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103 326 | Smart Body Area Network (SmartBAN); Enhanced Ultra-Low Power Physical Layer | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103326/01.02.01_60/ts_103326v010201p.pdf | The present document specifies the ultra-low power physical layer (PHY) SmartBAN. The present document applies to short range, wireless communication between wearable sensors devices and the hub coordinator. The present document specifies the PHY for transmitting on the medium. The present document describes: • packet formats; • modulation; • forward error correction. |
103 327 | Smart Body Area Networks (SmartBAN); Service and application standardized enablers and interfaces, APIs and infrastructure for interoperability management | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103327/01.01.01_60/ts_103327v010101p.pdf | The present document describes and specifies the high level infrastructure, its building blocks and associated APIs providing interoperability management solutions for SmartBAN. The architecture described in the present document also enables generic interaction and access to BAN data and entities, and thus paves the way to interoperability (networks and syntactic interoperability). Since the SmartBAN reference architecture specified and formatized in the present document fully relies on SmartBAN open semantic data model and corresponding ontologies as already standardized in [1], it therefore also addresses data and semantic interoperability. The present document is applicable to a BAN and/or a SmartBAN comprising wearable sensors/actuators devices, a relay/coordinator device and a Hub. The relay/Coordinator and the Hub functionalities may be handled by a single device or by two distinct devices. The present document is also addressing syntactic interoperability by defining unified data transfer and message formats. |
103 328 | Rail Telecommunications (RT); GPRS/EGPRS requirements for European Train Control System (ETCS) | TS | 1.2.2 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103328/01.02.02_60/ts_103328v010202p.pdf | The present document defines the minimum set of 3GPP GPRS features to support ETCS application and to guarantee QoS required. Two operational cases are applicable in GSM-R networks: • GSM-R GPRS packet switched bearer service is only utilized by ETCS PS-mode operation - ETCS only operation. • GSM-R GPRS packet switched bearer service is utilized by simultaneous ETCS and other packet data oriented applications - Simultaneous operation of ETCS and non-ETCS applications. Both operational scenarios require basic GPRS features but in case of simultaneous ETCS and non-ETCS operation, ETCS packet data session requires priority over non-ETCS packet data traffic. The present document is focussing on the relevant references needed for the GSM-R PS-domain. It does not describe the detailed requirements for each of the referred GSM feature. The minimum requirements on ETSI/3GPP for the use of GSM for application on railway networks are based on the Release 99 version of the Technical Specifications and are described in ETSI EN 301 515 [i.1]. The features serving as the basis for GSM-R PS-domain are described in releases later than Release 99. So the present document is referring to specifications versions later than Release 4 but is not mandating any other functionality than covered by the applicable 3GPP Work Items and referenced in the applicable clauses as listed in clauses 5.1.10 and 5.2.2. |
103 329 | Wireless Industrial Applications (WIA); Radio equipment to be used in the 5,725 GHz to 5,875 GHz frequency range with power level up to 400 mW; Methods and concepts for a WIA system approach to sharing in the 5,725 GHz to 5,875 GHz band | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103329/01.01.01_60/ts_103329v010101p.pdf | The present document describes methods and concepts for a Central Coordination Point (CCP) in order to support spectrum sharing between WIA devices with power level up to 400 mW and other systems operating in the 5,725 GHz to 5,875 GHz band, i.e. the 5,8 GHz WIA band. The present document covers two aspects: • CCP for sharing with incumbent services/applications (e.g. those identified in ECC Report 206 [i.1]). • CCP for Intra-system coexistence. |
103 331 | Cyber Security (CYBER); Structured threat information sharing | TR | 2.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103331/02.01.01_60/tr_103331v020101p.pdf | The present document provides an overview on the means for describing and exchanging cyber threat information in a standardized and structured manner. Such information includes technical indicators of adversary activity, contextual information, exploitation targets, and courses of action. The existence and creation of organizations for the exchange of this information are out of scope the present document. |
103 332 | Electromagnetic compatibility and Radio spectrum Matters (ERM); Impact of CENELEC EN 55032 on ETSI EMC Standards | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103332/01.01.01_60/tr_103332v010101p.pdf | The present document is intended to review the impact of CENELEC EN 55032 [i.1] on existing ETSI EMC deliverables that reference its predecessor CENELEC EN 55022:2010 [i.2] and to recommend to ETSI TC ERM as to what (if any) changes should be made to these deliverables. In should be noted that if changes are made to existing deliverables, then the usual procedures as per the ETSI TWP [i.16] are to be followed. It should also be noted the the present document bases it review around edition 2 of CENELEC EN 55032 [i.1] as the first edition, a direct reference to CISPR 32 [i.3] first edition contained the very same mistakes that were present in the first edition of the CISPR document. |
103 333 | System Reference document (SRDoc); GSM-R networks evolution | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103333/01.01.01_60/tr_103333v010101p.pdf | The present document applies to the next generation radio communication system for railway operations, intended to replace GSM-R, and hereafter referred to as Future Railway Mobile Communication System (FRMCS),which may require a change of the present frequency designation within CEPT and of the present regulatory framework for the proposed band(s). The preferred regulatory approach for FRMCS is to reuse the same frequency bands that are currently designated for railway operations, within the 873 - 880 MHz paired with 918 - 925 MHz frequency band. The present document, in particular: • gives a GSM-R market overview; • provides some technical information; • investigates the harmonised UIC frequency band currently used for GSM-R, 876 - 880 MHz UL / 921 - 925 MHz DL, as well as the E-UIC frequency band, 873 - 880 MHz UL / 918 - 925 MHz DL for critical railways communications; • notes the regulatory issues in order to ensure a smooth introduction of FRMCS as well as an efficient use of spectrum. The FRMCS is used for communication between trains, portable UE and trackside communication entities, for applications directly related to railway operation. Passenger connectivity is out-of-scope of the present document. |
103 334 | Speech and multimedia Transmission Quality (STQ); Transmission requirements for wearable wireless terminals from a QoS perspective as perceived by the user | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103334/01.01.01_60/ts_103334v010101p.pdf | The present document provides speech transmission performance requirements for wireless terminals; it is limited to wearable terminals, including devices worn on the user's wrist. Headsets are out of scope. In contrast to other standards which define minimum performance requirements it is the intention of the present document to specify terminal equipment requirements which enable manufacturers and service providers to enable good quality end-to-end speech performance as perceived by the user, whatever be the radio link (terminals may implement different radio links with the access network). When an additional radio link between the terminal and external electroacoustical devices is used (e.g. Bluetooth® link), the standard will address the overall quality. In the present document objective measurement methodologies and requirements for wireless wearable speech terminals are given. In addition to basic testing procedures, the present document describes advanced testing procedures taking into account further quality parameters as perceived by the user. The requirements available in the present document will ensure a high compatibility across access networks with all types of terminals. It is the aim to optimize the listening and talking quality, conversational performance, as well as the use in noisy environments. Related requirements and test methods will be defined in the present document. For all the functions, the standard will consider the limitations in audio performance due to different form factors (e.g. size, shape, wearing style and location). Terminals which are not intended to be connected to public networks are outside the scope of the present document. |
103 335 | Emergency Communications (EMTEL); Guidelines for alert message content accessibility | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103335/01.01.01_60/tr_103335v010101p.pdf | The present document provides user interface design guidelines applicable to alert messages which allow users with disabilities to become aware of alert messages and to access the contents of such messages. These guidelines cover the presentation of alert messages. The contents of alert messages is not in the scope of the present document. |
103 337 | Satellite Earth Stations and Systems (SES); Satellite Emergency Communications; Multiple Alert Message Encapsulation over Satellite (MAMES) | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103337/01.01.01_60/ts_103337v010101p.pdf | The present document establishes the specifications for the MAMES (Multiple Alert Message Encapsulation over Satellite) Protocol. Starting from an overview of the MAMES objectives and operations, the MAMES Architecture is presented: the MAMES functional entities are identified and the MAMES positioning in a protocol-stack architecture is provided by defining a set of MAMES operational scenarios. The MAMES alert message encapsulation scheme is specified by defining the overall MAMES Message structure, the different types of MAMES messages and all MAMES Header fields. The behaviour of the MAMES Agents responsible for the process of the MAMES Protocol is defined. Guidelines for integrating the MAMES alert message encapsulation scheme into communications networks are provided in [i.1]. |
103 338 | Satellite Earth Stations and Systems (SES); Satellite Emergency Communications (SatEC); Multiple Alert Message Encapsulation over Satellite (MAMES) deployment guidelines; | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103338/01.01.01_60/tr_103338v010101p.pdf | The present document provides guidelines for integrating the MAMES alert message encapsulation scheme specified in [i.1] into communications networks. Starting from an outline of the overall integration framework in terms of the entities and actors involved in an end-to-end alerting system, a set of generic integration scenarios are developed. These considerations apply to both satellite-based and terrestrial networks. The actual integration guidelines are formulated by providing a mapping of the MAMES entities onto the entities of common types of SatCom and SatNav networks. For each class of SatCom and SatNav network considered, the interconnection points between the MAMES and the SatCom/SatNav networks are identified, highlighting also the respective lower-layer technologies of the satellite-based networks. In order to illustrate the operation of integrated MAMES-enabled networks, a number of representative end-to-end alerting scenarios are developed and the key procedures involved are described. |
103 343 | Power Line Telecommunications (PLT); Powerline HDMI® analysis for very short range link HD and UHD applications | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103343/01.01.01_60/tr_103343v010101p.pdf | The present document addresses Short Range Powerline modems for Very High Bit Rate links for both HDMI® 1.x and HDMI® 2.0 interfaces. |
103 349 | Human Factors (HF); Functional needs of people with cognitive disabilities when using mobile ICT devices for an improved user experience in mobile ICT devices | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103349/01.01.01_60/tr_103349v010101p.pdf | ........................................................................................................................................................ 6 |
103 351 | Satellite Earth Stations and Systems (SES); Multi-link routing scheme in hybrid access network with heterogeneous links | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103351/01.01.01_60/tr_103351v010101p.pdf | The present document proposes and analyses a traffic distribution architecture for hybrid access networks combining one or several terrestrial access technologies (fixed or mobile service) together with a satellite broadband access network (Fixed Satellite Service). The traffic distribution architecture will enhance the end users' Quality of Experience by efficiently utilizing all available connections simultaneously using the Multipath TCP protocol. It allows for splitting traffic flows into smaller chunks, so-called objects, for which the most appropriated link is selected. The architecture is complemented by a Capacity and Link Status Estimation process that estimates link characteristics by passively monitoring TCP traffic, so that the Link Selection can be performed on a more informed basis. The present document aims at: • Defining the usage of the Multipath TCP protocol in Hybrid FSS satellite/terrestrial architecture. • Proposing a method to split TCP traffic into connected chunks of traffic to ease the multipath routing. • Proposing a routing scheme that distributes traffic intelligently among the available connections. • Proposing a TCP-based link estimation method to passively determine available bandwidth and latency of a path. |
103 352 | Satellite Earth Stations and Systems (SES); Energy efficiency of satellite broadband network | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103352/01.01.01_60/tr_103352v010101p.pdf | The present document reviews the assessment of energy consumption during the operational phase of satellite networks, and identifies whether additions are required to the general assessment methodology developed in ETSI TS 103 199 [i.10]. It also reviews the energy efficiency related metrics developed for terrestrial wireless and mobile networks in ETSI TR 103 117 [i.7] and identifies any necessary adaptations to enable the methodologies to be applied to satellite networks. Satellite Networks allow broadband services to be delivered to approaching 100 % of the population, even in remote areas, and can therefore be used to fill gaps in the coverage of other access technologies. Broadband services can be offered to residential or business customers via satellite in a cost effective manner compared to other methods of services provisioning. However, their energy consumption needs to be assessed and compared with other ways of delivering broadband services. |
103 353 | Satellite Earth Stations and Systems (SES); Environmental impact of satellite broadband network; Full LCA (Life Cycle Assessment) | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103353/01.01.01_60/tr_103353v010101p.pdf | Satellite Broadband Networks allow broadband services to be delivered to approaching 100 % of the population, even in remote areas, and can therefore be used to fill gaps in the coverage of other broadband technologies. Satellite Broadband services can be offered to residential or business customers in a cost effective manner compared to other methods of services provision. The present document reviews the assessment of GHG emissions over the lifecycle of satellite broadband networks, and identifies whether additions are required to the full life cycle assessment methodology developed in ETSI TS 103 199 [i.3]. |
103 357 | Short Range Devices; Low Throughput Networks (LTN); Protocols for radio interface A | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103357/01.01.01_60/ts_103357v010101p.pdf | The present document specifies the radio protocols of three radio technologies, referred to as "families". It contains an implementable description of physical and MAC/link protocol layers. It concludes with a section on implementation commonalities between the three LTN families. NOTE 1: ETSI TR 103 249 [i.8] describes LTN use cases and system characteristics. NOTE 2: ETSI TS 103 358 [i.9] specifies the architecture of LTN systems. NOTE 3: Based on the above documents, radio technologies have been developed with a focus on different subsets of applications, where the optimal balance of technical parameters differs. |
103 357-1 | Short Range Devices; Low Throughput Networks (LTN); Protocols for radio interface A; Part 1: Lfour and DD-UNB protocol families | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/10335701/02.01.01_60/ts_10335701v020101p.pdf | The present document, which is part 1 of a multi-part deliverable, specifies radio protocols for two LTN protocol families: • Lfour; and • DD-UNB. It contains an implementable description of the physical and MAC/link layers of these two protocols, and a section on implementation commonalities between the three LTN families. NOTE 1: ETSI TR 103 249 [i.5] describes LTN use cases and system characteristics. NOTE 2: ETSI TS 103 358 [i.6] specifies the architecture of LTN systems. NOTE 3: Based on the above documents, radio technologies have been developed with a focus on different subsets of applications, where the optimal balance of technical parameters differs. |
103 357-2 | Short Range Devices; Low Throughput Networks (LTN); Protocols for radio interface A; Part 2: TS-UNB protocol | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/10335702/02.01.01_60/ts_10335702v020101p.pdf | The present document, which is part 2 of a multi-part document, specifies the TS-UNB protocol. It contains an implementable description of its physical and MAC/link protocol layers. The present document is structured as follows: • clause 2 provides references; • clause 3 provides definitions of terms, symbols and abbreviation used; • clause 4 specifies the TS-UNB protocol; • informative annex A provides examples of radio profiles; • informative annex B provides examples of MAC payload formats; • informative annex C summarizes durations and layouts of DLB structure; • informative annex D provides numerical examples. TS-UNB is one of the three radio technologies specified for LTN systems, that are addressed in two overall documents: • ETSI TR 103 249 [i.8], that describes LTN use cases and system characteristics. • ETSI TS 103 358 [i.9], that specifies the architecture of LTN systems. |
103 358 | Short range devices; Low Throughput Networks (LTN) Architecture; LTN Architecture | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103358/01.01.01_60/ts_103358v010101p.pdf | The Internet of Things (IoT) presents a wide and growing range of communications requirements. Certain of these requirements are addressed by systems which are referred to as 'Low Throughput Networks' (LTN) in ETSI documents. The use cases addressed by LTN systems and the LTN systems characteristics are provided in ETSI TR 103 249 [i.1]. LTN systems may be considered to be a subset of Low Power Wide Area Networks (LPWAN), that may include other systems, already existing or developed in the future. The present document specifies the architecture of LTN systems. It contains requirements and/or recommendations on functional blocks and interfaces that are related to the architecture (i.e. high-level description) of LTN systems. The present document develops the work done in LTN ISG [i.2] on architecture for LTN systems. The present document should be read in conjunction with the LTN document [i.1] and related documents, in which details of entities and interfaces are documented. |
103 361 | Short Range Devices (SRD) using Ultra Wide Band technology (UWB); Receiver technical requirements, parameters and measurement procedures to fulfil the requirements of the Directive 2014/53/EU | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103361/01.01.01_60/ts_103361v010101p.pdf | The present document specifies receiver technical requirements, parameters and measurement procedures for UWB technologies. It is a reference document for drafting new or revised UWB harmonised standards to fulfil the requirements of the Directive 2014/53/EU [i.1]. |
103 365 | Short Range Devices (SRD) using Ultra Wide Band technology (UWB); Time Domain Based Peak Power Measurement for UWB Devices | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103365/01.01.01_60/tr_103365v010101p.pdf | The present document specifies a time domain based procedure for UWB Peak Power measurements. It is intended as an alternative in addition to the frequency domain measurement technique outlined in clause 7.4.4 of ETSI TS 102 883 [i.4]. The proposed procedure is applicable to all UWB signal types. It provides more accurate results compared to the frequency domain measurement in case a correction factor needs to be applied for frequency domain measurements with RBW smaller than 50 MHz. |
103 366 | Short Range Devices (SRD) using Ultra Wide Band technology (UWB); Time Domain based Low Duty Cycle Measurement for UWB | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103366/01.01.01_60/ts_103366v010101p.pdf | The present document specifies a time domain procedure for Duty Cycle (DC) measurement. The procedure is applicable to all Ultra Wide Band (UWB) signal types, and it is an alternative to the frequency domain procedure for DC measurement described in ETSI TS 102 883 [1]. In general, the DC measurement in the time domain will provide more accurate results compared to the DC measurement in the frequency domain. |
103 368 | Rail Telecommunications; Commands necessary for mobile radio equipment operation on railways | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103368/01.02.01_60/ts_103368v010201p.pdf | The present document defines the minimum set of commands necessary for mobile radio systems operation on Railways. The following operational cases are addressed within the present document: • GSM-R Circuit Switched Voice (including ASCI calls, Enhanced Railway Emergency Call, etc.). • GSM-R Circuit Switched Data (CS) bearer service. • GSM-R Packet Switched (PS) bearer service. |
103 369 | CYBER; Design requirements ecosystem | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103369/01.01.01_60/tr_103369v010101p.pdf | The present document provides a high level structured ecosystem of security design requirements that may be applicable to communication and IT networks and attached devices. It identifies where there may be synergies or conflicts among the design requirements, and provides a bibliography of reference information. |
103 370 | Practical introductory guide to Technical Standards for Privacy | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103370/01.01.01_60/tr_103370v010101p.pdf | The present document gives a guide to the use of standards to assist in the management of privacy. The present document contains the following key elements: • Table 1 contains a collation of terms related to data protection and privacy from selected SDOs and comparison to the GDPR [i.1]. • Privacy terms and definitions based on existing documents (ISO, ENISA, and others). • Status of standardization work including consideration of existing or future work in ISO, CEN/CENELEC, ETSI and other bodies. • Identification of the basic building blocks and main principles for privacy protection and their mapping to available standards. • Fundamental privacy by design principles that are commonly recognized. • Examples of application of the privacy by design principles. In addition, the present document identifies gaps in standardization and makes several recommendations for addressing those gaps. |
103 371 | Network Technologies (NTECH); Autonomic network engineering for the self-managing Future Internet (AFI); Proofs of Concept Framework | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103371/01.01.01_60/ts_103371v010101p.pdf | Proofs of Concept are an important tool to demonstrate the viability of a new technology during its early days and or pre-standardisation phase. The present document defines a framework to coordinate and promote multivendor Proofs of Concept (PoC) projects illustrating key aspects of the autonomic management and control technology [i.1]. The main objectives of this PoC framework are: • to ensure the PoC projects are scoped around relevant topics; • to ensure that the PoC results, lessons learnt and identified gaps are feedback to the AFI working group of TC NTECH; • to build confidence on the viability of autonomic management and control technology; • to encourage the development of a diverse and open ecosystem by fostering the integration of components from different players; • to support standardization activities of the AFI working group of TC NTECH. This framework describes: • the different roles and responsibilities in the PoC process; • the PoC process; • the acceptance criteria for PoC Proposals and Reports. |
103 375 | SmartM2M; IoT Standards landscape and future evolutions | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103375/01.01.01_60/tr_103375v010101p.pdf | The scope of the present document is to provide an overview of the IoT standards landscape: requirements, architecture, protocols, tests, etc. to provide the roadmaps of the IoT standards, when they are available. The essential objectives are: • To analyse the status of current IoT standardisation. • To assess the degree of industry and vertical market fragmentation. • To point towards actions that can increase the effectiveness of IoT standardisation, to improve interoperability, and to allow for the building of IoT ecosystems. |
103 376 | SmartM2M; IoT LSP use cases and standards gaps | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103376/01.01.01_60/tr_103376v010101p.pdf | Starting from the use case families selected for the IoT Large Scale Pilots (LSPs) the present technical report aim is: • To provide the collection of all missing functionalities that have been identified in standards bodies (SDOs) to offer solutions addressing the use case requirements. • To check that there are no omissions in the standardization activity with regard to the use cases. In particular, gaps with respect to the framework as identified by oneM2M should be identified. • To propose some recommendations to overcome potential gaps. Particular attention will be paid on horizontal application layer standardization and to assure an interworking framework among different vertical industrial segments. |
103 378 | Smart Body Area Networks (SmartBAN); Unified data representation formats, semantic open data model and corresponding ontology; Associate service model/ontology/enablers extensions for SmartBAN semantic interoperability | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103378/01.02.01_60/ts_103378v010201p.pdf | The present document specifies and formalizes SmartBAN unified data representation formats (including in particular sensor/actuator/relay/coordinator/Hub descriptions and sensed/measured data), semantic and open data model and corresponding ontology. The present document addresses semantic interoperability. Therefore, the SmartBAN open data model and associated modular ontologies are extended with service/application level concepts, service modular ontology, and associated enablers. Furthermore, the linkage between SmartBAN modular ontologies and others of interest reference ontologies for smart BANs are also addressed in the present document. The present document is applicable to a BAN and/or a Smart BAN comprising wearable sensor/actuator devices, a relay/coordinator device and a Hub. The relay/Coordinator and the Hub functionalities may be handled by a single device or by two distinct devices. |
103 379 | Reconfigurable Radio Systems (RRS); Information elements and protocols for the interface between LSA Controller (LC) and LSA Repository (LR) for operation of Licensed Shared Access (LSA) in the 2 300 MHz - 2 400 MHz band | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103379/01.01.01_60/ts_103379v010101p.pdf | The present document defines the application protocol on the LSA1 interface, between LSA Controller (LC) and LSA Repository (LR) [i.2] (LSA1 protocol), and the content of the LSA Spectrum Resource Availability Information (LSRAI) conveyed by this protocol. It is based on the System Requirements defined in ETSI TS 103 154 [i.1] and the System Architecture and High Level Procedures defined in ETSI TS 103 235 [i.2]. The present document supports the operation of mobile broadband service in the 2 300 MHz - 2 400 MHz band under Licensed Shared Access (LSA), aimed at enabling access for mobile/fixed communication networks (MFCNs) in those CEPT countries where access to the band is foreseen but cannot be provided without restrictions due to Incumbent usage, as documented in ETSI TR 103 113 [i.3]. Application to other bands is not precluded and depends on future regulatory decisions. |
103 380 | Smart Cards; Technical Report to improve test equipment integrity (Release Independent) | TR | 1.0.0 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103380/01.00.00_60/tr_103380v010000p.pdf | The present document provides how to optimally set up the test environment to execute test case implementations based on ETSI TC SCP test specifications. This includes (but is not limited to): • Derived guidelines to set up a test environment; • Test equipment behaviour in case of additional activity triggered by test sequences; • Optimization of the test environment; - Noise issues when using the Single Wire Protocol; - Limiting the noise impacts; • Checking the integrity of the test environment; • Example of a Test Case for Integrity check. The targeted audience for the present document is users of test case implementations based on ETSI TC SCP test specifications as well as test equipment manufacture. |
103 386 | Methods for Testing and Specifications (MTS) Deployment of Model-Based Automated Testing Infrastructure in a Cloud | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103386/01.01.01_60/tr_103386v010101p.pdf | The present document provides an overview of the approach taken within the EU-funded research project called MIDAS to design, build and deploy an integrated framework for testing automation that will be available as a Test as a Service (TaaS) on a Cloud infrastructure, and which covers key testing activities: test suite generation, test execution, scheduling, evaluation and test results arbitration. While MIDAS is focused on the test automation for Service Oriented Architecture (SOA), the testing methods and technologies that are investigated and prototyped within the project can be generalized to a greater degree and can be applied not only to SOA System Under Test (SUT), but also to SUTs in other domains, e.g. Automotive, Telecommunications, Machine-to-Machine services. Such broader application relates particularly to model-based test design and test suite generation, model checking of choreographies for sound interaction of test scenarios, fuzzing for security testing, usage-based testing, probabilistic inference reasoning for test evaluation and scheduling. |
103 388 | Transmission and Multiplexing (TM); Access transmission systems on metallic access cables; Asymmetric Digital Subscriber Line (ADSL2) - European specific requirements [ITU-T Recommendation G.992.3 modified] | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103388/01.01.01_60/ts_103388v010101p.pdf | The present document specifies European requirements for ADSL2. The present document endorses ITU-T Recommendation G.992.3 [1] and amendments 1 [2], 2 [3] and 3 [4], the contents of which apply together with the addition of the modifications being covered herein, to the exclusion of annex C in ITU-T Recommendation G.992.3 [1]. In particular the aspects covered by the present document are related to: 1) Define INP values as mandatory. 2) Define European specific tests. 3) Define mandatory S&D values. |
103 389 | Rail Telecommunications (RT); Global System for Mobile communications (GSM); Usage of Session Initiation Protocol (SIP) on the Network Switching Subsystem (NSS) to Fixed Terminal Subsystem (FTS) interface for GSM Operation on Railways | TS | 3.4.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103389/03.04.01_60/ts_103389v030401p.pdf | The present document defines the signalling and media interface between the Network Switching Subsystem and the Fixed Terminal Subsystem in order to provide a clear set of services needed for GSM-R operations. This includes voice call service and available call-related supplementary services. In addition, requirements for specific implementation of the signalling and media interface within either the Network Switching Subsystem or the Fixed Terminal Subsystem are stated where applicable. The present document addresses the Internet Layer and upwards of the Internet Protocol Suite IETF RFC 1122 [i.18] on the signalling and media interface. Any service other than voice call service and call-related supplementary services (such as data services, Short Message Service, etc.) is out of scope of the present document; additional features may be addressed in future releases. The present document does not specify any other interface between the Network Switching Subsystem and the Fixed Terminal Subsystem nor does it cover any internal interfaces of either NSS or FTS. Such interfaces may be addressed in a future release of the present document. The present document does not address any specific 3GPP Release or Architecture. |
103 311-3 | Integrated broadband cable telecommunication networks (CABLE); Fourth Generation Transmission Systems for Interactive Cable Television Services - IP Cable Modems; Part 3: MAC and Upper Layer Protocols Interface; DOCSIS® 3.1 | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/10331103/01.01.01_60/ts_10331103v010101p.pdf | The present document is part 3 of a multi-part deliverable that define the fourth generation of high-speed data-over_cable systems, commonly referred to as the DOCSIS® 3.1 specifications. This specification was developed for the benefit of the cable industry, and includes contributions by operators and vendors from North and South America, Europe, and Asia. This generation of the DOCSIS® specifications builds upon the previous generations of DOCSIS® specifications (commonly referred to as the DOCSIS® 3.0 and earlier specifications), leveraging the existing Media Access Control (MAC) and Physical (PHY) layers, but with the addition of a new PHY layer designed to improve spectral efficiency and provide better scaling for larger bandwidths (and appropriate updates to the MAC and management layers to support the new PHY layer). It includes backward compatibility for the existing PHY layers in order to enable a seamless migration to the new technology. |
103 394 | Smart Body Area Networks (SmartBAN); System Description | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103394/01.01.01_60/tr_103394v010101p.pdf | The present document describes the system description of Smart BAN. SmartBAN addresses the five major features below: 1) Smart Body Area Networks (SmartBAN) Unified data representation formats, semantic and open data model. 2) SmartBAN Data representation and transfer, service and application; Standardized interfaces, APIs and infrastructure for heterogeneity and interoperability management. 3) SmartBAN Measurements and Modelling of SmartBAN RF environment. 4) Low complexity MAC and routing for SmartBAN. 5) Enhanced, ultra-low power PHY for SmartBAN. The following technologies are also to be defined: • smart control; • network management; • implant communications; • security; and • privacy mechanisms. SmartBAN takes a comprehensive view of BAN from lower layer (e.g. physical layer and MAC layer) to higher layer system aspects and end-to-end (e.g. heterogeneity management and semantic interoperability and monitoring and control). End-to-end connectivity (e.g. SmartBAN to Medical Centre or SmartBAN to SmartBAN) is illustrated by figure 1. Figure 1: Scope of SmartBAN SmartBAN facilitates the efficient use of multiple radio technologies. This will be handled in all the layers including semantic interoperabilities and a BAN coordinator will be introduced for that purpose (figure 2). This coordinator will also provide mandatory functionality related to routing and interactions with other application domains that includes e.g. SmartM2M, automotive, smart home environments. ETSI ETSI TR 103 394 V1.1.1 (2018-01) 6 Figure 2: Summary of the SmartBAN environment main constraints Figure 3 provides a an example of a possible future multi-radio (e.g. narrowband 2,4 GHz and UWB). The controller may be e.g. a handset or other device while other, simpler devices (e.g. smart watch or wristband) may serve as a relay/bridge within the BAN offering enhanced performance/robustness (e.g. relay around hidden devices) as well as opening the door for optimized SmartBAN solutions with enhanced connectivity (multi-radio). Figure 3: Future SmartBAN ETSI TS 103 325 [i.2] ETSI TS 103 326 [i.3] ETSI TR 103 395 [i.7] ETSI TS 103 327 [i.4] ETSI TS 103 378 [i.5] ETSI ETSI TR 103 394 V1.1.1 (2018-01) 7 |
103 395 | Smart Body Area Network (SmartBAN); Measurements and modelling of SmartBAN Radio Frequency (RF) environment | TR | 1.1.2 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103395/01.01.02_60/tr_103395v010102p.pdf | The present document specifies the state-of-the-art and the future investigations on coexistence for allowing Smart Body Area Network (SmartBAN) devices to properly work and co-operate in the Industrial, Scientific and Medical (ISM) band. Interference appears to be one of the major threats as well as coexistence with other existing systems radiating in the same portion of the frequency spectrum. The present document describes the coexistence measurements and analysis that need to be considered in order to specify the requirements for the SmartBAN compatible devices. Figure 0: Scope of a SmartBAN |
103 399 | System Reference document (SRdoc); Fixed and in-motion Earth stations communicating with satellites in non-geostationary orbits in the 11 GHz to 14 GHz frequency band | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103300_103399/103399/01.01.01_60/tr_103399v010101p.pdf | The present document describes a system designed to provide broadband communication to fixed and in-motion Earth stations from a NGSO satellite system operating in the 11 GHz to 14 GHz frequency band. The present document may be used as a reference to a regulatory framework being developed by the CEPT in connection with such NGSO satellite systems, thus providing additional information to support the framework for free circulation and exemption from individual licensing of fixed or in motions earth stations. These satellite systems will allow the deployment of cost effective and spectrum efficient solutions that will offer the possibility of extending affordable broadband services to all parts of the world, particularly the rural and remote areas, where high speed broadband services are not readily available, thus addressing the digital divide of many nations. The present document also includes, in particular: • Market information. • Technical information. • Regulatory matters. |
103 400 | Electromagnetic compatibility and Radio spectrum Matters (ERM); Impact of CENELEC EN 55035 on ETSI EMC Standards | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103400/01.01.01_60/tr_103400v010101p.pdf | The present document is intended to review the impact of CENELEC EN 55035 [i.1] on existing ETSI EMC deliverables and to recommend to ETSI TC ERM as to what (if any) changes should be made to these deliverables. In should be noted that if changes are made to existing deliverables, then the usual procedures as per the ETSI TWP [i.29] are to be followed. It should also be noted the present document bases it review around edition 1 of CENELEC EN 55035 [i.1]. |
103 401 | Smart Grid Systems and Other Radio Systems suitable for Utility Operations, and their long-term spectrum requirements | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103401/01.01.01_60/tr_103401v010101p.pdf | The present document considers: 1) systems suitable for Critical Infrastructure Utility Operations Smart Grids; 2) the essential requirements for systems suitable for other Utility Operations radio systems; 3) the long-term spectrum requirements for Utilities. The present document identifies the functional requirements for existing and future radio systems for critical infrastructure utility operators, e.g. electricity and gas, and associated implications for spectrum requirements. Requirements for Smart Cities or Smart Homes are not within the scope of the present document. The present document does not contain any spectrum requests. It is envisaged that a further Technical Report (TR) will be developed complementing the present document and providing a formal System Reference Document for CEPT to consider. |
103 403 | Intelligent Transport Systems (ITS); Mitigation techniques to avoid harmful interference between equipment compliant with ES 200 674-1 and ITS operating in the 5 GHz frequency range; Evaluation of mitigation methods and techniques | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103403/01.01.01_60/tr_103403v010101p.pdf | The present document reports about test executions and results of tests performed with equipment compliant with ETSI ES 200 674-1 [i.1] (referred to as HDR-DSRC or CEN-DSRC) and equipment compliant with ETSI EN 302 663 [i.4] operating in the 5 GHz frequency band (referred to as ITS-G5 or ITS-M5). The purposes of the tests are to identify potential interference of ITS-G5 emissions on the HDR-DSRC communications used e.g. for electronic road tolling, and the evaluation of mitigation techniques specified in ETSI TS 102 792 [i.7]. |
103 407 | Cross Platform Authentication for limited input hybrid consumer equipment | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103407/01.01.01_60/ts_103407v010101p.pdf | |
103 409 | System Reference document (SRdoc); Wireless Power Transmission (WPT) systems for Electric Vehicles (EV) operating in the frequency band 79 - 90 kHz | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103409/01.01.01_60/tr_103409v010101p.pdf | The present document provides information on WPT-EV systems operating in the frequency band 79 - 90 kHz. It applies to inductive WPT systems as presently covered by the EC Decision 2013/752/EU [i.3] and the ERC/REC 70-03 [i.2], annex 9. It reviews the present regulations for inductive WPT systems, the related markets and the evolution of the technology, and it identifies requirements to amend the limits for WPT-EV systems in the 79 - 90 kHz band. The present document includes the necessary information to support the co-operation between ETSI and the ECC including: • market information; • technical information; • regulatory issues. |
103 410-1 | SmartM2M; Extension to SAREF; Part 1: Energy Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341001/02.01.01_60/ts_10341001v020101p.pdf | The present document presents SAREF4ENER V2.1.1, the SAREF extension for energy. |
103 410-10 | SmartM2M; Extension to SAREF; Part 10: Water Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341010/02.01.01_60/ts_10341010v020101p.pdf | The present document presents SAREF4WATR, an extension of SAREF for the Water domain. SAREF4WATR V2.1.1 is a major revision of SAREF4WATR, using updated reference ontology patterns [3] to solve the harmonization needs [i.9], with updated development framework and tools [i.10]. |
103 410-11 | SmartM2M; Extension to SAREF; Part 11: Lift Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341011/02.01.01_60/ts_10341011v020101p.pdf | The present document presents SAREF4LIFT, an extension of SAREF for the Smart Lifts domain. |
103 410-12 | SmartM2M; Extension to SAREF; Part 12: Smart Grid Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341012/02.01.01_60/ts_10341012v020101p.pdf | The present document presents SAREF4GRID, an extension of SAREF for the Smart Grid domain. |
103 410-2 | SmartM2M; Extension to SAREF; Part 2: Environment Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341002/02.01.01_60/ts_10341002v020101p.pdf | The present document presents SAREF4ENVI, an extension of SAREF for the Environment Domain. |
103 410-3 | SmartM2M; Extension to SAREF; Part 3: Building Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341003/02.01.01_60/ts_10341003v020101p.pdf | The present document presents the SAREF extension for the building domain, based on the ISO 16739 [i.2] standard (IFC). |
103 410-4 | SmartM2M; Extension to SAREF; Part 4: Smart Cities Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341004/02.01.01_60/ts_10341004v020101p.pdf | The present document presents SAREF4CITY, an extension of SAREF for the Smart Cities domain. |
103 410-5 | SmartM2M; Extension to SAREF; Part 5: Industry and Manufacturing Domains | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341005/02.01.01_60/ts_10341005v020101p.pdf | The present document presents SAREF4INMA, a SAREF extension for the Industry and Manufacturing domains. SAREF4INMA V2.1.1 is a major revision of the SAREF4INMA, using updated reference ontology patterns [2] to solve the harmonization needs [i.12], with updated development framework and tools [3]. |
103 410-6 | SmartM2M; Extension to SAREF; Part 6: Smart Agriculture and Food Chain Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341006/02.01.01_60/ts_10341006v020101p.pdf | The present document presents SAREF4AGRI, an extension of SAREF for the Smart Agriculture and Food Chain Domain. |
103 410-7 | SmartM2M; Extension to SAREF; Part 7: Automotive Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341007/02.01.01_60/ts_10341007v020101p.pdf | The present document presents SAREF4AUTO, an extension of SAREF for the Automotive Domain. |
103 410-8 | SmartM2M; Extension to SAREF; Part 8: eHealth/Ageing-well Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341008/02.01.01_60/ts_10341008v020101p.pdf | The present document presents SAREF4EHAW, an extension of SAREF for the eHealth/Ageing-well Domain. |
103 410-9 | SmartM2M; Extension to SAREF; Part 9: Wearables Domain | TS | 2.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10341009/02.01.01_60/ts_10341009v020101p.pdf | The present document presents the SAREF4WEAR ontology, an extension of SAREF [1] for the Wearables domain. SAREF4WEAR V2.1.1 is a major revision of the SAREF4WEAR, using updated reference ontology patterns [2] to solve the harmonization needs [i.4], with updated development framework and tools [3]. |
103 411 | SmartM2M; Smart Appliances; SAREF extension investigation | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103411/01.01.01_60/tr_103411v010101p.pdf | The present document presents the requirements gathered from the main smart appliances industrial actors to be exploited and implemented in the companion ETSI TS 103 410-1 [i.13], ETSI TS 103 410-2 [i.14] and ETSI TS 103 410-3 [i.15]. Next to that, the present document also provides input on the extension and maintenance of the SAREF ontology. The aforementioned technical specifications define extensions to the Smart Appliances reference ontology (SAREF) and the mapping to oneM2M as defined in ETSI TS 103 264 [i.3]. The objective is to include input from the industrial actors from the appliances domain including non-energy related aspects. |
103 412 | Mobile Standards Group (MSG); Pan-European eCall end to end and in-band modem conformance testing; Prose test specification | TS | 1.3.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103412/01.03.01_60/ts_103412v010301p.pdf | The present document specifies the Pan-European eCall end to end and in-band modem conformance testing. This is a complete test specification. The following information can be found in the present document: • the overall test structure; • the test configurations; • the conformance requirement and reference to the core specifications; • the test purposes; and • a brief description of the test procedure, the specific test requirements and <eventually> short message exchange table; • the default setting of the test parameters; • the applicability of each test case. The present document is valid for a Pan-European (PE) eCall IVS. |
103 414 | TETRA and Critical Communications Evolution (TCCE); Study into the provision of speech services over QAM channels | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103414/01.01.01_60/tr_103414v010101p.pdf | The present document contains the results of a study into the extension of QAM channels in TETRA to carry speech in a native manner. The areas where change can be foreseen to the TETRA standard [i.1] to date in order to add this functionality are described at a high level. NOTE: The present document is not sufficient to enable change requests to be generated against [i.1], and further standardization work would be needed to arrive at a solution. A standardized solution could differ from the concepts presented in the present document. The main body of the present document describes the requirements that are satisfied and the mechanisms envisaged within this study that could fulfil this extension of TETRA. Annex A presents some possible modifications which could be needed for PDUs and information elements specified in [i.1] and Annex B refers to [i.1] on a clause by clause basis to indicate which clauses could require changes in order to implement these mechanisms. |
103 415 | Intelligent Transport Systems (ITS); Security; Pre-standardization study on pseudonym change management; Release 2 | TR | 2.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103415/02.01.01_60/tr_103415v020101p.pdf | The present document gives the results of a pre-standardization study on pseudonym management for C-ITS in order to provide guidance and recommendations for the future versions of related ETSI ITS specifications. |
103 416 | System Reference document (SRdoc); Short Range Devices (SRD) using Ultra Wide Band (UWB); Technical characteristics and spectrum requirements for UWB based vehicular access systems for operation in the 3,4 GHz to 4,8 GHz and 6 GHz to 8,5 GHz frequency ranges | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103416/01.01.01_60/tr_103416v010101p.pdf | The present document provides information on the use of UWB technology in vehicular access control applications, the technical parameters, the relation to the existing spectrum regulation and additional new radio spectrum requirements for UWB equipment for the operation in vehicular access control applications in the band below 10 GHz. The applications can be divided in 3 different categories: • Category A: Vehicular access systems using triggered UWB transmission for proximity verification • Category B: Extended vehicular access systems using triggered UWB transmission for proximity monitoring • Category C: Vehicular access systems using periodic UWB beacons for proximity detection 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 (annex A). • Technical information (annex B). • Relation to existing spectrum regulation (annex C). |
103 418 | Railway Telecommunications (RT); SMS to Railway numbering plan in roaming environment | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103418/01.01.01_60/ts_103418v010101p.pdf | The present document describes the message flows and the specific messages to be used between GSM-R networks to enable numbering plan mapping functionality for the exchange of SMS. In detail: • Message flows covering the different call types using functional numbers as part of the EIRENE numbering plan. • Description of USSD Messages to allow the functional number/E.164 [i.2] mapping between the involved GSM-R network entities. • Description of the SMS address field content to allow presentation of the functional number or E.164 number [i.2] to the terminating party. Mapping of EIRENE/Recommendation ITU-T E.164 [i.2] numbering plans and the resolution of the functional number that belongs to the subscribers located in the home network is out of scope of the present document. NOTE: To minimize standardization and implementation effort, all protocols used to exchange the numbering plan mapping information are standard 3GPP/ITU protocols and only specific settings are used for the exchange of the relevant information. |
103 419 | Environmental Engineering (EE); Testing methodology for equipment able of dynamic performances adaptation | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103419/01.01.01_60/tr_103419v010101p.pdf | The present document addresses the issues of testing methodology for equipment and/or network configurations able to dynamically adapt its performance as function of a generic variable, e.g. traffic load variations, eventually under the control of a local and/or a centralized Management entity. Useful in the ambit of SDN (Software Defined Networks) and/or NFV (Network Function Virtualization) applications where network topology, equipment availability and/or performances such as throughput, latency, power consumption, jitter, etc. may be dynamically adapted as function of real-time needs, in order for instance to optimize operational expenditures. The present document is intended as a general introduction to the issue in question, with the aim to be the basis for a family of papers dedicated to relevant applications may be developed in the future as part of SDN and/or NFV evolution. For sake of clarity the present document mainly refers to the ability to dynamically adapt power consumption to traffic load variations (hereinafter also called Energy Aware Networking), but principles herein described may be extended to test any other SDN and/or NFV application having the scope of altering network topology or equipment performances as function of a generic variable. |
103 420 | Backwards-compatible object audio carriage using Enhanced AC-3 | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103420/01.02.01_60/ts_103420v010201p.pdf | The present document specifies an extension to the E-AC-3 codec. The extension adds an object-based three-dimensional spatial representation of coded audio information and metadata. It is backward compatible with the one- and two-dimensional channel-based spatial representation of coded audio information as defined in ETSI TS 102 366 [1]. NOTE: In this context, backward compatibility is defined as follows: The three-dimensional spatial representation specified in the present document can be decoded on a device compliant with the syntax and semantics specified in ETSI TS 102 366 [1]. In this case, such a device will output one- or two-dimensional channel-based audio as per the coding algorithm defined in ETSI TS 102 366 [1] alone. Thus, support for decoders specified in ETSI TS 102 366 [1] and associated user experiences are fully maintained with the extension defined herein. The present document specifies the following: 1) Syntax and semantics of the OBA metadata, carried via the extensible metadata delivery format (EMDF), specified in ETSI TS 102 366 [1] 2) Syntax and semantics of metadata to control a tool for conversion of one- or two-dimensional channel-based audio to a higher number of audio signals, part of the three-dimensional spatial representation (JOC) 3) Additional requirements on the E-AC-3 decoder as specified in ETSI TS 102 366 [1] 4) Requirements on the OBA, the JOC tool, the quadrature mirror filter bank tool, packaging the bitstream into ISO based media file format, the signalling in an MPEG DASH media presentation description, and requirements on a MPEG CMAF compliant media file, containing a bitstream as defined in the present document. 5) Informative guidance for conversion from 1) to the ADM as defined in Recommendation ITU-R BS.2076 [i.1] |
103 421 | CYBER; Network Gateway Cyber Defence | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103421/01.01.01_60/tr_103421v010101p.pdf | The present document provides an overview and recommendations concerning cyber defence capabilities at network gateways. It analyses the network gateway cyber defence ecosystem, technical requirements, new challenges and techniques and then draws recommendations for new standardization work in that area. |
103 422 | Digital Enhanced Cordless Telecommunications (DECT); DECT evolution technical study; Requirements and technical analysis for the further evolution of DECT and DECT ULE | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103422/01.01.01_60/tr_103422v010101p.pdf | The present document describes the outcome of a series of studies identified by ETSI TC DECT and required for the short and mid-term evolution of DECT and ULE technologies. The outcome of the present document will be used for planning the further evolution of technology and the immediate technology roadmap during the next years. The outcome of the present document will allow addressing new applications and markets for ULE and DECT technologies in the mid-term, and will contribute to the ETSI effort on Internet of Things (IoT). It is not the scope of the present document the description of DECT and ULE technologies. The core part of the DECT technology is described in the DECT common interface standard (ETSI EN 300 175) [i.1] to [i.8] plus a series of profiles, such as the GAP [i.9], DPRS [i.12], WRS [i.10] or New Generation DECT [i.14] to [i.18]. Further regulatory details of the Radio interface are given in ETSI EN 301 406 [i.24], ETSI EN 301 908-10 [i.37] and ETSI EN 300 176-1 [i.11]. A summary overview of DECT technology can be found in ETSI EN 300 175-1 [i.1]. The ULE technology is described in ETSI TS 102 939 series [i.19] and [i.20]. |
103 424 | Publicly Available Specification (PAS); Smart Machine-to-Machine communications (SmartM2M) Home Gateway Initiative RD036-Smart Home architecture and system requirements | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103424/01.01.01_60/ts_103424v010101p.pdf | The rapid increase in the number of smart devices in the home, from entertainment systems to appliances and medical devices and the now near ubiquitous broadband connectivity have created a significant new potential market for service providers. However, in order to exploit this market and provide an integrated customer experience there is a central component which is still missing - a set of standards for the home gateway which will enable interoperability between smart home entities. Defining smart home related standards for the home gateway can benefit the market in several ways: • Avoiding duplication of hardware and software and the associated costs of having several disparate systems. • Providing opportunities for new 'blended' services based on combining data from different HANs and appliances. • Enabling automated, intelligent reaction to the environment - e.g. demand-side energy management. The present document defines a smart home system architecture and derives requirements for the Home Gateway. |
103 425 | Publicly Available Specification (PAS); Smart Machine-to-Machine communications (SmartM2M) Home Gateway Initiative RD039-Requirements for Wireless Home Area Networks (WHANs) Supporting Smart Home Services | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103425/01.01.01_60/ts_103425v010101p.pdf | |
103 426 | Publicly Available Specification (PAS); Smart Machine-to-Machine communications (SmartM2M) Home Gateway Initiative RD048-HG Requirements For HGI Open Platform 2.1 | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103426/01.01.01_60/ts_103426v010101p.pdf | |
103 427 | Core Network and Interoperability Testing (INT); Framework of Internet related performance measurements [Recommendation ITU-T Q.3960 (2016)] | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103427/01.01.01_60/ts_103427v010101p.pdf | The present document is a transposition of Recommendation ITU-T Q.3960 [1] without modifications. |
103 428 | Mobile Standards Group (MSG); eCall HLAP Interoperability Testing | TS | 1.2.2 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103428/01.02.02_60/ts_103428v010202p.pdf | The present document defines Interoperability Test Descriptions for the eCall High Level Application Protocol (HLAP). |
103 429 | Integrated broadband cable telecommunication networks (CABLE); Cable Customer Premises Equipment (CPE) with Integrated Radio and Non-Radio Interfaces; Technical Specification covering the cable equipment technical requirements in support of Harmonised Standards for the essential requirements of article 3.1b of the Directive 2014/53/EU | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103429/01.01.01_60/ts_103429v010101p.pdf | The present document provides technical requirements for cable CPE with integrated radio and non-radio interfaces in support of Harmonised Standards for the essential requirements of article 3.1b of the Radio Equipment Directive 2014/53/EU [i.1]. Cable equipment comprises integrated non-radio and radio network interfaces. These functions are integrated either on the same integrated electronic components on the same printed circuit board or by separate integrated components on the same printed circuit boards but housed in the same equipment enclosure. The non-radio function is the Cable RF as specified by ETSI EN 302 878-2 [1] for data communication services and by ETSI EN 300 429 [2] for video communication services. The radio function is a wireless local area network operating in the 2,4 GHz and 5 GHz frequency bands according to IEEE 802.11 [3]. NOTE: Cable equipment does not comprise separate radio and non-radio products that are combined in one enclosure. Where cable equipment of this type exist then the essential requirements of article 3.1b of Directive 2014/53/EU [i.1] apply to the equipment and the equipment requirements are as specified by ETSI draft harmonised standard ETSI EN 303 446-1 [i.5], at the time of writing it is under development ETSI TC ERM WGEMC. |
103 430 | PowerLine Telecommunications (PLT); Specification on coexistence of VDSL2 and PLT modems in customer premises; Spectral management of PLT and VDSL2 transceivers | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103430/01.01.01_60/ts_103430v010101p.pdf | The present document defines a method to improve the coexistence by mitigating the interference between the DSL transceiver and PLT transceiver operating in overlapping frequency band but on different cables. In-home PLT networks operate over the same spectrum as DSL networks. This increases the likelihood of crosstalk between PLT and DSL communications systems. For instance, two home networks that operate at the same frequency range, one over copper twisted-pairs (138 kHz - 30 MHz) and the other over power lines (1,8 MHz - 30 MHz ), would interfere with each other.(ETSI TR 102 930 [i.1]). The DSL and PLT interference environment is discussed in more detail. Communication standards for PLT, have been developed with mechanisms that prevent any interference between various systems within the home environment. |
103 433 | High-Performance Single Layer Directly Standard Dynamic Range (SDR) Compatible High Dynamic Range (HDR) System for use in Consumer Electronics devices (SL-HDR1) | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103433/01.01.01_60/ts_103433v010101p.pdf | The present document specifies the SDR-to-HDR content-based dynamic metadata and the post-decoding process enabling reconstruction of an HDR signal from an SDR signal and the specified metadata. This reconstruction process is typically invoked in a Consumer Electronics device such as a TV set, a smartphone, a tablet, or a Set Top Box. Besides, it provides information and recommendations on the usage of the described HDR system. |
103 433-1 | High-Performance Single Layer High Dynamic Range (HDR) System for use in Consumer Electronics devices; Part 1: Directly Standard Dynamic Range (SDR) Compatible HDR System (SL-HDR1) | TS | 1.4.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10343301/01.04.01_60/ts_10343301v010401p.pdf | of the document Informative 1 Clause |
103 433-2 | High-Performance Single Layer High Dynamic Range (HDR) System for use in Consumer Electronics devices; Part 2: Enhancements for Perceptual Quantization (PQ) transfer function based High Dynamic Range (HDR) Systems (SL-HDR2) | TS | 1.3.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10343302/01.03.01_60/ts_10343302v010301p.pdf | of the document Informative Clause |
103 433-3 | High-Performance Single Layer High Dynamic Range (HDR) System for use in Consumer Electronics devices; Part 3: Enhancements for Hybrid Log Gamma (HLG) transfer function based High Dynamic Range (HDR) Systems (SL-HDR3) | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10343303/01.02.01_60/ts_10343303v010201p.pdf | of the document Informative Clause |
103 434 | Access, Terminals, Transmission and Multiplexing (ATTM); Transcoding of HD and UHD video over powerline network | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103434/01.01.01_60/ts_103434v010101p.pdf | The present document focuses on Gigabit Home Networking for Very High Speed Internet video distribution using video transcoding for the distribution of HD and UHD video streams over SISO and MIMO PLT networks [i.1]. The present document defines the transcoding of HD and UHD video for improvement of the house coverage of powerline networks for existing or forthcoming new video services as streaming and VOD MIMO-PLT and filling the gap between MIMO-PLT channels capacity and new services as UHD and HD video for forthcoming UHDTV, namely transcoding of H264/AVC into HEVC/H265. The SISO/MIMO Powerline networks channels have time varying capacities depending on noises, overage, range as HD and UHD encoded in H264/AVC video streams have additional bit rate compared to stream [3], [4] encoded in HEVC/H265, the usage of transcoding for video streaming over Powerline using SISO & MIMO PLT modems is explored by testing. The present document includes the technical specification for video transcoding and transportation standards impact on Powerline Networks coverage and produce technical guidance to the Powerline telecommunication vendors to cope with very high rate services over Powerline communication for the UHD and HD video transcoding coding. |
103 435 | System Reference document (SRdoc); Short Range Devices (SRD); Technical characteristics for Ultra Narrow Band (UNB) SRDs operating in the UHF spectrum below 1 GHz | TR | 1.2.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103435/01.02.01_60/tr_103435v010201p.pdf | The present document applies to the potential future usage of Ultra Narrowband (UNB) systems within the 865 MHz to 868 MHz and 915 MHz to 921 MHz bands. In particular: • It gives an market overview of Low Power Wide Area Networks in general and UNB systems in particular. • It describes technical characteristics of UNB systems. • It explains the requested regulation changes to allow the efficient use of UNB system for future market demands. |
103 436 | Reconfigurable Radio Systems (RRS); Security requirements for reconfigurable radios | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103436/01.02.01_60/ts_103436v010201p.pdf | The present document defines the security requirements for reconfigurable radio systems arising from the use case analysis in ETSI TR 103 087 [i.1]. The present document applies to the lifecycle of Radio Application Packages between a Radio application store and an RRS Reconfigurable Equipment. |
103 437 | USER; Quality of ICT services; New QoS approach in a digital ecosystem | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103437/01.01.01_60/tr_103437v010101p.pdf | The experience of the "Covid-19" recently faced has played a role of accelerating and making users enter definitively into "the digital era". On the user side, this meant that in their daily life teleworking, online shopping and a lot of vital and key information was shared through online social networks. Considering the needed digital services, often used for the first time, the user became aware of the importance of quality of service and the many factors which contribute to it. On the supplier side, the role of digital transformation manager was created, directly linked to general management. Among the new paradigms, the "As-a-Service" is the main driver to support digital transformation. The user wishes to obtain a personalized service whatever the place they are and whatever their means of access with the corresponding QoS. The user expects this is also provided "As-a-Service", meeting their needs and not a "best effort" delivery. The present document proposes a new approach to implement a QoS adapted to the digital ecosystem, with both views from the user side and from the supplier side. |
103 315 | SmartM2M; Machine-to-Machine communications (M2M); Interoperability Test Specification for ETSI M2M Primitives | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103300_103399/103315/01.01.01_60/ts_103315v010101p.pdf | The present document specifies Interoperability Test Descriptions (TDs) for the ETSI M2M Primitives as specified in ETSI TS 102 921 [1]. The purpose of the interoperability testing is to prove that end-to-end functionality between devices such as: • dIa interface; • mIa interface; • Multi-Hop configuration (dIa + mId) and (mId+mIa); • End to End configuration (dIa + mId + mIa); and using HTTP as underlying application layer, is as required by the standard(s) on which those devices are based. |
103 439 | Intelligent Transport Systems (ITS); Multi-Channel Operation study; Release 2 | TR | 2.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103439/02.01.01_60/tr_103439v020101p.pdf | The present document provides an overview of the potential requirements for Multi-Channel Operation (MCO) in C-ITS and the technical capabilities and limitations of C-ITS with respect to MCO. It further proposes a concept for MCO that supports a multitude of C-ITS applications, services and functions. Finally, the present document derives recommendations to update relevant ETSI ITS specifications related to MCO and develop new ones. |
103 441 | System Reference document (SRdoc); Pan-European harmonized communications equipment operating in the 5 GHz frequency range for regulated applications for commercial vehicles | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103441/01.01.01_60/tr_103441v010101p.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 communication equipment for the smart tachograph application regulated in Regulation (EU) No. 165/2014 [i.13] and weights and dimensions for heavy goods vehicles application regulated in Directive (EU) 2015/719 [i.14]. 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 information about the market regulation (annex A). • Technical information (annex B). • Relation to existing spectrum regulation (annex C). • Expected compatibility issues (annex D). |
103 442 | Railways Telecommunications (RT); Shared use of spectrum between Communication Based Train Control (CBTC) and ITS applications | TR | 1.2.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103442/01.02.01_60/tr_103442v010201p.pdf | The present document investigates the possibility of shared use of spectrum between CBTC and ITS applications in the 5 875 MHz to 5 925 MHz under the assumption that CBTC applications have priority over ITS-G5 applications. |
103 443-1 | Integrated broadband cable telecommunication networks (CABLE); IPv6 Transition Technology Engineering and Operational Aspects; Part 1: General | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10344301/01.01.01_60/ts_10344301v010101p.pdf | The present document presents the engineering and operational requirements for the application of IPv6 transition technologies as defined by ETSI TS 101 569-1 [1] (IPv6 Transition Requirements) implemented within an integrated broadband cable network end to end across its network domains. The present document is part 1 of a multi-part series and presents a generic view of a typical end to end cable network when considering the key aspects to engineer and operate the IPv6 transition technology across its network domains. The technical requirements addressing each network domain relative to the IPv6 transition technology in question is described in the clauses of the part specific to the IPv6 transition technology. The operational aspects for the IPv6 transition technologies, NAT64, DS-Lite, MAP-E, 464XLAT and 6RD are considered when engineered end to end across the cable network domains: • CPE Home Networking Domain • Access Network Domain • Core Network Domain • Data Centre Domain • DMZ Service Domain • Transit and Peering Domain • Management and Monitoring Domain • Security Domain The present document specifies the requirements to be considered when the defined IPv6 transition technology DS-Lite is engineered across the cable network domains. |
103 443-2 | Integrated broadband cable telecommunication networks (CABLE); IPv6 Transition Technology Engineering and Operational Aspects; Part 2: NAT64 | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10344302/01.01.01_60/ts_10344302v010101p.pdf | The present document presents the engineering and operational requirements for the application of the IPv6 transition technology NAT64 as defined by ETSI TS 101 569-1 [1] (IPv6 Transition Requirements) implemented within an integrated broadband cable network end to end across its network domains. The present document is part 2 of a multi-part series and presents the operational aspects of the IPv6 transition technology NAT64 across the cable network domains. Only those elements of the network that have to be engineered to operate the IPv6 transition technology NAT64 are presented. Descriptions and interface details of network elements that do not change are already addressed by the relevant equipment cable standards and therefore this information is not included in the present document. The conformity of the NAT64 implementation is relevant when assessing its implementation and operational requirements across the cable network to ensure the implementation is correctly engineered to conform to the requirements of the base standard ETSI TS 101 569-1 [1]. These conformance tests are not specified in the present document as they are already specified by ETSI TS 103 243 parts 1 [15] to 3 [17]. The operational aspects for the IPv6 transition technology NAT64 are considered when engineered end to end across the cable network domains: • CPE Home Networking Domain • Access Network Domain • Core Network Domain • Data Centre Domain • DMZ Service Domain • Transit and Peering Domain • Management and Monitoring Domain • Security Domain The present document specifies the requirements to be considered when the defined IPv6 transition technology NAT64 is engineered across the cable network domains. |
103 443-3 | Integrated broadband cable telecommunication networks (CABLE); IPv6 Transition Technology Engineering and Operational Aspects; Part 3: DS-Lite | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10344303/01.01.01_60/ts_10344303v010101p.pdf | The present document presents the engineering and operational requirements for the application of the IPv6 transition technology DS-Lite as defined by ETSI TS 101 569-1 [1] (IPv6 Transition Requirements) implemented within an integrated broadband cable network end to end across its network domains. The present document is part 3 of a multi-part series and presents the operational aspects of the IPv6 transition technology DS-Lite across the cable network domains. Only those elements of the network that have to be engineered to operate the IPv6 transition technology DS-Lite are presented. Descriptions and interface details of network elements that do not change are already addressed by the relevant equipment cable standards and therefore this information is not included in the present document. The conformity of the DS-Lite implementation is relevant when assessing its implementation and operational requirements across the cable network to ensure the implementation is correctly engineered to conform to the requirements of the base standard ETSI TS 101 569-1 [1]. These conformance tests are not specified in the present document as they are already specified by ETSI TS 103 241 parts 1 to 3 [8], [9] and [10]. The operational aspects for the IPv6 transition technology DS-Lite are considered when engineered end to end across the cable network domains: • CPE Home Networking Domain • Access Network Domain • Core Network Domain • Data Center Domain • DMZ Service Domain • Transit and Peering Domain • Management and Monitoring Domain • Security Domain The present document specifies the requirements to be considered when the defined IPv6 transition technology DS-Lite is engineered across the cable network domains. |
103 443-4 | Integrated broadband cable telecommunication networks (CABLE); IPv6 Transition Technology Engineering and Operational Aspects; Part 4: MAP-E | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10344304/01.01.01_60/ts_10344304v010101p.pdf | The present document presents the engineering and operational requirements for the application of the IPv6 transition technology MAP-E as defined by ETSI TS 101 569-1 (IPv6 Transition Requirements) [1] implemented within an integrated broadband cable network end to end across its network domains. The present document is part 4 of a multi-part series and presents the operational aspects of the IPv6 transition technology MAP-E across the cable network domains. Only those elements of the network that have to be engineered to operate the IPv6 transition technology MAP-E are presented. Descriptions and interface details of network elements that do not change are already addressed by the relevant equipment cable standards and therefore this information is not included in the present document. The conformity of the MAP-E implementation is relevant when assessing its implementation and operational requirements across the cable network to ensure the implementation is correctly engineered to conform to the requirements of the base standard ETSI TS 101 569-1 [1]. These conformance tests are not specified in the present document as they are already specified by ETSI TS 103 239 parts 1 [5] to 3 [7]. The operational aspects for the IPv6 transition technology MAP-E are considered when engineered end to end across the cable network domains: • CPE Home Networking Domain. • Access Network Domain. • Core Network Domain. • Data Centre Domain. • DMZ Service Domain. • Transit and Peering Domain. • Management and Monitoring Domain. • Security Domain. The present document specifies the requirements to be considered when the defined IPv6 transition technology MAP-E is engineered across the cable network domains. |
103 443-5 | Integrated broadband cable telecommunication networks (CABLE); IPv6 Transition Technology Engineering and Operational Aspects; Part 5: 464XLAT | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10344305/01.01.01_60/ts_10344305v010101p.pdf | The present document presents the engineering and operational requirements for the application of the IPv6 transition technology 464XPAT as defined by ETSI TS 101 569-1 [1] (IPv6 Transition Requirements) implemented within an integrated broadband cable network end to end across its network domains. The present document is part 5 of a multi-part series and presents the operational aspects of the IPv6 transition technology 464XPAT across the cable network domains. Only those elements of the network that have to be engineered to operate the IPv6 transition technology 464XPAT are presented. Descriptions and interface details of network elements that do not change are already addressed by the relevant equipment cable standards and therefore this information is not included in the present document. The conformity of the 464XPAT implementation is relevant when assessing its implementation and operational requirements across the cable network to ensure the implementation is correctly engineered to conform to the requirements of the base standard ETSI TS 101 569-1 [1]. These conformance tests are not specified in the present document as they are already specified by ETSI TS 103 242 part 1 [11] to 3 [13]. The operational aspects for the IPv6 transition technology 464XPAT are considered when engineered end to end across the cable network domains; • CPE Home Networking Domain • Access Network Domain • Core Network Domain • Data Centre Domain • DMZ Service Domain • Transit and Peering Domain • Management and Monitoring Domain • Security Domain The present document specifies the requirements to be considered when the defined IPv6 transition technology 464XPAT is engineered across the cable network domains. |
103 443-6 | Integrated broadband cable telecommunication networks (CABLE); IPv6 Transition Technology Engineering and Operational Aspects; Part 6: 6RD | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/10344306/01.01.01_60/ts_10344306v010101p.pdf | The present document presents the engineering and operational requirements for the application of the IPv6 transition technology 6RD as defined by ETSI TS 101 569-1 [1] (IPv6 Transition Requirements) implemented within an integrated broadband cable network end to end across its network domains. The present document is Part 6 of a multi-part series and presents the operational aspects of the IPv6 transition technology 6RD across the cable network domains. Only those elements of the network that have to be engineered to operate the IPv6 transition technology 6RD are presented. Descriptions and interface details of network elements that do not change are already addressed by the relevant equipment cable standards and therefore this information is not included in the present document. The conformity of the 6RD implementation is relevant when assessing its implementation and operational requirements across the cable network to ensure the implementation is correctly engineered to conform to the requirements of the base standard ETSI TS 101 569-1 [1]. These conformance tests are not specified in the present document as they are already specified by ETSI TS 103 243 parts 1 [14] to 3 [16]. The operational aspects for the IPv6 transition technology 6RD are considered when engineered end to end across the cable network domains; • CPE Home Networking Domain • Access Network Domain • Core Network Domain • Data Centre Domain • DMZ Service Domain • Transit and Peering Domain • Management and Monitoring Domain • Security Domain The present document specifies the requirements to be considered when the defined IPv6 transition technology 6RD is engineered across the cable network domains. |
103 444 | Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia (BSM); Guide to Satellite Independent Service Access Point (SI-SAP) use | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103444/01.01.01_60/tr_103444v010101p.pdf | The present document provides a guide to ETSI BSM architecture and SI-SAP interface for satellite system designers and implementers, in terms of pointers to the relevant ETSI BSM literature. Firstly, the document addresses the functions that are offered by the ETSI BSM architecture, providing the description of the main features and pointing to the specific TSs and TRs that detail these functions. In more detail, the following functions are illustrated: • Data transfer. • QoS management. • Address resolution. • Multicast management. • Security. • Network integration. • Performance management. Secondly, the document addresses the services that are offered by the SI-SAP interface and are run between the satellite independent (SI) and satellite dependent (SD) layers. Similarly to the description of the aforementioned ETSI BSM architecture functions, illustration of the main features is provided along with the pointers to the relevant ETSI BSM documents where the SI-SAP services are defined, specified, and analysed. The considered SI-SAP interface services are: • Logon/logoff. • Satellite independent layer configuration. • Address resolution. • Resource reservation. • Multicast group receive and transmit. • Data transfer. The aim of the present document is to provide a standalone guide to the ETSI BSM standardization track, which is based on several technical specifications and reports. |
103 445 | Digital Enhanced Cordless Telecommunications (DECT); DECT security technical review; Security review and assessment 2017 | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103445/01.01.01_60/tr_103445v010101p.pdf | The scope of the present document is documenting the review of DECT security procedures done during year 2017. The present document is structured as two different parts: • A security overview and assessment, addressed to the general public, which presents a general description of the different DECT security elements and, for each of them, an assessment with specific recommendations to implementers, including identification of possible threats (when applicable). This part of the study is covered by clause 4 of the present document. • A detailed description of the improvements in security procedures introduced in the revisions of the DECT common interface (ETSI EN 300 175 series [i.1] to [i.8]) and the Generic Access Profile (ETSI EN 300 444 [i.9]) released in year 2017 (version 2.7.1 of ETSI EN 300 175 [i.1] to [i.8]) and version 2.5.1 of Generic Access Profile ETSI EN 300 444 [i.9]). This part of the study is covered by clause 5 of the present document and is mostly addressed to DECT manufacturers and TC DECT participants. |
103 448 | AC-4 Object Audio Renderer for Consumer Use | TS | 1.1.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103448/01.01.01_60/ts_103448v010101p.pdf | The present document defines an extension to the AC-4 codec. The present document specifies a consumer object-based audio renderer for use with the AC-4 codec as specified in ETSI TS 103 190-2 [1], and the object-based audio metadata specified therein. The renderer takes the object audio essence and the corresponding metadata defined in ETSI TS 103 190-2 [1] as inputs, and produces loudspeaker feeds for consumer loudspeaker layouts. |
102 825-11 | Digital Video Broadcasting (DVB); Content Protection and Copy Management (DVB-CPCM); Part 11: CPCM Content Management Scenarios | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/102800_102899/10282511/01.01.01_60/tr_10282511v010101p.pdf | The present document specifies the Scenarios that are envisaged for the Digital Video Broadcasting (DVB) Content Protection and Copy Management (CPCM) system. It is provided for informative purposes only and will be revised in due course as more scenarios are defined. The present document describes some example approaches of implementation of Content Management Scenarios using DVB-CPCM which support the identified business models. The examples described in the present document are not exhaustive. The present document is informative, and not binding on manufacturers for conformance to the specification. |
103 451 | System Reference document (SRdoc); Short Range Devices (SRD); Technical characteristics for UHF wideband Ultra Low Power Wireless Medical Capsule Endoscopy | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103451/01.01.01_60/tr_103451v010101p.pdf | The present document describes a new Short Range Device application in the form of Wideband Ultra Low Power Wireless Medical Capsule Endoscopy, to be deployed using one channel within UHF band, possibly around 433 MHz. Its proposed deployment in European market may require an amendment in the present CEPT regulatory framework for Short Range Devices in the proposed band regarding intended emissions of the new application. The present document includes in particular: • Use scenario for the proposed Wideband Ultra Low Power Medical Capsule Endoscopy devices. • Market information. • Technical information, including expected sharing and compatibility issues, if any. • Regulatory considerations. The present document is intended to provide all necessary information required by the Electronic Communications Committee (ECC) of CEPT under the MoU between ETSI and the ECC, to enable consideration of possible regulatory changes necessary to accommodate the proposed new application. |
103 453 | Network Technologies (NTECH); Impact of alphanumeric user identifiers on interconnection scenarios | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103453/01.01.01_60/tr_103453v010101p.pdf | The present document provides a technical report on interoperability and mapping of Internet domain names to E.164 numbers in order to allow interconnection between networks. The focus of the present of document is on the analysis of the aforementioned mapping rather than on the analysis of the message flows for establishing the connectivity itself. |
103 455 | Human Factors (HF); Smart cities and communities; Standardization for citizens and consumers | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103455/01.01.01_60/tr_103455v010101p.pdf | The present document assesses the different citizen-related issues that smart city-related standardization in the ICT domain needs to address. These include fundamental aspects such as accessibility, usability, interoperability, personal data protection and security, and how services to citizens are to be designed to maximize benefits to the community. For each of these issues, the present document: • provides a short statement of the subject area; • makes a short statement of the key citizen concerns (for example accessibility or privacy) related to the subject; • lists relevant current standards and ongoing relevant standards activities; • assesses whether it appears the activities are in practice taking reasonable account of the smart city/community dimension from the perspective of citizen welfare, and if not, what might be needed to rectify the position; • identifies any further general legal and ethical issues that require attention outside the standardization domain, or other issues not covered. The issues which the present document assesses are grouped into the following: • citizens' general needs - smart cities should have citizen welfare at their core. The needs of the citizens should therefore be properly considered in every standardization activity relevant to smart cities; • citizens and their local authorities - the standards aspects of citizens' day-to-day interfaces with their local authorities; • citizens and their local services - the standards aspects of citizens' day-to-day interfaces with the providers of their local services; • citizen indicators - how the impact of smart city solutions on the citizens can be measured; • recommendations - to improve citizen outcomes, filling gaps in, or making adjustments to, existing standards; aspects not related to standardization, including policy aspects. |
103 456 | CYBER; Implementation of the Network and Information Security (NIS) Directive | TR | 1.1.1 | http://www.etsi.org/deliver/etsi_tr/103400_103499/103456/01.01.01_60/tr_103456v010101p.pdf | The present document provides guidance in accordance with the Directive (EU) 2016/1148 of the European Parliament and of the Council of 6 July 2016 [i.1] concerning measures for a high common level of security of network and information systems across the Union (commonly called the NIS Directive or NISD) on the available technical specifications and those in development by major cyber security communities worldwide designed to meet the legal measures and technical requirements relating to the sharing of information on network based risks and incidents and also the necessary defence measures to enable the protection of its essential security interests. The present document is intended be used by all that need to consider the effects, use or perform the legal transposition of the NIS Directive into national legislation. These include national regulators who need to update regulations or guidelines for specific industries identified in the NIS Directive as Operators of Essential Services (OES) or national policy makers wishing to provide guidance for Digital Service Providers (DSP). The present document might also be used by OES' and DSPs themselves for their own implementation. The present document is not intended to be prescriptive in the selection or use of technical specifications or requirements as organizational risk based approach yields the most effective industry wide implementations. |
103 457 | CYBER; Trusted Cross-Domain Interface: Interface to offload sensitive functions to a trusted domain | TS | 1.2.1 | http://www.etsi.org/deliver/etsi_ts/103400_103499/103457/01.02.01_60/ts_103457v010201p.pdf | The present document specifies a high-level service-oriented interface, as an application layer with a set of mandatory functions, to access secured services provided by, and executed in a More Trusted Domain. The transport layer is out of scope and left to the architecture implementation. This interface is not considered as a replacement of the already existing technologies (such as PKCS#11, KMIP, etc.) but rather operating on top of these. |
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