个人简介:
北航9999js金沙老品牌教授、博士生导师,工学博士,德国慕尼黑工业大学(Technische Universität München)博士后。长期从事复杂产品/服务系统、服务型制造、系统韧性管理、质量管理与可靠性、可持续运营管理等领域的研究;连续四年入选中国高被引学者 (管理科学与工程学科)、World’s Top 2% Scientists (斯坦福大学发布),入选北航青年拔尖人才支持计划,北航优秀硕士论文指导教师;先后获工信部优秀智库研究成果一等奖、Emerald Literati Awards for Excellence(研究卓越奖)、中国机械工程学会优秀论文奖、北航优秀教学成果一等奖(质量管理课程)等。
在研究领域,获得国家发明专利授权9项、软件著作权2项,发表学术论文70余篇,其中60多篇发表在 Int. J. Oper. Prod. Man.,Eur. J. Oper. Res., IEEE. T. Eng. Manage., IEEE T. Reliab., Reliab., Int. J. Prod. Res., CIRP Ann.- Manuf. Techn.等国际SCI/SSCI期刊上;在国际知名出版社Springer独立出版英文学术专著1部,在机械工业出版社等出版专著、教材3部,参编十三五国家重点规划图书《智能制造服务技术》等著作3部;相关成果在Google Scholar数据库中被引4700余次,H因子为40。
主持国家重点研发计划课题、国家自然科学基金等国家级项目4项,承担国家科技重大专项子专题研究任务、国家自然科学基金重点项目子课题、基础科学中心课题、工信部智库课题。作为核心成员,主导完成中航工业、上海贝尔、三菱电梯、中国商飞、上海电气、上海电力、中钞油墨、泛亚汽车等多项产学研项目。
常年担任 Int. J. Oper. Prod. Man., IEEE T. Reliab., Int. J. Prod. Res.,Int. J. Prod. Econ.等近30家国际SCI/SSCI期刊的通讯评审专家;担任中国服务型制造联盟专家、中国自动化学会3D打印与社会制造专委会委员、国际生产工程科学院(CIRP)工业产品服务系统国际会议学术委员会成员(Scientific Committee Member)、《中国机械工程》期刊智能制造服务专辑编委;国内外学术合作较广,与德国、瑞典、加拿大、香港等地学者建立了良好的学术合作联系。
指导的学生曾获得国家奖学金(4人次)、北京市优秀毕业生(3人次)、北航博士生卓越学术基金(2人)、北航优秀硕士毕业论文(2人)、“冯如杯”科技竞赛一等奖(2人次)二等奖(2人次)、北航研究生优秀学术论文奖、北航优秀毕业生荣誉称号;学生毕业后,赴国内外知名高校(荷兰埃因霍芬理工大学、香港科技大学、清华大学等)深造,获得国内211大学等高校教职,进入航空航天系统科研院所、金融系统(如工商银行总行)、互联网平台等企事业单位工作。
欢迎对交叉学科(管理、计算机、信息、金融、制造)研究、人工智能大数据分析、智能决策感兴趣的学生报考。
研究兴趣:
复杂产品/服务系统、系统韧性管理、质量管理与可靠性、可持续运营管理、人机融合与智能决策、创新管理与创新方法。
主要科研项目:
[1]关联风险态势下产品服务系统的韧性评估与自适应韧性优化,国家自然科学基金上项目(72471014),2025/01-2028/12,主持。
[2]自贸区综合科技服务平台架构及关键技术研究,国家重点研发计划课题(2019YFB1405502), 2019/12-2022/11,主持。
[3]动态情境下产品服务系统的自适应配置与主动推送方法研究, 国家自然科学基金面上项目(71971012),2020/01-2023/12, 主持。
[4]考虑交互与冲突的产品服务系统需求管理方法研究,国家自然科学基金青年基金项目(71501006,后评估“优秀”),2016/01-2018/12,主持。
[5]可持续产品服务系统,“北航青年拔尖人才支持计划项目”,2017/12-2020/12,主持。
[6]产品服务系统全生命周期绩效测算研究,工信部服务型制造研究院,2023/02-2023/12,主持。
[7] ****自主研发体系基础和应用研究,国家科技重大专项项目子专题,2018/02-2021/07,主持。
[8] ***航电系统典型故障模式及可靠性评估方法研究,主管部门科技项目,2018/01-2020/12,参加。
[9]产业链供应链韧性和安全水平评价体系构建和应用研究,国家高端智库重点研究项目,2023/01-2023/12,参加。
[10]面向科技型中小企业的创新方法公共服务平台,科技部创新方法工作专项(2015IM020300),2015.10-2017.10,参加。
[11]基于物联网的工程机械产品智能化服务云平台,上海市经济和信息化委员会资助项目,2013.10-2015.09,参加。
[12]电梯维保创新服务平台,上海市发展和改革委员会服务业发展引导资金支持项目,2013.1-2016.12,参加。
[13]民用飞机全寿命维修服务模式与关键技术研究和应用,上海市科委科技创新行动计划项目,2011.09-2013.09,参加。
主讲课程:
本科生:质量管理、创新方法、技术创新管理;
研究生:生产与运作管理、质量管理与可靠性、技术创新管理(MBA/MEM);
留学生:Operations Research(英文)。
部分SCI/SSCI国际期刊论文:(Google scholar)
复杂产品/服务系统领域部分论文(*为通讯作者)
[1]Song, W., Han, Y. H., & Sroufe, R. (2022). Substitution and complementarity dynamics in configurations of sustainable management practices. International Journal of Operations & Production Management, 42(11), 1711-1731. (ABS 4)
[2]Wang, Q., Jia, G., & Song, W.*(2022). Identifying critical factors in systems with interrelated components: A method considering heterogeneous influence and strength attenuation. European Journal of Operational Research. DOI:10.1016/j.ejor.2022.02.012 (ABS 4, FMS A)
[3]Song, W.*, Zheng, J., Niu, Z., Wang, Q., Tang, Y., & Zheng, P. (2022). Risk evaluation for industrial smart product-service systems: An integrated method considering failure mode correlations.Advanced Engineering Informatics, 54, 101734. (Q1区)
[4]Song, W.*, Li, J., Li, H., & Ming, X. (2020). Human factors risk assessment: An integrated method for improving safety in clinical use of medical devices. Applied Soft Computing, 86, 105918. (Q1区,中科院TOP)
[5]Song, W.*, Rong, W., & Tang, Y. (2024). Quantifying risk of service failure in customer complaints: A textual analysis-based approach. Advanced Engineering Informatics, 60, 102377.(Q1区)
[6]Song, W.*, Niu, Z., & Zheng, P. (2021). Design concept evaluation of smart product-service systems considering sustainability: An integrated method. Computers & Industrial Engineering, 159, 107485. (Q1区)
[7]Wang, X., Fang, H., & Song, W.*(2020). Technical attribute prioritisation in QFD based on cloud model and grey relational analysis. International Journal of Production Research, 58(19), 5751-5768. (ABS 3,Q1区)
[8]Song, W., & Sakao, T. (2018). An environmentally conscious PSS recommendation method based on users' vague ratings: A rough multi-criteria approach. Journal of Cleaner Production, 172, 1592-1606. (Q1区, 影响因子5.715)
[9]Song, W.*, & Sakao, T. (2017). A customization-oriented framework for design of sustainable product/service system. Journal of Cleaner Production, 140, 1672-1685. (Q1区, 影响因子5.715)
[10]Song, W.*, & Cao, J. (2017). A rough DEMATEL-based approach for evaluating interaction between requirements of product-service system. Computers & Industrial Engineering, 110,353-363. (Q1区)
[11]Sakao, T., Song, W., & Matschewsky, J. (2017). Creating service modules for customising product/service systems by extending DSM. CIRP annals- Manufacturing Technology, 66(1), 21-24. (Q1区)
[12]Song, W.* (2017). Requirement management for product-service systems: status review and future trends. Computers in Industry, 85, 11-22. (Q2区)
[13]Song, W.*, & Sakao, T. (2016). Service conflict identification and resolution for design of product–service offerings. Computers & Industrial Engineering, 98, 91-101. (Q1区)
[14]Song, W.*, Cao, J., & Zheng, M. (2016). Towards an integrative framework of innovation network for new product development project. Production Planning & Control, 27(12): 967-978. (Q1区)
[15]Song, W.*, Wu, Z., Li, X., & Xu, Z. (2015). Modularizing product extension services: An approach based on modified service blueprint and fuzzy graph. Computers & Industrial Engineering, 85, 186-195. (Q1区)
[16]Song, W.*, & Chan, F. T. (2015). Multi-objective configuration optimization for product-extension service. Journal of Manufacturing Systems, 37, 113-125. (Q1区)
[17]Song, W.*, Ming, X., Han, Y., Xu, Z., & Wu, Z. (2015). An integrative framework for innovation management of product–service system. International Journal of Production Research, 53(8), 2252-2268. (Q1区)
[18]Song, W.*, Ming, X., & Han, Y. (2014). Prioritising technical attributes in QFD under vague environment: a rough-grey relational analysis approach. International Journal of Production Research, 52(18), 5528-5545. (Q1区)
[19]Song, W.*, Ming, X., Han, Y., & Wu, Z. (2013). A rough set approach for evaluating vague customer requirement of industrial product-service system. International Journal of Production Research, 51(22), 6681-6701. (Q1区)
[20]Li, J., Fang, H., & Song, W.* (2019). Modified failure mode and effects analysis under uncertainty: A rough cloud theory-based approach. Applied Soft Computing, 78, 195-208. (Q1区)
[21]Wang, Q., Jia, G., Jia, Y., & Song, W*. (2021). A new approach for risk assessment of failure modes considering risk interaction and propagation effects. Reliability Engineering & System Safety, 216, 108044. (FMS A类,中科院一区TOP)
[22]Fang, H., Li, J., & Song, W*.(2020). A new method for quality function deployment based on rough cloud model theory. IEEE transactions on engineering management. (FMS A类)
可持续运营管理领域部分论文
[23]Song, W., Xu, Z., & Liu, H. C. (2017). Developing sustainable supplier selection criteria for solar air-conditioner manufacturer: An integrated approach. Renewable and Sustainable Energy Reviews, 79, 1461-1471. (中科院一区TOP期刊,JCR Q1区,影响因子8.050)
[24]Fang, H., Li, J., & Song, W*. (2018). Sustainable site selection for photovoltaic power plant: An integrated approach based on prospect theory. Energy Conversion and Management, 174, 755-768. (中科院一区TOP期刊,JCR Q1区,影响因子6.377)
[25]Song, W., Ming, X., & Liu, H. C. (2017). Identifying critical risk factors of sustainable supply chain management: A rough strength-relation analysis method. Journal of Cleaner Production,143,100–115. (JCR Q1区,影响因子5.715)
[26]Li, J., Fang, H., & Song, W*. (2018). Sustainability evaluation via variable precision rough set approach: a photovoltaic module supplier case study. Journal of Cleaner Production, 192, 751-765.(JCR Q1区,影响因子5.715)
[27]Song, W.*, Ming, X., & Xu, Z. (2013). Risk evaluation of customer integration in new product development under uncertainty. Computers & Industrial Engineering, 65(3), 402-412. (JCR Q1区)
[28]Liu, H-C., You, J., Song, W*. (2017). Failure Mode and Effect Analysis using Cloud Model Theory and PROMETHEE Method. IEEE Transactions on Reliability,66(4), 1058-1072. (JCR Q1区)
[29]Song, W.*, Ming, X., Wu, Z., & Zhu, B. (2014). A rough TOPSIS approach for failure mode and effects analysis in uncertain environments. Quality and Reliability Engineering International, 30(4), 473-486. (JCR Q2区)
[30]Song, W.*, Zhu, Y., & Zhao, Q. (2020). Analyzing barriers for adopting sustainable online consumption: A rough hierarchical DEMATEL method. Computers & Industrial Engineering, 140, 106279.(Q1区)
[31] Liu, L., Song, W.*, & Han, W. (2020). How sustainable is smart PSS? An integrated evaluation approach based on rough BWM and TODIM. Advanced Engineering Informatics, 43, 101042. (JCR Q1区)
[32] Liu, L., Song, W.*, & Liu, Y. (2023). Leveraging digital capabilities toward a circular economy: Reinforcing sustainable supply chain management with Industry 4.0 technologies. Computers & Industrial Engineering, 178, 109113.(ESI高被引论文,JCR Q1区)
部分授权国家发明专利及软件著作权:
[1] 宋文燕,刘羚迪,朱玥,周才博,郑嘉宁; 智能产品服务系统与供应商协同配置方法, 2022-8-23, ZL 2022 1 0227233.X (国家发明专利)
[2] 宋文燕,何思锐,郑嘉宁,汤宇琦,周才博; 新能源汽车动力电池系统失效模式的风险评估方法及装置, 2022-04-19, ZL 2022 1 0119973.1 (国家发明专利)
[3] 黄琳,宋文燕,王丽亚; 一种识别产品相关服务需求间交互关联关系的方法, 2022-05-20, 中国, ZL2020 1 0568648.4 (国家发明专利)
[4] 宋文燕,何思锐,郑嘉宁,汤宇琦,周才博; 面向产品服务系统的智能失效模式和影响分析系统, 2022SR0444639, 2022-1-23 (软件著作权)
[5] 宋文燕 ; 考虑属性关联的工业产品服务个性化推荐系统, 2017SR028308, 2017 (软件著作权)
学术服务:
中国运筹学会随机服务与运作管理分会理事;
国际生产工程科学院(CIRP)第十届工业产品服务系统(IPS2)国际会议Scientific Committee Member,瑞典;
常年担任近30家国际SCI/SSCI期刊的审稿人,包括:
International Journal of Operations & Production Management, International Journal of Production Economics, IEEE Transactions on Reliability, Energy, Reliability Engineering and System Safety, International Journal of Production Research, Advanced Engineering Informatics, Applied Soft Computing, Computers & Industrial Engineering, Journal of Intelligent Manufacturing, Journal of Engineering Design, Quality and Reliability Engineering International, Computers in Industry, Total Quality Management & Business Excellence等。
更多信息,请访问 https://www.researchgate.net/profile/Wenyan_Song2