IEC TR 63283-2:2022

IEC TR 63283-2 ®
Edition 1.0 2022-03
TECHNICAL
REPORT
colour
inside
Industrial-process measurement, control and automation – Smart
manufacturing –
Part 2: Use cases
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IEC TR 63283-2 ®
Edition 1.0 2022-03
TECHNICAL
REPORT
colour
inside
Industrial-process measurement, control and automation – Smart

manufacturing –
Part 2: Use cases
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
ICS 25.040.40 ISBN 978-2-8322-1085-9

– 2 – IEC TR 63283-2:2022  IEC 2022
CONTENTS
FOREWORD . 7
INTRODUCTION . 9
1 Scope . 11
2 Normative references . 11
3 Terms and definitions . 11
3.1 General . 11
3.2 General terms and definitions . 11
3.3 Business roles . 13
3.4 Human roles . 14
3.5 Technical roles acting as object only . 16
3.6 Technical roles acting as subject or object . 18
4 Abbreviated terms and acronyms . 21
5 Conventions . 22
5.1 General . 22
5.2 Description of use cases . 22
5.3 Selection guidance for elaborated use cases . 23
5.4 Reference frame for use cases . 23
5.5 Clustering of use cases . 24
5.6 Developing additional use cases . 25
6 Use cases . 25
6.1 Use case cluster “Order-controlled production” . 25
6.1.1 Manufacturing of individualized products . 25
6.1.2 Flexible scheduling and resource allocation . 29
6.1.3 Outsourcing of production . 32
6.1.4 Engineering of design for manufacturing and request/order
management . 35
6.1.5 Intra-facility logistics . 38
6.1.6 Decision support for product configuration . 40
6.2 Use case cluster “Adaptable factory” . 42
6.2.1 Modularization of production systems . 42
6.2.2 Reconfiguration of adaptable production systems . 46
6.2.3 Migration to adaptable production systems . 48
6.2.4 Standardization of production technologies . 51
6.2.5 Adaptable robot cells . 54
6.3 Use case cluster “Management of assets” . 57
6.3.1 Administration of assets. 57
6.3.2 Virtual representation of physical assets . 60
6.3.3 Feedback loops . 63
6.3.4 Update and functional scalability of production resources . 66
6.3.5 Condition monitoring of production resources . 68
6.3.6 Self-optimization of production resources . 71
6.4 Use case cluster “Optimization of production execution” . 73
6.4.1 Optimization of operations . 73
6.4.2 Simulation in operation . 76
6.4.3 Optimization of operation through machine learning. 78
6.4.4 Service workflow management for production systems . 81

6.4.5 Successive improvement of production systems . 84
6.5 Use case cluster “Energy efficiency” . 87
6.5.1 Design for energy efficiency . 87
6.5.2 Optimization of energy . 89
6.5.3 Design for participation in decentralized energy networks . 92
6.5.4 Participation in decentralized energy networks . 94
6.6 Use case cluster “Design and engineering” . 96
6.6.1 Seamless models . 96
6.6.2 Simulation in design and engineering . 99
6.6.3 Virtual commissioning of production systems . 103
6.6.4 Optimization in design and engineering through machine learning . 106
6.6.5 Immersive training of production system personnel . 108
6.6.6 Co-creation in design . 111
6.7 Use case cluster “Product and production services” . 114
6.7.1 Value-based services for production resources . 114
6.7.2 Benchmarking of production resources . 118
6.7.3 Production resource as-a-service. 120
6.8 Use case cluster “IT-infrastructure and software” . 123
6.8.1 Device configuration . 123
6.8.2 Information extraction from production systems . 126
6.8.3 Rule-driven software applications . 128
6.8.4 Integration of engineering-tools . 131
6.8.5 Human-machine interface . 134
6.8.6 Cyber security infrastructure and setup . 137
6.8.7 Cyber security management and maintenance . 141
6.8.8 Engineering for cyber security . 144
6.8.9 Support for tactical and strategic decision making . 146
6.8.10 Additive manufacturing . 149
Annex A (informative) Use case template . 153
Annex B (informative) General understanding of use cases . 154
Annex C (informative) Relation to use cases in the draft elaboration . 156
Annex D (informative) Additional draft use cases . 158
D.1 General . 158
D.2 Inter-facility logistics . 158
D.2.1 Objective . 158
D.2.2 Overview . 158
D.2.3 Business context . 159
D.2.4 Technical perspective . 159
D.2.5 Interaction of roles . 159
D.2.6 Expected change and impact . 159
D.2.7 Recommendations for standardization . 159
D.3 Safety setup and management . 160
Bibliography . 161

Figure 1 – Related subjects to Smart Manufacturing . 9
Figure 2 – Overall structure of use cases . 22
Figure 3 – Value added processes within a manufacturing company . 23
Figure 4 – Example for value added processes across different companies . 24

– 4 – IEC TR 63283-2:2022  IEC 2022
Figure 5 – Illustration of the use case cluster . 25
Figure 6 – Business context of “Manufacturing of individualized products” . 26
Figure 7 – Technical perspective of “Manufacturing of individualized products” . 27
Figure 8 – Business context of “Flexible scheduling and resource allocation” . 30
Figure 9 – Technical perspective of “Flexible scheduling and resource allocation” . 30
Figure 10 – Business context of “Outsourcing of production" . 32
Figure 11 – Technical perspective of “Outsourcing of production” . 33
Figure 12 – Business context of “Engineering of design for manufacturing and
request/order management” .
...