个人简历
【个人简介】:北航长聘副教授、硕士生导师,上海交通大学工学博士,德国慕尼黑工业大学(Technische Universit?t München)博士后;长期从事复杂产品/服务系统、大规模个性化定制、模块化协同开发、可持续运营等理论及应用研究;逐步发展并完善了产品服务系统的大规模定制理论、个性化需求挖掘与预测技术、异质架构模块化开发策略、面向全生命周期的可持续运营决策方法;先后发明了产品设计知识匹配方法和产品多维故障与失效数据处理方法与系统(发明专利已授权),开发了考虑属性关联的工业服务个性化推荐系统。
截止目前,已发表学术论文近60篇,其中50多篇发表在IEEE T. Reliab.,Int. J. Prod. Res.,CIRP Ann.- Manuf. Techn.,Renew. Sust. Energ. Rev., J. Clean. Prod.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著作、教材2部;相关成果被IEEE Fellow、CIRP Fellow等国际知名学者广泛引用,Google Scholar数据库中H因子为20;在智能制造服务领域,授权/公开国家发明专利多项;入选“北航青年拔尖人才支持计划”;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3项,作为研究骨干参加国家“两机”重大专项(航空发动机及燃气轮机重大专项基础研究项目)、国家自然科学基金重点项目等3项。作为核心成员,主导完成上海贝尔、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。
常年担任近20家国际SCI/SSCI期刊的通讯评审专家;担任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。
欢迎对交叉学科(管理、金融、计算机、信息、制造)研究、数据分析与决策感兴趣的学生报考。
【联系方式】: songwenyan@buaa.edu.cn; wenyansong@foxmail.com
【研究兴趣】:
智能产品服务系统、可持续运营管理(可持续供应链管理、项目管理、质量管理等)、创新管理与创新方法、智能制造/服务、工业4.0等。
【主要科研项目】:
[1]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(2019YFB**),2019/12-2022/11,主持。
[2]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(**),2020/01-2023/12, 主持。
[3]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(**),2016/01-2018/12,主持。
[4]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。
[5]燃气轮机自主研发体系基础和应用研究,航空发动机及燃气轮机重大专项基础研究项目(国家“两机”重大专项)(2017-I-0011-0012),2018/08-2021/07,参加。
[6]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。
[7]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。
[8]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。
[9]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:技术创新管理、质量管理;
研究生:技术与产品创新管理(MBA)、项目质量管理、质量管理;
留学生:运筹学(英文)
【部分SCI/SSCI国际期刊论文】:
复杂产品/服务系统领域部分论文(*为通讯作者)
[1]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)
[2]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)
[3]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)
[4]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)
[5]Song, W.* (2017). Requirement management for product-service systems: status review and future trends. Computers in Industry,85, 11-22. (Q2区)
[6]Song, W.*, & Sakao, T. (2016). Service conflict identification and resolution for design of product–service offerings.Computers & Industrial Engineering,98, 91-101. (Q1区)
[7]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)
[8]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)
[9]Song, W.*, & Chan, F. T. (2015). Multi-objective configuration optimization for product-extension service.Journal of Manufacturing Systems,37, 113-125. (Q1区)
[10]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)
[11]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)
[12]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)
[13]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)
可持续运营管理领域部分论文
[14]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)
[15]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)
[16]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)
[17]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)
[18]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)
[19]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)
[20]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)
For more, vist https://www.researchgate.net/profile/Wenyan_Song2
【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20家国际SCI/SSCI期刊的审稿人,包括:
Journal of Cleaner Production, IEEE Transactions on Reliability, Reliability Engineering and System Safety, International Journal of Production Research, Computers & Industrial Engineering, Journal of Intelligent Manufacturing, Soft Computing, Journal of Engineering Design, Concurrent Engineering: Research and Applications, Quality and Reliability Engineering International, Computers in Industry, Total Quality Management & Business Excellence等。
For more information, visit https://sites.google.com/site/wenyansong2015/
研究领域
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论文
当前位置: 中文主页 >> 论文[1] et al., W., Song, X. G., Ming, Z.,Xu.owards a new framework: Understanding and managing the supply chain for product-service systems. Journal of Engineering Manufacture
[2] B, Zhu, W., Song, X., Ming, Z.,Wu.Nuclear Product Design Knowledge System Based on FMEA Method in New Product Development. Arabian Journal for Science and Engineering
[3] et al, W., Song, J., Zhou, X., Ming, Z.,Xu.Management optimisation based on dynamic SKU for RFID-enabled warehouse management in the steel supply chain. International Journal of Production Research,
[4] et al, W., Song, X. G., Ming, Z.,Xu.Collaborative Project Management: A Systemic Approach to Heavy Equipment Manufacturing Project Management. Systemic Practice and Action Research
[5] Xu, Han Y, Ming X,Song W.An Integrative Framework for Innovation Management of Product-Service System. International Journal of Production Research
[6] Xu Z, Ming X,Song W.Integrating Kano Model and Grey–Markov Chain to Predict Customer Requirement States. Journal of Engineering Manufacture
[7] et a, Wu Z, Ming X,Song W.A rough TOPSIS Approach for Failure Mode and Effects Analysis in Uncertain Environments. Quality and Reliability Engineering International
[8] Wu Z., Han Y,Ming X,Song W.A Rough Set Approach for Evaluating Vague Customer Requirement of Industrial Product-Service System. International Journal of Production Research
[9] Wu Z, Ming X,Song W.An Integrated Rough Number-based Approach to Design Concept Evaluation under Subjective Environments. Journal of Engineering Design
[10] Wang P, Ming X,Song W.Collaborative Product Innovation Network: Status Review, Framework, and Technology Solutions. Concurrent Engineering: Research and Application
[11] Han Y, Ming X,Song W.A Rough-grey Relational Analysis Approach to Prioritize Technical Attributes in House of Quality. International Journal of Production Research,
[12] et al, Wu Z, Ming X,Song W.Failure Modes and Effects Analysis using Integrated Weight-based Fuzzy TOPSIS
[13] Xu Z, Ming X,Song W.Risk Evaluation of Customer Integration in New Product Development under Uncertainty.
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