Building an Effective Security Program for Distributed Energy Resources and Systems. Mariana Hentea

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СКАЧАТЬ Overview of Various Standards

      Standards are being talked about all over the world, and it is a confusing world full of new acronyms, players, consultants, and companies. While overwhelming at times and competitive at others, standards organizations are all working toward the same goal. The goal is for vendor interoperability and collaboration without the installation of custom systems. Standards help in maximizing safety, compatibility, and quality of processes and products.

      Technical standards are the result of a standardization process, and they can be classified as:

       De facto standards that are followed by informal convention or dominant usage.

       De jure standards that are part of legally binding contracts, laws, or regulations.

       Voluntary standards that are published and available for people to consider for use.

      A technical standard is a formal document of specifications that define the capabilities of a product for a particular use including the function and performance of a device or system. It is usually a document that establishes uniform engineering or technical criteria, methods, processes, and practices. A standard or a group of standards can be used to support a function.

      Standardization is greatly increased when companies release new products to market. Compatibility is important for products to be successful; this allows consumers to use their new items along with what they already own.

      Also, standards may include safety issues following these guidelines [ISO/IEC 51].

      The existence of a published standard does not necessarily imply that it is useful or correct. Just because an item is stamped with a standard number does not, by itself, indicate that the item is fit for any particular use. The people who use the item or service (engineers, trade unions, etc.) or specify it (building codes, government, industry, etc.) have the responsibility to consider the available standards, specify the correct one, enforce compliance, and use the item correctly. Therefore, key attributes need to be considered.

      1.8.2 Key Standard Attributes and Conformance

      Key standard attributes should include:

       Enable interoperability – Standards are critical to enabling interoperable systems and components; mature, robust standards are the foundation of mass markets for the millions of components that will have a role in the future Smart Grid.

       Enable innovation – Standards enable innovation where thousands of companies may construct individual components.

       Enable consistency – Standards also enable consistency in system management and maintenance over the life cycles of components.

      The electricity industry is facing multiple competing standards, guidelines, and recommendations. The Smart Grid is no exception.

      1.8.3 Smart Grid Standards

      Collaboration on standards for the Smart Grid is a must, and the power industry needs to embrace the work the standards organizations are doing. Participation is encouraged; but more important are the conversations that occur at appropriate levels of abstraction. It is also important for all standards organizations to work at the level that suits the application. For example, when specifying a protocol, the bits and bytes are important; however, when specifying a business integration framework, the bits and bytes are less important than workflow, which takes precedence. This is a delicate balance but one that the industry will need to develop and embrace [Vos 2009].

      In the Smart Grid, the evidence of the essential role of standards is growing. A Congressional Research Service report, for example, cited the ongoing deployment of smart meters as an area in need of widely accepted standards. The US investment in smart meters predicted to be at least $40 billion for a million new smart meters over a period of five years [Kaplan 2009], [ON World 2009], [WH 2016].

      The principle of using open standards is highly encouraged to support interoperability and therefore help popularize new technologies [Microsoft 2002]. An open standard is a standard that is publicly available and has various rights to use associated with it. It may also include an explanation of how it was designed and why (e.g. open process). There is no single definition, and interpretations vary with usage [Open Standard]. Among known standards organizations, only the IETF and ITU‐T explicitly refer to their standards as open standards that allow reasonable and nondiscriminatory patent licensing fee requirements. However, those in the open‐source software community think that an open standard is only open if it can be freely adopted, implemented, and extended.

      1.8.3.1 Key Players in Smart Grid Standards Development

      The major key players involved in the development of standards supporting the Smart Grid include:

       NIST – Private agency (former federal technology agency).

       ISA – International organization of engineers in control of industrial processes.

       SGIP (Smart Grid Interoperability Panel) – Different areas.

       UCA International User Group – Suppliers of electric/gas/water utility systems.

       GridWise Alliance – Transform the US electric grid to achieve a sustainable energy future.

       EPRI/EEI – Research and innovation in many areas.

       ZigBee Alliance – Low‐power radio inside buildings.

       Wi‐Fi – Interoperability of wireless products.

       IEEE P2030 – Standards and guidelines for Smart Grid applications.

       IRENA – International renewable integration.

       ISO – International standards; technology standards.

       IEC – Active in many areas of the Smart Grid.

       IETF – Internet standards in many areas of the Smart Grid.

       ITU‐T – Active in many areas of the telecommunications and Smart Grid.

       ANSI – Working on meters.

       NAESB – North America industry interoperability standards for gas and electricity.

       NEMA – Electrical equipment manufacturers.

       NRECA – Electric cooperative utilities.

       State legislatures.

       Federal/state regulators.

       FERC – US Federal Energy Regulatory Commission.

       NERC – Reliability of US interconnected systems including portions of Canada and Mexico.

       ITU‐T – Communications and many Smart Grid applications.

       OASIS – Cross‐domain standards for СКАЧАТЬ