能源互联网信息技术研究综述 - MIT - Massachusetts(17)

[2]. [3]. [4]. [5]. [6]. [7]. [8]. [9]. [10].[11].[12].[13].Hermann W A. Quantifying global energy resources [J]. Energy, 2006, 31(12): 1685-1702.

Liu Z Y. Electricity power and energy in China. Beijing: China Electric Power Press, 2013（in Chinese） (刘振亚，中国电力与能源 [M], 中国电力出版社， 北京，2013)

Rifkin J. The third industrial revolution: How lateral power is transforming energy, the economy, and the world. Palgrave Macmillan, 2011.

NASA Earth's energy budget. Earth radiation budget experiment. (ERBE) NASA Langley Research Center, Langley, VA (2004) See also:

http://asd-rc.nasa.gov/erbe/ASDerbe.html

NASA Surface meteorology and solar energy (release 5). Earth science enterprise program NASA Langley Research Center, Langley, VA (2004) See also: rc.nasa.gov/sse/

Brown R E. Impact of smart grid on distribution system design [C]. Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE. IEEE, 2008: 1-4.

Erol-Kantarci M, Kantarci B, Mouftah H T. Reliable overlay topology design for the smart microgrid network[J]. Network, IEEE, 2011, 25(5): 38-43.

Tsoukalas L H and Gao R. From smart grids to an energy internet -- assumptions, architectures and requirements. The Proceeding of DRPT. Nanjing, China: IEEE, 2008: 94-98.

Tsoukalas L H and Gao R. Inventing energy internet: the role of anticipation in human-centered energy

distribution and utilization [C]. SICE Annual Conference, 2008. IEEE, 2008: 399-403.

Huang A. FREEDM system – a vision for the future grid [C]. IEEE Power and Energy Society General Meeting, 2010: 1-4.

Huang A, Crow M L, Heydt G T, et al. The future renewable electric energy delivery and management (FREEDM) system [J]. The Energy Internet. Proceeding of the IEEE, 2011,99(1):133-148.

Liu Z Y. Smart Grid Techniques [M]. Beijing: China Electric Power Press, 2010（in Chinese）

(刘振亚, 智能电网技术 [M], 中国电力出版社, 北京， 2010.)

[14]. Randy H. Katz, David E. Culler, Seth S, et al. An information - centric energy infrastructure: The Berkeley view [J]. Sustainable Computing: Informatics and Systems, 2011, 7:7-22.

[15].

Blarke M B. Towards an intermittency-friendly energy system: Comparing electric boilers and heat pumps in distributed cogeneration [J]. Applied Energy, 2012, 91(1): 349-365.

[16].

Ackermann T, Andersson G, and Söder L. Distributed generation: a definition [J]. Electric power systems research, 2001, 57(3): 195 - 204.

[17].

Lasseter R H and Piagi P. Microgrid: A conceptual solution [C]. In Proceedings Power Electronics Specialists Conf., Aachen, Germany, Jun. 2004, 6: 4285–4290.

[18]. Keshav S and Rosenberg C. How internet concepts and technologies can help green and smarten the electrical grid, In Proceedings of the first ACM SIGCOMM workshop on Green networking, 2010, 35-40.

[19]. BDI Initiative, Internet of Energy - ICT for Energy Markets of the Future [R], 2008.

[20]. LoCal Project.

http://local.cs.berkeley.edu/wiki/index.php/ 2014.

[21]. PEIR Project. http://peir.cens.ucla.edu/, 2014. [22].

Spotlight project.

http://nesl.ee.ucla.edu/project/show/59, 2014.

[23]. E-Energy - Smart Energy made in Germany [EB/OL]. http://www. e-energy.de/en/. 2014.

[24]. IDEAS Project. http:

www.ecs.soton.ac.uk/research/projects/ 618, 2014.

[25]. Lawrence Livermore National Laboratory Energy Flow Diagram. https://publicaffairs.llnl.gov/ news/energy/energy.html#2008, 2014.

[26]. European Commission, Directorate-General for Energy. Priorities for 2020 and beyond–a blueprint for an integrated European energy network [R]. 2011.

[27].

Wu J D. Towards the third Internet innovative

architecture [J]. High technology and industrialization. 2012, 5 : 56-59. (in chinese) (武建东. 谁将把握电网行业变迁的制高点:关于第三互联网的创新架构[J]. 高科技与产业化. 2012, 5 : 56-59.)

[28]. Cao J W, Wan Y X, Tu G Y, et al. Information system architecture for smart grid [J]. Chinese Journal of Computers, 2013, 36(1): 143 -167. (in Chinese)