交通运输工程系
电子邮件:zh03.chen@sjtu.edu.cn
通讯地址:木兰楼A701A
2021.10-至今 williamhill威廉希尔官网交通运输工程系 助理研究员、硕士生导师
2017.04-2021.09 WilliamHill中文官方网站 机械工程(工业工程) 博士
2019.09-2020.09 法国国立高等航空航天学院 (ISAE-SUPAERO) 复杂系统工程 联合培养
2013.09-2016.07 西安交通大学 动力工程及工程热物理 硕士
2009.09-2013.06 西安交通大学 过程装备与控制工程 学士
理论研究
——智能交通装备服务系统的创新设计、运作管理、智能体构建
方法与技术研究
——系统工程方法、智能决策、深度强化学习、大模型(单模态与多模态)、知识图谱、智能体
应用领域
——无人电动运载工具运维保障服务:充换电决策、电站电池管理、V2G决策、健康管理等
——船舶设备智能维修服务:维修保障知识图谱、可靠性建模与评估、维修智能体、维修决策服务系统等
——航运安全服务:航运事故知识图谱、航运安全大模型、航运事故安全服务系统等
——港口装备运维服务:自动化港口运输装备运维服务系统设计、健康管理、运作管理优化等
IDS中国研究实验室专家(WilliamHill中文官方网站-弗劳恩霍夫协会-国际数据空间联合共建)
上海交通工程学会会员
中国公路学会会员
卡奥斯工业智能研究院新一代工业智能技术领域特聘专家
WilliamHill中文官方网站-卡奥斯新一代工业智能技术联合研究中心成员
IEEE Transaction on Neural Systems & Rehabilitation Engineering,Applied Soft Computing,Journal of Cleaner Production,International Journal of Production Research, IEEE Transaction on Engineering Management等国际知名期刊审稿人
[1]“用户活动场景下个性化智能产品服务自适应设计方法研究”,2023.01-2025.12,国家自然科学基金青年项目(72201172),主持,在研
[2]“智慧港口运营场景下智能港口装备服务自适应配置优化研究”,2023.01-2025.12,中国航海学会青年人才托举工程,主持,在研
[3] “垂域大模型赋能长三角航运安全智能化公共服务模式转型与区域安全提升策略研究”,2025.05-2026.04,上海市软科学项目(25692112500),主持,在研
[4] “面向交互式智能体的船用柴油机动态维修保障知识库构建技术研究”,2025.06-2026.10,先进船舶发动机技术全国重点实验室开放基金项目,主持,在研
[5] “数据驱动的中央空调服务架构与智能运维系统设计”,2023.09-2025.08,格力电器委托项目,主持,在研
[6]“船用发动机能力提升创新工程——船用发动机可靠性顶层建模方法研究”,2024.01-2025.12,工信部高技术船舶科研项目课题(GO0200223/001),子任务负责人,在研
[7] "服务型制造标准化体系建设",2023.03-2023.12,工信部服务型制造研究院委托项目,主持,结题
[8]“服务型制造共性技术框架研究”,2023.03-2023.10,工信部服务型制造研究院委托项目,主持,结题
[9]“智慧交通出行场景下数据与知识双元驱动的智能汽车服务自适应配置优化研究”,2021.10-2024.12,WilliamHill中文官方网站新进教师启动计划(22X010503575),主持,结题
[30] Zhang, B., Y. Yang, R. Miao* and Z. Chen** (2025). "Optimizing BSS Charging Management Considering Renewable Energy by Dynamic Multi-Step Deep RL Approach for Urban Governance." IEEE Transactions on Intelligent Transportation Systems: 1-12.
[29] Zhang, B., Z. Chen*, L. Zang, P. Guo and R. Miao** (2025). "Coordinated Battery Charging and Swapping Scheduling of EVs Based on Multilevel Deep Reinforcement Learning for Urban Governance." IEEE Transactions on Intelligent Transportation Systems: 1-15.
[28] Zhang, B., R. Miao and Z. Chen (2024). "Spatial-temporal traffic data imputation based on dynamic multi-level generative adversarial networks for urban governance." Applied Soft Computing 151: 111128.
[27] Guo, P., Z. Chen*, Y. Yang and R. Miao** (2024). "A multistage simulation-optimization-integrated methodology framework for user-oriented electric vehicle carsharing reallocation under dynamic price subsidy." Energy 290: 130207.
[26] Chen, Z., Y. Su, J. Zhang, T. Zhou, Y. Cao, Q. Li, W. Zhang and Y. Ma (2024). "Smart product service resources composition optimization for smart product service system in context of industrial IoT platform." Advanced Engineering Informatics 62: 102700.
[25] Bao, L., Z. Liu, R. Miao*, Z. Chen*, B. Zhang, P. Guo and Y. Ma. "Spatiotemporal clustering analysis of shared electric vehicles based on trajectory data for sustainable urban governance." Journal of Cleaner Production 412 (2023): 137373.(SCI,IF: 11.072)
[24] T.Zhou, ...., Z.Chen*, Smart experience-oriented customer requirement analysis for smart product service system: A novel hesitant fuzzy linguistic cloud DEMATEL method. Advanced Engineering Informatics, 56 (2023), 101917. (SCI,IF:7.862)
[23] Chang, Y., X. Ming, X. Liao, Y. Bao, Z. Chen and W. Song (2024). "Sustainable value creation through customization for smart PSS models: a multi-industry case study." Journal of Manufacturing Technology Management 35(1): 29-53.
[22] Y. Chang, X. Ming, Z. Chen, T. Zhou, X. Liao, W. Song, Stakeholder requirement evaluation of smart industrial service ecosystem under Pythagorean fuzzy environment for complex industrial contexts: A case study of renewable energy park, Advanced Engineering Informatics, 55 (2023) 101823. (SCI,IF:7.862)
[21] Y. Bao, X. Zhang, T. Zhou, Z. Chen, X. Ming, Application of Industrial Internet for Equipment Asset Management in Social Digitalization Platform Based on System Engineering Using Fuzzy DEMATEL-TOPSIS, Machines, 10 (2022) 1137. (SCI,IF:2.899)
[20] Y. Ma, R. Miao, Z. Chen, B. Zhang, L. Bao, An interpretable analytic framework of the relationship between carsharing station development patterns and built environment for sustainable urban transportation, Journal of Cleaner Production, 377 (2022) 134445.(SCI,IF: 11.072)
[19] Zhihua Chen, Tongtong Zhou, Xianyu Zhang, Rui Miao*, and Xinguo Ming. (2022). Configuration optimization of service solution for smart product service system under hybrid uncertain environments. Advanced Engineering Informatics. 52, 101632. (SCI,IF:7.862)
[18] T. Zhou, Z. Chen, X. Ming, Multi-criteria evaluation of smart product-service design concept under hesitant fuzzy linguistic environment: A novel cloud envelopment analysis approach, Engineering Applications of Artificial Intelligence, 115 (2022) 105228. (SCI,IF:7.802)
[17] Zhou, T., Chen, Z., Cao, Y., Miao, R., & Ming, X. (2022). An integrated framework of user experience-oriented smart service requirement analysis for smart product service system development. Advanced Engineering Informatics, 51, 101458. (SCI,IF:7.862)
[16] Zhou, T., Ming, X., Chen, Z., & Miao, R. (2021). Selecting industrial IoT Platform for digital servitisation: a framework integrating platform leverage practices and cloud HBWM-TOPSIS approach. International Journal of Production Research, 1-23. (SCI,IF:9.018)
[15] Tongtong Zhou, Zhihua Chen, Xinguo Ming. A novel hesitant fuzzy linguistic hybrid cloud model and extended best-worst method for multicriteria decision making. International Journal of Intelligent Systems. 2021. (SCI,IF: 8.993)
[14] Zhao-Hui Sun, Tian-Yu Zuo, Di Liang, Xinguo Ming, Zhihua Chen, Siqi Qiu. GPHC: A heuristic clustering method to customer segmentation. Applied Soft Computing. 2021;111:107677. (SCI,IF: 8.263)
[13] 王瑞昌, 陈志华, 明新国. 基于改进模糊逻辑控制的并联式船舶动力系统能量管理[J]. WilliamHill中文官方网站学报.2021.
[12] Zhihua Chen, and Xinguo Ming*. A rough–fuzzy approach integrating best–worst method and data envelopment analysis to multi-criteria selection of smart product service module. Applied Soft Computing 94(2020):106479.(SCI,IF: 8.263)
[11] Zhihua Chen, Xinguo Ming*, Elise Vareilles, and Olga Battaia. Modularization of smart product service: A framework integrating smart product service blueprint and weighted complex network. Computers in Industry 123(2020):103302.(SCI,IF: 11.245)
[10] Zhihua Chen, Xinguo Ming*, Ruichang Wang, Yuguang Bao. Selection of design alternatives for smart product service system: A rough-fuzzy data envelopment analysis approach. Journal of Cleaner Production, 273(2020), 122931.(SCI,IF: 11.072)
[9] Zhihua Chen, Xinguo Ming*, Tongtong Zhou, and Yuan Chang. Sustainable supplier selection for smart supply chain considering internal and external uncertainty: An integrated rough-fuzzy approach. Applied Soft Computing, 87(2020), 106004.(SCI,IF: 8.263,ESI高被引)
[8] Zhihua Chen, Minglei Lu, Xinguo Ming*, Xianyu Zhang, and Tongtong Zhou. Explore and evaluate innovative value propositions for smart product service system: A novel graphics-based rough-fuzzy DEMATEL method. Journal of Cleaner Production, 243(2020), 118672. (SCI,IF: 11.072)
[7] Zhihua Chen, Xinguo Ming*, Tongtong Zhou, Yuan Chang, and Zhaohui Sun. A hybrid framework integrating rough-fuzzy best-worst method to identify and evaluate user activity-oriented service requirement for smart product service system. Journal of Cleaner Production, 253(2020), 119954. (SCI,IF: 11.072)
[6] Zhihua Chen, Xinguo Ming*, Elise Vareilles, and Olga Battaia. Bi-objectives configuration optimization for smart product service with hybrid uncertain instance attributes. Proceedings of the 22nd International Configuration Workshop (Virtual Event), Sep 10-11th, 2020 Vicenza, Italy.(国际会议)
[5] Mei, Mei, Zhihua Chen*. (2020). Evaluation and selection of sustainable hydrogen production technology with hybrid uncertain sustainability indicators based on rough-fuzzy BWM-DEA. Renewable Energy, 165, 716-730. (SCI,IF: 8.634)
[4] 王瑞昌,陈志华,明新国.船舶动力系统全生命周期绿色设计的评价方法[J].WilliamHill中文官方网站学报,2020,54(03):256-264.(EI)
[3] Zhihua Chen, Xinguo Ming*, Xianyu Zhang, Dao Yin, and Zhaohui Sun. A rough-fuzzy DEMATEL-ANP method for evaluating sustainable value requirement of product service system. Journal of Cleaner Production, 228(2019), 485-508.(SCI,IF: 11.072)
[2] Xianyu Zhang, Xinguo Ming, Zhiwen Liu, Dao Yin, and Zhihua Chen. A reference system of smart manufacturing talent education (SMTE) in China. The International Journal of Advanced Manufacturing Technology 100, 9(2019):2701-14.(SCI)
[1] 周新杰,明新国,陈志华,张先燏,潘杨.基于模型、数据、知识的设计与制造协同框架[J].计算机集成制造系统,2019,25(12):3116-3126.(EI)
本科生教学课程:
《系统工程》,本科必修课,承担学时:16,学分:1,2023-至今
《综合运输与多式联运》,本科选修课,承担学时:24,学分:1.5,2023-至今
《智能交通系统》,本科选修课,承担学时:16,学分:1,2023-2024
PRP项目:
第44期PRP项目“电动汽车充换电站调度策略强化学习仿真”
第45期PRP项目“基于大语言模型的航运事故案例库构建方法研究”
第48期PRP项目“基于知识图谱与大语言模型的船舶发动机智能维修服务系统研究”(成员招募中)
大创项目:
第31期大创项目“基于大模型与知识图谱的航运事故知识服务系统研究与开发”
本科毕业设计:
2022届“上海市海铁联运扶持政策和效益评估”
2023届“自动化陆港AGV任务分配与路径规划模型研究”
2024届“突发事件对道路货运体系影响等级分类”
2025届“有限资源约束下的无人驾驶出租车队充换电决策优化研究”,院优毕
2025届“考虑不确定性需求的电动汽车充换电站电池补能行为决策优化研究”,院优毕
研究生课程教学:
《工程管理的决策理论与方法》,MEM选修课,承担学时:32,学分:2,2023-至今
软件著作权:
[6]电动汽车充换电站电池管理系统 ,软著登字第XXXX号,已受理
[5]无人驾驶出租车充换电决策管理系统,软著登字第15766686号,2025-06-27
[4]航运事故知识智能服务系统V1.0,软著登字第15723782号,2025-06-23
[3]一种基于机器学习的共享电动汽车用户市场细分及其特征需求预测系统V1.0 ,软著登字第12597916号,2024-01-30
[2]数据驱动的共享汽车分时租赁企业站点运营决策支持系统V1.0 ,软著登字第11910688号,2023-10-27
[1]数据驱动的共享汽车分时租赁企业站点运营决策支持系统V1.0 ,软著登字第11910688号,2023-10-27
发明专利:
[5]面向用户场景的智能产品服务功能模块生成方法及系统,申请中
[4]空调服务管理系统及方法,公开号CN 118941367 A,实审
[3]一种新型电力系统,申请号CN202411993570.5,已受理
[2]智能工业服务生态系统的定量化服务绩效评估方法及系统,申请号CN202411860424.5,已受理
[1]智能产品服务生态系统的模块生成方法及系统,授权号:CN116450102B,已授权
[1]“航运安全大模型(ShippingSafety)——航运事故知识智能服务系统研究与应用”,第二十届全国大学生交通运输科技大赛,全国二等奖,国家级,指导本科生,2025
[2]WilliamHill中文官方网站2024年度教学成果奖,AI引领-学科交叉-产教融合:面向智慧交通的研究生创新人才培养模式探究,一等奖,校级
[3]中国航海学会青年托举人才,2023
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