Standard
Standard
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Technical committeeTypeAcronymNISTIR 7628Published year2014Description
This three-volume report, Guidelines for Smart Grid Cybersecurity, presents an analytical framework that organizations can use to develop effective cybersecurity strategies tailored to their particular combinations of Smart Grid-related characteristics, risks, and vulnerabilities.
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Technical committeeTypeAcronymNIST Smart Grid RoadmapPublished year2014KeywordsDescription
The Energy Independence and Security Act (EISA) of 2007 requires that NIST develop a framework of standards for the Smart Grid. This document is the second release of the framework first published in January, 2010. It covers the activities and outputs of the Smart Grid Interoperability Panel(SGIP), which is a public-private partnership to support development of this NIST framework. It includes progress on and plans for further development of the Conceptual Architectural Framework; an update to the list of standards identified by NIST and the SGIP for the Smart Grid; a description of the SGIP organization, its activities, processes, and working groups, including the Priority Action Plans for addressing Smart Grid standards gaps and overlaps; cybersecurity strategy and plans for and work products of the SGIP Cybersecurity Working Group (CSWG); development of a framework for interoperability testing and certification, including the Interoperability Process Reference Manual (IPRM); and a discussion of the next steps in the development of the NIST interoperability framework.
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TypeAcronymNEMA SG-AMI 1-2009 (R2015)Published year2016Description
Defines requirements for smart meter firmware upgradeability in the context of an advanced metering infrastructure system for industry stakeholders such as regulators, utilities and vendors.
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Technical committeeTypeAcronymNEMA SG-AMI 1Published year2015Description
Defines requirements for smart meter firmware upgradeability in the context of an advanced metering infrastructure system for industry stakeholders such as regulators, utilities and vendors.
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Technical committeeTypeAcronymIWA 33-3CommitteePublished year2021Description
This document specifies the general principles and basic requirements of design for small hydropower (SHP) projects up to 30 MWe, mainly including hydrology, geology, energy calculations, project layout, hydraulics, electromechanical equipment selection, construction planning, project cost estimates, economic appraisal, social and environmental assessments.
Application of this document is intended to be site specific, with the principles and requirements of design applied in accordance with the needs of proposed hydropower plant.
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Technical committeeTypeAcronymIWA 33-2CommitteePublished year2019Description
This document specifies the general principles of site selection planning for small hydropower (SHP) projects, and the methodologies, procedures and outcome requirements of SHP plant site selection.
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Technical committeeTypeAcronymIWA 33-1CommitteePublished year2019Description
This document defines the professional technical terms and definitions commonly used for small hydropower (SHP) plants.
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Technical committeeTypeAcronymITU-T Y Suppl. 30 (01/2016)Published year2016KeywordsDescription
This supplement presents the overview of infrastructure in cities. Generally the city infrastructure can be classified as digital/ICT infrastructure and physical infrastructure. The intelligent improvement of physical infrastructure can be achieved through the widely adoption of information and communication technologies. In this sense, ICT acts as an enabler to construct Smart Sustainable Cities. Consequently using ICTs in SSC results in cost and energy saving, increased economic growth, improved quality of life (QoL), and reduced environmental footprint.
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Technical committeeTypeAcronymITU-T X.1332 (03/2020)Published year2020Description
Smart metering services have been widely deployed worldwide to make electricity grids more efficient and reliable by gathering/providing electricity usage information from/to customers, respectively. This information can be used to estimate customers' electricity demands, and the estimation can be used to shift demand or to change customers' electricity consumption behaviour by providing electricity usage information to them. However, smart metering services can malfunction because of various threats. For example, invalid metering information can lead to erroneous demand management decisions, and abusing load control functions can cause economic and physical damage to customers. Recommendation ITU-T X.1332 provides security guidelines for smart metering services to enable service providers to implement appropriate security measures to ensure the security of their service. This Recommendation identifies security threats and attack methods against smart metering services, and specifies security requirements and capabilities to mitigate these threats and attacks accordingly.
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Technical committeeTypeAcronymITU-T L.1222 (05/2018)Published year2018Description
Recommendation ITU-T L.1222 is based on Recommendation ITU-T L.1220 and is the part related to supercapacitors. Recommendation ITU-T L.1222 contains selection criteria for telecommunication application based on main performance parameters and the methods for proper use. In addition, some use cases and examples are given in an Appendix to help users.
Technology