Common Information Model (electricity)

This article is about the standard for electric utilities. For the standard for IT environments, see Common Information Model (computing).

In electric power transmission and distribution, the Common Information Model (CIM), a standard developed by the electric power industry that has been officially adopted by the International Electrotechnical Commission (IEC), aims to allow application software to exchange information about an electrical network.[1]

The CIM is currently maintained as a UML model.[2] It defines a common vocabulary and basic ontology for aspects of the electric power industry. The CIM models the network itself using the 'wires model'. This describes the basic components used to transport electricity. Measurements of power are modeled by another class. These measurements support the management of powerflow at the transmission level, and by extension, the modeling of power through a revenue meter on the distribution network. The CIM is also used to derive messages for the wholesale energy market. The CIM can be used to derive 'design artifacts' (e.g. XML Schema, RDF Schema) as needed for the integration of related application software.

The standard that defines the core packages of the CIM is IEC 61970-301, with a focus on the needs of electricity transmission, where related applications include energy management system, SCADA, planning and optimization. The IEC 61970-501 and 61970-452 standards define an XML format for network model exchanges using RDF. The IEC 61968 series of standards extend the CIM to meet the needs of electrical distribution, where related applications include distribution management system, outage management system, planning, metering, work management, geographic information system, asset management, customer information systems and enterprise resource planning.

Difference between CIM and SCL

CIM and Substation Configuration Language (SCL) are developed in parallel under different working groups of IEC TC 57. Though both have the ability to exchange model and configuration information between different equipment or tools and use XML for storage, there are lot of differences between both the standards.

  1. CIM is completely developed based on UML which is developed on the basis of inheritance. SCL representation is sequential or hierarchical in nature.
  2. Although the CIM is not limited to modeling equipment, the CIM approach gives emphasis on the equipment inheritance and its interconnection whereas SCL starts from a functional point of view.
  3. CIM is broadly applied to enterprise integration and related information exchanges between systems including, but not limited to, EMS, DMS, Planning, Energy Markets and Metering, where SCL is limited to exchange of data within substation equipment and tools.

Harmonization of CIM and SCL

There are applications which use both these standards and there will be significant improvements on interoperability and data exchange between the applications if SCL model can be transformed into CIM based models. Without the harmonization of these standards, the development and implementation of systems and applications will result in a significant amount of engineering and design that applies to only one implementation. The harmonization can be done by mixing equipment topological approach of CIM and functionality approach of SCL. IEC TC57 WG19 is involved in the harmonization CIM & SCL. This will involve the following steps

  1. Mapping of logical nodes of IEC 61850 (SCL) to equipment defined in CIM.
  2. Use Web Ontology Language to define the mapping patterns for the areas to which the automatic mapping cannot be performed.
  3. The complete approach should not modify the existing models to large extent.

See also

References

External links

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