EDNA Studies - List Of Standards
Below is a searchable database of standards and communications protocols relating to smart devices. The database was developed during the preparation of a 2022 report into the topic of standardisation for smart devices.
Standards can be filtered / searched on the following feeds:
SDO: the standards organisation who developed the standard
WG/TC: the working group or technical committee responsible
Standard: the number of the standard
Title: the title of the standard
Status: the status, e.g. published, draft, etc.
Description: a short description of the standard
Category: the technical area that the standards belongs to
Area: standards are categorised as energy (e.g. energy performance / measurement) and/or interoperability (e.g. communications protocols)
Recent: Whether the standard is recent or not
| wdt_ID | SDO | WG/TC | Standard | Title | Status | Description | Category | Area | Recent |
|---|---|---|---|---|---|---|---|---|---|
| 1 | ETSI | Environmental Engineering | ETSI ES 203 682 V1.1.1 (2020-02) | Environmental Engineering (EE); Green Abstraction Layer (GAL); Power management capabilities of the future energy telecommunication fixed network nodes; Enhanced Interface for power management in Network Function Virtualisation (NFV) environments | Published | The strong role that we can foreseen for the Network Function Virtualization (NFV) technology will play a relevant role in the future telecommunication networks and will change substantially the current network architectures by introducing, among others, | ICT energy efficiency | Energy+Interoperability | Recent |
| 2 | ETSI | Environmental Engineering | ETSI ES 203 539 V1.1.1 (2019-06) | Environmental Engineering (EE); Measurement method for energy efficiency of Network Functions Virtualisation (NFV) in laboratory environment | Published | to establish a new energy efficiency measurement methods and metrics to support NFV scenarios, such as IMS and EPC, to define measurement methods for: 1) VNF, 2)Server, 3) NFVI(NFV Infrastrucutre) including HW and hypervisor. A similar work item will be a | ICT energy efficiency | Energy+Interoperability | Recent |
| 3 | ETSI | Environmental Engineering | ETSI ES 203 475 V1.1.1 (2017-11) | Environmental Engineering (EE); Standardization terms and trends in energy efficiency | Published | The aim is develop a framework standard that will take into consideration all general aspects, terms and main trends towards energy efficiency/management, including but not limited to: • New Standards dealing with this scope (e.g. future Standard under de | ICT energy efficiency | Energy+Interoperability | Recent |
| 4 | ETSI | Environmental Engineering | ETSI ES 203 136 V1.2.1 (2017-10) | Environmental Engineering (EE); Measurement methods for energy efficiency of router and switch equipment Update standard for Energy efficiency for router and switch equipment | Published | This standard contains methods for power consumption measurement, efficiency indicator. The document should be in line with similar published document from NIPP TEE especially on measurement methods | IE power consumption / energy efficiency | Energy+Interoperability | Recent |
| 5 | ETSI | Environmental Engineering | ETSI ES 202 706-1 V1.6.1 (2021-01) | Environmental Engineering (EE); Metrics and measurement method for energy efficiency of wireless access network equipment; Part 1: Power consumption – static measurement method 5G base station energy performance KPI’s | Published | This standard splits the static method from the existing ES 202 706 and create a separate part only for the static power measurement method. It defines 5G base station energy consumption and energy performance KPI’s, measurement methods with static load. | IE power consumption / energy efficiency | Energy+Interoperability | Recent |
| 6 | ETSI | Environmental Engineering | ETSI ES 202 706 V1.4.1 (2014-12) | Environmental Engineering (EE); Measurement method for power consumption and energy efficiency of wireless access network equipment Energy efficiency of wireless access network equipment | Published | This standard enhances the energy efficiency measurement method. | IE energy efficiency | Energy+Interoperability | Recent |
| 7 | ETSI | Environmental Engineering | ETSI ES 203 199 V1.3.1 (2015-02) | Environmental Engineering (EE); Methodology for environmental Life Cycle Assessment (LCA) of Information and Communication Technology (ICT) goods, networks and services LCA assessment of telecommunication equipment/service (TA-ITU:L.1410) | Published | To revise the TS 103 199 in order to address the comments received during the EU pilot project on assessment of LCA methodologies as well as orther feedback on current revision. | ICT environment | Energy+Interoperability | Recent |
| 8 | ETSI | Environmental Engineering | Environmental Engineering (EE); Energy Efficiency measurement methodology and metrics for servers Graphical Processor Unit (GPU) solution based GPU (TA-ITU:L.EE_sgpu) | Early draft | Energy efficiency methodology and metrics for server not based only on x86 architecture; but using GPU, GPU card and other architecture platform. This activity will be coordinated with the Standard Performance Evaluation Corporation (SPEC). This work item | SERVER Energy | Energy+Interoperability | Recent | |
| 9 | ETSI | Environmental Engineering | ETSI ES 203 237 V1.1.1 (2014-03) | Environmental Engineering (EE); Green Abstraction Layer (GAL); Power management capabilities of the future energy telecommunication fixed network nodes Green Abstraction Layer (GAL); | Published | The Green Abstraction Layer (GAL) is an architectural interface/middleware that will give a flexible access to the power management capabilities of the future energy aware telecommunication fixed network nodes to effectively exploit the capability of adap | ICT energy efficiency | Energy+Interoperability | Recent |
| 10 | ETSI | Environmental Engineering | ETSI ES 203 215 V1.2.1 (2011-10) | Environmental Engineering (EE); Measurement Methods and Limits for Power Consumption in Broadband Telecommunication Networks Equipment Measurement method and limits for energy consumption in broadband telecommunications equipment; | Published | Convert the existing TS 102 533 in an ES addressing the following items: – MSAN equipment to be developed – Complete GPON system, including in the system OLT and ONU/ONT – include the FTTH technology – set up and target value for equipment using more than | IE power consumption / energy efficiency | Energy+Interoperability | Recent |
| 11 | ETSI | Environmental Engineering | ETSI ES 203 184 V1.1.1 (2013-03) | Environmental Engineering (EE); Measurement Methods for Power Consumption in Transport Telecommunication Networks Equipment Energy efficiency for transport equipment | Published | It contains methods for power consumption measurement, efficiency indicator. The document should be in line with similar published document from NIPP TEE especially on measurement methods | IE power consumption / energy efficiency | Energy+Interoperability | Recent |
| 12 | ETSI | Environmental Engineering | ETSI ES 203 700 V1.1.1 (2021-02) | Environmental Engineering (EE); Sustainable power feeding solutions for 5G network 5Gpowering (TA-ITU:L.1210) | Published | This standard will define power feeding solutions for 5G equipment and network, and their environmental impact. It will include requirements of different solutions and equipment on power feeding structures, components, backup solutions, environmental cond | IE energy efficiency | Energy+Interoperability | Recent |
| 13 | ETSI | Environmental Engineering | to be an EN | Environmental Engineering (EE); Specific metrics, methods and parameters for assessment of material and resource efficiency aspects of ICT network infrastructure goods in the context of circular economy | Early draft | The standard will define an assessment of the direct applicability of eight general material efficiency standards to ICT network infrastructure goods in the context of circular economy. The existing generic standards address ability to remanufacture, repa | ICT environment | Energy+Interoperability | Recent |
| 14 | ETSI | Environmental Engineering | to be an EN | Environmental Engineering (EE); Energy efficiency metrics and measurement methods for data storage equipment metrics and measurement methods for data storage | Early draft | Considering the request of draft mandate in support of Commission Regulation (EU) 2019/424 the document will be a new energy efficiency measurement methods and metrics to support data storage as defined in “the regulation”. To define measurement methods | DATA CENTER Energy | Energy+Interoperability | Recent |
| 15 | ETSI | Environmental Engineering | to be an EN | Environmental Engineering (EE); Assessment of material efficiency of ICT network infrastructure goods (circular economy) Part 1: General material efficiency General (TA-ITU:L.Mat_frame) | Early draft | Overview standards for assessment of material and resource efficiency aspects of ICT network infrastructure goods in the context of circular economy. the standard will define if necessary metrics and measurement methodologies. Describe the contents of oth | ICT environment | Energy+Interoperability | Recent |
| 16 | ETSI | Environmental Engineering | Environmental Engineering (EE); Energy Efficiency measurement methodology and metrics for servers Energy Efficiency measurement methodology and KPI/metrics for Servers (TA-ITU:L.EE_serv) | stable draft | This documents comprises the following: 1) respond to the issues raised by the European Commission related to EN 303 470 in the draft standards mandate of 16 July 2019 2) include a method to test the idle power at the high temperature boundaries of the de | SERVER Energy | Energy+Interoperability | Recent | |
| 17 | ETSI | Environmental Engineering | ETSI EN 303 470 V1.1.1 (2019-03) | Environmental Engineering (EE); Energy Efficiency measurement methodology and metrics for servers EN on Energy Efficiency measurement methodology and KPI/metrics for Servers | Published | This work item defines energy efficiency metrics, KPI and measurement methodology for server equipment. The document will not cover home and small server under the mandate M/545. The work will be done in liaison with CENELEC TC100X and ISG OEU and will co | SERVER Energy | Energy+Interoperability | Recent |
| 18 | ETSI | Environmental Engineering | ETSI EN 303 471 V1.1.1 (2019-01) | Environmental Engineering (EE); Electrical and electronic household and office equipment; Measurement of networked standby power consumption of Interconnecting equipment networked standby | Published | Revision of EN 303423 to resolve EU Commission comments in document EE(19)056018 | IE power consumption | Energy+Interoperability | Recent |
| 19 | ETSI | Environmental Engineering | ETSI EN 303 423 V1.2.1 (2018-08) | Environmental Engineering (EE); Electrical and electronic household and office equipment; Measurement of networked standby power consumption of Interconnecting equipment; Harmonised Standard covering the measurement method for EC Regulation 1275/2008 amen | Published | This revision will address: 1) the test method of product that relies on active wired connection(s) (e.g. DOCSIS 3.0) 2) the comments from EU Commission consultant: rephrase of introduction, correction of the reference to Annex A in the references, add in | IE power consumption | Energy+Interoperability | Recent |
| 20 | ETSI | Environmental Engineering | ETSI EN 303 215 V1.3.1 (2015-04) | Environmental Engineering (EE); Measurement methods and limits for power consumption in broadband telecommunication networks equipment update of ES 203 215 to insert new measurement method and transformation to EN | Published | 1) Test condition of small ONU dedicated to installation on outdoor cabinet. We need discuss influence of temperature on energy consumption to determine the influence of the cooling techniques on the total energy consumption to determine if it is necessar | IE power consumption | Energy+Interoperability | Recent |
| 21 | ETSI | Environmental Engineering | ETSI EN 301 575 V1.1.1 (2012-05) | Environmental Engineering (EE); Measurement method for energy consumption of Customer Premises Equipment (CPE) Measurement method for energy consumption of CPE | Published | Define the methodology and the tests conditions to measure the power consumption of end-user broadband equipment (CPE) within the scope of EU regulation 1275/2008 in Off mode (as defined in Commission Regulation 1275/2008) Standby (as defined in Commissio | IE power consumption | Energy+Interoperability | Recent |
| 22 | ETSI | ATTM Access, Terminals, Transmission and Multiplexing | Access, Terminals, Transmission and Multiplexing (ATTM); Carbon Intensity Management; Operational infrastructures; Implementation of Global KPIs; Part 3: ICT Sites; Sub-part 2: DCCM | WG approval (2022-01-07) | The present document specifies the requirements for a Global KPI for carbon management (KPI DCCM) and their underpinning Objective KPIs addressing the following objectives for the ICT sites of broadband deployment: •Greenhouse gas emissions •Effectiveness | ICT environment | Energy+Interoperability | Recent | |
| 23 | ETSI | ATTM Access, Terminals, Transmission and Multiplexing | ETSI ES 205 200-2-1 V1.2.1 (2014-03 | Access, Terminals, Transmission and Multiplexing (ATTM); Energy management; Global KPIs; Operational infrastructures; Part 2: Specific requirements; Sub-part 1: Data centres Global KPIs; Operational infrastructures; Data centres | Published | Upgrading of scope definition in order to clarify and avoid ambiguities; – change Objective KPIs absolute values to ratios to conform to ISG OEU 001; – take into account cold loop distribution; – upgrading of the global document in order to avoid any edit | DATA CENTER KPI | Energy+Interoperability | Recent |
| 24 | ETSI | ATTM Access, Terminals, Transmission and Multiplexing | ETSI ES 205 200-1 V1.2.1 (2014-03) | Access, Terminals, Transmission and Multiplexing (ATTM); Energy management; Global KPIs; Operational infrastructures; Part 1: General requirements Global KPIs; Operational infrastructures; General Requirements | Published | defining the Global KPIs for operators data centres and describing how the Global KPIs are to be applied | DATA CENTER KPI | Energy+Interoperability | Recent |
| 25 | ETSI | ATTM Access, Terminals, Transmission and Multiplexing | ETSI ES 205 200-1 V1.1.1 (2013-05) | Access, Terminals, Transmission and Multiplexing (ATTM); Energy management; Operational infrastructures; Global KPIs; Part 1: General requirements EM; Operational infrastructures; Global KPIs; General requirements | Published | a generic requirements document addressing Global KPIs for operational infrastructures | DATA CENTER KPI | Energy+Interoperability | Recent |
| 26 | ETSI | ATTM Access, Terminals, Transmission and Multiplexing | ETSI EN 305 174-1 V1.1.1 (2018-02) | Access, Terminals, Transmission and Multiplexing (ATTM); Broadband Deployment and Lifecycle Resource Management; Part 1: Overview, common and generic aspects BBD and Lifecycle Resource Management; Overview, common and generic aspects | Published | The present document gives an overview of this multi-part deliverable covering energy management and sustainable broadband deployment. | ICT environment | Energy+Interoperability | Recent |
| 27 | ETSI | CABLE Integrated broadband cable and television networks | ETSI EN 305 200-4-4 V1.1.1 (2018-04) | Integrated broadband cable telecommunication networks (CABLE); Energy management; Global KPIs; Operational infrastructures; Part 2: Specific requirements; Sub-part 4: Cable Access Networks Global KPIs; Operational infrastructures; Cable Access Networks | Published | Defining the Global KPIs for HFC Access networks and describing how the Global KPIs are to be applied. | ICT performance | Energy+Interoperability | Recent |
| 28 | ETSI | CABLE Integrated broadband cable and television networks | Integrated broadband cable telecommunication networks (CABLE); Energy management; Operational infrastructures; Global KPIs; Part 4: Design assessments; Sub-part 5: Monitoring and operations support systems Design KPIs; Monitoring and OSS | TB adoption of WI (2019-08-09) | This deliverable specifies energy management in operational infrastructures of broadband networks in terms of global KPIs. In part 4 of the multi-part deliverable, global KPIs are defined using methods assessing design and operation of the underlying infr | ICT energy efficiency / performance | Energy+Interoperability | Recent | |
| 29 | ETSI | SmartM2M | EN 303 760 | SmartM2M; SAREF Guidelines for IoT Semantic Interoperability; Develop, apply and evolve Smart Applications ontologies D21: SAREF Guidelines for IoT Semantic Interoperability | TB adoption of WI (2020-08-24) | The relevance of the semantic work to assure semantic interoperability has driven the development of ontology specifications according to the SAREF methodology. IoT is currently experiencing a period of evolution and adoption in the different sectors, as | IoT | Energy+Interoperability | Recent |
| 30 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1300 (06/2014) | Best practices for green data centres | Published | Recommendation ITU-T L.1300 describes best practices aimed at reducing the negative impact of data centres on the climate. It is commonly recognized that data centres will have an ever-increasing impact on the environment in the future. The application of | DATA CENTER Environment | Energy+Interoperability | Recent |
| 31 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1301 (05/2015) | Minimum data set and communication interface requirements for data centre energy management | Published | Recommendation ITU-T L.1301 establishes a minimum data set necessary to manage data centres and telecommunication rooms in an environmentally responsible manner. The Recommendation specifies the communication interface and defines the parameters to be com | DATA CENTER Energy | Energy+Interoperability | Recent |
| 32 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1302 (11/2015) | Assessment of energy efficiency on infrastructure in data centres and telecom centres | Published | Recommendation ITU-T L.1302 contains the energy efficiency assessment methodology for data centre and telecom centre, test equipment accuracy requirements, assessment period, assessment conditions and calculation methods. For data centre and telecom cent | DATA CENTER Energy | Energy+Interoperability | Recent |
| 33 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1303 (11/2018) | Functional requirements and framework of green data centre energy-saving management system | Published | Recommendation ITU-T L.1303 describes functional requirements and framework of energy-saving management system for green data centre. Functional requirements of energy-saving management includes requirements for measuring energy consumption and environmen | DATA CENTER Energy Performance | Energy+Interoperability | Recent |
| 34 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1304 (12/2020) | Procurement criteria for sustainable data centres | Published | Recommendation ITU-T L.1304 aims to support public authorities in purchasing data centres related products, services and items with reduced environmental impacts through establishing a set of procurement criteria. | DATA CENTER Environment | Energy+Interoperability | Recent |
| 35 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1305 (11/2019) | Data centre infrastructure management system based on big data and artificial intelligence technology | Published | Recommendation ITU-T L.1305 contains technical specifications of a data centre infrastructure management (DCIM) system, with the following aspects being covered: principles, management objects, management system schemes, data collection function requireme | DATA CENTER Energy Performance | Energy+Interoperability | Recent |
| 36 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1310 (09/2020) | Energy efficiency metrics and measurement methods for telecommunication equipment | Published | Recommendation ITU-T L.1310 contains the definition of energy efficiency metrics test procedures, methodologies and measurement profiles required to assess the energy efficiency of telecommunication equipment. Energy efficiency metrics and measurement met | ICT power consumption / energy efficiency | Energy+Interoperability | Recent |
| 37 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1315 (05/2017) | Standardization terms and trends in energy efficiency | Published | This Recommendation contains high level definition of energy efficiency, energy management requirement to increase the energy efficiency of ICT goods/networks/services. | ICT energy efficiency | Energy+Interoperability | Recent |
| 38 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1316 (11/2019) | Energy efficiency framework | Published | Recommendation ITU-T L.1316 contains a framework of documents for collecting standards on energy efficiency metrics/key performance indicators (KPIs), measurement methodologies and energy management solutions for information and communication technology ( | ICT energy efficiency | Energy+Interoperability | Recent |
| 39 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1320 (03/2014) | Energy efficiency metrics and measurement for power and cooling equipment for telecommunications and data centres | Published | Recommendation ITU-T L.1320 contains the general definition of metrics, test procedures, methodologies and measurement profiles required to assess the energy efficiency of power and cooling equipment for telecommunications and data centres. More detailed | DATA CENTER Energy | Energy+Interoperability | Recent |
| 40 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1321 (03/2015) | Reference operational model and interface for improving energy efficiency of ICT network hosts | Published | Recommendation ITU-T L.1321 describes a reference operational model and interface for improving energy efficiency of ICT network hosts. The operational model and interface specify network proxy operation to support IPv4 ARP and DHCP in order to promote th | ICT energy efficiency | Energy+Interoperability | Recent |
| 41 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1325 (12/2016) | Green ICT solutions for telecom network facilities | Published | Recommendation ITU-T L.1325 has been developed to introduce highly-efficient infrastructure solutions, including highly-efficient power solutions, renewable energy solutions, air conditioning energy-saving solutions and free and economical cooling solutio | ICT energy efficiency | Energy+Interoperability | Recent |
| 42 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1330 (03/2015) | Energy efficiency measurement and metrics for telecommunication networks | Published | Recommendation ITU-T L.1330 provides a set of metrics for the assessment of energy efficiency (EE) of telecommunication (TLC) mobile networks, together with proper measurement methods. Such metrics are of extremely high importance to operators, given that | ICT energy efficiency | Energy+Interoperability | Recent |
| 43 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1331 (01/2022) | Assessment of mobile network energy efficiency | Pre-Published | Recommendation ITU-T L.1331 aims to provide a better understanding of the energy efficiency of mobile networks. The focus of this Recommendation is on the metrics and methods of assessing energy efficiency in operational networks. The networks considered | ICT energy efficiency | Energy+Interoperability | Recent |
| 44 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1332 (01/2018) | Total network infrastructure energy efficiency metrics | Published | Recommendation ITU-T L.1332 contains the basic definition of energy efficiency metrics and measurement methods required to evaluate the energy efficiency of a total network, including the energy consumption for: – all telecommunication (TLC)/information | ICT energy efficiency | Energy+Interoperability | Recent |
| 45 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1340 (02/2014) | Informative values on the energy efficiency of telecommunication equipment | Published | Recommendation ITU-T L.1340 provides informative values on the energy efficiency of different types of telecommunication network equipment and small networking equipment in use in both the fixed and mobile networks. These values are related to energy effi | ICT energy efficiency | Energy+Interoperability | Recent |
| 46 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1360 (12/2016) | Energy control for the software-defined networking architecture | Published | Energy efficiency has become one of the most important aspects for both current and future telecommunications infrastructures. Taking energy into account induces a new constraint when managing a network. To tackle the integration of the energy constraint | ICT energy efficiency | Energy+Interoperability | Recent |
| 47 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1361 (11/2018) | Measurement method for energy efficiency of network functions virtualization | Published | Recommendation ITU-T L.1361 is intended to define common energy efficiency measurement methods for network functions virtualization (NFV) environments, it does not try to cover all of the different types of VNFs (e.g., firewall, gateway, etc.), but it pro | ICT energy efficiency | Energy+Interoperability | Recent |
| 48 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1362 (08/2019) | Interface for power management in network function virtualization environments – Green abstraction Layer version 2 | Published | Recommendation ITU-T L.1362 specifies a data model for energy discrete states within virtualized networks, and operations to interact on this model. In virtualized networks, establishing a mapping between the energy discrete states of logical entities (e | ICT energy efficiency | Energy+Interoperability | Recent |
| 49 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1380 (11/2019) | Smart energy solution for telecom sites | Published | Recommendation ITU-T L.1380 focuses on smart energy solutions for telecom sites, mainly on the performance, safety, energy efficiency and environmental impact, when the system is fed by various types of energy such as photovoltaic (PV) energy, wind energy | ICT environment | Energy+Interoperability | Recent |
| 50 | ITU | ITU-T Study Group 5 – Environment and circular economy | ITU-T L.1381 (06/2020) | Smart energy solutions for data centres | Published | Recommendation ITU-T L.1381 considers a smart control strategy for the entire energy system, including power-feeding and cooling solutions, of data centres to achieve higher energy efficiency and to decrease overall energy consumption. Firstly, for a mult | DATA CENTER Energy | Energy+Interoperability | Recent |
