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103 781
|
SmartM2M; Study for SAREF ontology patterns and usage guidelines
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103781/01.01.01_60/tr_103781v010101p.pdf
|
The present document reports on the modularization and factorization potential of the TC SmartM2M suite using reference ontology patterns. The present document lists identified modelling discrepancies in SAREF extensions, along with proposals to homogenise the modelling. As a result, the present document describes a set of core ontology patterns and how they can be used as a basis for future normative work in TC SmartM2M.
|
103 778
|
SmartM2M; Use cases for cross-domain data usability of IoT devices
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103778/01.01.01_60/tr_103778v010101p.pdf
|
The objective of the present document is to identify, select and describe use cases where the IoT data and services require data usability specifications for machines consuming data for AI (for example machine learning). Enabling data usability with AI approach will also be considered. The present document will document a formal description of the use cases and analyse the impact of these use cases from the data usability point of view. It is very important to clarify that user experience (ergonomics) or the accessibility of the ICT equipment are out of scope of the present TR. The objective of the present document is only focused on the data generated and processed by IoT devices and platforms and consumed by human or machine (AI/ML) users. The present document is also: • to identify, select and describe use cases where the IoT data and services require data usability specifications; • to analyse the impact of these use cases for both machines and humans.
|
103 777
|
Digital Enhanced Cordless Telecommunications (DECT); DECT-2020 New Radio (NR) interface; Study of additional functionality for the support of new applications in further releases
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103777/01.01.01_60/tr_103777v010101p.pdf
|
The present document is a study on DECT-2020 NR technical requirements and additional functionality for the support of new applications in further releases of the specification.
|
103 775
|
Access, Terminals, Transmission and Multiplexing (ATTM); Optical Distribution Network (ODN) Quick Construction and Digitalization
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103775/01.01.01_60/tr_103775v010101p.pdf
|
The present document describes the ODN quick construction and digital management solutions, which enable the carriers to improve the fibre deployment efficiency, achieve digital resource management, and consequently improve the operation and management efficiency. The present document describes the system structure of the digitalized quick ODN and the general requirement of pre-connectorized ODN product modules, digital labels, intelligent management terminals and intelligent optical distribution network management systems. The present document is mainly applicable to the intelligent optical distribution network in access network. It can also be used as a reference for other networks with optical fibre connections. The present document is mainly based on intelligent optical distribution networks that can collect the ODN information through a smart terminal device (such as a smart phone with the ODN management application) and the digital label in the ODN device. For optical distribution networks that collect electronic label information in other methods, it is possible to refer to the present document similarly.
|
103 774
|
System Reference document (SRdoc); Short Range Devices (SRD): Technical Characteristics for Radio Equipment used for power transfer and communication with associated peripheral devices using the 917,5 MHz RFID interrogator channel
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103774/01.01.01_60/tr_103774v010101p.pdf
|
The present document describes technical characteristics of Radio Equipment used for power transfer and communication with associated peripheral devices using the 917,5 MHz currently identified as an RFID interrogator channel. The present document contains the necessary information to support the possible co-existence and compatibility studies if required, and to be conducted by the CEPT/ECC, including: • Market information • Technical information • Regulatory issues
|
103 773
|
Report to analyse the possibilities to develop reference documents for methods of measurements for radio standards in ETSI
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103773/01.01.01_60/tr_103773v010101p.pdf
|
The present document contains an analysis of the possibilities to develop reference documents for methods of measurements for radio standards in ETSI. The present document is limited to harmonised standards according to Article 3.2 of Directive 2014/53/EU [i.16].
|
103 768
|
Rail Telecommunications (RT); Future Rail Mobile Communication System (FRMCS); Interworking study with legacy systems
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103768/01.01.01_60/tr_103768v010101p.pdf
|
The present document analyses the interworking scenario between FRMCS and GSM-R and the solution applicable to GSM-R. The focus is on GSM-R services equivalency such as voice, SMS, data and other services. The present document presumes the existence of an interworking function IWF between FRMCS and GSM-R, however the IWF and the interface between IWF and GSM-R network are not specified. ETSI TS 123 283 [i.13] specifies the stage 2 of interworking of MCX Systems with LMR Systems, where the requirements of interworking between FRMCS and GSM-R have not been considered completely. NOTE: It is assumed that FRMCS is based on MCX Systems and interworking with GSM-R is to be defined on the same basis of the interworking with LMR systems. The present document reviews this interworking from three viewpoints: GSM-R EIRENE specification of services MCX System ETSI TS 123 283 [i.13] FRMCS 3GPP TS 22.889 [i.3] This study focuses on the identification of key functions, key issues and solutions recommended for way forward resulting in end to end use cases for the IWF. Prerequisites & Assumptions: 1) The interworking and interconnect is based on SIP interface. 2) The interworking is based on SIP protocol for signalling and RTP protocol for bearer (G.711 codec and AMR-WB as option). 3) The service continuity is not foreseen as per 3GPP TS 22.889 [i.3]. 4) Cybersecurity is not part of this study.
|
103 767
|
Lawful Interception (LI); Considerations about interfacing with providers of vehicle information
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103767/01.01.01_60/tr_103767v010101p.pdf
|
The present document provides a high-level description of a process for interfacing between law enforcement and providers of vehicle information. The present document is not a legal document and does not state when or whether such an interface should be used. Instead, the present document highlights that (whenever there is a lawful requirement to deliver information) it is beneficial to use an automated, secure, efficient interface. The present document investigates to what extent the existing TC LI specifications can be used for such an interface. The present document does not specify any details of such an interface; the interface design would need to be done in conjunction with a cross-section of the relevant industries.
|
103 761
|
Core Network and Interoperability Testing (INT); Methodologies for E2E Testing & Validation of Vertical Applications over 5G & Beyond networks
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103761/01.01.01_60/tr_103761v010101p.pdf
|
The purpose of the present document is to provide recommendations on methodologies for end-to-end testing and validation of vertical applications over 5G and beyond networks. Such recommendations can be equally applicable to a wide range of industry verticals, application cases and beyond 5G scenarios. By applying such standard end to end testing and validation methodologies, the vertical application provider would be able to experiment with the 5G and beyond network in a systematic and consistent manner and make informed business decisions upon about further development and commercialization of the features of its application under that rely on 5G technologies and beyond. In this context it is assumed that the subject under test is the application and that the 5G and beyond network set up and configurations considered in such experimentation have already been tested and qualified both from functionality and performance perspective. Therefore, general (application-independent) testing and characterization of 5G network setups is not in the scope of analysis of the present document. Actually, special emphasis on making clear distinction between network testing and application validation concerns and distinct challenges is secured along the analysis since the processes, mechanisms, tools and strategies typically used for network testing can prove inadequate or misleading for vertical application validation purposes. The present document provides a survey and review of the existing methodologies for testing and validating vertical applications, to identify existing gaps in such methodologies and propose solutions to cover them. The proposed methodology describes Capabilities, Processes and Mechanisms involved in the testing and validation of innovative vertical applications enabled by 5G and Beyond networks. No assumptions are made on the specific business or nature of the vertical domain, with the intention to identify common methodologies applicable to as wide a range of vertical domains as possible. The analysis of specific methodologies for applicability limited to specific vertical domains is beyond the scope of the present document.
|
103 730
|
System Reference document (SRdoc); Low Frequency MicroWave Security Scanners (MWSSc) within the frequency range from 3,6 GHz to 12,4 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103730/01.01.01_60/tr_103730v010101p.pdf
|
The present document provides information on the intended applications, the technical parameters, the relation to the existing spectrum regulation and additional new radio spectrum requirements for MicroWave Security Scanners (MWSScs) operating in the band from 3,6 GHz to 12,4 GHz. MWSScs are surveillance imaging radars expected to comply with limits in the order of those in ECC/DEC(06)/08. The present document also describes the difference to scanners from the SRdoc ETSI TR 103 664 [i.8] and those applications and use cases. They are similar to those described in SRdoc ETSI TR 103 664 [i.8] (security scanner 60 GHz to 90 GHz) but operate at a much lower frequency range with low power and have a dedicated application in security screening; e.g. to detect objects concealed in or underneath a person's clothing and to display the location of the objects on a human avatar. The presented application is not intended for communication usage. The present document includes in particular: • market information; • technical information; • regulatory issues.
|
103 751
|
Smart Body Area Networks (SmartBAN); Implant communications
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103751/01.01.01_60/tr_103751v010101p.pdf
|
The present document has the scope to evaluate ultra-low power, Ultra-WideBand technology (UWB) for a swallowable, pill-camera, wireless medical device operating in the 3,1 GHz to 10,6 GHz frequency band within the context of Smart Body Area Networks (SmartBAN).
|
103 750
|
System Reference document (SRdoc); Short Range Devices (SRD) using Ultra Wide Band (UWB); Technical characteristics for UWB operation in the frequency band between 8,5 GHz to 10,6 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103750/01.01.01_60/tr_103750v010101p.pdf
|
The present document will provide information on the existing and future intended UWB applications in the operational band up to 10,6 GHz with the focus onto the 8,5 GHz to 10,6 GHz band extension. It will also provide an overview over the relevant possible mitigation techniques and factors to protect existing and future services in the band 8,5 GHz to 10,6 GHz. The information in the present document will complement and extend the information included in ETSI TR 103 314 [i.34]. A specific emphasis will be put onto the investigations of X-band radionavigation and radiolocation systems in the band above 8,5 GHz. The present document includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications Administrations (CEPT), including: • Detailed market information • Technical information • Expected compatibility issues
|
103 748
|
Core Network and Interoperability Testing (INT); Artificial Intelligence (AI) in Test Systems and Testing of AI Models; Use and Benefits of AI Technologies in Testing
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103748/01.01.01_60/tr_103748v010101p.pdf
|
The present document presents a part of a series of documents being produced in the joint work of ETSI TC INT and ETSI TC MTS on "Artificial Intelligence (AI) in Test Systems, and Testing of AI Models". The present document focuses on the subject of "Use and Benefits of AI Technologies in Testing".
|
103 747
|
Core Network and Interoperability Testing (INT/ WG AFI); Federated GANA Knowledge Planes (KPs) for Multi-Domain Autonomic Management & Control (AMC) of Slices in the NGMN(R) 5G End-to-End Architecture Framework
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103747/01.01.01_60/tr_103747v010101p.pdf
|
The present document presents a plausible approach to implementing Federated GANA Knowledge Planes (KPs) Platforms for E2E Multi-Domain Federated Autonomic Management and Control (AMC) of 5G Network Slices in NGMN® E2E 5G Architecture, using components prototyped and implemented in the European Union (EU) funded SliceNet Project (Grant Agreement N° 761913). The present document produces and leverages a mapping of architectural components for autonomic network management & control developed/implemented SliceNet Project to the ETSI TC INT AFI Generic Autonomic Networking Architecture (GANA) model - an architectural reference model for autonomic networking, cognitive networking and self-management. The mapping identifies the components that were prototyped in Slicenet Project that can be used to implement specific GANA Functional Blocks (FBs) for Autonomics and their associated Reference Points (Rfps), while providing the illustrations that help implementers of GANA autonomics in 5G networks. Other aspects covered in the present document are: • A Study of GANA aligned AMC Requirements in the NGMN® 5G E2E Architecture in order to provide answers on how the approach presented in the present document can help implementers of GANA AMC solutions for 5G. • Providing useful insights to implementers of ETSI GANA Knowledge Plane (KP) Platforms on approaches that can be taken in implementing ETSI GANA Knowledge Plane Platforms and how to federate them for E2E (Cross-Domain) Autonomic Management and Control (AMC) operations across network segments such as Radio Access Networks (RANs), Transport Networks and Core Networks. • Providing insights on leveraging experiences gained in SliceNet Project in implementing GANA autonomic/cognitive management and control software components for 5G network slices. The mapping of the components to the GANA model concepts serves to illustrate how to implement the key abstraction levels for autonomics (self-management functionality) in the GANA model for the targeted wireless networks context, taking into consideration the work done in ETSI TR 103 495 [i.26]. It also shows how GANA can be implemented using the components developed in SliceNet project as an example.
|
103 743
|
CYBER; Home Gateway Security Threat Analysis
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103743/01.01.01_60/tr_103743v010101p.pdf
|
The present document provides an analysis of cyber security threats specific to Home Gateways (HGs) and an introduction to measures for risk mitigation posed by these threats. Whilst the provisions of ETSI EN 303 645 [i.7] assist in moving towards having secure by default devices on the market, the deeper understanding of the forms of vulnerability faced by an HG are addressed in the present document. The present document is intended to give advice to suppliers and manufacturers of the risks of deployment of HGs in order to give confidence to consumers in the security of HGs deployed in the home. The detailed specification of the measures to mitigate these risks will be addressed in a separate technical specification.
|
103 741
|
CYBER; Elections Infrastructure Cybersecurity
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103741/01.01.01_60/tr_103741v010101p.pdf
|
The present document examines existing public elections infrastructure, the threats faced, and provides a set of best practices for the security for both public and private infrastructure.
|
103 733
|
Speech and multimedia Transmission Quality (STQ); Best practices of testing the performance of web content delivery
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103733/01.01.01_60/tr_103733v010101p.pdf
|
The present document focuses on Quality of Service (QoS) measurements for IP-based web content delivery services with reliable transport where primarily a visual presentation of the content on screen is available to the user. The presented test methodology is not limited to be applied to web browsing, or more general, to smartphone applications presenting web content visually on the screen. It can also be applied to all sorts of applications based on retrieving web conent. The present document does not target the qualitative evaluation of received content as video or audio. The underlying test procedure consists of two phases: first request to resolve the initial URL and to contact the landing page, and second - if implemented - connect to embedded URLs to retrieve more and supplementary content. In the present document, web browsing serves as the default example, but the described QoS parameters can easily be applied to other IP-based web content delivery services based on reliable transport. Furthermore, the present document also offers practical guidance for measurement execution and evaluation of HTTP/HTTPS content delivery QoS measurement.
|
103 752-2
|
Digital Video Broadcasting (DVB); Dynamic substitution of content in linear broadcast; Part 2: Interfacing to an advert decisioning service and optimal preparation of media
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/10375202/01.01.01_60/tr_10375202v010101p.pdf
|
The present document provides guidance and recommended practice for delivering and measuring targeted adverts in horizontal and vertical market deployments using in-market advert technology. The focus of the present document pertains to the context of linear broadcast and the substitution with IP delivered adverts. In so much as information on video and audio encoding/packaging or receiver implementations impacts the advert media served, it is discussed. In-depth technical audio/visual guidance is not given, neither is in-depth information on receiver implementations.
|
103 728
|
System Reference document (SRdoc); Transmission characteristics; Technical characteristics for SRD radiodetermination systems for industry automation in shielded environments (RDI-S) within the frequency range 260 GHz to 1 000 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103728/01.01.01_60/tr_103728v010101p.pdf
|
The present document describes Radiodetermination systems for industry automation in shielded environments (RDI-S) within the frequency range 260 GHz to 1 000 GHz assignment. The described radiodetermination applications are for the measurement of object properties like e.g. layer thicknesses and the S-parameters. The present document includes in particular: • Market information. • Technical information, including expected sharing and compatibility issues. • Regulatory issues.
|
103 727
|
Lawful Interception (LI); Library and mapping for Lawful Interception (LI) and Lawful Disclosure (LD)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103727/01.01.01_60/tr_103727v010101p.pdf
|
The present document describes the handling of national parameters and implementations in the context of the Inter LEA Handover Interface and cross-border data exchange in criminal matters, e.g. through Mutual Legal Assistance Treaty (MLAT) or using the secure European Judicial Network. In combination with the Inter LEA Handover Interface (ILHI) specification this is a practical guideline for Law Enforcement Agencies and vendors of LEMF. One aspect is the mapping of national data structures and single parameters into a related ETSI standard and, if necessary, also the mapping back into the national structure. In addition, the present document gives an overview about the necessary parameters for the handover itself in the form of a library (checklists) for Lawful Interception (LI) and Lawful Disclosure (LD). For the library no special values for the parameters are specified, but the (bilateral) tuning of these parameters is facilitated. For the deployment cases where no ETSI conformant implementation is available, the present document provides examples of mapping between national formats and the ETSI format for LI. The juridical aspects for using the provided mapping are out of scope of the present document. The considerations provided in the present document do not modify, override, or otherwise introduce incompatible changes to ETSI or national standards, nor do they prescribe requirements on communication service providers.
|
103 721
|
Feasibility assessment of applying mitigation techniques to WAS/RLAN to enable coexistence in the 5 725 MHz to 5 850 MHz band
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103721/01.01.01_60/tr_103721v010101p.pdf
|
The present document contains a review of the feasibility of implementing certain mitigation techniques in WAS/RLAN equipment in the 5 725 MHz to 5 850 MHz frequency range. The present document has been triggered by the Work Item agreed in CEPT to study the possible use of WAS/RLANs in some CEPT countries as a result of the work and discussions on the EC Mandate on 5 GHz [i.1] and WRC-19 Agenda Item 1.16. The present document is intended to study the feasibility of implementing additional mitigation techniques in WAS/RLANs to provide possible sharing solutions between WAS/RLAN and the following services and applications operating in some CEPT countries: • Road tolling in the bands 5 795 MHz to 5 815 MHz. • Smart-Tachograph, (weights and dimensions); band (5 795 MHz to 5 815 MHz). • Some modes of fast frequency hopping radar not specifically covered in WAS/RLAN DFS algorithms today; band 5 725 MHz to 5 850 MHz. WAS/RLAN technologies meeting the scope and requirements contained within ETSI EN 301 893 [i.4] and ETSI EN 302 502 [i.29] as well as any additional mitigation techniques studies as part of the present document are considered in the present document. See clause 4 for more detailed information on the services and applications being studied in the present document. WAS/RLAN technologies with an output power of less than or equal to 25 mW EIRP can operate within the scope of ERC/REC 70-03 [i.11] annex 1, and as such are outside the scope of the present document.
|
103 719
|
Guide to Identity-Based Cryptography
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103719/01.01.01_60/tr_103719v010101p.pdf
|
The present document describes the use and application of Identity-Based Cryptography (IBC) applied to both encryption, as Identity-Based Encryption (IBE), and to digital signature, as Identity-Based Signature (IBS). The present document is intended to allow non-experts in the technology of IBC to be able to gain an understanding of the technology, its domains of application, and its required environment. In addition the present document reviews use of IBE against more common asymmetric encryption schemes (e.g. RSA and ECC schemes), as well as more generalized Functional Encryption (FE) and Attributed Based Encryption (ABE) schemes. The present document also reviews use of IBS against more common digital signature schemes (e.g. DSA, ECDSA). An overview of algorithms and their modes of operation available to implement IBE, and IBS, and their evolution to quantum safe instances is also covered in the present document.
|
103 717
|
SmartM2M; Study for oneM2M; Discovery and Query specification development
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103717/01.01.01_60/tr_103717v010101p.pdf
| |
103 716
|
SmartM2M; oneM2M Discovery and Query solution(s) simulation and performance evaluation
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103716/01.01.01_60/tr_103716v010101p.pdf
| |
103 715
|
SmartM2M; Study for oneM2M; Discovery and Query solutions analysis & selection
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103715/01.01.01_60/tr_103715v010101p.pdf
| |
103 714
|
SmartM2M; Study for oneM2M Discovery and Query use cases and requirements
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103714/01.01.01_60/tr_103714v010101p.pdf
| |
103 712
|
Fixed Radio Systems; New PtMP technologies and solutions for microwave backhaul in 5G era
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103712/01.01.01_60/tr_103712v010101p.pdf
|
The present document discusses and addresses the effectiveness of evolving new technologies and new PtMP structures, including phase array antenna, beam-forming/beam nulling, side lobe interference mitigation, and radiated test to answer the challenges of the coming 5G backhaul network, in frequency bands above 50 GHz and lower frequency bands where PtMP/block license is allowed, such as 26/28/32/42 GHz.
|
103 711
|
Smart Body Area Network (SmartBAN); Applying SmartBAN MAC (ETSI TS 103 325) for various use-cases
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103711/01.01.01_60/tr_103711v010101p.pdf
|
The present document is focussed on the exploitation of the reference SmartBAN MAC for various use-cases, which includes: i) the provision of detailed requirements of the use-cases; and ii) corresponding execution with various SmartBAN PHY-MAC parameters.
|
103 708
|
Human Factors (HF); Real-Time Text (RTT) in Multiparty Conference Calling
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103708/01.01.01_60/tr_103708v010101p.pdf
|
The present document establishes user interface guidelines for RTT conference call interfaces and identifies technical support needed to implement the guidelines. The present document: • introduces RTT; • addresses the types of media and user interface elements that can be associated with RTT; • describes some RTT use cases, highlights issues particularly relevant in multiparty scenarios; • explains technical support issues related to text creation and presentation, and the standards and related services associated with RTT transport and control. The final and crucial part of the present document proposes some potential changes and additions to EN 301 549 [i.13] to ensure that it covers the additional accessibility issues that arise when considering multiparty scenarios.
|
103 704
|
Urban Rail ITS and Road ITS applications in the 5,9 GHz band; Measurement campaign to confirm simulation parameters to define Urban Rail ITS protected zones in 5 915 MHz to 5 925 MHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103704/01.01.01_60/tr_103704v010101p.pdf
|
The present document describes the work undertaken to perform the required measurements, and analyses the resulting data. The following items are covered: • Identification of relevant test cases representative of typical coexistence situations. • Identification of relevant areas to conduct the measurements. • Description of test procedures and test tools. • Detailed plan of the measurements. • Analysis of the measurements campaign. • Conclusion on the results.
|
103 702
|
Speech and multimedia Transmission Quality (STQ); QoS parameters and test scenarios for assessing network capabilities in 5G performance measurements
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103700_103799/103702/01.02.01_60/tr_103702v010201p.pdf
|
Given the current stage of 5G deployments and the focus on eMBB, the present document, will primarily concentrate on QoS parameters in relation to eMBB performance scenarios and the most prevalent eMBB related service scenarios. Therefore, the focus will be on QoS parameters that reflect the network capabilities in the case of visual applications such as UHD video and Virtual and Augmented Reality. However, whilst these technologies, are primarily categorized as requiring high data rates, it is necessary to be mindful and examine the relationship and requirements in high data rates and low latency scenarios. In the scope of this analysis, the term QoS relies on service-related characteristics without knowing any details about the underlying network sections [i.6], the network architecture and the network or application deployment strategies. The scope will concentrate on measuring the network capability, assessed primarily through network QoS parameters, such as data rates, capacity, coverage, latency and continuity measurements. The readiness of the network to support the QoS needs of existing services and applications such as voice, data and video and those newly enabled technologies and use cases mentioned earlier that benefit from the higher data rates associated with eMBB will also be considered. The approach therefore will be to assess network capabilities by first identifying the performance scenario requirements, then discovering the QoS parameters that will measure those requirements and finally defining the test scenarios to measure those QoS parameters as follows: 1) Identify scenarios in terms of performance, service and user types to determine the performance measurement requirements and the key performance factors that will satisfy those requirements: - Performance scenarios [i.2] which are dependent on traffic types, traffic densities and service areas. - Service scenarios that consider the use cases, technology and applications that place data service requirements on the network for effective operation. - User type scenarios that examine various types of users and how they place different requirements on similar services. 2) QoS parameter discovery to identify and define the parameters that represent the key performance factors and scenario requirements. The QoS parameters will define how to effectively measure the network technical performance as well as examining how a use case or application might be affected by those network conditions. The QoS parameters in as much as possible will refer to existing definitions and best practises. 3) Provide test scenario analysis to detail the types of tests to be executed to verify the network capability. Define how to represent the measurement scenarios and where to collect data to calculate the QoS parameters. The test scenarios will reproduce typical service activities to derive quality measures and will identify the measurement points and the expected data sources. The aim therefore is to identify the QoS parameters of interest, based on the identified scenarios, referencing existing specifications and technical reports where available. There are already significant relevant references available from a number of bodies to identify QoS aspects for a number 5G scenarios, which are at various stages of maturity. This includes analysis of primary use case scenarios, identification of performance measurement scenarios and definitions of quality measurement indicators. The expectation is that, the present document, through its analysis will put in place a means to assess 5G network capabilities and readiness of the network to support those aforementioned prevalent eMBB applications and use cases.
|
103 694
|
Intelligent Transport Systems (ITS); Vehicular Communications; Basic Set of Applications; Informative report for the Diagnosis, Logging and Status Service
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103694/01.01.01_60/tr_103694v010101p.pdf
|
The present document provides a common understanding of the technical concepts of the Diagnosis, logging and Status Service between ITS-Ss. The proposed service supports e.g. the communication of measurement data for maintenance and information purposes. One field of application will be the predictive maintenance of devices on rail tracks, the status information of the train platform to the train vehicles, etc.
|
103 692
|
CYBER; State management for stateful authentication mechanisms
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103692/01.01.01_60/tr_103692v010101p.pdf
|
The present document is limited to discussion of the characteristics of the state object, the reuse of the state index, and of architectural and operational considerations for deploying stateful hash-based signatures. First, it discusses characteristics of the state object for S-HBS schemes and identifies potential security vulnerabilities and operational problems associated with its management. Second, it gives guidance on mitigating the issues identified. And third, it helps a prospective implementor determine if a S-HBS solution is suitable for their given application; examples of suitable and non-suitable applications are given.
|
103 690
|
Lawful Interception (LI); eWarrant Interface
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103690/01.01.01_60/tr_103690v010101p.pdf
|
The present document presents a high-level description of an interface mechanism - the eWarrant Interface - for receipt of requests for measures producing real-time or stored information by an issuing authority possessing lawful authorization to initiate such a request. The eWarrant Interface is a generic, extensible interface intended to be fully compatible with all existing kinds of requests for these purposes - as well as support future ones, including local requirements and languages or character sets. The eWarrant Interface is not intended to replace existing implementation-specific mechanisms found, for example, in the Retained Data Handover Interface. The present document describes an electronic interface. Annex B describes work flow for an eWarrant in different jurisdictions and a means for discovering related information. Annex C describes how this interface may be adapted and made interoperable for manual and legacy techniques. The present document provides a high-level description of the interface mechanism. It defines basic principles of interoperability, and provides recommendations for the types of data that are delivered. It provides a recommendation on the choice of data modelling languages, but the present document does not give a normative structure for the delivery of eWarrant messages. It is envisaged that a later Technical Specification will add the required details for a full implementation.
|
103 688
|
Intelligent Transport Systems (ITS); Study on receiver requirements in ETSI EN 302 571
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103688/01.01.01_60/tr_103688v010101p.pdf
| |
103 686
|
Report on Low Duty Cycle Mitigation for UWB Devices
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103686/01.01.01_60/tr_103686v010101p.pdf
|
The present document assesses the current LDC mitigation regulations for UWB applications in light of the requirement to have clear test criteria for the harmonised standards. It reviews the current regulations and related measurements to highlight the extra parameters that need to be specified in future harmonised standards. It also proposes a method to measure the duty cycle such that the requirement per hour can be met.
|
103 685
|
Lawful Interception (LI); LI network function security
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103685/01.01.01_60/tr_103685v010101p.pdf
|
The present document examines LI and LD network function security with a focus on virtualisation. It considers a broad definition of virtualisation i.e. including but not restricted to Network Functions Virtualisation. It focuses on threats and risks, provides applicable recommendations (although these are not meant to be exhaustive), and identifies areas where other standards present recommendations which are relevant to the threats and risks identified. The present document considers reuse of existing standards where applicable. It also considers a mixed deployment of physical and virtualised LI and LD implementations. It is restricted to LI and LD considerations only and does not look at wider considerations. Specifically, broader national security concerns are out of scope of the present document.
|
103 684
|
Electronic Signatures and Infrastructures (ESI); Global Acceptance of EU Trust Services
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103684/01.01.01_60/tr_103684v010101p.pdf
|
The present document presents the results of a study examining existing trust services and trust service providers that operate in different regions of the world, and their possible mutual recognition/global acceptance. In particular, the study aims to identify further steps which could be taken to facilitate cross recognition between EU trust services, based on ETSI standards supporting the eIDAS Regulation (EU) No 910/2014 [i.4], and trust services from other schemes. The study concentrates on existing PKI-based trust services as these are the most prevalent across the world. The present document first identifies the methodology used in the comparison of other PKI-based trust services with those defined in the existing ETSI standards based around the four main elements of a trust service: legal context, supervision and audit, best practice and trust representation. Then the information collected concerning major PKI-based trust service schemes around the world and how they relate to the European trust service scheme based on eIDAS and ETSI standards is presented. The approaches to PKI across the globe are analysed to identify enablers and barriers to mutual recognition. Finally, conclusions are presented on steps that could be taken to facilitate mutual recognition.
|
103 679
|
Environmental Engineering (EE); Explore the challenges of developing product group-specific Product Environmental Footprint Category Rules (PEFCRs) for smartphones
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103679/01.01.01_60/tr_103679v010101p.pdf
|
The present document investigates current approaches, concepts and metrics of LCA as proposed by PEF and their applicability for the smartphones. The present document: 1) searches to identify if Product Category Rules (PCR) and Life Cycle Assessment (LCA) models for the smartphone product category have been developed; 2) explores existing PCRs and LCAs for gaps compared to the PEFCR Guidance requirements; 3) explorse the challenges associated with: setting the scope, defining the unit of analysis, reference flow, representative products, product classification, system boundaries, data quality requirements, data collection, benchmark and classes of environmental performance, interpretation, reporting, disclosure, communication, and verification; 4) explores the challenges with PEF Screening (impact assessment, interpretation and conclusion, report).
|
103 675
|
SmartM2M; AI for IoT: A Proof of Concept
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103675/01.01.01_60/tr_103675v010101p.pdf
|
The following points are discussed: • Description of the Use Case implemented as a Proof of Concept. • Description of the implementation: architecture, oneM2M platform used, open source support, etc. • Main findings regarding the impact on the oneM2M architecture. • Lessons learned, guidelines and recommendations.
|
103 674
|
SmartM2M; Artificial Intelligence and the oneM2M architecture
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103674/01.01.01_60/tr_103674v010101p.pdf
|
The present document is addressing the issues related to the introduction of AI into IoT systems and, as first priority, into the oneM2M architecture. The following points are discussed: • Identification of Relevant use case related to the introduction of AI in IoT systems. • Analysis of the main implications of this use case to the oneM2M architecture. • The selection of a relevant use case in view of its implementation as a Proof-of-Concept.
|
103 667
|
Intelligent Transport Systems (ITS); Study on Spectrum Sharing between ITS-G5 and LTE-V2X technologies in the 5 855 MHz-5 925 MHz band
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103667/01.01.01_60/tr_103667v010101p.pdf
|
The present document proposes an overall framework based on combinations of co-channel and/or non-co-channel operation, as presented to CEPT, to address spectrum sharing between ITS-G5 and LTE-V2X ITS technologies enabling both technologies to use the same spectrum in the same geographical area. The overall framework may consist of several options for such combined operation.
|
103 665
|
System Reference document (SRdoc); Data Transmission Systems using Wide Band technologies in the 2,4 GHz band
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103665/01.01.01_60/tr_103665v010101p.pdf
|
The present document describes the current Wideband Data Transmission Systems (WDTS) and technologies that have been developed over time compliant with the existing provisions in Annex 3 of ERC Recommendation 70-03 [i.1] for the 2,4 GHz band. In addition to using wideband modulation techniques, these systems use a polite access/sharing mechanism (which also includes mechanisms restricting the Medium Utilization) in order to facilitate sharing among the wide variety of Wideband Data Transmission Systems operating in this band. The details of the polite access/sharing mechanisms are described in ETSI EN 300 328 (V2.2.2) [i.8]. Products using these technologies that are available in Europe are required to be compliant with the existing provisions in EC Decision 2006/771/EC [i.2] or national regulations based on the ERC Recommendation 70-03 [i.1]. For the various Wideband Data Transmission Systems covered by the present document, the following information is included: • Market information. • Technical information [including expected sharing and compatibility issues]. • Regulatory issues. The information on the various Wideband Data Transmission Systems in the present document can be used to support the work within CEPT in the context of updating the EC Decision 2006/771/EC [i.2]. During the time the present document was developed, no proposals for new systems were submitted. However, it was mentioned new systems are being developed which may lead to a future activity to revise the present document or to develop a new System Reference document.
|
103 664
|
System Reference document (SRdoc); Security Scanners (SSc) within the frequency range from 60 GHz to 90 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103664/01.01.01_60/tr_103664v010101p.pdf
|
The present document describes security scanner applications within the frequency range 68 GHz to 82 GHz which may require a change of the present frequency designation/utilisation within CEPT. The present document includes in particular: • market information; • technical information; • regulatory issues.
|
103 657
|
Lawful Interception (LI); Retained data handling; System Architecture and Internal Interfaces
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103657/01.02.01_60/tr_103657v010201p.pdf
|
The present document elaborates on RD system architecture and assigns and describes internal interfaces to specific services and functional entities on the CSP side. It provides guidance on implementation issues that CSPs have to deal with. The present document contains: • A reference model in the network operator and communication service provider domain. • A high level description of Internal Network Functions and Interfaces. • Application of the reference model to some typical CSPs. It does not intend to replace any existing document which specifies network operator and communication service provider's architecture and internal network interfaces. The present document does not override or supersede any specifications or requirements for the Retained Data. In particular, it does not override any clauses in TS 102 656 [i.2] and TS 102 657 [i.3].
|
103 656
|
Lawful Interception (LI); Study on high bandwidth delivery
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103656/01.01.01_60/tr_103656v010101p.pdf
|
The scope of the present document is to assess and characterize the problems associated with interception and secure onward delivery of high-bandwidth user traffic using TCP or TLS, identify whether there is a need to solve these problems, and identify potential technical and other measures that can be used to mitigate or address them.
|
103 644
|
CYBER; Observations from the SUCCESS project regarding smart meter security
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103644/01.02.01_60/tr_103644v010201p.pdf
|
The present document is a report of the findings of the SUCCESS H2020 project with respect to the security of Smart Meters. The present document applies only to the SUCCESS environment, but extrapolates the recommendations to a wider view of security of Smart Meters. The present document therefore may be used to sponsor future work in smart meter security.
|
103 642
|
<empty>
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103642/01.01.01_60/tr_103642v010101p.pdf
|
The present document reports on the application of techniques for protecting software implementations, in the form of applications and content, using software resident security techniques. The present document makes recommendations for the application of specific techniques including white box cryptography (WBC), code obfuscation, and other techniques denoted as anti-xxx and including anti-tampering, anti-reversing, anti-debugging, anti-cloning, etc. These techniques address the threats presented by attackers of the forms outlined in the present document.
|
103 639
|
Speech and multimedia Transmission Quality (STQ); Timeslicing KPIs for RTP based speech transmission
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103639/01.01.01_60/tr_103639v010101p.pdf
|
The present document describes a framework for measurement methodologies and metrics assessing characteristics of RTP-based speech transmission for fixed duration time intervals. This approach can be used to evaluate aspects of speech transmission based on the observed media volume in terms of time units. This facilitates temporal aggregation of metrics and calculation of key performance indicators in a more meaningful way compared to aggregation of conventional call-based metrics. The present document presents a classification of methods obtaining RTP flow characteristics per fixed time unit and provides examples for actual timeslice metrics as well as aggregation schemes to obtain key performance indicators summarizing metric data related to a set of timeslices. The focus is on interactive speech transmission in IP-based networks, i.e. Voice over IP (VoIP) communication. Fundamental concepts are potentially also applicable to interactive video communication, video streaming and other forms of continuous RTP-based communication. The framework introduces a common foundation to exchange information on timeslice metrics for RTP-based speech transmission performance. The intended audience for the present document can be found among service providers, vendors, and users of telephony services. The reader is assumed to be familiar with the Framework for IP Performance Metrics (IPPM) [i.2] developed by the IETF. The terminology of the IPPM will be used wherever possible and extended when necessary.
|
103 621
|
Cyber Security (CYBER); Guide to Cyber Security for Consumer Internet of Things
|
TR
|
2.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103621/02.01.01_60/tr_103621v020101p.pdf
|
The present document serves as guidance to help manufacturers and other stakeholders in meeting the cyber security provisions defined for Consumer IoT devices in ETSI EN 303 645 [i.1] and ETSI TS 103 645 [i.2]. The present document is complementary to ETSI EN 303 645 [i.1] and ETSI TS 103 701 [i.3]. It explains the relationship between these specifications and how they can be used together. It also provides a non-exhaustive set of example implementations that can be used to meet the provisions of ETSI EN 303 645 [i.1] and ETSI TS 103 645 [i.2], noting that not all possible implementations are included. Where relevant, pointers to supporting specifications are provided. Usage by industry players as well as future development of standards, such as specialization into precise use cases, or certification aspects, are being given consideration.
|
103 621
|
Guide to Cyber Security for Consumer Internet of Things
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103621/01.02.01_60/tr_103621v010201p.pdf
|
The present document serves as guidance to help manufacturers and other stakeholders in meeting the cyber security provisions defined for Consumer IoT devices in ETSI EN 303 645 [i.1] and ETSI TS 103 645 [i.2]. The present document is complementary to ETSI EN 303 645 [i.1] and ETSI TS 103 701 [i.3]. It explains the relationship between these specifications and how they can be used together. It also provides a non-exhaustive set of example implementations that can be used to meet the provisions of ETSI EN 303 645 [i.1] and ETSI TS 103 645 [i.2], noting that not all possible implementations are included. Where relevant, pointers to supporting specifications are provided. Usage by industry players as well as future development of standards, such as specialization into precise use cases, or certification aspects, are being given consideration.
|
103 619
|
CYBER; Migration strategies and recommendations to Quantum Safe schemes
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103619/01.01.01_60/tr_103619v010101p.pdf
|
The present document addresses the problem of migration to an environment in a Fully Quantum Safe Cryptographic State (FQSCS) from a non-Quantum Safe Cryptographic State. The present document provides recommendations and guidance to ensure safe transition between the two (2) states. The scope of attack considered in the present document includes those attacks against the cryptographic elements of the system. All other elements of the system that rely upon cryptography, but which are not susceptible to attack by a quantum computer, are presumed secure and are not addressed in the scope of the present document. NOTE: The present document assumes an orderly, planned, migration. The concept of "emergency migration" wherein external events, such as the immediate availability of a viable quantum computer that is used to attack RSA or ECC entities, requiring immediate transition to a FQSCS, is not fully addressed in the present document.
|
103 618
|
CYBER; Quantum-Safe Identity-Based Encryption
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103618/01.01.01_60/tr_103618v010101p.pdf
|
The present document describes a proposal for a quantum-safe hierarchical identity-based encryption scheme. It gives an overview of the functionality provided by hierarchical identity-based encryption, outlines some example uses cases and provides a high-level description of a potential solution based on structured lattices. The description includes concrete proposals for parameter sets, estimates for performance in software and a practical security analysis.
|
103 617
|
Quantum-Safe Virtual Private Networks
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103617/01.01.01_60/tr_103617v010101p.pdf
|
The present document explores protocol requirements necessary to add quantum resistance to VPN technologies, including client, server and architectural considerations. Specifically, requirements around protocols and key establishment are considered, based on the multitude of systems that are at risk and require security updates before quantum computers that can attack commercial cryptography are developed.
|
103 603
|
User Group; User Centric Approach; Guidance for providers and standardization makers
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103603/01.01.01_60/tr_103603v010101p.pdf
|
The present document defines guidance to the providers and standard makers to ensure that each service component is provided with the information needed by the user to make an informed choice. It addresses all the dimensions of ACIFO to the supplier, in order to produce the APIs according to the user expectations and whatever the number and types of additional suppliers. The present document is designed in conjunction with the user guide, ETSI EG 203 602 [i.2]. Each recommendation which has been identified as important for the user finds its parallel for the supplier offer, as defined in the present document. For each need and expectation, by user categories, the present document recommends relevant service information and functions. This is to facilitate, on the one hand, easy access for the user and on other hand, consistently create manageable services that are easily incorporated into a service definition that can support Service Level Agreement (SLA). The recommendations are intended for the user to be able to compose own services according to the needs, the location and activities. The concept of this new vision is detailed in ETSI TR 103 438 [i.1].
|
103 627
|
Core Network and Interoperability Testing (INT/WG AFI) Autonomicity and Self-Management in IMS architecture
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103627/01.01.01_60/tr_103627v010101p.pdf
|
The present document provides a Framework of an Autonomicity-enabled IP Multimedia Subsystem (IMS) Architecture. It focuses on the standardized IP Multimedia Subsystem reference architecture. The present document describes: • A high level GANA Autonomicity-enabled 3GPP IMS architecture, based on the instantiation of GANA Functional Blocks (FBs) for autonomics and their Reference Points (Rfps) that serve as enablers for autonomic management and control operations in IMS architecture and its associated management and control architecture. The GANA FBs include Decision-making Elements (DEs) and other types of GANA functional entities described in the present document. • Autonomicity-enabled IMS functions like Media Gateway Control Function (MGCF), Media Gateway Function (MGF), Application Server (AS) and end to end Network Management, thanks to the instantiation of the GANA autonomics enablers onto the IMS functions and the overall IMS architecture. • An analysis of significant GANA Decision-making Elements (DEs) for implementing Hierarchical Control-Loops for closed-loop management and control of network resources, parameters and services, and Reference Points associated with GANA Functional Blocks (FBs) that should be considered in introducing autonomics in IMS service orchestration, management and control, based on deployment scenarios. • How to achieve E2E Closed-Loop (Autonomic) IMS Services Assurance and Security Assurance by Federated GANA Knowledge Plane (KP) Platforms. The present document provides the recommendations that innovators and implementers of autonomics algorithms (including Artificial Intelligence algorithms) for the GANA DEs instantiated into the IMS architecture and its associated management and control architecture should follow in implementing the prescribed DEs and other GANA enablers for autonomics in IMS. Such prescribed GANA autonomics is meant to enable IMS functions to self-manage and at the same time be dynamically and adaptively policy-controlled by upper Artificial Intelligence-Driven Platform called GANA Knowledge Plane Platform - thanks to the introduction of Decision Elements (DEs) and associated control loops at the Network, Node and Function-level of the GANA reference model into the IMS network architecture and associated management and control architecture.
|
103 626
|
Autonomic network engineering for the self-managing Future Internet (AFI); An Instantiation and Implementation of the Generic Autonomic Network Architecture (GANA) Model onto Heterogeneous Wireless Access Technologies using Cognitive Algorithms
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103626/01.01.01_60/tr_103626v010101p.pdf
|
The present document provides a mapping of architectural components for autonomic network management & control developed/implemented in the European Commission (EC) funded WiSHFUL Project to the ETSI TC INT AFI Generic Autonomic Networking Architecture (GANA) model - an architectural reference model for autonomic networking, cognitive networking and self-management. The mapping pertains to architectural components for autonomic decision- making and associated control-loops in wireless network architectures and their associated management and control architectures. The objective is to illustrate how the GANA can be implemented using the components developed in the WiSHFUL and ORCA Projects. To show the extent to which the WiSHFUL architecture augmented with some virtualization and hardware acceleration techniques, developed in the ORCA project, implements the GANA model, in order to guide the industry (implementers of autonomics components for autonomic networks and their associated autonomic management & control architectures) on how to leverage this work in their efforts on GANA implementations. The mapping of the components to the GANA model concepts serves to illustrate how to implement the key abstraction levels for autonomics (self-management functionality) in the GANA model for the targeted wireless networks context, taking into consideration the work done in ETSI TR 103 495 [i.7]. The other objective is to also illustrate the value of joint autonomic management and control of heterogeneous wireless access technologies in such a GANA implementation context, with illustration on where Cognitive algorithms for autonomics (such as Machine Learning and other AI algorithms) can be applied in joint autonomic management & control of heterogeneous wireless access networks. The present document answers the question of how to implement the ETSI GANA model using WiSHFUL architecture and ORCA concepts. NOTE: Trademarks in the present document that are associated with the environments considered by WiSHFUL and ORCA projects in their implementation and prototyping of components are only mentioned as Citation of the environments on which components were implemented by the the two projects. The purpose of the present document is to illustrate to the industry how such WiSHFUL and ORCA components can be used to implement the ETSI GANA components in such environments considered by the projects, while making it clear that other environments not considered by the two projects can also be considered by the industry in implementing GANA components, as the present document does not serve to endorse or limit environments in which the GANA components can be implemented.
|
103 637
|
Digital Enhanced Cordless Telecommunications (DECT); DECT-2020 New Radio (NR) interface; Study on Security Architecture
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103637/01.01.01_60/tr_103637v010101p.pdf
|
The present document aims on studying "DECT-2020: New Radio", a new radio interface based on state of the art paradigms able to offer the required data rates, propagation characteristics and spectrum efficiency, while maintaining compatibility with the carrier and time structure of the DECT band. The scope of the present document is the definition of the initial overall Security Architecture to be used in the first release of DECT-2020 to be published in 2020. It covers all the necessary aspects: mutual authentication, confidentiality and integrity.
|
103 635
|
Digital Enhanced Cordless Telecommunications (DECT); DECT-2020 New Radio (NR) interface; Study on MAC and higher layers
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103635/01.01.01_60/tr_103635v010101p.pdf
|
The present document contains the outcome of a series of initial technical studies focused on the MAC and higher layers of DECT-2020: New Radio Interface (NR). DECT-2020 NR is a state of the art radio interface based on OFDM and supporting MIMO and is able to offer the required data rates, spectrum efficiency and other characteristics to become an IMT-2020 radio interface as defined by ITU-R. The PHY layer study of DECT-2020 is described in ETSI TR 103 514 [i.26]. The present document does not attempt to close the topic and subsequently, more detailed studies, on the different layers are expected in further project stages. The material described in the present document contains the outcome of STF 564, an ETSI task force created to perform the initial studies on the field, along with other contributions from the DECT industry. For the purpose of the present document the terms "DECT-2020", "DECT-2020 New Radio" or "DECT-2020 NR" all have the same meaning, and all of them refer to DECT utilizing the new radio interface based on OFDM as described in ETSI TR 103 514 [i.26] (PHY layer) and in the present document (MAC and higher layers). This new radio interface is targeted to meet the IMT-2020 requirements. The terms FP-2020 or PP-2020 refer to FP and PP (respectively) devices supporting DECT-2020. The present document is motivated by recent efforts to identify new ways of utilizing efficiently DECT frequency bands and potentially additional bands. New modes of operation are defined to target a more diverse set of use cases, while addressing 5G requirements for low latency, high spectral efficiency and large numbers of client nodes.
|
103 633
|
Digital Enhanced Cordless Telecommunications (DECT); Low Complexity Communication Codec Plus (LC3plus); Performance characterization
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103633/01.01.01_60/tr_103633v010101p.pdf
|
The present document characterizes the Low Complexity Communication Codec Plus (LC3plus) codec [i.4] by using subjective and objective test methodologies as presented in ETSI TS 103 624 [i.2]. The resulting measurements are presented in detail in order to point out the performance of LC3plus in certain use cases such as voice services over DECT and VoIP or music streaming. Other aspects of the codecs such as complexity and memory requirements are discussed as well.
|
103 631
|
Wireless Access Systems including Radio Local Area Networks (WAS/RLANs) in the band 6 725 MHz to 7 125 MHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103631/01.01.01_60/tr_103631v010101p.pdf
|
The present document provides information on the intended applications, the technical parameters, mitigation techniques, the relation to the existing spectrum regulation and additional new radio spectrum requirements for technology neutral wireless access systems including radio local area networks (WAS/RLANs) capable of operating in the 6 725 MHz to 7 125 MHz range. The information contained in the present document is complementary to the information contained in the ETSI Systems Reference Document ETSI TR 103 524 [i.22] for technology neutral WAS/RLANs although that SRDoc also contained a request to the CEPT for considering additional frequencies up to 6 725 MHz. It should be noted that TC ERM SRDoc ETSI TR 103 524 [i.22] covered the frequency range 5 925 MHz to 6 725 MHz. It should also be noted that draft ETSI TR 103 612 [i.23] describes IMT technology covering the frequency range 6 425 MHz to 7 125 MHz. The frequencies covered by these ETSI deliverables are shown in figure 1. Figure 1: Frequency bands covered by 6 GHz EC Mandate and 6 GHz ETSI deliverables
|
103 630
|
Intelligent Transport Systems (ITS); Security; Pre-standardization Study on ITS Facility Layer Security for C-ITS Communication Using Cellular Uu Interface
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103630/01.01.01_60/tr_103630v010101p.pdf
|
The present document analyses the existing solutions for secured ITS communications using wide-area cellular systems. The present document also identifies gaps in current ETSI ITS standards for enabling security features at the ITS Facilities layer, to facilitate secured C-ITS implementation using security features above the Networking & Transport layer when using wide-area cellular communications. The present document also proposes necessary standardization activities to close the identified gaps while considering interoperability and backward compatibilities with existing standards.
|
103 585
|
Reconfigurable Radio Systems (RRS); Radio Equipment (RE) reconfiguration use cases
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103585/01.02.01_60/tr_103585v010201p.pdf
|
The scope of the present document is to define use cases for radio equipment reconfiguration through software.
|
103 614
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Hearing Loop System (HLS) intended to assist the hearing impaired in the frequency range 0 Hz to 9 kHz; System Reference Document
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103614/01.01.01_60/tr_103614v010101p.pdf
|
The present document describes the application details, requirements and markets for Hearing Loop Systems (HLSs).
|
103 612
|
IMT cellular networks; Mobile/Fixed Communication Network (MFCN) in the frequency range 6 425 - 7 125 MHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103612/01.01.01_60/tr_103612v010101p.pdf
|
The present document is about the possibility of sharing the frequency range 6 425 - 7 125 MHz between the incumbent services and MFCN (Mobile/Fixed Communication Network) services. The present document provides the technical parameters of new entrant i.e. MFCN, current spectrum regulations, mitigation techniques and foreseen use cases and applications for the high data rate MFCN including IMT services in the frequency range 6 425 - 7 125 MHz.
|
103 591
|
SmartM2M; Privacy study report; Standards Landscape and best practices
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103591/01.01.01_60/tr_103591v010101p.pdf
| |
103 590
|
Digital Enhanced Cordless Telecommunications (DECT); Study of Super Wideband Codec in DECT for narrowband, wideband and super-wideband audio communication including options of low delay audio connections (<= 10 ms framing)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103590/01.01.01_60/tr_103590v010101p.pdf
|
The present document provides a study of technical updates to the DECT standard to enable super wideband (SWB) audio calls in existing DECT slot formats as well as technical improvements to narrowband (NB) and wideband (WB) calls. All required change requests are listed and defined for the different DECT layers to enable high quality audio communication between DECT FP and PP including DECT repeaters (relays). The study includes an investigation on FEC for block-based codecs. Information is provided on the audio quality in some DECT use cases for NB, WB and SWB and potential improvements by a new audio codec are studied.
|
103 588
|
Reconfigurable Radio Systems (RRS); Feasibility study on temporary spectrum access for local high-quality wireless networks
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103588/01.01.01_60/tr_103588v010101p.pdf
|
The present document addresses different technical possibilities for local high-quality wireless networks (nomadic or fixed) to access spectrum on a shared basis during a certain time period ranging from short-term (e.g. some days to some weeks) to long-term (e.g. some months to some years). Also the present document describes high-level use cases, review the feasibility of existing spectrum sharing frameworks, and, if required, propose evolved, extended or new technical solutions for spectrum sharing and network architectures addressing different network topologies and device types.
|
103 587
|
Reconfigurable Radio Systems (RRS); Feasibility study of a Radio Interface Engine (RIE)
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103587/01.02.01_60/tr_103587v010201p.pdf
|
The present document addresses the efficient acquisition and management of context information and suitable equipment configuration in a heterogeneous radio environment. In particular, an eco-system within the equipment is defined in order to achieve this objective. NOTE: An eco-system may comprise entities such as Context Information Acquisition Entity, Context Management Entity, Configuration Management Entity, Flexible Modulation Entity, and others. Context information may typically comprise information on the heterogeneous radio environment (e.g. which RATs are available), location information, etc., including information gathered from sensors.
|
103 616
|
CYBER; Quantum-Safe Signatures
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103616/01.01.01_60/tr_103616v010101p.pdf
|
The present document provides technical descriptions of the digital signature schemes submitted to the National Institute of Standards and Technology (NIST) for the third round of their post-quantum cryptography standardization process.
|
103 595
|
System Reference document (SRdoc); Transmission characteristics; Technical characteristics for level probing radar within the frequency range 75 GHz to 85 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103595/01.01.01_60/tr_103595v010101p.pdf
|
The present document describes LPR radiodetermination applications within the frequency range 75 GHz to 85 GHz which may require a change of the present frequency utilization within CEPT. The described UWB radiodetermination applications for future systems are split into the following classes and use cases: • Object detection and classification/characterization. • Motion, speed and presence detection. • Distance measurement. • Contour detection of solid material heaps. The present document includes in particular: • Market information. • Technical information including expected sharing and compatibility issues. NOTE: The information on sharing and compatibility issues is required when new spectrum or new spectrum usage is requested. • Regulatory issues.
|
103 594
|
System Reference document (SRdoc); Short Range Devices (SRD) using Ultra Wide Band (UWB); Technical characteristics and spectrum requirements for High-Definition Ground Based Synthetic Aperture Radars (HD-GBSAR) operating in 1 GHz band within 74 GHz to 81 GHz tuning range
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103594/01.01.01_60/tr_103594v010101p.pdf
|
The present document describes the High-Definition Ground Based Synthetic Aperture Radar (HD-GBSAR) system, which may require a change of the present frequency designation/utilization within the EU and CEPT. A total of 1 GHz bandwidth is required for operation of HD-GBSAR, which could be accommodated in the frequency range between 74 GHz and 81 GHz. The provided description of HD-GBSAR includes in particular: • Market information; • Technical information including expected sharing and compatibility issues; • Regulatory issues.
|
103 593
|
System Reference document (SRdoc); Transmission characteristics; Technical characteristics for radiodetermination equipment for ground based vehicular applications within the frequency range 77 GHz to 81 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103593/01.01.01_60/tr_103593v010101p.pdf
|
The present document describes radio determination equipment for ground based vehicular applications within the 79 GHz band which may require a change of the present frequency designation/utilization within the EU/CEPT. The present document provides information on the existing and intended applications, the technical parameters, the relation to the existing spectrum regulation (ECC/DEC(04)03 [i.10] and 2004/545/EC [i.11]). The present document includes in particular: • Market information. • Technical information including expected sharing and compatibility issues. • Regulatory issues.
|
103 611
|
Satellite Earth Stations and Systems (SES); Seamless integration of satellite and/or HAPS (High Altitude Platform Station) systems into 5G and related architecture options
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103611/01.01.01_60/tr_103611v010101p.pdf
|
The present document identifies how to integrate satellite and/or HAPS communication systems in 5G system for relevant use cases. The report identifies the necessary standardization activity in relation to the integration of satellite or HAPS in the 5G system.
|
103 608
|
SmartM2M; SAREF publication framework reinforcing the engagement of its community of users
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103608/01.01.01_60/tr_103608v010101p.pdf
|
The present document specifies the functional requirements for the publication framework of the SAREF ontology and its extensions. The publication framework provides a uniform documentation website for SAREF and its extensions such that (1) the documentation is designed for domain experts and software developers apart from documentation for ontology engineers, (2) industries can interact with the content, provide useful feedback to SAREF developers and suggest additions/modifications. Additionally, SAREF developers would get to know more about the SAREF community of users. Requirements for the publication framework aim at enabling industries to implement solutions with SAREF faster, and to reinforce the engagement of the community of users such that the SAREF developers can plan new evolutions of the current and future extensions.
|
103 604
|
User Group; User centric approach; Qualification of the interaction with the digital ecosystem
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103600_103699/103604/01.01.01_60/tr_103604v010101p.pdf
|
The present document describes the service provision to be addressed by designers and implementers of the digital ecosystem to ensure that the means by which users interact with the digital ecosystem is consistent across device types, and meet the preferences of the user. The present document addresses the role of the user accessing services in the digital ecosystem with multiple formats of device. For the purposes of the present document the digital ecosystem refers to those business sectors that interact with each other, and their consumers, using digital means. The application of the recommendations made in the present document encourage a unified approach across all elements of ecosystem that together impact the user experience (referred to as Quality of Experience) and aim to ensure continuity of customer experience across the entire eco-system. Specifically the present document identifies the elements of service interaction that should be made personal to the user.
|
103 576-2
|
Intelligent Transport Systems (ITS); Pre-standardization study on ITS architecture; Part 2: Interoperability among heterogeneous ITS systems and backward compatibility
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/10357602/01.01.01_60/tr_10357602v010101p.pdf
|
The present document presents the results of the investigation for achieving interoperability and backward compatibility, two principles of ITS Directive [i.2], when implementing the ITS architecture with multiple communication interfaces according to the existing ETSI ITS specifications. The present document elaborates the definitions of interoperability and backward compatibility. The requirements for functional safety according to ISO 26262 [i.12] and IEC 61508 [i.13], as well as privacy and security requirements are not addressed in detail in the present document.
|
103 573
|
Intelligent Transport Systems (ITS); Pre-standardization study of ITS test mode for operational devices in the field
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103573/01.01.01_60/tr_103573v010101p.pdf
|
The present document describes a test mode for the ITS protocol stack. The test mode provides the ability of testing RF and functional requirements regarding the communication of devices. This includes but is not limited to over the air tests in non-shielded environments without affecting operational ITS stations not targeted by the message.
|
103 570
|
CYBER; Quantum-Safe Key Exchanges
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103570/01.01.01_60/tr_103570v010101p.pdf
|
The present document compares a selection of proposals for quantum-safe key exchanges taken from the academic literature. In particular, it includes key exchanges based on the Learning with Errors (LWE), Ring-LWE and Supersingular Isogeny Diffie-Hellman (SIDH) problems, as well as key exchanges constructed from the Niederreiter and NTRU key transport schemes. The present document gives an overview of each key exchange, lists proposed parameters and gives software performance estimates on a range of processors. It also discusses various security and implementation considerations such as active attacks and side-channel vulnerabilities.
|
103 566
|
Evaluation status on receiver requirement on Signal interferer handling
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103566/01.01.01_60/tr_103566v010101p.pdf
|
The present document presents a generic description of the hybrid RX-requirements concept for implementation into harmonised standards. The new concept is intended to complement the framework for classical receiver parameters by providing alternative RX parameters that could be used in use cases of radio devices where the classical receiver parameters framework described in ETSI EG 203 336 [i.6], clause on RX where alternatives are allowed) cannot be applied, e.g. if: • there is no possibility to apply classical receiver parameters and parameters needed for compatibility or sharing studies (e.g. RFID tags and some SRDs); • classical receiver parameters do not fulfil the requirements for describing the performance of the receiver (e.g. UWB, radio-determination, and inductive systems). The present document will evaluate the relationship of the new concept with the classical RX- parameter framework, such as blocking, sensitivity and adjacent channel selectivity. The present document presents exemplary use cases and extracts related RX parameter to describe a harmonised extension of the existing RX parameter framework. The STF will ensure that the conclusions of its work should be included in harmonised standards in the following ways: • It will provide a way to define clear limits that are objective, measurable and repeatable. • It should ensure that a receiver to which the defined limits are applied has a level of performance that allows it to operate as intended and protects it against potential harmful interference. • It will not define specific values for limits or device-related requirements but focus on the procedure and definitions of appropriate receiver parameters. The present document is the first deliverable of STF 541 and it will be followed by an ETSI Technical Specification. The present document provides an overview of the situation regarding receiver requirements including the definitions, required parameters (e.g. interfering signals definition). The later TS will provide conformance test procedures for the different use-cases/scenarios. The TS is intended to be used as a normative reference in ETSI harmonised standards which have "signal interferer handling" as an essential RX-requirement. During the proposed action, a set of evaluation measurements will be performed applying the new concept, and the feedback collected will be included in the final definition of the test and measurement procedures. The output of the STF could be suitable for incorporation into a revision of the ETSI Guide (ETSI EG 203 336 [i.6]) to Harmonised Standards under the RED.
|
103 562
|
Intelligent Transport Systems (ITS); Vehicular Communications; Basic Set of Applications; Analysis of the Collective Perception Service (CPS); Release 2
|
TR
|
2.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103562/02.01.01_60/tr_103562v020101p.pdf
|
The present document prepares the specification of the Collective Perception Service [i.1] to support applications in the domain of road and traffic safety applications. Collective Perception aims at sharing information about the current driving environment with other ITS-Ss. For this purpose, the Collective Perception Service provides data about detected objects (i.e. other road participants, obstacles and alike). Collective Perception reduces the ambient uncertainty of an ITS-S about its current environment, as other ITS-Ss contribute context information. This includes the definition of the syntax and semantics of the Collective Perception Service (CPS) and detailed description of the data, the messages and the message handling to increase the awareness of the environment in a cooperative manner.
|
103 559
|
Speech and multimedia Transmission Quality (STQ); Best practices for robust network QoS benchmark testing and scoring
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103559/01.02.01_60/tr_103559v010201p.pdf
|
The present document describes the best practices for benchmarking of mobile networks. The goal of the benchmarking is to determine the best provider or operator for a designated area with respect of the services accessed with a mobile phone. The tests conducted are telephony, video streaming, data throughput and more interactive applications such as browsing, social media and messaging. This goal is achieved by executing benchmarking tests in designated test areas that represent or actually cover a major part of the users of mobile services. The results collected in the various areas are individually and collectively weighted and summarized into an overall score. Due to the rapid development of the mobile technology and consumption habits of the users, the quality of experience of the users changes over time even when the objective to measure the quality of service does not change. The present document needs to keep up with those changes and does so by parameterizing the individual factors that contribute to the score.
|
103 554-2
|
Rail Telecommunications (RT); Next Generation Communication System; Radio performance simulations and evaluations in rail environment; Part 2: New Radio (NR)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/10355402/01.01.01_60/tr_10355402v010101p.pdf
|
The present document is intended to: • Define the simulation parameters relevant to rail environment relating to 3GPP NR radio performance in the 900 MHz (FDD) and 1 900 MHZ (TDD) frequency band. This includes operating frequency bands, bandwidths, deployment scenario (inter-site distance) and antenna characteristics, transmit powers and channel models, along with relevant metrics to be evaluated. • Collect and analyse the simulation results of an NR system in the rail environment. • Identify potential limitations of NR system in the rail environment.
|
103 554-1
|
Rail Telecommunications (RT); Next Generation Communication System; Radio performance simulations and evaluations in rail environment; Part 1: Long Term Evolution (LTE)
|
TR
|
1.3.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/10355401/01.03.01_60/tr_10355401v010301p.pdf
|
The present document: • Defines the simulation parameters relevant to rail environment relating to 3GPP LTE radio performance. This includes in particular operating frequency bands, bandwidths, deployment scenario (inter-site distance), and antenna characteristics, transmit powers and channel models, along with relevant metrics to be evaluated. • Collects and analyse the simulation results of an LTE system in the rail environment operating in the 900 MHz frequency band (UIC and E-UIC bands). • Collects and analyse the simulation results of an LTE system in the rail environment operating in a 1 900 MHz frequency band. • Identifies limitations of an LTE system in the rail environment.
|
103 552
|
Study item on VHF Data Link Mode 2 ground-based equipment standardization optimization; Evolution of Data Link European Norms
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103552/01.02.01_60/tr_103552v010201p.pdf
|
The present document intends to investigate the improvements needed in the VHF Data Link Mode 2 European Norms (ETSI EN 303 214 [i.7], ETSI EN 301 841 parts 1 [i.4] to 3 [i.6]) in order to determine real-world compliance to relevant regulations, and if there is a need to align them with the relevant ELSA reports [i.12], [i.13], [i.14], [i.15] findings and further inputs from PATH1, PATH2 and other SDM/EASA mandates (e.g. CEF2017/IP1), as well as the relevant regulation. The present document considers also some specific aspects addressing ATN Baseline 1 and Baseline 2 compatibility.
|
103 549
|
SmartM2M; Guidelines for consolidating SAREF with new reference ontology patterns, based on the experience from the ITEA SEAS project
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103549/01.01.01_60/tr_103549v010101p.pdf
|
The present document specifies the functional requirements for a set of reference ontology patterns for the SAREF semantic model, along with guidelines for developing extensions to this semantic model for multiple engineering- related verticals. The present document has been developed leveraging the experience of the EUREKA ITEA 12004 SEAS (Smart Energy Aware Systems) project, and the development of the OGC&W3C SSN (Semantic Sensor Network) ontology. It illustrates the applications of the guidelines with use cases for Smart Energy, Smart Building, and Industry of the Future/Industry 4.0 verticals. The associated ETSI TS 103 548 [i.1] will define the update to SAREF and its extensions based on the requirements and guidelines specified in the present document.
|
103 547
|
SmartM2M; SAREF extension investigation; Requirements for the Water domain
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103547/01.01.01_60/tr_103547v010101p.pdf
|
The present document provides the requirements for an initial semantic model in the Water domain based on a limited set of use cases and from available existing data models. The present document has been developed in close collaboration with different initiatives in the water domain. Further extensions are envisaged in the future to cover entirely the water domain. The associated ETSI TS 103 410-10 [i.1] will specify the extension (i.e. the semantic model) for the water domain based on the requirements and use cases specified in the present document.
|
103 546
|
SmartM2M; Requirements & Feasibility study for Smart Lifts in IoT
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103546/01.01.01_60/tr_103546v010101p.pdf
|
The present document has been elaborated to facilitate the potential preparation of a standard for Smart Lifts collecting and developing type and range of data to be potentially exchanged between lifts and their relevant management applications. This information allows the monitoring of the activities and the performance of such lifts, and interaction with IoT devices and applications. It includes: • the identification of potential users of the information currently collected and their role in the system; • the combination of the data exchanged and the possible widening of the current types and ranges (signals and commands); • the identification of a set of use cases showing examples of the use of the identified signals and commands in the context of the relevant described user roles.
|
103 545
|
SmartM2M; Pilot test definition and guidelines for testing cooperation between oneM2M and Ag equipment standards
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103545/01.01.01_60/tr_103545v010101p.pdf
|
The present document provides the necessary input for a pilot Plugtests™ event to validate the possible cooperation between the oneM2M platform and AEF ISO 11783 standards implemented for communication inside and between agriculture & forestry machines. The document focuses on the description and planning of the pilot test, it is not intended to be at the level of a developer guide. The pilot use case will consider a tractor entering a road from the fields. The collaboration of Agri IoT and the oneM2M platform will enable to trigger the transmission of an alarm to the cars on the road. ETSI TC ITS standards, such as ETSI EN 302 637-3 [i.4] (Decentralized Environmental Notification Basic Service) are also part of this cooperation between standards in the use case to be demonstrated.
|
103 542
|
Environmental Engineering (EE); Study on methods and metrics to evaluate energy efficiency for future 5G systems
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103542/01.01.01_60/tr_103542v010101p.pdf
|
The present document analyses the energy efficiency issues for the future 5G systems, object of standardization in 3GPP and ITU and foreseen to be available from 2018 in various countries. The focus is about methods and metrics to measure energy efficiency in 5G systems, considering the degree of stability of the systems known so far and the experience of the legacy systems and the related measurement procedures. In this approach, the present document will rely on the existing standards for legacy radio systems, especially ETSI ES 202 706 [i.1] and [i.2] for single base station measurements in a laboratory environment and ETSI ES 203 228 [i.3] for access network aggregate measurements of energy efficiency. These standards are currently studying 2G, 3G and 4G energy efficiency topics. Moreover, the present document considers also the state of the art in 5G energy efficiency studies to elaborate a first view on 5G, to be further agreed for the possible future development towards a new standard of Energy Efficiency evaluation for 5G future systems.
|
103 541
|
Environmental Engineering (EE); Best practice to assess energy performance of future Radio Access Network (RAN) deployment
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103541/01.01.01_60/tr_103541v010101p.pdf
|
The aim of the present document is to find and describe methods and best practice to assess energy performance (Energy Consumption and Energy Efficiency) of a future RAN deployment. The results documented will include a summary of previous work, a collection of important preconditions as traffic aspects (growth, new traffic classes, potential disruption), collection of energy efficiency/saving solutions and strategies and energy issues in current networks. Network energy performance assessment method examples based on set of scenarios including different solutions. The assessment period is at least until 2020, optionally also including 5G impact. Energy consumption and efficiency definitions from ETSI ES 202 706 [i.18] and ETSI ES 203 228 [i.19] are preferred.
|
103 540
|
Environmental Engineering (EE); Mobile Network (MN) Energy Consumption (EC) estimation method; Energy estimation method based on statistical approach
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103540/01.01.01_60/tr_103540v010101p.pdf
|
The present document is aimed to define an estimation method for anticipating the total energy consumption of a radio access network based on measuring energy consumption of a few randomly chosen sites. The present document is used when measuring energy consumption of the whole network is either impossible or costly to an operator. Two different methods have been presented in the present document , one based on Basic Estimation Method and another based on stratified Estimation Method. The present document deals with any type of radio access network such as homogeneous and heterogeneous network and technologies such as GSM, UMTS and LTE. The estimation of energy consumption User Equipment (UE) is not within the scope of the present document.
|
103 583
|
System Reference document (SRdoc); Technical characteristics of Multiple Gigabit Wireless Systems (MGWS) in radio spectrum between 57 GHz and 71 GHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103583/01.01.01_60/tr_103583v010101p.pdf
|
The present document describes the requirements for radio frequency usage for the following: 1) Multiple Gigabit Wireless Systems (MGWS) in radio spectrum between 57 GHz and 71 GHz including outdoor applications. 2) Millimetre Wave communication for Intelligent Transport Systems (mmW-ITS) and a proposal to move the existing mmW-ITS allocation to a single MGWS channel. The present document is intended to update and replace ETSI TR 102 555 [i.1] and ETSI TR 102 400 [i.12]. The present document intended to provide necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications Administrations (CEPT).
|
103 582
|
EMTEL; Study of use cases and communications involving IoT devices in provision of emergency situations
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103582/01.01.01_60/tr_103582v010101p.pdf
|
The present document considers communications involving IoT devices in all types of emergency situations. This includes the use of IoT devices to enhance: • Emergency calling, e.g. between individuals and emergency authorities/organizations, between emergency authorities/organizations, and between individuals. • Mission critical communications within emergency services/public safety organizations, e.g. between public safety officers and control centres, between the control centres of different public safety organizations, and between individual public safety officers. • Public Warning System type communications from authorities to the general public. • Automated emergency response (new IoT domain) between two IoT devices. The current state of the art for IoT device communications, especially when relevant to emergency situations, is described and use cases illustrate how such communications can be used to provide additional/enhanced information for communicating parties involved in emergency situations. The impact of the use cases on the existing emergency, public warning, and mission critical communications is then considered, and recommendations for requirements to existing specifications for each domain are provided.
|
103 581
|
Use of measurement detectors in radio measurement methods
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103581/01.01.01_60/tr_103581v010101p.pdf
|
The present document provides to ETSI technical group's information on the use of measurement detectors (e.g. quasi peak, RMS, average, peak) in radio measurement methods. The focus in the present document is on measurement detectors used in spectrum analysers and EMI receivers. Various other technologies to measure RF signals do exist, like specific true RMS sensors and selective voltmeters. They are not further studied in the present document but could be of specific use in some cases. EMI measurement methods and audio measurements/detectors (e.g. SINAD) are not in the scope of the present document.
|
103 580
|
Urban Rail ITS and Road ITS applications in the 5,9 GHz band; Investigations for the shared use of spectrum
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103580/01.02.01_60/tr_103580v010201p.pdf
|
The present document proposes methods to ensure co-channel coexistence in the frequency range 5 915 MHz to 5 925 MHz where Urban Rail is the priority application. In the present document, tramways are considered to be Road ITS because they are not segregated from road or pedestrian traffic. NOTE: In the present document, no specific sharing methods for the operation of Urban Rail equipment in the bands, where Road ITS has priority, are considered given that Urban Rail equipment is not operating in these bands in areas where ITS equipment needs protection.
|
103 579
|
Intelligent Transport Systems (ITS); Pre-Standardization Study on payment applications in Cooperative ITS using V2I communication
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103579/01.01.01_60/tr_103579v010101p.pdf
|
The present document identifies potential requirements for the set of payment applications (including positioning and security requirements) and investigates possible updates and changes to the existing set of ETSI Cooperative ITS standards using V2I communication to support locally hosted payment applications including Electronic Fee Collection (EFC) and other general payment applications.
|
103 578
|
Intelligent Transport Systems (ITS); Vehicular Communications; Manoeuvre Coordination Service (MCS); Pre-standardization study; Release 2
|
TR
|
2.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103578/02.01.01_60/tr_103578v020101p.pdf
|
The present document gives an overview of the Manoeuvre Coordination Service (MCS), describes the class of cooperation, and introduces relevant use cases. Potential requirements (functional, functional safety, security, and performance requirements) are also introduced as well as for the MCM format.
|
103 554
|
Rail Telecommunications (RT); Next Generation Communication System; LTE radio performance simulations and evaluations in rail environment
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103554/01.01.01_60/tr_103554v010101p.pdf
|
3GPP LTE radio access is one candidate for the radio access technology to be used for the Future Rail Mobile Communications System (FRMCS). In the present document, the term FRMCS refers -unless stated otherwise- to the radio part of the communication system. The present document is intended to: • Define the simulation parameters relevant to rail environment relating to 3GPP LTE radio performance. This includes in particular operating frequency bands, bandwidths, deployment scenario (inter-site distance), and antenna characteristics, transmit powers and channel models, along with relevant metrics to be evaluated. • Collect and analyse the simulation results of an LTE system in the rail environment. • Identify limitations of an LTE system in the rail environment. Radio performance evaluation of an LTE system could be done by simulation, through software and processing resources only, or through a test bench incorporating pieces of equipment emulating parts of the chain, e.g. the RF. In both cases, it is important to align the parameters and the assumptions made in the simulation and in the evaluation chain to be able to reflect better a deployment in a rail environment, and to better compare and understand the simulation and the evaluation results.
|
103 538
|
Environmental Engineering (EE); Analysis of test method and test severity for mechanical test of equipment installed on poles/towers
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/103500_103599/103538/01.01.01_60/tr_103538v010101p.pdf
|
The present document is intended to provide suggestions on how to set vibration specification for telecommunication equipment installed on towers.
|
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