Digital twin-based sustainable intelligent manufacturing: a review 被引量：34

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摘要 As the next-generation manufacturing system,intelligent manufacturing enables better quality,higher productivity,lower cost,and increased manufacturing flexibility.The concept of sustainability is receiving increasing attention,and sustainable manufacturing is evolving.The digital twin is an emerging technology used in intelligent manufacturing that can grasp the state of intelligent manufacturing systems in real-time and predict system failures.Sustainable intelligent manufacturing based on a digital twin has advantages in practical applications.To fully understand the intelligent manufacturing that provides the digital twin,this study reviews both technologies and discusses the sustainability of intelligent manufacturing.Firstly,the relevant content of intelligent manufacturing,including intelligent manufacturing equipment,systems,and services,is analyzed.In addition,thesustainability of intelligent manufacturing is discussed.Subsequently,a digital twin and its application are introduced along with the development of intelligent manufacturing based on the digital twin technology.Finally,combined with the current status,the future development direction of intelligent manufacturing is presented.

作者 Bin He Kai-Jian Bai

机构地区 Shanghai Key Laboratory of Intelligent Manufacturing and Robotics

出处《Advances in Manufacturing》 SCIE EI CAS CSCD 2021年第1期1-21,共21页 先进制造进展（英文版）

基金 supported by the National Natural Science Foundation of China(Grant No.51675319) Shanghai Science and Technology Committee Project(Grant No.19511104702).

关键词 Intelligent manufacturing Digital twin Advanced manufacturing Industry 4.0 Sustainable manufacturing

分类号 F426 [经济管理—产业经济]

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参考文献23

1Pai ZHENG,Honghui WANG,Zhiqian SANG,Ray Y. ZHONG,Yongkui LIU,Chao LIU,Khamdi MUBAROK,Shiqiang YU,Xun XU.Smart manufacturing systems for Industry 4.0： Conceptual framework, scenarios, and future perspectives[J].Frontiers of Mechanical Engineering,2018,13(2):137-150. 被引量：22
2Ray Y. Zhong,Xun Xu,Eberhard Klotz,Stephen T. Newman.Intelligent Manufacturing in the Context of Industry 4.0： A Review[J].Engineering,2017,3(5):616-630. 被引量：160
3Nikita Voinov,Igor Chernorutsky,Pavel Drobintsev,Vsevolod Kotlyarov.An approach to net-centric control automation of technological processes within industrial IoT systems[J].Advances in Manufacturing,2017,5(4):388-393. 被引量：3
4Agathocles A. Krimpenis,Nikolaos A. Fountas.Balancing multiple criteria in formulation of weighted, single-objective genetic algorithm optimization for CNC machining problems[J].Advances in Manufacturing,2016,4(2):178-188. 被引量：3
5Shuntaro Yamato,Yuki Yamada,Kenichi Nakanishi,Norikazu Suzuki,Hayato Yoshioka,Yasuhiro Kakinuma.Integrated in-process chatter monitoring and automatic suppression with adaptive pitch control in parallel turning[J].Advances in Manufacturing,2018,6(3):291-300. 被引量：3
6李忠明,何斌.面向冷墩机的低碳经济知识表达[J].低碳经济,2016,5(2):20-25. 被引量：1
7Shuai Guo,Ting-Ting Fang,Tao Song,Feng-Feng Xi,Bang-Guo Wei.Tracking and localization for omni-directional mobile industrial robot using reflectors[J].Advances in Manufacturing,2018,6(1):118-125. 被引量：5
8He Lyu,Yue Liu,Jiao-Yang Guo,He-Ming Zhang,Ze-Xiang Li.Tool-path generation for industrial robotic surface-based application[J].Advances in Manufacturing,2019,7(1):64-72. 被引量：1
9Hirpa G.Lemu.Current status and challenges of using geometric tolerance information in intelligent manufacturing systems[J].Advances in Manufacturing,2014,2(1):13-21. 被引量：3
10C. K. M. Lee,S. Z. Zhang,K. K. H. Ng.Development of an industrial Internet of things suite for smart factory towards re-industrialization[J].Advances in Manufacturing,2017,5(4):335-343. 被引量：5

二级参考文献22

1V. Arumugam,Jiju Antony,Alex Douglas.Observation: a Lean tool for improving the effectiveness of Lean Six Sigma[J].The TQM Journal.2012(3)
2F. Bruno,G. Bianco,M. Muzzupappa,S. Barone,A.V. Razionale.Experimentation of structured light and stereo vision for underwater 3D reconstruction[J].ISPRS Journal of Photogrammetry and Remote Sensing.2011(4)
3Chern-Sheng Lin,Chia-Hau Lin,Der-Chin Chen,Chuen-Lin Tien,Mau-Shiun Yeh.Measurement method of three-dimensional profiles of small lens with gratings projection and a flexible compensation system[J].Expert Systems With Applications.2010(5)
4Jing Xu,Ning Xi,Chi Zhang,Quan Shi,John Gregory.Real-time 3D shape inspection system of automotive parts based on structured light pattern[J].Optics and Laser Technology.2010(1)
5Basilio Ramos Barbero,Elena Santos Ureta.Comparative study of different digitization techniques and their accuracy[J].Computer-Aided Design.2010(2)
6S. Ravikumar,K.I. Ramachandran,V. Sugumaran.Machine learning approach for automated visual inspection of machine components[J].Expert Systems With Applications.2010(4)
7Iacopo Gentilini,Kenji Shimada.Predicting and evaluating the post-assembly shape of thin-walled components via 3D laser digitization and FEA simulation of the assembly process[J].Computer-Aided Design.2010(3)
8Ming-Yih Lee,Chi-Shih Yang.Entropy-based feature extraction and decision tree induction for breast cancer diagnosis with standardized thermograph images[J].Computer Methods and Programs in Biomedicine.2010(3)
9Christine Connolly.Machine vision advances and applications[J].Assembly Automation.2009(2)
10S. Padma,R. Bhuvaneswari,S. Subramanian.Application of soft computing techniques to induction motor design[J].COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering.2007(5)

共引文献241

1黄湘萌,施晓岚.制造业与物流业绿色协同发展研究[J].时代金融,2020(14):113-114. 被引量：3
2刘朝辉,王中杰.云制造资源调度综述[J].系统仿真技术,2019,0(4):268-273. 被引量：3
3吴秀丽,孙琳.智能制造系统基于数据驱动的车间实时调度[J].控制与决策,2020,35(3):523-535. 被引量：29
4陶渊,刘福聪,赵楠.基于工业大数据的机械装备智能化设计综述[J].机械制造,2022,60(8):1-6. 被引量：5
5李佳意,董万鹏,任梦,张吉超,弓成美琪.新时代计算机智能制造模式的研究进展[J].智能计算机与应用,2021,11(3):98-105. 被引量：1
6Chenwei Tang,Caiyang Yu,Yi Gao,Jianming Chen,Jiaming Yang,Jiuling Lang,Chuan Liu,Ling Zhong,Zhenan He,Jiancheng Lv.Deep Learning in Nuclear Industry:A Survey[J].Big Data Mining and Analytics,2022,5(2):140-160. 被引量：3
7黄一躬,周超,侯跃辉,陈建霖,阎春平.汽车壳体类零件加工生产线运行状态监控系统的设计与实现[J].中国科技论文在线精品论文,2022(1):31-42. 被引量：2
8胡俊高.高技术产品营销成功要素[J].政策与管理,2000(3):32-32.
9丁翠.基于相机与手眼标定的机械手移载引导算法[J].控制工程,2018,25(12):2171-2176. 被引量：1
10李广,杨欣.结合深度学习的工业大数据应用研究[J].大数据,2018,4(5):3-14. 被引量：5

同被引文献494

1唐尧,张恩政,陈本永,陈刚,刘翠苹.基于运动学分析的工业机器人轨迹精度补偿方法[J].仪器仪表学报,2020,41(3):175-183. 被引量：24
2吴浩,杨帆,王斌,吴会强,王哲,蒋亮亮,黄蔚,王桂娇,乐晨.基于数字孪生的火箭结构设计制造与验证技术研究[J].宇航总体技术,2021(2):7-13. 被引量：12
3蒋云钟,冶运涛,赵红莉,梁犁丽,曹引,顾晶晶.水利大数据研究现状与展望[J].水力发电学报,2020,39(10):1-32. 被引量：93
4沈沉,贾孟硕,陈颖,黄少伟,向月.能源互联网数字孪生及其应用[J].全球能源互联网,2020,3(1):1-13. 被引量：79
5赖晓烜,陈衍泰,范彦成.制造企业数据驱动动态能力的形成与演化[J].科学学研究,2023,41(1):113-122. 被引量：23
6胡煜,罗欣伟.军工央企的数字化转型研究[J].中国电子科学研究院学报,2020,15(2):125-130. 被引量：20
7龚其国,杨丽萍.“中国制造2025”背景下制造业的发展策略研究——基于社会网络分析和文本挖掘[J].科技促进发展,2020,16(8):917-923. 被引量：13
8何西旺,杨亮亮,冉仁杰,朱发文,宋学官.基于多评价标准的代理模型综合比较研究[J].机械工程学报,2022,58(16):403-419. 被引量：8
9付洋,曹宏瑞,郜伟强,高文辉.数字孪生驱动的航空发动机涡轮盘剩余寿命预测[J].机械工程学报,2021,57(22):106-113. 被引量：14
10李晓莉,陈潇楠,苏喜生,徐克明.大数据在我军后勤保障中的应用[J].军事交通学报,2022(4):50-53. 被引量：3

引证文献34

1王旭初,白清顺,王鹏,程凯,赵亮.微细铣削的数字孪生建模技术研究进展[J].航空制造技术,2021,64(20):56-64. 被引量：10
2李忠海,孙天泽,张警,何西旺,宋学官.人体数字孪生构建方法及其在骨骼分析中的应用[J].中华骨与关节外科杂志,2022,15(2):111-116. 被引量：6
3刘富春,柏受军,郝旭耀,郑群现,江明.基于Unity3D的工业机器人虚实孪生控制仿真研究[J].安徽工程大学学报,2022,37(2):17-25. 被引量：4
4李志金.智慧电厂数字孪生体系架构研究及应用[J].电力大数据,2022,25(1):35-42. 被引量：7
5李兆丰,孔昊存,刘延峰,刘元法,陈坚.未来食品:机遇与挑战[J].中国食品学报,2022,22(4):1-13. 被引量：20
6Hao Zhang,Yongqi Zhou,Huaxin Zhu,Dragoslav Sumarac,Maosen Cao.Digital Twin-Driven Intelligent Construction:Features and Trends[J].Structural Durability & Health Monitoring,2021,15(3):183-206.
7刘亚军,訾斌,王正雨,游玮,郑磊.智能喷涂机器人关键技术研究现状及进展[J].机械工程学报,2022,58(7):53-74. 被引量：26
8白春光,孙利花,彭维婷,王浚侨.第四次工业革命与可持续供应链管理:基于内容分析方法[J].供应链管理,2022,3(6):5-22. 被引量：2
9高士根,周敏,郑伟,张林鍹,张斌,宋海锋,吴兴堂,李妮,王昆玉.基于数字孪生的高端装备智能运维研究现状与展望[J].计算机集成制造系统,2022,28(7):1953-1965. 被引量：33
10Yang Fu,Gang Zhu,Mingliang Zhu,Fuzhen Xuan.Digital Twin for Integration of Design-Manufacturing-Maintenance:An Overview[J].Chinese Journal of Mechanical Engineering,2022,35(4):1-20. 被引量：7

二级引证文献211

1张龙,赖惠鸽,杨玉坤,李少东,朱学军.面向喷涂件下挂的机器人3D视觉引导策略研究[J].仪器仪表学报,2023,44(6):35-42. 被引量：3
2谭旭红,张亨栋.数据要素驱动煤炭企业生产效率提升研究[J].煤炭经济研究,2024,44(6):37-42. 被引量：1
3朱亮.基于业财融合的智慧电厂管理研究[J].会计师,2023(1):53-55.
4张岑,张志强,朱芋奇,王远航,薛万来,郝生超.数字孪生密云水库流域建设方案构想[J].北京水务,2022(4):4-9. 被引量：7
5肖祥武.智慧发电企业数据中台架构及数字化应用[J].电力大数据,2022,25(5):69-76. 被引量：5
6高林,丁建英,刘洋,陈梦玲.《食品理化检验及实验》理实一体的项目化教学创新探索[J].中国食品工业,2022(22):106-109. 被引量：1
7陈孟.食品科学领域基础研究现状和发展趋势--基于广东省基础与应用基础研究基金申请和资助情况的分析[J].现代食品科技,2022,38(12):1-7.
8国凯,武冲,孙杰.航空整体结构件数控加工变形预测及控制技术研究进展[J].航空制造技术,2022,65(21):112-127. 被引量：7
9汪小娟.新形势下企业的供应链创新管理[J].商展经济,2023(1):103-105. 被引量：1
10张青松.一体化大数据平台在智慧电厂中的应用[J].集成电路应用,2022,39(11):328-329. 被引量：7

1Yaping Fu,Yushuang Hou,Zifan Wang,Xinwei Wu,Kaizhou Gao,Ling Wang.Distributed Scheduling Problems in Intelligent Manufacturing Systems[J].Tsinghua Science and Technology,2021,26(5):625-645. 被引量：19
2Jinhui Zhou,Shaojun Guo.Carbon-based anode materials for potassium-ion batteries:From material,mechanism to performance[J].SmartMat,2021,2(2):176-201. 被引量：6
3Xingyu Li,Baicun Wang,Chao Liu,Theodor Freiheit,Bogdan I.Epureanu.Intelligent Manufacturing Systems in COVID‑19 Pandemic and Beyond:Framework and Impact Assessment[J].Chinese Journal of Mechanical Engineering,2020,33(4):1-5. 被引量：4
4Marco Benedetti,Marco Mori.On the use of Max-SAT and PDDL in RBAC maintenance[J].Cybersecurity,2018,1(1):592-616.
5Gang Yang,Zhanwei Ruan,Chenbing Wang,Chao Gu,Junjie Lv,Shaojun Yang,Lulu Weng,Feng Ding,Long Ai,Donghai Yuan,Fei Chen,Jiangli Chen,Gaofeng Shao.Research Progresses in the Inhibitory Effect of Bone Mesenchymal Stem Cell-Derived Exosome on Blood-Brain Barrier Disruption following Intracerebral Hemorrhage in Rats[J].Journal of Biosciences and Medicines,2021,9(9):125-137. 被引量：1
6Xu Bu,Luo Jie.The Macro-Changes and Macro-Pandemic Highlight the Evolving International Situation and the American Sickness[J].Peace,2021(1):41-46.
7Keith Jeffery,Peter Wittenburg,Larry Lannom,George Strawn,Claudia Biniossek,Dirk Betz,Christophe Blanchi.Not Ready for Convergence in Data Infrastructures[J].Data Intelligence,2021,3(1):116-135. 被引量：7
8Hongcheng Ren,Jinman Zhuang,Xuan Li,Tianrun Li,Jingyuan Luan,Changming Wang.Avoiding revascularization strategy versus revascularization with drug-coated balloon for the treatment of superficial femoral artery occlusive disease[J].Journal of Interventional Medicine,2021,4(2):87-93. 被引量：4
9Ying YU,Qingkun YIN.Implementation Path and Development Trend of Green Buildings Based on Life Cycle Management[J].Asian Agricultural Research,2021,13(7):38-41.
10PENG Li,WU Zheng.Microclimate Change in Public Space of Residential Areas in Beijing City Based on Numerical Simulation: A Case Study of Min'an Community of Dongcheng District[J].Journal of Landscape Research,2021,13(5):103-112.

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