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Ieee 2030

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Title: Ieee 2030  
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Subject: Smart grid, IEEE 1667, IEEE 802.11ai, IEEE 1613, Service Interoperability in Ethernet Passive Optical Networks
Collection: Ieee Standards, Smart Grid
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Ieee 2030

IEEE 2030 was a project of the standards association of the Institute of Electrical and Electronics Engineers (IEEE) that developed a "Guide for Smart Grid Interoperability of Energy Technology and Information Technology Operation with the Electric Power System (EPS), and End-Use Applications and Loads".[1][2]


  • Goals 1
    • Security concerns 1.1
    • Government view 1.2
    • Industry view 1.3
    • Community and user view 1.4
    • Indirect effects 1.5
  • Sponsored by SCC21 2
  • References 3


The group provided guidelines for smart grid interoperability. It included a knowledge base addressing terminology, characteristics, functional performance and evaluation criteria, and the application of engineering principles for smart grid interoperability of the electric power system with end-use applications and loads. It also discussed alternate approaches to best practices and how to minimize the impact of lagging participants on compliant ones.

Security concerns

A major goal was to minimize the potential for exploits of insecure AMI "smart meters" which contain "buggy software that's easily hacked," according to Mike Davis of IOActive, who demonstrated how to take over thousands at once at the Black Hat USA 2009 conference.[3] Davis claims that the "vast majority" of such meters use no encryption and ask for no authentication before carrying out sensitive functions such as running software updates and severing customers from the power grid.[4]

Government view

According to the group chair, Dick DeBlasio, program manager at the National Renewable Energy Lab facility of the U.S. Department of Energy and IEEE smart grid liaison to the National Institute of Standards and Technology, the project intends to bring "intelligence and standardization to the way energy is transmitted, distributed, managed and kept secure. And it strongly addresses the need to reduce energy transmission's carbon footprint... provide urgently needed guidelines for smart grid interoperability, building on the many technologies used in the electric power system and merging these with communication, monitoring, and analysis technologies and capabilities.” [5]

Industry view

According to Intel, the project will develop "open standards that will empower energy consumers and drive rapid integration of renewable energy sources, smart buildings, electric vehicles and other intelligent systems.” [5]

Community and user view

The primary purpose of IEEE 2030 is to "permit two way power flow with communication and promote a more reliable and flexible electric power system."[6] Power users (consumer and other) would perceive P2030 as a faster unification of meter, sensor and event data that offers more choice of peak curtailment notification services and power rationing or prioritizing in shortage or outage situations. In other words, as resilient community capabilities.

Indirect effects

Because the communication standards used provide more bandwidth than is required for power control, side effects of meeting reliability and security requirements would include the availability of additional bandwidth for other services (burglary, fire, medical and environmental sensors and alarms, ULC and CCTV monitoring, access control and keying systems, intercoms and secure phone line services running over AC power lines). Services such as radio, TV and general Internet could also run over the same infrastructure as their security needs are far less demanding than power or alarm systems. However, standardizing the tariffs or interfaces for non-power-control applications is not a function of IEEE 2030 itself, no matter how influential its standards may eventually prove for such services. Most such devices are expected to migrate to the more efficient DC Power over Ethernet interfaces over the period in which the project intended to influence AC power standards. Only those that continue to draw AC power directly would participate in controls that it defined.

The project was sponsored by IEEE Standards Coordinating Committee 21 (SCC21).[7] It was part of the IEEE_Smart Grid initiative.[8]

The standard was published in September 2011 after approval.[9]


  1. ^ "IEEE P2030 Official Website". Retrieved 6 March 2012. 
  2. ^ "IEEE, conference drive smart grids - P2030 aims to develop a guide to grid standards". Retrieved 6 March 2012. 
  3. ^ "Black Hat USA 2009". Retrieved 6 March 2012. 
  4. ^ "Buggy 'smart meters' open door to power-grid botnet". 12 June 2009. Retrieved 6 March 2012. 
  5. ^ a b "IEEE Unifies Power, Communications and IT with Launch of Smart Grid Interoperability Standards Project P2030". 4 May 2009. Retrieved 6 March 2012. 
  6. ^ "IEEE P2030 Draft Guide for Smart Grid Interoperability". Retrieved 6 March 2012. 
  7. ^ "IEEE Standards Coordinating Committee 21 (SCC21) Official Website". 
  8. ^ "IEEE Smart Grid Portal". 
  9. ^ IEEE Guide for Smart Grid Interoperability of Energy Technology and Information Technology Operation with the Electric Power System (EPS), End-Use Applications, and Loads. IEEE Std 2030-2011 (IEEE). 10 September 2011.  
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