汪峥，1973年生，东南大学自动化学院教授、博士生导师。1993年于长春光学精密机械学院获学士学位，1998年于东南大学自动化研究所获硕士学位，2001年于东南大学自动化研究所获博士学位；2001-2003年在上海交通大学机械与动力工程学院做博士后研究；2003年至今在东南大学自动化学院工作，2012年晋升教授、博士生导师。2009年1月至2010年1月、2017年8月至2018年2月两次受国家留学基金资助在麻省理工学院(MIT)做访问研究，分别任访问副教授及高级研究学者。研究领域包括：亚毫米波望远镜控制、控制科学在天文望远镜及仪器中的应用，优化方法与最优控制，系统工程；主持国家自然科学基金重点项目1项、面上项目3项，IEEE高级会员。

目前研究重心放在中国、美国、智利合作的LCT亚毫米波望远镜重建及性能升级，以及依托这一望远镜的国家自然科学基金重点项目：强柔性大干扰下LCT望远镜高精度指向控制。

图1. 这是位于夏威夷Maunakea山顶(海拔4070m)的加州理工学院亚毫米天文台(Caltech Submillimeter Observatory, CSO)10.4m亚毫米波望远镜，现已退役、拆解，并将于2025年在智利Chajnantor高原（海拔5050m）重建为新的LCT亚毫米波望远镜（Leighton Chajnantor Telescope）。

图2. 这是我2023年9月在夏威夷Maunakea山顶(海拔4070m)的加州理工学院亚毫米天文台(Caltech Submillimeter Observatory, CSO)10.4m亚毫米波望远镜工作时的照片，CSO望远镜附近建有多台一流的天文望远镜(光学、红外、亚毫米)和望远镜阵列：CSO，JCMT，SMA, Subaru, Keck ......

 2001    东南大学，控制理论与控制工程专业，工学博士学位

 1998    东南大学，控制理论与控制工程专业，工学硕士学位

 1993    长春光学精密机械学院(现长春理工大学)，机械工程专业，工学学士学位

工作经历:

1993 - 1995     电子工业部南京第十四研究所，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 - 2012    东南大学自动化学院，副教授，硕士生导师

2012 - 现在     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    香港大学工业及制造系统工程学系，研究助理

2008/07 – 2008/09    香港科技大学工业工程及物流管理学系，访问学者

2009/02 – 2010/01     麻省理工学院工程系统学部(MIT Engineering Systems Division)，访问副教授 (国家留学基金全额资助)

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，访问学者

2017/01 – 2017/02      法国特鲁瓦科技大学(Université de Technologie de Troyes)，高级研究学者 (国家留学基金资助)

2017/08 – 2018/02     麻省理工学院数据系统与社会研究所(MIT Institute for Data, Systems and Society)，高级研究学者 (国家留学基金资助)

2020/01 – 2020/02    伦敦帝国理工学院(Imperial College London)电机与电子工程系，访问学者

 国际电机与电子工程师学会(IEEE)高级会员(Senior Member)

工程系统优化与控制 (研究生课程，全英文教学)

优化方法 (本科生课程，全英文教学)

欢迎你！亲爱的年轻学子！

我们是一个积极向上、热情友好的团队。

已经有6名博士研究生和40余名硕士研究生曾经是我们这个团队的成员，目前在读的有4名博士研究生和9名硕士研究生，他们都是我的好朋友。

我非常乐意将我的学习经验分享给你，而聪明勤奋的你，将是我未来三年或四年中研究工作的合作者。

如果你对科学有全身心投入的热情和坚持不懈的毅力，我们欢迎你！

如果除此之外，你还有敏锐的思维和清晰的逻辑，我们格外欢迎你！

我目前的研究重心放在亚毫米波天文望远镜的控制方法与技术，这一研究有国家自然科学基金重点项目的支持。如果你正好对这一方向感兴趣，我们格外^2地欢迎你！如果同时你的控制理论、控制技术、软件开发(比如C/C++)基础较强，我们格外^3地欢迎你！如果......你除此之外，还懂一点机械学、光学或电磁学，使用过相关工具(比如Ansys, Adams, Zemax)那我们就该格外^4地欢迎你了！。

当然也希望你不怕辛苦，因为有可能安排你去望远镜控制系统调试一线短期工作，很可能是生产安装现场，也不排除......比较艰苦的高海拔地区(尽管机会不多)。

我们期待和你一起做有价值、有意义的科学！

我们在等待你......

亚毫米波望远镜控制；

控制科学在天文望远镜及仪器中的应用；

优化方法与最优控制；

系统工程。

科研项目

2025-2029    “强柔性大干扰下LCT望远镜高精度指向控制”，国家自然科学基金重点项目，项目批准号: 12433011.    项目负责人，在研。

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，项目批准号: 61673109.  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点基金博导类课题，项目批准号: 20130092110024. 项目负责人, 已结题。

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，项目批准号: 61374198.  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，项目批准号: 60934008.  项目参加者(排名第三), 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，项目批准号: 60974096. 项目负责人, 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，项目批准号: 50505006. 项目负责人, 已结题。

期刊论文

天文学/天文技术与方法：亚毫米波望远镜控制技术

[1]  Jia You, Zheng Wang and Rodrigo Andrés Reeves Díaz, 2024. Effect of panel misalignment error distribution on the radiation pattern of Leighton Chajnantor Telescope’s antenna. Publications of the Astronomical Society of the Pacific, 136: 064502. (通讯作者)

[2] Weirui Chen, Yiwei Yao and Zheng Wang, 2024. Synthesized modeling and active disturbance rejection control for the Leighton Chajnantor Telescope. Publications of the Astronomical Society of Japan, 76(2): 143-162. (通讯作者)

[3] Jia You, Yiwei Yao and Zheng Wang, 2024. A quick calculation method for radiation pattern of submillimeter telescope with deformation and displacement. Research in Astronomy and Astrophysics, 24(3): 035020. (通讯作者)

[4] Weirui Chen and Zheng Wang, 2024. Disturbance observer-based pointing control of Leighton Chajnantor Telescope. Research in Astronomy and Astrophysics, 24(1): 015010. (通讯作者)

[5] Yiwei Yao, Weirui Chen and Zheng Wang, 2023. Collaborative simulation of mechanical structure and control systems of Leighton Chajnantor Telescope. Research in Astronomy and Astrophysics, 23(4): 045013. (通讯作者)

[6] Weirui Chen, Zheng Wang and Xiaojun Zhou, 2022. An improved radio pointing model for SHARC II of the Caltech Submillimeter Observatory telescope. Publications of the Astronomical Society of the Pacific, Vol. 134, No. 1040, Article No. 105002. (通讯作者)

控制科学与工程/系统工程：制造系统控制与优化

[1] Ning Li and Zheng Wang, 2025. Vehicle routing problem for omnichannel retailing including multiple types of time windows and products. Computers & Operations Research, Vol. 173, 106826. (通讯作者)

[2] Ning Li and Zheng Wang, 2024. Inventory control for omnichannel retailing between one warehouse and multiple stores. IEEE Transactions on Engineering Management, Vol. 71, pp. 7395-7412. (通讯作者)

[3] Zhipeng Qiu and Zheng Wang, 2024. Construction and application of patent technical element dependency network. IEEE Transactions on Engineering Management, Vol. 71, pp.4076-4090. (通讯作者)

[4] Zhipeng Qiu and Zheng Wang, 2023. Patent citation network simplification and similarity evaluation based on technological inheritance. IEEE Transactions on Engineering Management, Vol. 70, No. 12, pp. 4144-4161. (通讯作者)

[5] Ning Li, Xue Qiao and Zheng Wang, 2023. Joint markdown, ordering and freshness-keeping policy under demand competition between new and old products. Journal of the Operational Research Society, Vol. 74, No. 9, pp. 2043-2063. (通讯作者)

[6] Zhipeng Qiu and Zheng Wang, 2023. Technological origination and evolution analysis by combining patent claims and citations: A case of surgical robot domain. Advanced Engineering Informatics, Vol. 58, Paper No. 102145. (通讯作者)

[7] Zhipeng Qiu and Zheng Wang, 2023. What is your next invention? — A framework of mining technological development rules and assisting in designing new technologies based on BERT as well as patent citations. Computers in Industry, Vol. 145, Paper No. 103829. (通讯作者)

[8] Ning Li and Zheng Wang, 2023. Optimal pricing and ordering strategies for dual-channel retailing with different shipping policies. Journal of Industrial and Management Optimization, Vol. 19, No. 2, pp. 1236-1261. (通讯作者)

[9] Zhipeng Qiu and Zheng Wang, 2022. Technology forecasting based on semantic and citation analysis of patents: a case of robotics domain. IEEE Transactions on Engineering Management, Vol. 69, No. 4, pp. 1216-1236. (通讯作者)

[10] Xue Qiao, Zheng Wang and Haoxun Chen, 2022. Joint optimal pricing and inventory management policy and its sensitivity analysis for perishable products: lost sale case. Journal of Industrial and Management Optimization, Vol. 18, No. 4, pp. 2533–2552. (通讯作者)

[11] Xue Qiao, Zheng Wang and Haoxun Chen, 2021. Joint ordering and markdown policy for short lifetime products with competitive price-and-freshness-based demand. IEEE Transactions on Automation Science and Engineering, Vol. 18, No. 4, pp. 1956-1968. (通讯作者)

[12] Wenliang Chen and Zheng Wang, 2021. Integrated capacity planning and production control of an assembly manufacturing system. IEEE Transactions on Engineering Management, Vol. 68, No. 3, pp. 868-880. (通讯作者)

[13] Yajun Zhang and Zheng Wang, 2020. Joint ordering, pricing, and freshness-keeping policy for perishable products: single-period deterministic case. IEEE Transactions on Automation Science and Engineering, Vol. 17, No. 4, pp. 1868-1882. (通讯作者)

[14] Yajun Zhang and Zheng Wang, 2019. Optimal RFID deployment in a multiple-stage production system under inventory inaccuracy and robust control policy. IEEE Transactions on Industrial Informatics, Vol. 15, No. 6, pp. 3230-3242. (通讯作者)

[15] Yajun Zhang and Zheng Wang, 2019. A joint ordering, pricing, and freshness-keeping policy for perishable inventory systems with random demand over infinite horizon. IEEE Robotics and Automation Letters, Vol. 4, No. 3, pp. 2707-2713. (通讯作者)

[16] Wenliang Chen and Zheng Wang, 2019. Analysis of the steady state probability distribution of a manufacturing system under the prioritised hedging point control policy. International Journal of Production Research, Vol. 57, No. 8, pp. 2281-2303. (通讯作者)

[17] 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. (通讯作者)

[18] Ming Li and Zheng Wang, 2018. An integrated robust replenishment/ production/distribution policy under inventory inaccuracy. International Journal of Production Research, Vol. 56, No. 12, pp. 4115-4131. (通讯作者)

[19] X. T. Sun, S. H. Chung, Felix T. S. Chan and 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.

[20] Ming Li, Zheng Wang and 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. (通讯作者)

[21] Ming Li, Zheng Wang and 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. (通讯作者)

[22] Ming Li and Zheng 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. (通讯作者)

[23] Wenliang Chen, Zheng Wang and 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.  (通讯作者)

[24] Ming Li, Zheng Wang and 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. (通讯作者)

[25] Zheng Wang and 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. 

[26] Zheng Wang and 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.

[27] Ming Li, Li Yao, Jin Yang and Zheng 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. (通讯作者)

[28] Felix T. S. Chan and Zheng 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. 

[29] Zheng Wang and 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. 

[30] Zheng Wang and 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. 

[31] Zheng Wang and 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. 

[32] Ying Yan and Zheng 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. (通讯作者)

[33] Yugang Yu, Zheng Wang and 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.

[34] Bin Wang, Zilong Cao, Ying Yan, Weiping Liu and Zheng 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. (通讯作者)

[35] 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. 

[36] Haiyan Huang and Zheng 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. (通讯作者)

[37] 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. 

[38] Hong-Sen Yan, Bin Wang, Duo Xu and Zheng 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.

[39] 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.

[40] Felix T. S. Chan, Zheng Wang and 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.

[41] Zheng Wang and 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.

[42] 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.

[43] Hong-Sen Yan, Zheng Wang and 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.

[44] 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.

[45] Hong-Sen Yan, Zheng Wang and 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:

[1] Weirui Chen and Zheng Wang, 2022. Robust control of the servo system of Leighton Chajnantor Telescope under high wind speed. Proceedings of SPIE 12187, Modeling, Systems Engineering, and Project Management for Astronomy X, 121870T, SPIE Astronomical Telescopes + Instrumentation, 29 August 2022, Montréal, Québec, Canada. (通讯作者)

[2] Yajun Zhang and Zheng 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. (通讯作者)

[3] Yajun Zhang and Zheng 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. (通讯作者)

[4] Wenliang Chen, Zheng Wang and 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. (通讯作者)

[5] Wenliang Chen and Zheng 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. (通讯作者)

[6] Wei Wei and Zheng 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. (通讯作者)

[7] Zheng Wang and Xue Qiao, 2016. Dynamic programming with inaccurate state data. 2016 INFORMS Optimization Society Conference, Princeton, New Jersey, March 17-19, 2016. (通讯作者)

[8] Minhu Lyu, Zheng Wang and 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. (通讯作者)

[9] 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. (通讯作者)

[10] Wenliang Chen, Zheng Wang and 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. (通讯作者)

[11] 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. (通讯作者)

[12] 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. (通讯作者)

[13] Ming Li, Felix T. S. Chan and Zheng 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. (通讯作者)

[14] Zheng Wang, Hualing Mu and Jia You, 2014. Analysis of a serial production line with single part-type and multiple parallel-machine workstations. The 12^th IFAC-IEEE International Workshop on Discrete Event Systems (IFAC WODES 2014), ENS de Cachan, Cachan, France, May 14–16, 2014.  (通讯作者)

[15] Zheng Wang and 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. (通讯作者)

[16] Zheng Wang and Stanley B. Gershwin, 2011. Heuristic production control policy for a two-product-type manufacturing system with down-grade sale. The 8^th Conference on Stochastic Models of Manufacturing and Service Operation (SMMSO 2011), Kusadasi, Turkey, May 28 – June 2, 2011. (通讯作者)

[17] Zheng Wang and 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. (通讯作者)

凡本人为通讯作者的论文，第一作者均为本人指导的博士研究生或硕士研究生