Policy on Intellectual Property Right (IPR)
1 Introduction
2 Smart grid communications and features
3 Smart grid communication network technologies
3.1 The role of ITU and standards developing organizations
3.2 Coordination within ITU
4 Smart grid objectives and benefits
4.1 Reducing overall electricity demand through system optimization
4.2 Integrating renewable and distributed energy resources
4.3 Supporting smart metering
4.4 Providing a resilient network
5 Smart grid reference architecture overview
6 Power line and cabled standards for smart grid telecommunications
6.1 Smart grid communications over power lines
6.2 Smart grid communications over cable networks
7 Wireless standards for smart grid telecommunications
7.1 Home area network
7.2 WAN/NAN/FAN
8 Interference considerations associated with the implementation of wired
and wireless data transmission technologies used in power grid management
systems
9 Impact of widespread deployment of wired and wireless networks used for
power grid management systems on spectrum availability
10 Conclusion
Annex 1 Examples of existing standards related to power grid management
systems
A1.1 IEEE Standards
A1.2 ITU-T Standards
A1.3 3GPP Standards
A1.4 3GPP2 Standards
Annex 2 Smart grid in North America
A2.1 Introduction
A2.2 Rationale for Smart grid deployment
Annex 3 Smart grid in Europe
A3.1 Introduction
A3.2 European activities in some Member States
Annex 4 Smart grid in Brazil
A4.1 Introduction
A4.2 Brazilian power sector
A4.3 Brazilian smart grid study group
A4.4 Telecommunication issues
A4.5 Technical data
A4.6 LF measurements
A4.7 Conclusion
References
Annex 5 Smart grid in the Republic of Korea
A5.1 Korea’s Smart grid roadmap
A5.2 Technology development
Annex 6 Smart grid in Indonesia
A6.1 Introduction
A6.2 Smart grid development and challenging issues
Annex 7 Researches on wireless access technologies for Smart grid in China
A7.1 Introduction
A7.2 A wireless access technology for Smart grid in China
A7.3 Conclusion