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Catalog of Standards

Catalog of Standards. Mark Klerer 2 December 2010. Catalog of Standards. Plenary leadership led team drafted a document defining the criteria and procedures for inclusion of a document in the SGIP Catalog of Standards. Scope of the Standards Catalog

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Catalog of Standards

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  1. Catalog of Standards

    Mark Klerer 2 December 2010
  2. Catalog of Standards Plenary leadership led team drafted a document defining the criteria and procedures for inclusion of a document in the SGIP Catalog of Standards. Scope of the Standards Catalog Standards and guides recognized as relevant for enabling SG capabilities Objectives of the Standards Catalog Explain value & purpose of the catalog for SG community Influential, but independent of NIST/FERC decision-making Characterize the various specification organizations with respect to their processes in developing their specifications Provide an annotated resource that identifies standards created by recognized SSOs and/or industry consortia that are relevantto Smart Grid applications Identify functional areas of smart grid where each standard is appropriate (draw on SGAC work)
  3. Catalog of Standards (cont.) Process NIST Framework and Roadmap for SG Interoperability v1.0 identifies many standards to consider Additional standards can be identified to the SGIP Administrator by any SGIP memberfor potential inclusion in catalog Relevance and importance evaluated by appropriate SGIP working group (e.g. DEWG, PAP, etc) and consensus developed Conclusions forwarded to SGIPGB for recommendation to on inclusion to the SGIP membership 75% approval by SGIP membership required for inclusion in the catalog Standards included in the catalog may be deprecated from further use to changes in technology or needs by following the same process. Catalog Structure Entries in catalog will be structured based on application domain defined in the Framework and further classified by GWAC stack Catalog Record Structure Each catalog entry will include a set of attributes that classify the document with respect to: Development process IRP regime Cyber-security aspects Domain of applicability Functionality supported
  4. Catalog of Standards (cont.) Relationship to NIST and FERC lists Standards Catalog strives for accurate characterization and relevance to the smart grid community, and avoids recommendation Standards Catalog expected to be a larger compilation which can inform NIST and FERC in their decision processes Next Steps Closure of consensus of document Review and approval of process aspects by BOPWG Review and approval of complete document by SGIPGB
  5. List of Criteria Relevancy: Facilitates interoperability related to the integration of smart grid devices or systems. Relevant smart grid capabilities are as defined by EISA Community Acceptance: The standard should be widely acknowledged as important to the integration of devices or systems that enable Smart Grid capabilities. Deployment Suitability: The standard must demonstrate evidence of either having been deployed or filling a Smart Grid deployment gap thereby demonstrating adequate performance in commercial (real-world) applications. Interface Characterization: The relevant portions of the standard focus on requirements for integration and interaction through well defined interfaces. The standard facilitates the independence in device or system design and implementation choices. Document Maintenance: The standard is supported by a multi-member organization that will ensure that it can be unambiguously referenced, is regularly revised and improved to meet changing requirements, and that there is strategy for continued relevance.
  6. Standards Goals from EISA Increased use of digital information and controls technology to improve reliability, security, and efficiency of the electric grid. Dynamic optimization of grid operations and resources, with full cyber-security. Deployment and integration of distributed resources and generation, including renewable resources. Development and incorporation of demand response, demand-side resources, and energy-efficiency resources. Deployment of ‘‘smart’’ technologies (real-time, automated, interactive technologies that optimize the physical operation of appliances and consumer devices) for metering, communications concerning grid operations and status, and distribution automation. Integration of ‘‘smart’’ appliances and consumer devices. Deployment and integration of advanced electricity storage and peak-shaving technologies, including plug-in electric and hybrid electric vehicles, and thermal-storage air conditioning. Provision to consumers of timely information and control Development of standards for communication and interoperability of appliances and equipment connected to the electric grid, including the infrastructure serving the grid. Lowering of unreasonable or unnecessary barriers to adoption of smart grid technologies, practices, and services.
  7. Proposed Attributes and Characteristics
  8. Proposed Attributes and Characteristics
  9. Proposed Attributes and Characteristics
  10. Proposed Attributes and Characteristics
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