrid Petri nets model of networked manufacturing systems and its control system architecture.Journal of Manufacturing Technology Management, Vol. 16, No. 1, pp. 36-52.
[29]Hong-Sen Yan,Zheng Wangand Xiao-Cheng Jiao, 2003. Modeling, scheduling and simulation of product development process by extended stochastic high-level evaluation Petri nets.Robotics and Computer Integrated Manufacturing, Vol. 19, No. 4, pp. 329-342.
[30]Zheng Wang, Hong-Sen Yan and Xu-Dong Ma, 2003. A quantitative approach to the organization of cross-functional teams in concurrent engineering.International Journal of Advanced Manufacturing Technology, Vol. 21, No. 21, pp. 879-888.
[31]Hong-Sen Yan,Zheng Wangand Min Jiang, 2002. A quantitative approach to the process modeling and planning in concurrent engineering.Concurrent Engineering: Research and Applications, Vol. 10, No. 2, pp. 97-111.
会议论文
[32]Yajun Zhang andZheng Wang, 2018. Integrated ordering and pricing policy for perishable products with inventory inaccuracy.The 14th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2018), August 20-24, 2018 Munich, Germany, pp. 1230-1236.
[33]Yajun Zhang andZheng Wang, 2017. A Markov Decision Process Model for Inventory Control under Invisible Stock Loss and Inaccurate Record.The 11th Asian Control Conference (ASCC 2017), December 17-20, 2017, Gold Coast, Australia, pp. 2478-2483.
[34]Wenliang Chen,Zheng Wangand Felix T. S. Chan, 2017. Steady state probability distribution of a two-product-type and multi-parallel-machine system under prioritized hedging point control policy.The 13th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2017), August 20–23, 2017, Xi’an, China,pp. 224-230.
[35]Wenliang Chen andZheng Wang, 2016. Integrated capacity planning and production control of a parallel-machine manufacturing system.The 12th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2016), August 21–24, 2016, Fort Worh, Texas, U. S. A.,pp. 401-406.
[36]Wei Wei andZheng Wang, 2016. Integrated optimal production and energy control of a single machine and single product-type manufacturing system.The 13th International Workshop on Discrete Event Systems (WODES 2016), Xi'an, China, May 30 - June 1, 2016, pp. 343-348.
[37]Zheng Wangand Xue Qiao, 2016. Dynamic programming with inaccurate state data.2016 INFORMS Optimization Society Conference, Princeton, New Jersey, March 17-19, 2016.
[38]Minhu Lyu,Zheng Wangand Felix T. S. Chan, 2015. Mixed integer programming model and heuristic algorithm for production planning of continuous casting and hot rolling.The 11th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2015), Gothenburg, Sweden,August 24–28, 2015,pp. 1503-1508.
[39]Xue Qiao,Zheng Wang, Haoxun Chen and Ming Li, 2015. Robust replenishment control policies for a production/inventory system with invisible stock loss.The 15th IFAC Symposium on Information Control Problems in Manufacturing, Ottawa, Canada,May 11-13, 2015,pp. 1807-1812.
[40]Wenliang Chen,Zheng Wangand Felix T. S. Chan, 2015. Robust production capacity planning of a wafer fabrication system with uncertain wafer lots transfer probabilities.The 15th IFAC Symposium on Information Control Problems in Manufacturing, Ottawa, Canada,May 11-13, 2015,pp. 1631-1636.
[41]Zheng Wang, Xue Qiao and Haoxun Chen, 2015. Integrated ordering and pricing policy for perishable products under inventory inaccuracy.The 26th Annual Conference of Production and Operations Society, Washington DC, U.S.A., May 8-11, 2015.
[42]Ming Li,Zheng Wang, Haoxun Chen and Wenliang Chen, 2015. A robust distribution policy under inaccurate inventory records.The 26th Annual Conference of Production and Operations Society, Washington DC, U.S.A., May 8-11, 2015.
[43]Ming Li, Felix T. S. Chan andZheng Wang, 2014. A Robust (r,Q) policy for a simple VMI system with inventory inaccuracy and time-delay.The 10th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2014), Taipei, Taiwan, August 18–21, 2014,pp. 652-657.
[44]Zheng Wang, Hualing Mu and Jia You, 2014. Analysis of a serial production line with single part-type and multiple parallel-machine workstations.The 12thIFAC-IEEE International Workshop on Discrete Event Systems (IFAC WODES 2014), ENS de Cachan, Cachan, France, May 14–16, 2014.
[45]Zheng Wangand Felix T. S. Chan, 2013. A Robust production control policy for a multiple-stage production system with inventory inaccuracy and time-delay.The 9th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2013), Madison, Wisconsin, U. S. A.,August 17–21, 2013,pp. 77-82.
[46]Zheng Wangand Stanley B. Gershwin, 2011. Heuristic production control policy for a two-product-type manufacturing system with down-grade sale.The 8thConference on Stochastic Models of Manufacturing and Service Operation (SMMSO 2011), Kusadasi, Turkey, May 28 – June 2, 2011.
Zheng Wangand Christopher L. Magee, 2010. Sufficiency condition for stability of a fully coupled design process.The 12th International Dependency and Structure Modelling Conference, DSM’10, Cambridge, U. K., July 22 – 23, 2010.

招生情况

我们的研究团队是一个团结向上、朝气蓬勃的集体。目前的研究队伍中包括博士研究生3人,硕士研究生6人。 每年招收硕士研究生2~3人,博士研究生1人,欢迎联系报考!同时欢迎博士后研究人员加盟!
我希望与这样的学生一起工作:对科研有热情、严格遵守学术规范、思路清晰、善于提出有趣的问题、勤于动手、表达准确(最好英文写作能力较强)、工作效率高。
我把每位研究生看作科研工作的合作者,我们一起来做有意义的工作!
我把每位博士生看作高质量学术论文的合著者,我们一起来做高质量的论文!
我指导博士生完成学位论文研究工作的方式是:
1. 帮助博士生选择一个合适的课题,即:我本人已经经过深入思考的、确定有很好的理论意义及潜在应用价值的、有难度但不是过难的、保证能在3.5年学习期限内完成的科学问题;
2. 帮助博士生在开始工作之前做好研究规划,确定子问题(即博士论文的每一章要解决的问题),保证论文整体的系统性。
3. 帮助博士生确定需发表的期刊论文要解决的核心问题。
我和博士研究生合作撰写期刊论文的方式是:
1. 边做边写、每周讨论、及时提出建设性的意见、逐渐积累、循序渐进。
2. 博士研究生交给我审阅的论文(包括作为论文组成部分的模型、算法、算例分析、文献综述等材料),我会在3天内返回修改意见并进行讨论。
3. 严格按照对论文的贡献来安排作者署名次序。与博士生学位论文主体工作相关的期刊论文以博士生为第一作者,我为第二作者兼通讯作者。
我希望能帮助每位博士生在4年的规定学习年限内完成博士论文并顺利通过答辩!
我们的团队非常注重国际学术交流,我与美国麻省理工学院、法国特鲁瓦科技大学、香港理工大学的同行建立了良好的合作关系。
我会给每位博士研究生提供如下国际学术交流的机会:
1. 根据东南大学博士生培养方案,每位博士研究生必须出国参加一次国际会议。我的每位博士研究生在读期间都有至少1次(有的有2次)出国参加相关领域高水平国际学术会议的机会。2015年5月,3名博士研究生赴美国华盛顿特区参加“国际生产运作管理学会年会(POM2015)”,及加拿大渥太华参加“国际自控联制造系统中的控制问题国际会议IFAC INCOM 2015)”; 2015年8月,1名硕士研究生赴瑞典哥德堡参加“第11届国际电机电子工程师学会自动化科学与工程会议(IEEE CASE 2015)”; 2017年12月,1名博士研究生赴澳大利亚参加亚洲控制会议;2018年8月,1名硕士研究生赴德国慕尼黑参加“第14届国际电机电子工程师学会自动化科学与工程会议(IEEE CASE 2018)”。
2. 鼓励、支持并帮助博士研究生通过国家留学基金(CSC)“建设高水平大学公派研究生项目”出国攻读学位或访问交流。2016年,有一位博士研究生获得这一项目资助,赴法国特鲁瓦科技大学交流访问2年;还有一位毕业硕士研究生通过这一项目赴法国继续攻读博士学位。
3. 鼓励、支持并帮助博士研究生通过学校或学院的资助赴国外或境外高校进行短期访问。2015年,有两位博士研究生赴香港理工大学进行3个月的交流访问。


教学研究:
科研项目:
科研论文:2018-11-23Publications
Journal papers:
[1]Yajun Zhang andZheng Wang, 2018. Optimal RFID deployment in a multiple-stage production system under inventory inaccuracy and robust control policy.IEEE Transactions on Industrial Informatics, DOI: 10.1109/TII.2018.**.(Corresponding author)
[2]Wenliang Chen andZheng Wang, 2018. Analysis of the steady state probability distribution of a manufacturing system under the prioritised hedging point control policy.International Journal of Production Research, DOI: 10.1080/**.2018.**. (Corresponding author)
[3]Zheng Wang, Felix T. S. Chan and Ming Li, 2018. A robust production control policy for hedging against inventory inaccuracy in a multiple-stage production system with time delay.IEEE Transactions on Engineering Management,Vol. 65, No. 3, pp. 474-486. (Corresponding author)
[4]Ming Li andZheng Wang,2018. An integrated robust replenishment/ production/distribution policy under inventory inaccuracy.International Journal of Production Research, Vol. 56, No. 12, pp. 4115-4131.(Corresponding author)
[5]X. T. Sun, S. H. Chung, Felix T. S. Chan,Zheng Wang, 2018. The impact of liner shipping unreliability on the production–distribution scheduling of a decentralized manufacturing system.Transportation Research Part E, Vol. 114, No. 1, pp. 242–269.
[6]Ming Li,Zheng Wangand Felix T. S. Chan, 2017. An inventory routing policy under replenishment lead time.IEEE Transactions on Systems, Man, and Cybernetics: Systems, Vol. 47, No. 12, pp. 3150-3164.(Corresponding author)
[7]Ming Li,Zheng Wangand Haoxun Chen, 2017. A robust reorder-time/order-quantity policy under invisible stock loss.IEEE Transactions on Systems, Man, and Cybernetics: Systems, Vol. 47, No. 12, pp. 3102-3119.(Corresponding author)
[8]Li Ming andZheng Wang, 2017. An integrated replenishment and production control policy under inventory inaccuracy and time-delay.Computers and Operations Research, Vol. 88, No. 1, pp. 137-149. (Corresponding author)
[9]WenliangChen,Zheng Wangand Felix T. S. Chan, 2017. Robust production capacity planning under uncertain wafer lots transfer probabilities for semiconductor automated material handling systems.European Journal of Operational Research,Vol. 261, No. 3, pp. 929-940.(Corresponding author)
[10]Ming Li,Zheng Wangand Felix T.S. Chan, 2016. A robust inventory routing policy under inventory inaccuracy and replenishment lead-time.Transportation Research Part E, Vol. 91, pp. 290–305. (Corresponding author)
[11]Zheng Wangand Stanley B. Gershwin, 2015. Heuristic production and sale policy for a two-product-type manufacturing system with downward substitution.IEEE Transactions on Systems, Man, and Cybernetics: Systems, Vol. 45, No. 6, pp. 929-942. (Corresponding author)
[12]Zheng Wangand Felix T. S. Chan, 2015. A robust replenishment and production control policy for a single-stage production/inventory system with inventory inaccuracy.IEEE Transactions on Systems, Man and Cybernetics: Systems, Vol. 45, No. 2, pp. 326-337.
[13]Ming Li, Li Yao, Jin Yang andZheng Wang, 2015. Due date assignment and dynamic scheduling of one-of-a-kind assembly production with uncertain processing time.International Journal of Computer Integrated Manufacturing, Vol. 28, No. 6, pp. 616-627. (Corresponding author)
[14]Felix T. S. Chan andZheng Wang, 2014. Robust production control policy for a multiple machines and multiple product-types manufacturing system with inventory inaccuracy.International Journal of Production Research, Vol. 52, No. 16, pp. 4803-4819.
[15]Zheng Wangand Felix T. S. Chan, 2014. Independence of the hedging points in PHP control policy.Journal of the Operational Research Society, Vol. 65, No. 5, pp. 645-659. (Corresponding author)
[16]Zheng Wangand Christopher L. Magee, 2012. Convergence analysis and iteration estimation for a coupled design process with overlap in redesign.IEEE Transactions on Engineering Management, Vol. 59, No. 4, pp. 621-633. (Corresponding author)
[17]Zheng Wangand Yugang Yu, 2012. Robust production control policy for a single machine and single part-type manufacturing system with inaccurate observation of production surplus.IIE Transactions, Vol. 44, No. 12, pp. 1061-1082. (Corresponding author)
[18]Ying Yan andZheng Wang, 2012. A two-layer dynamic scheduling method for minimizing the earliness and tardiness of a reentrant production line.International Journal of Production Research,Vol. 50, No. 2, pp. 499-515. (Corresponding author)
[19]Yugang Yu,Zheng Wangand Liang Liang, 2012. A vendor managed inventory supply chain with deteriorating raw materials and products.International Journal of Production Economics, Vol. 136, pp. 266-274.
[20]Bin Wang, Zilong Cao, Ying Yan, Weiping Liu andZheng Wang, 2011 Fundamental technology for RFID-based supervisory control of shop floor production system.International Journal of Advanced Manufacturing Technology, Vol. 57, pp. 1123–1141. (Corresponding author)
[21]Zheng Wang, Zilong Cao, 2010. Time-synchronizing control of self-organizing shop floors for networked manufacturing.Journal of Intelligent Manufacturing,Vol. 21, No. 6, pp. 647-656.(Corresponding author)
[22]Haiyan Huang andZheng Wang, 2010. Solving coupled task assignment and capacity planning problems for a job shop by using a concurrent genetic algorithm.International Journal of Production Research,Vol. 48, No. 24, pp. 7507-7522. (Corresponding author)
[23]Zheng Wang, Qi Chen, Jia Hu and Haiyan Huang, 2010. A proportional–integral control policy of two coupled concurrent design optimization processes.Concurrent Engineering: Research and Applications,Vol. 18, No. 1, pp. 55-63.(Corresponding author)
[24]Hong-Sen Yan, Bin Wang, Duo Xu andZheng Wang, 2010. Computing completion time and optimal scheduling of design activities in concurrent product development process.IEEE Transactions on Systems, Man, and Cybernetics—Part A: Systems and Humans, Vol. 40, No. 1, pp. 76-89.
[25]Felix T. S. Chan,Zheng Wang, Jie Zhang and S. Wadhwa, 2008. Two-level hedging point control of a manufacturing system with multiple product-types and uncertain demands.International Journal of Production Research, Vol.46, No.12, pp. 3259-3295.
[26]Felix T. S. Chan,Zheng Wangand Jie Zhang, 2007. A two-level hedging point policy for controlling a manufacturing system with time-delay, demand uncertainty and extra capacity.European Journal of Operational Research, Vol. 176, pp. 1528–1558.
[27]Zheng Wangand Hong-Sen Yan, 2005. Optimizing the concurrency for a group of design activities.IEEE Transactions on Engineering Management, Vol. 52, No. 1, pp. 102-118.
[28]Zheng Wang, Jie Zhang and Felix T. S. Chan, 2005. A hybrid Petri nets model of networked manufacturing systems and its control system architecture.Journal of Manufacturing Technology Management, Vol. 16, No. 1, pp. 36-52.
[29]Hong-Sen Yan,Zheng Wangand Xiao-Cheng Jiao, 2003. Modeling, scheduling and simulation of product development process by extended stochastic high-level evaluation Petri nets.Robotics and Computer Integrated Manufacturing, Vol. 19, No. 4, pp. 329-342.
[30]Zheng Wang, Hong-Sen Yan and Xu-Dong Ma, 2003. A quantitative approach to the organization of cross-functional teams in concurrent engineering.International Journal of Advanced Manufacturing Technology, Vol. 21, No. 21, pp. 879-888.
[31]Hong-Sen Yan,Zheng Wangand Min Jiang, 2002. A quantitative approach to the process modeling and planning in concurrent engineering.Concurrent Engineering: Research and Applications, Vol. 10, No. 2, pp. 97-111.
Conference papers:
[32]Yajun Zhang andZheng Wang, 2018. Integrated ordering and pricing policy for perishable products with inventory inaccuracy.The 14th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2018), August 20-24, 2018 Munich, Germany, pp. 1230-1236.
[33]Yajun Zhang andZheng Wang, 2017. A Markov Decision Process Model for Inventory Control under Invisible Stock Loss and Inaccurate Record.The 11th Asian Control Conference (ASCC 2017), December 17-20, 2017, Gold Coast, Australia, pp. 2478-2483.
[34]Wenliang Chen,Zheng Wangand Felix T. S. Chan, 2017. Steady state probability distribution of a two-product-type and multi-parallel-machine system under prioritized hedging point control policy.The 13th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2017), August 20–23, 2017, Xi’an, China,pp. 224-230.
[35]Wenliang Chen andZheng Wang, 2016. Integrated capacity planning and production control of a parallel-machine manufacturing system.The 12th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2016), August 21–24, 2016, Fort Worh, Texas, U. S. A.,pp. 401-406.
[36]Wei Wei andZheng Wang, 2016. Integrated optimal production and energy control of a single machine and single product-type manufacturing system.The 13th International Workshop on Discrete Event Systems (WODES 2016), Xi'an, China, May 30 - June 1, 2016, pp. 343-348.
[37]Zheng Wangand Xue Qiao, 2016. Dynamic programming with inaccurate state data.2016 INFORMS Optimization Society Conference, Princeton, New Jersey, March 17-19, 2016.
[38]Minhu Lyu,Zheng Wangand Felix T. S. Chan, 2015. Mixed integer programming model and heuristic algorithm for production planning of continuous casting and hot rolling.The 11th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2015), Gothenburg, Sweden,August 24–28, 2015,pp. 1503-1508.
[39]Xue Qiao,Zheng Wang, Haoxun Chen and Ming Li, 2015. Robust replenishment control policies for a production/inventory system with invisible stock loss.The 15th IFAC Symposium on Information Control Problems in Manufacturing, Ottawa, Canada,May 11-13, 2015,pp. 1807-1812.
[40]Wenliang Chen,Zheng Wangand Felix T. S. Chan, 2015. Robust production capacity planning of a wafer fabrication system with uncertain wafer lots transfer probabilities.The 15th IFAC Symposium on Information Control Problems in Manufacturing, Ottawa, Canada,May 11-13, 2015,pp. 1631-1636.
[41]Zheng Wang, Xue Qiao and Haoxun Chen, 2015. Integrated ordering and pricing policy for perishable products under inventory inaccuracy.The 26th Annual Conference of Production and Operations Society, Washington DC, U.S.A., May 8-11, 2015.
[42]Ming Li,Zheng Wang, Haoxun Chen and Wenliang Chen, 2015. A robust distribution policy under inaccurate inventory records.The 26th Annual Conference of Production and Operations Society, Washington DC, U.S.A., May 8-11, 2015.
[43]Ming Li, Felix T. S. Chan andZheng Wang, 2014. A Robust (r,Q) policy for a simple VMI system with inventory inaccuracy and time-delay.The 10th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2014), Taipei, Taiwan, August 18–21, 2014,pp. 652-657.
[44]Zheng Wang, Hualing Mu and Jia You, 2014. Analysis of a serial production line with single part-type and multiple parallel-machine workstations.The 12thIFAC-IEEE International Workshop on Discrete Event Systems (IFAC WODES 2014), ENS de Cachan, Cachan, France, May 14–16, 2014.
[45]Zheng Wangand Felix T. S. Chan, 2013. A Robust production control policy for a multiple-stage production system with inventory inaccuracy and time-delay.The 9th IEEE International Conference on Automation Science and Engineering (IEEE CASE 2013), Madison, Wisconsin, U. S. A.,August 17–21, 2013,pp. 77-82.
[46]Zheng Wangand Stanley B. Gershwin, 2011. Heuristic production control policy for a two-product-type manufacturing system with down-grade sale.The 8thConference on Stochastic Models of Manufacturing and Service Operation (SMMSO 2011), Kusadasi, Turkey, May 28 – June 2, 2011.
[47]Zheng Wangand Christopher L. Magee, 2010. Sufficiency condition for stability of a fully coupled design process.The 12th International Dependency and Structure Modelling Conference, DSM’10, Cambridge, U. K., July 22 – 23, 2010.







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