ETSI
ETSI
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Technical committeeTypeAcronymETSI TR 103 240 V1.1.1 (2014-01)CommitteePublished year2014KeywordsDescription
The present document concentrates on recommendations for power line communication for smart meters and home automation using IP based transports along with DLMS/COSEM data models.
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Technical committeeTypeAcronymETSI TR 103 240CommitteePublished year2014Description
The present document concentrates on recommendations for power line communication for smart meters and home automation using IP based transports along with DLMS/COSEM data models.
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Technical committeeTypeAcronymETSI TR 103 149CommitteePublished year2019Description
This work item revises the System Reference document (SRdoc) ETSI TR 103 149 v.1.1.1 with updated information on DECT and DECT ULE. Further, the revision will inform about the running activities at ETSI towards DECT evolution and DECT-2020 targeting to serve new application domains like Wireless Automation, Industry 4.0 and Creative and Culture Industry including PMSE.
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Technical committeeTypeAcronymETSI TR 103 118CommitteePublished year2015Description
The present document reviews security methods provided by deployed standards used in the Smart Energy industry (e.g. IEC 62351 [i.7], IEC 62443 [i.8]) or mandated by regulation (e.g. Requirements from the German BSI for Smart Meter Gateways and Secure Element) as well as gaps identified by the Smart Grid Information Security group for the M/490 mandate, in order to identify areas where ETSI may bring additional value, e.g. by extending or harmonising security solutions where possible.
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Technical committeeTypeAcronymETSI TR 103 055 V1.1.1 (2011-09)CommitteePublished year2011KeywordsDescription
The present document applies to a new class of SRD devices specifically for Smart City applications operating in the UHF frequency band from 870 MHz to 876 MHz. It extends the discussion from Smart Metering Requirements discussed in TR 102 886 [i.1] and TR 102 649-2 [i.7] to a wider set of applications that are presented. Particular performance and compatibility parameters needed for the successful operation of SRD devices used in smart cities application are also identified.
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Technical committeeTypeAcronymETSI TR 103 055CommitteeDescription
Short Range Device (SRD) technology is technology of growing use to interconnect sensors, actuators and remote control and monitoring systems. With time, technological progress and higher awareness of environment related questions will promote widespread use of sensor networks able to gather data at the scale of a city.
Consequently, SRD technology will be used to interconnect all of those sensors, actuators and infrastructures.
The present document examines whether the performance requirements, access mechanism and transmitted power currently in use for SRDs are adequate for Metropolitan Mesh Machine Network (M3N) and opens a discussion on further work required to establish the magnitude of any compatibility issues in sharing the 870 MHz to 876 MHz frequency band.
The present document identifies a relevant set of M3N applications that will transmit data over the M3N network. This permits to model a typical M3N deployment in term of number of devices, infrastructures and density. The same applications set also identify the key service requirements which will impact the volume of traffic to be transmitted between endpoints and network infrastructure. A structured mesh network is assumed as it accommodates the limited power available for data transmission and minimises the number of gateways. The mesh traffic is modelled and the expected network performance established. This is then compared with the current SRD regulatory limits.
The present document then discusses required changes in SRD rules to enable reliable and economically viable M3N operations. The discussion on compatibility assumes that the military services will be displaced by E-GSM-R and that it is with this service that the SRDs will share the frequency band. Intersystem interferences have already been addressed in TR 102 649-2 [i.7] and TR 102 886 [i.1], and is not repeated here. -
Technical committeeTypeAcronymETSI TR 102 935CommitteePublished year2012Description
Highlights the applicability of M2M architecture to smart grid networks. Develops the most relevant Smart grids use cases, used to derive high level requirements. Provides a standard gap analysis (applicability of M2M APIs for Smart Grid applications, mechanisms to manage energy for end users, etc), and derives a set of recommendation for the work of ETSI M2M. Shows dependencies and relationships with other works within ETSI TCs and other standards organisations.
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Technical committeeTypeAcronymETSI TR 102 886 V1.1.1 (2011-07)CommitteePublished year2011KeywordsDescription
The present document applies to a new class of SRD devices specifically for Smart Metering applications operating in the UHF frequency band from 870 MHz to 876 MHz. It extends the discussion on Smart Metering Performance Requirements in TR 102 649-2 [i.22] and identifies the particular RF performance parameters needed for the operation of these devices.
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Technical committeeTypeAcronymETSI TR 102 886CommitteePublished year2011Description
The requirement to wirelessly interconnect Smart Meters is one of the responses to the EC's mandate 441 [i.1] for an open architecture for utility meters. Short Range Device (SRD) technology, has been identified as a candidate technology to interconnect meters to the Wide Area Network (WAN) Access Point (AP).
• The TR 102 649-2 [i.22] identified.
• Preliminary performance requirements for SRDs for use with Smart Meters.
• An uncoordinated time bound access mechanism, with 25 mW. e.r.p. power.
A suggested frequency designation of 873 MHz to 876 MHz which is one of the sub-bands of the 870 MHz to 876 MHz and 915 MHz to 921 MHz duplex pair currently allocated for E-GSM-R and military use.
The present document examines whether the performance requirements, access mechanism and transmitted power currently in use for SRDs are adequate for Smart Meters and opens a discussion on further work required to establish the magnitude of any compatibility issues in sharing the 873 MHz to 876 MHz frequency band.
The present document identifies the key service requirements which will impact the volume of traffic to be transmitted between meter and AP. A mesh network is assumed for the delivery of data between meter and AP as this accommodates the limited power available for data transmission and minimises the number of APs. The mesh traffic is modelled and the expected network performance established. This is then compared with the current SRD regulatory limits.
The discussion on compatibility assumes that the military services will be displaced by E-GSM-R and that it is with this service that the SRDs will share the frequency band. The report examines the potential for co-channel inter-system interference using as a starting point the work undertaken at the BNetzA laboratory at Kolberg in August 2009 [i.25]. Adjacent channel interference has already been considered in TR 102 649-2 [i.22] and is not repeated here. Intra-system interference from collocated SRD systems is being addressed in CEPT SE 24 under WI23 and although the results of these deliberations are not yet available draft information is available on the CEPT web site. Further work on low duty cycle as a mitigation technique for SRDs has been approved by ETSI and the Special Task Force (STF) 411 expects to complete its work within 9 months. A measurement campaign on Low Duty Cycle requirements was recently completed by the JRC [i.33] and the reader is invited to consider the preliminary results of this work when reviewing clause B.3 on Access mechanisms. These activities will guide the development of future analyses in the present document. -
Technical committeeTypeAcronymETSI TR 102 691 V1.1.1 (2010-05)CommitteePublished year2010KeywordsDescription
The present document collects the Use Cases which have been identified for the Smart Metering M2M application. These Use Cases will identify actors and information flows, and will form the basis of future requirements work at TC M2M on Smart Metering. Several parts of the present document have been taken from "Smart Metering Functionality Use Cases" [i.4] in particular the subclauses "General Use Case Description", "Scenario" and "Information Exchanges" of clause 5.2.
Technology