Content for TR 22.804 Word version: 16.3.0
5.3 Factories of the Future p. 55
5.3.1 Description of vertical p. 55
5.3.1.1 Overview p. 55
5.3.1.2 Major challenges and particularities p. 57
5.3.1.3 Deployment aspects p. 58
5.3.2 Motion control p. 58
5.3.2.1 Description p. 58
5.3.2.2 Preconditions p. 59
5.3.2.3 Service flows p. 59
5.3.2.4 Post-conditions p. 60
5.3.2.5 Challenges to the 5G system p. 60
5.3.2.6 Potential requirements p. 61
5.3.3 Motion control - transmission of non-real-time data p. 61
5.3.3.1 Description p. 61
5.3.3.2 Preconditions p. 61
5.3.3.3 Service flows p. 61
5.3.3.4 Post-conditions p. 62
5.3.3.5 Challenges to the 5G system p. 62
5.3.3.6 Potential requirements p. 62
5.3.4 Motion control - seamless integration with Industrial Ethernet p. 62
5.3.4.1 Description p. 62
5.3.4.2 Preconditions p. 63
5.3.4.3 Service flows p. 63
5.3.4.4 Post-conditions p. 63
5.3.4.5 Challenges to the 5G system p. 64
5.3.4.6 Potential requirements p. 64
5.3.5 Control-to-control communication (motion subsystems) p. 64
5.3.5.1 Description p. 64
5.3.5.2 Preconditions p. 65
5.3.5.3 Service flows p. 65
5.3.5.4 Post-conditions p. 65
5.3.5.5 Challenges to the 5G system p. 65
5.3.5.6 Potential requirements p. 65
5.3.6 Mobile control panels with safety functions p. 65
5.3.6.1 Description p. 65
5.3.6.2 Preconditions p. 66
5.3.6.3 Service flows p. 66
5.3.6.4 Post-conditions p. 67
5.3.6.5 Challenges to the 5G system p. 67
5.3.6.6 Potential requirements p. 68
5.3.7 Mobile robots p. 68
5.3.7.1 Description p. 68
5.3.7.2 Preconditions p. 69
5.3.7.3 Service flows p. 69
5.3.7.4 Post-conditions p. 70
5.3.7.5 Challenges to the 5G system p. 70
5.3.7.6 Potential requirements p. 71
5.3.8 Massive wireless sensor networks p. 71
5.3.8.1 Description p. 71
5.3.8.2 Preconditions p. 75
5.3.8.3 Service flows p. 75
5.3.8.4 Post-conditions p. 75
5.3.8.5 Challenges to the 5G system p. 75
5.3.8.6 Potential requirements p. 76
5.3.9 Remote access and maintenance p. 76
5.3.9.1 Description p. 76
5.3.9.2 Preconditions p. 78
5.3.9.3 Service flows p. 78
5.3.9.4 Post-conditions p. 78
5.3.9.5 Challenges to the 5G system p. 78
5.3.9.6 Potential requirements p. 79
5.3.10 Augmented reality p. 79
5.3.10.1 Description p. 79
5.3.10.2 Preconditions p. 80
5.3.10.3 Service flows p. 80
5.3.10.4 Post-conditions p. 81
5.3.10.5 Challenges to the 5G system p. 81
5.3.10.6 Potential requirements p. 81
5.3.11 Process automation - closed-loop control p. 81
5.3.11.1 Description p. 81
5.3.11.2 Preconditions p. 82
5.3.11.3 Service flows p. 82
5.3.11.4 Post-conditions p. 82
5.3.11.5 Challenges to the 5G system p. 82
5.3.11.6 Potential requirements p. 82
5.3.12 Process automation - process monitoring p. 82
5.3.12.1 Description p. 82
5.3.12.2 Preconditions p. 82
5.3.12.3 Service flows p. 82
5.3.12.4 Post-conditions p. 82
5.3.12.5 Challenges to the 5G system p. 82
5.3.12.6 Potential requirements p. 83
5.3.13 Process automation - plant asset management p. 83
5.3.13.1 Description p. 83
5.3.13.2 Preconditions p. 83
5.3.13.3 Service flows p. 83
5.3.13.4 Post-conditions p. 83
5.3.13.5 Challenges to the 5G system p. 83
5.3.13.6 Potential requirements p. 84
5.3.14 Connectivity for the factory floor p. 84
5.3.14.1 Description p. 84
5.3.14.2 Pre-conditions p. 84
5.3.14.3 Service flows p. 85
5.3.14.4 Post-conditions p. 85
5.3.14.5 Challenges to the 5G system p. 85
5.3.14.6 Potential requirements p. 85
5.3.15 Inbound logistics for manufacturing p. 85
5.3.15.1 Description p. 85
5.3.15.2 Pre-conditions p. 86
5.3.15.3 Service Flows p. 86
5.3.15.4 Post-conditions p. 86
5.3.15.5 Challenges to the 5G system p. 86
5.3.15.6 Potential requirements p. 87
5.3.16 Wide-area connectivity for fleet maintenance p. 87
5.3.16.1 Description p. 87
5.3.16.2 Pre-conditions p. 88
5.3.16.3 Service flows p. 88
5.3.16.4 Post-conditions p. 88
5.3.16.5 Challenges to the 5G system p. 88
5.3.16.6 Potential requirements p. 88
5.3.17 Variable message reliability p. 88
5.3.17.1 Description p. 88
5.3.17.2 Preconditions p. 89
5.3.17.3 Service flows p. 89
5.3.17.4 Post-conditions p. 89
5.3.17.5 Challenges to the 5G system p. 89
5.3.17.6 Potential requirements p. 89
5.3.18 Flexible, modular assembly area p. 89
5.3.18.1 Description p. 89
5.3.18.2 Preconditions p. 89
5.3.18.3 Service flows p. 90
5.3.18.4 Post-conditions p. 90
5.3.18.5 Challenges to the 5G system p. 90
5.3.18.6 Potential requirements p. 92
5.3.18.6.1 Reconfiguration of the non-public 5G network for flexible production p. 92
5.3.18.6.2 Maintaining and operating 5G communication in flexible production scenarios p. 92
5.3.18.6.3 Public networks in flexible production scenarios p. 93
5.3.18.6.4 Positioning requirements in flexible production scenarios p. 94
5.3.19 Plug and produce for field devices p. 94
5.3.19.1 Description p. 94
5.3.19.2 Preconditions p. 97
5.3.19.2.1 The field device p. 97
5.3.19.2.2 The network p. 97
5.3.19.3 Service flows p. 97
5.3.19.4 Post-conditions p. 98
5.3.19.5 Challenges to the 5G system p. 98
5.3.19.6 Potential requirements p. 98
5.3.20 Type-a network - PLMN interaction p. 100
5.3.20.1 Description p. 100
5.3.20.2 Pre-conditions p. 100
5.3.20.3 Service Flows p. 100
5.3.20.4 Post-conditions p. 101
5.3.20.5 Potential Requirements p. 101
5.3.21 Communication monitoring, diagnosis, and error analysis p. 102
5.3.21.1 Description p. 102
5.3.21.2 Preconditions p. 103
5.3.21.3 Service flows p. 103
5.3.21.4 Post-conditions p. 103
5.3.21.5 Challenges to the 5G system p. 103
5.3.21.6 Potential requirements p. 104
