Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Tao, Fei
Zhang, Meng
Nee, Andrew Yeh Chris (1948-....)
Titre(s) : Digital twin driven smart manufacturing [Texte électronique] / Fei Tao,... Meng Zhang,... A.Y.C. Nee,...
Publication : London : Academic press, copyright 2019
Description matérielle : 1 ressource dématérialisée
Sujet(s) : Procédés de fabrication -- Automatisation
Indice(s) Dewey :
670.4 (23e éd.) = Fabrication industrielle - Sujets particuliers
Identifiants, prix et caractéristiques : ISBN 9780128176313. - ISBN 0128176318. - ISBN 9780128176306. - ISBN 012817630X
Identifiant de la notice : ark:/12148/cb45824341b
Notice n° :
FRBNF45824341
(notice reprise d'un réservoir extérieur)
Table des matières : Front Cover; Digital Twin Driven Smart Manufacturing; Copyright Page; Contents; Preface;
1 Background and Connotation; 1 Background and Concept of Digital Twin; 1.1 Background
of the Development of Digital Twin; 1.2 History of Digital Twin; 1.3 Concept of Digital
Twin; 1.3.1 Theoretical Definition of Digital Twin; 1.3.2 Digital Twin in the Views
of Enterprises; 1.3.3 Cores of Digital Twin: Models, Data, Connections, and Services;
1.4 Digital Twin and Related Concepts; 1.4.1 Digital Twin and Physical/Virtual Space;
1.4.2 Digital Twin and Virtual Prototype; 1.4.3 Digital Twin and PLM
1.4.4 Digital Twin and Digital Asset/Enterprise/Industry1.4.5 Digital Twin and Digital
Thread; 1.4.6 Digital Twin and Digital Shadow; 1.5 Value of Digital Twin; 1.5.1 Increasing
Visibility; 1.5.2 Reducing Time to Market; 1.5.3 Keeping Optimal Operation; 1.5.4
Reducing Energy Consumption; 1.5.5 Reducing Maintenance Cost; 1.5.6 Increasing User
Engagement; 1.5.7 Fusing Information Technologies; 1.6 Summary; References; 2 Applications
of Digital Twin; 2.1 Digital Twin in Product Lifecycle; 2.1.1 Digital Twin in Design
Stage; 2.1.2 Digital Twin in Production Stage
2.1.3 Digital Twin in Service Stage2.1.4 Digital Twin Across Multiple Stages; 2.1.5
Observations; 2.1.5.1 Production and PHM Are the Most Popular Applied Fields for the
DT; 2.1.5.2 DT Has Attracted the Most Attention in the United States, China, and Europe;
2.2 Digital Twin in Industrial Applications; 2.2.1 Digital Twin in Aerospace; 2.2.2
Digital Twin in Electric Power Generation; 2.2.3 Digital Twin in Automotive; 2.2.4
Digital Twin in Oil and Gas; 2.2.5 Digital Twin in Healthcare and Medicine; 2.2.6
Digital Twin in Maritime/Shipping; 2.2.7 Digital Twin in City Management
2.2.8 Digital Twin in Agriculture2.2.9 Digital Twin in Construction; 2.2.10 Digital
Twin in Environmental Protection; 2.2.11 Digital Twin in Security and Emergency; 2.2.12
Observations; 2.3 Future Market for Digital Twin; 2.4 Challenges of Digital Twin Applications;
2.4.1 Cognitive and Technical Level of People; 2.4.2 Technology and Infrastructure;
2.4.3 Support Tools; 2.4.4 Standards and Specifications; 2.4.5 Cost Control and Management;
2.4.6 Cyber Security and Intellectual Property Rights; 2.4.7 Insufficient Development
of Digital Twin; 2.5 Summary; References
3 Five-Dimension Digital Twin Modeling and Its Key Technologies3.1 Traditional Three-Dimension
Digital Twin; 3.1.1 Three-Dimension Digital Twin; 3.1.2 Existing Works on Digital
Twin Modeling; 3.2 New Requirements on Digital Twin; 3.2.1 From Application Aspect:
Requiring Wider Application; 3.2.2 From Technology Aspect: Requiring to Embrace New
IT; 3.2.3 From Modeling Object Aspect: Requiring Data and Services; 3.2.4 From Modeling
Method Aspect: Requiring High-Fidelity Virtual Modeling; 3.3 Extended Five-Dimension
Digital Twin; 3.3.1 Five-Dimension Digital Twin; 3.3.2 Physical Entity
