REFERENCES

1. Barricelli R, Casiraghi E, Fogli D. A survey on digital twin: definitions, characteristics, applications, and design implications. IEEE Access 2019;7:167653-71.

2. Goodfellow I, Bengio Y, Courville A. . Deep learning. MIT press; 2016.

3. Liu R, Wang F, Yang B, Qin S J. Multiscale kernel based residual convolutional neural network for motor fault diagnosis under nonstationary conditions. IEEE Trans Ind Inf 2020;16:3797-806.

4. Zhao R, Wang X, Xia J, Fan L. Deep reinforcement learning based mobile edge computing for intelligent internet of things. Phys Commun 2020;43:101184.

5. Nauman A, Qadri YA, Amjad M, Zikria YB, Afzal MK, Kim SW. Multimedia internet of things: a comprehensive survey. IEEE Access 2020;8:8202-50.

6. Jiang Y, Yin S, Dong J, Kaynak O. A review on soft sensors for monitoring, control and optimization of industrial processes. IEEE Sens J 2020;21:12868-81.

7. Castanedo F. A review of data fusion techniques. Scientific World Journal 2013;2013:704504.

8. Shuman DI, Narang SK, Frossard P, Ortega A, Vandergheynst P. The emerging field of signal processing on graphs: extending high-dimensional data analysis to networks and other irregular domains. IEEE Signal Process Mag 2013;30:83-98.

9. Donoho D, Tanner J. Observed universality of phase transitions in high-dimensional geometry, with implications for modern data analysis and signal processing. Philos Trans A Math Phys Eng Sci 2009;367:4273-93.

10. Raghupathi W, Raghupathi V. Big data analytics in healthcare: promise and potential. Health Inf Sci Syst 2014;2:3.

11. Najafabadi MM, Villanustre F, Khoshgoftaar TM, Seliya N, Wald R, Muharemagic E. Deep learning applications and challenges in big data analytics. J Big Data 2015;2:1-21.

12. Zikopoulos P, Eaton C. . Understanding big data: analytics for enterprise class hadoop and streaming data. McGraw-Hill Osborne Media; 2011.

13. Mell P, Grance T. . The NIST definition of cloud computing. U.S. Department of Commerce; 2011.

14. Grieves M. Digital twin: manufacturing excellence through virtual factory replication. White paper 2014;1:1-7.

15. Jiang Y, Yin S, Li K, Luo H, Kaynak O. Industrial applications of digital twins. Philos Trans A Math Phys Eng Sci 2021;379:20200360.

16. Leng J, Yan D, Liu Q, et al. ManuChain: combining permissioned blockchain with a holistic optimization model as bi-level intelligence for smart manufacturing. IEEE Transactions on Systems, Man, and Cybernetics: Systems 2020;50:182-92.

17. Zhang J, Li L, Lin G, Fang D, Tai Y, Huang J. Cyber resilience in healthcare digital twin on lung cancer. IEEE Access 2020;8:201900-13.

18. Fuller A, Fan Z, Day C, Barlow C. Digital twin: enabling technologies, challenges and open research. IEEE Access 2020;8:108952-71.

19. Jones D, Snider C, Nassehi A, Yon J, Hicks B. Characterising the digital twin: a systematic literature review. CIRP J Manuf Sci Technol 2020;29:36-52.

20. Rasheed A, San O, Kvamsdal T. Digital twin: values, challenges and enablers from a modeling perspective. IEEE Access 2020;8:21980-2012.

21. Teng SY, Touš M, Leong WD, How BS, Lam HL, Máša V. Recent advances on industrial data-driven energy savings: Digital twins and infrastructures. Renewable Sustainable Energy Rev 2021;135:110208.

22. Qi Q, Tao F. Digital twin and big data towards smart manufacturing and industry 4.0: 360 degree comparison. IEEE Access 2018;6:3585-93.

23. Tao F, Zhang H, Liu A, Nee AYC. Digital twin in industry: state-of-the-art. IEEE Trans Ind Inf 2019;15:2405-15.

24. Qi Q, Tao F, Hu T, et al. Enabling technologies and tools for digital twin. J Manuf Syst 2019;58:3-21.

25. Minerva R, Lee GM, Crespi N. Digital twin in the IoT context: a survey on technical features, scenarios, and architectural models. Proc IEEE 2020;108:1785-824.

26. Ibrahim MS, Fan J, Yung WKC, et al. Machine learning and digital twin driven diagnostics and prognostics of light‐emitting diodes. Laser Photonics Rev 2020;14:2000254.

27. Subramanian K. Digital twin for drug discovery and development - the virtual liver. J Indian Inst Sci 2020;100:653-62.

28. Boje C, Guerriero A, Kubicki S, Rezgui Y. Towards a semantic construction digital twin: directions for future research. Autom Constr 2020;114:103179.

29. Glaessgen E, Stargel D. . The digital twin paradigm for future NASA and US Air Force vehicles. Proceedings of the 53rd AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference 20th AIAA/ASME/AHS adaptive structures conference 14th AIAA; 2012.

30. Chen Y. Integrated and intelligent manufacturing: perspectives and enablers. Engineering 2017;3:588-95.

31. Liu Z, Meyendorf N, Mrad N. . The role of data fusion in predictive maintenance using digital twin. AIP Publishing LLC; 2018.

32. Gabor T, Belzner L, Kiermeier M, Beck MT, Neitz A. . A simulation-based architecture for smart cyber-physical systems. Proceedings of the 2016 IEEE international conference on autonomic computing (ICAC); 2016. p. 374-9.

33. Madni AM, Madni CC, Lucero SD. Leveraging digital twin technology in model-based systems engineering. Systems 2019;7:7.

34. Yaqoob I, Salah K, Uddin M, Jayaraman R, Omar M, Imran M. Blockchain for digital twins: recent advances and future research challenges. IEEE Network 2020;34:290-8.

35. Brecher C, Buchsbaum M, Storms S. . Control from the cloud: edge computing, services and digital shadow for automation technologies. Proceedings of the 2019 International Conference on Robotics and Automation (ICRA); 2019. p. 9327-33.

36. Schuh G, Dölle C, Tönnes C. . Methodology for the derivation of a digital shadow for engineering management. Proceedings of the 2018 IEEE Technology and Engineering Management Conference (TEMSCON); 2018. p. 1-6.

37. Bachelor G, Brusa E, Ferretto D, Mitschke A. Model-based design of complex aeronautical systems through digital twin and thread concepts. IEEE Syst J 2020;14:1568-79.

38. Stevens R. . Weaving a digital thread into concept design. Proceedings of the 2020 IEEE Aerospace Conference; 2020. p. 1-7.

39. Tao F, Sui F, Liu A, et al. Digital twin-driven product design framework. Int J Prod Res 2018;57:3935-53.

40. Wu C, Zhou Y, Pereia Pessôa MV, Peng Q, Tan R. Conceptual digital twin modeling based on an integrated five-dimensional framework and TRIZ function model. J Manuf Syst 2020;58:79-93.

41. Tao F, Zhang M, Cheng J, Qi Q. Digital twin workshop: a new paradigm for future workshop. Comput Integr Manuf Syst 2017;23:1-9. (in Chinese).

42. Tao F, Liu W, Liu J, et al. Digital twin and its potential application exploration. Comput Integr Manuf Syst 2018;24:1-18. (in Chinese).

43. Borangiu T, Oltean E, Răileanu S, Anton F, Anton S, Iacob I. . Embedded digital twin for ARTI-type control of semi-continuous production processes. Proceedings of the International Workshop on Service Orientation in Holonic and Multi-Agent Manufacturing; 2019. p. 113-33.

44. Redelinghuys A, Basson AH, Kruger K. A six-layer architecture for the digital twin: a manufacturing case study implementation. J Intell Manuf 2019;31:1383-402.

45. Tao F, Liu W, Zhang M, et al. Five-dimension digital twin model and its ten applications. Comput Integr Manuf Syst 2019;25:1-18. (in Chinese).

46. Weyer S, Meyer T, Ohmer M, Gorecky D, Zühlke D. Future modeling and simulation of CPS-based factories: an example from the automotive industry. IFAC-PapersOnLine 2016;49:97-102.

47. Parmar R, Leiponen A, Thomas LDW. Building an organizational digital twin. Bus Horiz 2020;63:725-36.

48. Panetta K. Gartner’s top 10 strategic technology trends for 2017. Avaliable from: https://www.gartner.com/smarterwithgartner/gartners-top-10-technology-trends-2017/ [Last accessed on 24 Sep 2021].

49. Cearley D, Burke B, Searle S, Walker MJ. Top 10 strategic technology trends for 2018. Avaliable from: https://www.gartner.com/en/newsroom/press-releases/2017-10-04-gartner-identifies-the-top-10-strategic-technology-trends-for-2018 [Last accessed on 24 Sep 2021].

50. Laamarti F, Badawi HF, Ding Y, Arafsha F, Hafidh B, Saddik AE. An ISO/IEEE 11073 standardized digital twin framework for health and well-being in smart cities. IEEE Access 2020;8:105950-61.

51. Schluse M, Priggemeyer M, Atorf L, Rossmann J. Experimentable digital twins - streamlining simulation-based systems engineering for industry 4.0. IEEE Trans Ind Inf 2018;14:1722-31.

52. Yu J, Song Y, Tang D, Dai J. A digital twin approach based on nonparametric Bayesian network for complex system health monitoring. J Manuf Syst 2020;58:293-304.

53. Gao Y, Lv H, Hou Y, Liu J, Xu W. . Real-time modeling and simulation method of digital twin production line. Proceedings of the 2019 IEEE 8th joint international information technology and artificial intelligence conference (ITAIC); 2019. p. 1639-42.

54. Du J, Zhu Q, Shi Y, Wang Q, Lin Y, Zhao D. Cognition digital twins for personalized information systems of smart cities: proof of concept. J Manage Eng 2020;36:04019052.

55. Dembski F, Wössner U, Letzgus M, Ruddat M, Yamu C. Urban digital twins for smart cities and citizens: the case study of herrenberg, germany. Sustainability 2020;12:2307.

56. Jimenez JI, Jahankhani H, Kendzierskyj S. . Health care in the cyberspace: medical cyber-physical system and digital twin challenges. Digital twin technologies and smart cities. Springer; 2020. p. 79-92.

57. Xie Y, Lian K, Liu Q, Zhang C, Liu H. Digital twin for cutting tool: modeling, application and service strategy. J Manuf Syst 2020; 58:305-12.

58. Shirowzhan S, Tan W, Sepasgozar SME. Digital twin and CyberGIS for improving connectivity and measuring the impact of infrastructure construction planning in smart cities. ISPRS Int J Geo-Inf 2020;9:240.

59. He B, Cao X, Hua Y. Data fusion-based sustainable digital twin system of intelligent detection robotics. J Cleaner Prod 2021;280:124181.

60. Ait-Alla A, Kreutz M, Rippel D, Lütjen M, Freitag M. Simulation-based analysis of the interaction of a physical and a digital twin in a cyber-physical production system. IFAC-PapersOnLine 2019;52:1331-6.

61. Xu W, Cui J, Li L, Yao B, Tian S, Zhou Z. Digital twin-based industrial cloud robotics: framework, control approach and implementation. J Manuf Syst 2020;58:196-209.

62. Wang H, Li H, Wen X, Luo G. Unified modeling for digital twin of a knowledge-based system design. Rob Comput Integr Manuf 2021;68:102074.

63. Schroeder GN, Steinmetz C, Rodrigues RN, Henriques RVB, Rettberg A, Pereira CE. A methodology for digital twin modeling and deployment for industry 4.0. Proc IEEE 2020;109:556-67.

64. Zheng P, Lim KYH. Product family design and optimization: a digital twin-enhanced approach. Procedia CIRP 2020;93:246-50.

65. Ma X, Tao F, Zhang M, Wang T, Zuo Y. Digital twin enhanced human-machine interaction in product lifecycle. Procedia Cirp 2019;83:789-93.

66. Biesinger F, Meike D, Kraß B, Weyrich M. A digital twin for production planning based on cyber-physical systems: a case study for a cyber-physical system-based creation of a digital twin. Procedia CIRP 2019;79:355-60.

67. Agostino ÍRS, Broda E, Frazzon EM, Freitag M. . Using a digital twin for production planning and control in industry 4.0. Scheduling in Industry 40 and Cloud Manufacturing. Springer; 2020. p. 39-60.

68. Min Q, Lu Y, Liu Z, Su C, Wang B. Machine learning based digital twin framework for production optimization in petrochemical industry. Int J Inf Manage 2019;49:502-19.

69. Zhang H, Yan Q, Wen Z. Information modeling for cyber-physical production system based on digital twin and AutomationML. Int J Adv Manuf Technol 2020;107:1927-45.

70. Liu C, Jiang P, Jiang W. Web-based digital twin modeling and remote control of cyber-physical production systems. Rob Comput Integr Manuf 2020;64:101956.

71. Guo H, Chen M, Mohamed K, Qu T, Wang S, Li J. A digital twin-based flexible cellular manufacturing for optimization of air conditioner line. J Manuf Syst 2020;58:65-78.

72. Li QW, Jiang P, Li H. Prognostics and health management of FAST cable-net structure based on digital twin technology. Res Astron Astrophys 2020;20:067.

73. Ye Y, Yang Q, Yang F, Huo Y, Meng S. Digital twin for the structural health management of reusable spacecraft: a case study. Eng Fract Mech 2020;234:107076.

74. Milton M, De La OC, Ginn HL, Benigni A. Controller-embeddable probabilistic real-time digital twins for power electronic converter diagnostics. IEEE Trans Power Electron 2020;35:9850-64.

75. Yu J, Liu P, Li Z. Hybrid modelling and digital twin development of a steam turbine control stage for online performance monitoring. Renewable Sustainable Energy Rev 2020;133:110077.

76. Li W, Rentemeister M, Badeda J, Jöst D, Schulte D, Sauer DU. Digital twin for battery systems: cloud battery management system with online state-of-charge and state-of-health estimation. J Storage Mater 2020;30:101557.

77. Wang KJ, Lee YH, Angelica S. Digital twin design for real-time monitoring - a case study of die cutting machine. Int J Prod Res 2020:1-15.

78. Oluwasegun A, Jung JC. The application of machine learning for the prognostics and health management of control element drive system. Nucl Eng Technol 2020;52:2262-73.

79. Leser PE, Warner JE, Leser WP, Bomarito GF, Newman JA, Hochhalter JD. A digital twin feasibility study (Part II): non-deterministic predictions of fatigue life using in-situ diagnostics and prognostics. Eng Fract Mech 2020;229:106903.

80. Booyse W, Wilke DN, Heyns S. Deep digital twins for detection, diagnostics and prognostics. Mech Syst Sig Process 2020;140:106612.

81. Mi S, Feng Y, Zheng H, Wang Y, Gao Y, Tan J. Prediction maintenance integrated decision-making approach supported by digital twin-driven cooperative awareness and interconnection framework. J Manuf Syst 2020;58:329-45.

82. González M, Salgado O, Croes J, Pluymers B, Desmet W. A digital twin for operational evaluation of vertical transportation systems. IEEE Access 2020;8:114389-400.

83. Bondarenko O, Fukuda T. Development of a diesel engine’s digital twin for predicting propulsion system dynamics. Energy 2020;196:117126.

84. Liu S, Bao J, Lu Y, Li J, Lu S, Sun X. Digital twin modeling method based on biomimicry for machining aerospace components. J Manuf Syst 2020;58:180-95.

85. Lu Q, Chen L, Li S, Pitt M. Semi-automatic geometric digital twinning for existing buildings based on images and CAD drawings. Autom Constr 2020;115:103183.

86. Wang X, Wang Y, Tao F, Liu A. New paradigm of data-driven smart customisation through digital twin. J Manuf Syst 2020;58:270-80.

87. Wang T, Li J, Kong Z, Liu X, Snoussi H, Lv H. Digital twin improved via visual question answering for vision-language interactive mode in human-machine collaboration. J Manuf Syst 2020;58:261-9.

88. Siemens. Finding the longest lasting design faster. Available from: https://www.industryweek.com/white-papers/whitepaper/21145447/finding-the-longest-lasting-design-faster [Last accessed on 24 Sep 2021].

89. Dignan J. Smart cities in the time of climate change and Covid-19 need digital twins. IET Smart Cities 2020;2:109-10.

90. Sreedevi T, Kumar MS. . Digital twin in smart farming: a categorical literature review and exploring possibilities in hydroponics. Proceedings of the 2020 Advanced Computing and Communication Technologies for High Performance Applications (ACCTHPA); 2020. p. 120-4.

91. Moshrefzadeh M, Machl T, Gackstetter D, Donaubauer A, Kolbe TH. Towards a distributed digital twin of the agricultural landscape. J Digit Landsc Archit 2020; doi: 10.14627/537690019.

92. Howard DA, Ma Z, Aaslyng JM, Jørgensen BN. . Data architecture for digital twin of commercial greenhouse production. Proceedings of the 2020 RIVF International Conference on Computing and Communication Technologies (RIVF); 2020. p. 1-7.

93. Jo SK, Park DH, Park H, Kim SH. . Smart livestock farms using digital twin: feasibility study. Proceedings of the 2018 International Conference on Information and Communication Technology Convergence (ICTC); 2018. p. 1461-3.

94. Machl T, Donaubauer A, Kolbe TH. Planning agricultural core road networks based on a digital twin of the cultivated landscape. J Digit Landsc Archit 2019:316-27.

95. Liu Y, Wang Z, Han K, Shou Z, Tiwari P, Hansen JH. . Sensor fusion of camera and cloud digital twin information for intelligent vehicles. Proceedings of the 2020 IEEE Intelligent Vehicles Symposium (IV); 2020. p. 182-7.

96. Wang Z, Liao X, Zhao X, et al. . A digital twin paradigm: vehicle-to-cloud based advanced driver assistance systems. Proceedings of the 2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring); 2020. p. 1-6.

97. Mavromatis I, Piechocki RJ, Sooriyabandara M, Parekh A. . DRIVE: a digital network oracle for cooperative intelligent transportation systems. Proceedings of the 2020 IEEE Symposium on Computers and Communications (ISCC); 2020. p. 1-7.

98. Kaewunruen S, Lian Q. Digital twin aided sustainability-based lifecycle management for railway turnout systems. J Cleaner Prod 2019;228:1537-51.

99. Carvalho WO. . BIM and AM to manage critical and relevant water and wastewater utilities assets. Proceedings of the International Conference on Computing in Civil and Building Engineering. Springer; 2020. p. 697-720.

100. Rodríguez-Aguilar R, Marmolejo-Saucedo JA. Conceptual framework of Digital Health Public Emergency System: digital twins and multiparadigm simulation. EAI Endorsed Trans Pervasive Health Technol 2020;6:e3.

101. Karakra A, Fontanili F, Lamine E, Lamothe J. . HospiT'Win: a predictive simulation-based digital twin for patients pathways in hospital. Proceedings of the 2019 IEEE EMBS International Conference on Biomedical & Health Informatics (BHI); 2019. p. 1-4.

102. Barbiero P, Torné RV, Lió P. Graph representation forecasting of patient's medical conditions: towards a digital twin. arXiv preprint arXiv 2020:200908299.

103. Saad A, Faddel S, Youssef T, Mohammed OA. On the implementation of IoT-based digital twin for networked microgrids resiliency against cyber attacks. IEEE Trans Smart Grid 2020;11:5138-50.

104. Ford D N, Wolf C M. Smart cities with digital twin systems for disaster management. J Manage Eng 2020;36:04020027.

105. Ham Y, Kim J. Participatory sensing and digital twin city: updating virtual city models for enhanced risk-informed decision-making. J Manage Eng 2020;36:04020005.

106. Lu Q, Xie X, Parlikad AK, Schooling JM. Digital twin-enabled anomaly detection for built asset monitoring in operation and maintenance. Autom Constr 2020;118:103277.

107. Bagaria N, Laamarti F, Badawi HF, Albraikan A, Martinez Velazquez RA, El Saddik A. . Health 4.0: digital twins for health and well-being. Cham: Springer; 2020. p. 143-52.

108. Ahmadi-Assalemi G, Al-Khateeb H, Maple C, et al. . Digital twins for precision healthcare. Cham, Switzerland: Springer Nature Switzerland AG; 2020. p. 133-58.

109. Rivera LF, Jiménez M, Angara P, Villegas NM, Tamura G, Müller HA. . Towards continuous monitoring in personalized healthcare through digital twins. Proceedings of the 29th Annual International Conference on Computer Science and Software Engineering; 2019. p. 329-35.

110. Fagherazzi G. Deep digital phenotyping and digital twins for precision health: time to dig deeper. J Med Internet Res 2020;22:e16770.

111. Björnsson B, Borrebaeck C, Elander N, et al. Swedish Digital Twin Consortium. Digital twins to personalize medicine. Genome Med 2019;12:4.

112. Lutze R. . Digital twins in eHealth: prospects and challenges focussing on information management. Proceedings of the 2019 IEEE International Conference on Engineering, Technology and Innovation (ICE/ITMC); 2019. p. 1-9.

113. Lopes MR, Costigliola A, Pinto R, Vieira S, Sousa JMC. Pharmaceutical quality control laboratory digital twin - a novel governance model for resource planning and scheduling. Int J Prod Res 2019;58:6553-67.

114. Corral-Acero J, Margara F, Marciniak M, et al. The “Digital Twin” to enable the vision of precision cardiology. Eur Heart J 2020;41:4556-64.

115. Liu Y, Zhang L, Yang Y, et al. A novel cloud-based framework for the elderly healthcare services using digital twin. IEEE Access 2019;7:49088-101.

116. Geris L, Lambrechts T, Carlier A, Papantoniou I. The future is digital: in silico tissue engineering. Curr Opin Biomed Eng 2018;6:92-8.

117. Harari YN. . Homo deus: a brief history of tomorrow. UK: Random House; 2016.