1、 ETSI TR 103 515 V1.1.1 (2018-03) Digital Enhanced Cordless Telecommunications (DECT); Study on URLLC use cases of vertical industries for DECT evolution and DECT-2020 TECHNICAL REPORT ETSI ETSI TR 103 515 V1.1.1 (2018-03) 2Reference DTR/DECT-URLLC1 Keywords DECT, use case, PMSE, IoT ETSI 650 Route
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7、. The copyright and the foregoing restriction extend to reproduction in all media. ETSI 2018. All rights reserved. DECTTM, PLUGTESTSTM, UMTSTMand the ETSI logo are trademarks of ETSI registered for the benefit of its Members. 3GPPTM and LTETMare trademarks of ETSI registered for the benefit of its M
8、embers and of the 3GPP Organizational Partners. oneM2M logo is protected for the benefit of its Members. GSMand the GSM logo are trademarks registered and owned by the GSM Association. ETSI ETSI TR 103 515 V1.1.1 (2018-03) 3Contents Intellectual Property Rights 8g3Foreword . 8g3Modal verbs terminolo
9、gy 8g3Introduction 8g31 Scope 9g32 References 9g32.1 Normative references . 9g32.2 Informative references 9g33 Definitions, symbols and abbreviations . 12g33.1 Definitions 12g33.2 Symbols 13g33.3 Abbreviations . 13g34 Overview, general concepts and methodology . 13g34.1 Overall intention and initial
10、 assumptions . 13g34.2 Sources and methodology for media and entertainment industry use cases . 14g34.3 Sources and methodology for home automation and industry automation use cases . 14g34.4 The STF 537 survey on use cases for license-exempt radio in IoT 15g34.5 Classifications of Reliability, Late
11、ncy and Data-rate . 15g34.5.1 Definitions 15g34.5.2 Classifications . 15g34.6 5G visions for the different vertical domains . 16g34.6.1 Overview and 5G PPP vision 16g34.6.2 Scenarios for low latency and high reliability. 18g34.6.2.1 Overview . 18g34.6.2.2 Candidate scenarios for URLLC . 18g35 Descri
12、ption of use cases and their Requirements . 20g35.1 List of use cases considered as candidate for DECT evolution or DECT-2020 solutions 20g35.2 Use cases for home and building automation . 21g35.2.1 Description of vertical 21g35.2.2 Environmental monitoring 23g35.2.2.1 Description 23g35.2.2.2 Precon
13、ditions . 23g35.2.2.3 Service flows. 23g35.2.2.4 Post-conditions 23g35.2.2.5 Potential requirements . 23g35.2.3.6 Notes on possible DECT implementation . 23g35.2.3 Fire detection 23g35.2.3.1 Description 23g35.2.3.2 Preconditions . 24g35.2.3.3 Service flows. 24g35.2.3.4 Post-conditions 24g35.2.3.5 Po
14、tential requirements . 24g35.2.3.6 Notes on possible DECT implementation . 24g35.2.4 Feedback control . 24g35.2.4.1 Description 24g35.2.4.2 Preconditions . 24g35.2.4.3 Service flows. 24g35.2.4.4 Post-conditions 25g35.2.4.5 Potential requirements . 25g35.2.4.6 Notes on possible DECT implementation .
15、25g35.3 Use cases for factories of the future . 25g35.3.1 Description of vertical 25g3ETSI ETSI TR 103 515 V1.1.1 (2018-03) 45.3.1.1 Overview . 25g35.3.1.2 Major challenges and particularities . 27g35.3.1.3 Deployment aspects 28g35.3.2 Motion control 29g35.3.2.1 Description 29g35.3.2.2 Preconditions
16、 . 30g35.3.2.3 Service flows. 30g35.3.2.4 Post-conditions 30g35.3.2.5 Challenges to the 5G system . 30g35.3.2.6 Potential requirements . 31g35.3.2.7 Notes on possible DECT implementation . 31g35.3.3 Motion control - transmission of non-real-time data 31g35.3.3.1 Description 31g35.3.3.2 Preconditions
17、 . 32g35.3.3.3 Service flows. 32g35.3.3.4 Post-conditions 32g35.3.3.5 Challenges to the 5G system . 32g35.3.3.6 Potential requirements . 33g35.3.3.7 Notes on possible DECT implementation . 33g35.3.4 Motion control - seamless integration with Industrial Ethernet 33g35.3.4.1 Description 33g35.3.4.2 Pr
18、econditions . 34g35.3.4.3 Service flows. 34g35.3.4.4 Post-conditions 34g35.3.4.5 Challenges to the 5G system . 35g35.3.4.6 Potential requirements . 35g35.3.4.7 Notes on possible DECT implementation . 35g35.3.5 Control-to-control communication (motion subsystems) . 35g35.3.5.1 Description 35g35.3.5.2
19、 Preconditions . 36g35.3.5.3 Service flows. 36g35.3.5.4 Post-conditions 36g35.3.5.5 Challenges to the 5G system . 36g35.3.5.6 Potential requirements . 37g35.3.5.7 Notes on possible DECT implementation . 37g35.3.6 Mobile control panels with safety functions . 37g35.3.6.1 Description 37g35.3.6.2 Preco
20、nditions . 38g35.3.6.3 Service flows. 38g35.3.6.4 Post-conditions 39g35.3.6.5 Challenges to the 5G system . 39g35.3.6.6 Potential requirements . 40g35.3.6.7 Notes on possible DECT implementation . 40g35.3.7 Mobile robots 40g35.3.7.1 Description 40g35.3.7.2 Preconditions . 41g35.3.7.3 Service flows.
21、42g35.3.7.4 Post-conditions 42g35.3.7.5 Challenges to the 5G system . 42g35.3.7.6 Potential requirements . 43g35.3.7.7 Notes on possible DECT implementation . 43g35.3.8 Massive wireless sensor networks 44g35.3.8.1 Description 44g35.3.8.2 Preconditions . 47g35.3.8.3 Service flows. 47g35.3.8.4 Post-co
22、nditions 48g35.3.8.5 Challenges to the 5G system . 48g35.3.8.6 Potential requirements . 49g35.3.8.7 Notes on possible DECT implementation . 49g35.3.9 Remote access and maintenance . 50g35.3.9.1 Description 50g35.3.9.2 Preconditions . 51g3ETSI ETSI TR 103 515 V1.1.1 (2018-03) 55.3.9.3 Service flows .
23、 51g35.3.9.4 Post-conditions 52g35.3.9.5 Challenges to the 5G system . 52g35.3.9.6 Potential requirements . 53g35.3.9.7 Notes on possible DECT implementation . 53g35.3.10 Augmented reality 53g35.3.10.1 Description 53g35.3.10.2 Preconditions . 54g35.3.10.3 Service flows. 54g35.3.10.4 Post-conditions
24、55g35.3.10.5 Challenges to the 5G system . 55g35.3.10.6 Potential requirements . 55g35.3.10.7 Notes on possible DECT implementation . 55g35.3.11 Process automation - closed-loop control . 56g35.3.11.1 Description 56g35.3.11.2 Preconditions . 56g35.3.11.3 Service flows. 56g35.3.11.4 Post-conditions 5
25、6g35.3.11.5 Challenges to the 5G system . 56g35.3.11.6 Potential requirements . 56g35.3.11.7 Notes on possible DECT implementation . 56g35.3.12 Process automation - process monitoring . 57g35.3.12.1 Description 57g35.3.12.2 Preconditions . 57g35.3.12.3 Service flows. 57g35.3.12.4 Post-conditions 57g
26、35.3.12.5 Challenges to the 5G system . 57g35.3.12.6 Potential requirements . 57g35.3.12.7 Notes on possible DECT implementation . 57g35.3.13 Process automation - plant asset management 58g35.3.13.1 Description 58g35.3.13.2 Preconditions . 58g35.3.13.3 Service flows. 58g35.3.13.4 Post-conditions 58g
27、35.3.13.5 Challenges to the 5G system . 58g35.3.13.6 Potential requirements . 59g35.3.13.7 Notes on possible DECT implementation . 59g35.3.14 Connectivity for the factory floor . 59g35.3.14.1 Description 59g35.3.14.2 Pre-conditions . 60g35.3.14.3 Service flows. 60g35.3.14.4 Post-conditions 60g35.3.1
28、4.5 Challenges to the 5G system . 60g35.3.14.6 Potential requirements . 61g35.3.14.7 Notes on possible DECT implementation . 61g35.3.15 Inbound logistics for manufacturing . 61g35.3.15.1 Description 61g35.3.15.2 Pre-conditions . 61g35.3.15.3 Service Flows 62g35.3.15.4 Post-conditions 62g35.3.15.5 Ch
29、allenges to the 5G system . 62g35.3.15.5.1 Identification of private networks and method of connection . 62g35.3.15.6 Potential requirements . 63g35.3.15.7 Notes on possible DECT implementation . 63g35.3.16 Variable message reliability 63g35.3.16.1 Description 63g35.3.16.2 Preconditions . 64g35.3.16
30、.3 Service flows . 64g35.3.16.4 Post-conditions 64g35.3.16.5 Challenges to the 5G system . 64g35.3.16.6 Potential requirements . 64g35.3.16.7 Notes on possible DECT implementation . 64g3ETSI ETSI TR 103 515 V1.1.1 (2018-03) 65.3.17 Flexible, modular assembly area . 65g35.3.17.1 Description 65g35.3.1
31、7.2 Preconditions . 65g35.3.17.3 Service flows . 65g35.3.17.4 Post-conditions 66g35.3.17.5 Challenges to the 5G system . 66g35.3.17.6 Potential requirements . 66g35.3.17.7 Notes on possible DECT implementation . 66g35.3.18 Plug and produce for field devices 67g35.3.18.1 Description 67g35.3.18.2 Prec
32、onditions . 68g35.3.18.3 Service flows . 69g35.3.18.4 Post-conditions 70g35.3.18.5 Challenges to the 5G system . 70g35.3.18.6 Potential requirements . 71g35.3.18.7 Notes on possible DECT implementation . 71g35.3.19 Private-public interaction 71g35.3.19.1 Description 71g35.3.19.2 Pre-conditions . 71g
33、35.3.19.3 Service Flows 72g35.3.19.4 Post-conditions 72g35.3.19.5 Potential Requirements . 73g35.3.19.7 Notes on possible DECT implementation . 73g35.4 Use cases for Smart Living - Health Care 74g35.4.1 Description of vertical 74g35.4.2 Telecare data traffic between home and remote monitoring centre
34、 74g35.4.2.1 Description 74g35.4.2.2 Preconditions . 74g35.4.2.3 Service flows. 74g35.4.2.4 Post-conditions 75g35.4.2.5 Challenges to the 5G system . 75g35.4.2.6 Potential requirements . 76g35.4.2.7 Notes on possible DECT implementation . 76g35.5 Use cases for Programme Making and Special Events (PM
35、SE) 76g35.5.1 Description of vertical 76g35.5.1.1 Overview. 76g35.5.1.2 Major challenges and particularities . 78g35.5.2 Low-latency audio streaming for live performance 78g35.5.2.1 Description 78g35.5.2.2 Pre-conditions . 81g35.5.2.3 Service Flows 81g35.5.2.4 Post-conditions 81g35.5.2.5 Challenges
36、to the 5G System 81g35.5.2.6 Potential Requirements . 82g35.5.2.7 Notes on possible DECT implementation . 82g35.5.3 Low-latency audio streaming for local conference systems . 82g35.5.3.1 Description 82g35.5.3.2 Pre-conditions . 84g35.5.3.3 Service Flows 84g35.5.3.4 Post-conditions 84g35.5.3.5 Challe
37、nges to the 5G System 84g35.5.3.6 Potential Requirements . 84g35.5.3.7 Notes on possible DECT implementation . 85g35.5.4 High data rate video streaming / professional video production . 85g35.5.4.1 Description 85g35.5.4.2 Pre-conditions . 87g35.5.4.3 Service Flows 87g35.5.4.4 Post-conditions 87g35.5
38、.4.5 Challenges to the 5G System 87g35.5.4.6 Potential Requirements . 87g35.5.4.7 Notes on possible DECT implementation . 87g35.6 Use cases not (yet) considered . 88g3ETSI ETSI TR 103 515 V1.1.1 (2018-03) 75.7 Classification of the use cases regarding reliability and latency and feasibility for DECT
39、 implementation 88g36 Initial thoughts on use case implementation 91g36.1 General . 91g36.2 Overview of existing DECT standard architecture . 91g36.3 DECT evolution and DECT-2020 development paths . 91g36.4 Identification of use cases for DECT evolution and DECT-2020 development paths . 92g36.5 Poss
40、ible standard structure for DECT evolution (based on DECT technology) . 92g36.6 Possible standard structure for DECT-2020 (based on new 5G radio interface) 93g3Annex A: Survey conducted by STF 537 . 94g3A.1 Survey on Internet of Things (IoT) use cases for license exempt radio . 94g3A.1.1 Scope of th
41、e survey 94g3A.1.2 Content of the survey . 94g3A.1.3 Presentation of the survey 99g3Annex B: Bibliography 103g3History 104g3ETSI ETSI TR 103 515 V1.1.1 (2018-03) 8Intellectual Property Rights Essential patents IPRs essential or potentially essential to normative deliverables may have been declared t
42、o ETSI. The information pertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be found in ETSI SR 000 314: “Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is av
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44、R 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Trademarks The present document may include trademarks and/or tradenames which are asserted and/or registered by their owners. ETSI claims no ownership of these except for any wh
45、ich are indicated as being the property of ETSI, and conveys no right to use or reproduce any trademark and/or tradename. Mention of those trademarks in the present document does not constitute an endorsement by ETSI of products, services or organizations associated with those trademarks. Foreword T
46、his Technical Report (TR) has been produced by ETSI Technical Committee Digital Enhanced Cordless Telecommunications (DECT). The present document presents a study of use cases and vertical scenarios for Ultra-Reliable Low-Latency Communications (URLLC) based on different developments paths evolving
47、DECT technology. The present document is a preparation of follow-up technical specifications within DECT, DECT ULE, DECT evolution and DECT-2020. Modal verbs terminology In the present document “should“, “should not“, “may“, “need not“, “will“, “will not“, “can“ and “cannot“ are to be interpreted as
48、 described in clause 3.2 of the ETSI Drafting Rules (Verbal forms for the expression of provisions). “must“ and “must not“ are NOT allowed in ETSI deliverables except when used in direct citation. Introduction The present document has been produced by ETSI TC Digital Enhanced Cordless Telephony (DEC
49、T) Working Group (WG) Ultra-Reliable Low-Latency Communications (URLLC). ETSI ETSI TR 103 515 V1.1.1 (2018-03) 91 Scope The present document presents a study of use cases and vertical scenarios for Ultra-Reliable Low-Latency Communications (URLLC) intended to be used as base requirements for evolving DECT. The proposed use cases can be classified as belonging to the following three major application areas: Home and Building Automation, including Smart Living; Industry automation - Factories of the Future, Industry 4.0; Media and entertainment industry - Programme Making a
