Читать книгу Smart Grid Telecommunications - Ramon Ferrús - Страница 49

References

Оглавление

1 1 Department of Energy – USA (2017). Transforming the Nation's Electricity System: The Second Installment of the Quadrennial Energy Review (DOE/EPSA‐0008) [Online]. https://www.energy.gov/sites/prod/files/2017/02/f34/Quadrennial%20Energy%20Review‐‐Second%20Installment%20%28Full%20Report%29.pdf (accessed 4 October 2020).

2 2 Constable, G. and Somerville, B. (2003). A Century of Innovation: Twenty Engineering Achievements that Transformed Our Lives. Washington, DC: The National Academies Press.

3 3 (2017). Universal energy access by 2030 is now within reach thanks to growing political will and falling costs – news. Energy Access Outlook 2017 (19 October 2017). https://www.iea.org/news/universal‐energy‐access‐by‐2030‐is‐now‐within‐reach‐thanks‐to‐growing‐political‐will‐and‐falling‐costs (accessed 24 October 2020).

4 4 Pérez‐Arriaga, I.J. (ed.) (2013). Regulation of the Power Sector. London: Springer‐Verlag.

5 5 IEC (2020). World Plugs: List View by Frequency. https://www.iec.ch/worldplugs/list_byfrequency.htm (accessed 24 October 2020).

6 6 IEC 60050 (2020). International electrotechnical vocabulary – welcome. Electropedia: The World's Online Electrotechnical Vocabulary. http://www.electropedia.org/ (accessed 18 October 2020).

7 7 Goodman, F.R. (1998). Integration of Distributed Resources in Electric Utility Systems: Current Interconnection Practice and Unified Approach. Electric Power Research Institute – EPRI, Technical TR‐111489. https://www.epri.com/research/products/TR‐111489 (accessed 24 October 2020).

8 8 IEEE Std 1547‐2018 (2018). Standard for Interconnection and Interoperability of Distributed Energy Resources with Associated Electric Power Systems Interfaces. IEEE [online]. https://standards.ieee.org/standard/1547‐2018.html (accessed 8 October 2020).

9 9 (2007). The Potential Benefits of Distributed Generation and the Rate‐Related Issues that may Impede Its Expansion. Report Pursuant to Section 1817 of the Energy Policy Act of 2005 (June 2007) [Online]. https://www.ferc.gov/sites/default/files/2020‐04/1817_study_sep_07.pdf (accessed 4 October 2020).

10 10 US EPA (2015). Distributed generation of electricity and its environmental impacts. US EPA (4 August 2015). https://www.epa.gov/energy/distributed‐generation‐electricity‐and‐its‐environmental‐impacts (accessed 4 October 2020).

11 11 Kassakian, J.G. and Schmalensee, R. (eds.) (2011). The Future of the Electric Grid: An Interdisciplinary MIT Study. Massachusetts Institute of Technology.

12 12 Bush, S.F. (2014). Smart Grid: Communication‐Enabled Intelligence for the Electric Power Grid. Wiley: Chichester, UK.

13 13 Statistical Factsheet 2018 (2020). Brussels – Belgium (June 2019) [Online]. https://eepublicdownloads.blob.core.windows.net/public‐cdn‐container/clean‐documents/Publications/Statistics/Factsheet/entsoe_sfs2018_web.pdf (accessed 4 October 2020).

14 14 E.DSO in Numbers (2017). Brussels – Belgium [Online]. https://www.edsoforsmartgrids.eu/wp‐content/uploads/EDSO‐in‐Numbers‐2017.pdf (accessed 4 October 2020).

15 15 Blume, S.W. (2017). Electric Power System Basics for the Nonelectrical Professional, 2e. Wiley‐IEEE Press.

16 16 (2014) An Introduction to Medium and Low Voltage Cables in Distribution Networks as Support of Smart Grids. Brussels – Belgium (June 2014) [Online]. https://www.europacable.eu/wp‐content/uploads/2017/07/Introduction‐to‐Distribution‐Networks‐2014‐06‐16.pdf (accessed 4 October 2020).

17 17 Madrigal, M., Uluski, R., and Mensan Gaba, K. (2017). Practical Guidance for Defining a Smart Grid Modernization Strategy: The Case of Distribution (Revised Edition). The World Bank.

18 18 Haase, P. (2005). INTELLIGRID: a smart network of power. EPRI J. 2005 (Fall): 26–32.

19 19 Carvallo, A. and Cooper, J. (2015). The Advanced Smart Grid: Edge Power Driving Sustainability, 2e. Boston: Artech House.

20 20 Gellings, C.W. (2009). The Smart Grid: Enabling Energy Efficiency and Demand Response. The Fairmont Press Inc.

21 21 A. Proudlove, B. Lips, and D. Sarkisian (2020). North Carolina Clean Energy Technology Center, The 50 States of Grid Modernization: Q1 2020. Quarterly Report (April 2020) [Online]. https://nccleantech.ncsu.edu/wp‐content/uploads/2020/04/Q12020_gridmod_exec_final.pdf (accessed 4 October 2020).

22 22 World Economic Forum (2017). The Future of Electricity. New Technologies Transforming the Grid Edge (March 2017) [Online]. http://www3.weforum.org/docs/WEF_Future_of_Electricity_2017.pdf (accessed 24 October 2020).

23 23 World Telecommunication/ICT Indicators Database (2020). https://www.itu.int/en/ITU‐D/Statistics/Pages/publications/wtid.aspx (accessed 24 October 2020).

24 24 E.DSO (2020). European technology platform for smartGrids. About Us. https://www.edsoforsmartgrids.eu/policy/eu‐steering‐initiatives/smart‐grids‐european‐technology‐platform/ (accessed 3 October 2020).

25 25 US Department of Energy (2020). About Us. https://www.energy.gov/about‐us (accessed 3 October 2020).

26 26 International Energy Agency (IEA) (2020). About. https://www.iea.org/about (accessed 3 October 2020).

27 27 International Energy Agency – IEA (2011). Technology Roadmap: Smart Grids. OECD Publishing.

28 28 World Economic Forum (2020). Our Mission. https://www.weforum.org/about/world‐economic‐forum/ (accessed 3 October 2020).

29 29 Franz, O., Wissner, M., Büllingen, F. et al. (2006). Potenziale der Informations‐ und Kommunikations‐Technologien zur Optimierung der Energieversorgung und des Energieverbrauchs (eEnergy). Bad Honnef: WIK.

30 30 Park, M.‐G., Cho, S.‐B., Chung, K.‐H. et al. (2014). Electricity market design for the incorporation of various demand‐side resources in the Jeju smart grid test‐bed. J. Electr. Eng. Technol. 9 (6): 1851–1863. https://doi.org/10.5370/JEET.2014.9.6.1851.

31 31 Goel, S., Bush, S.F., and Bakken, D. (eds.) (2013). IEEE Vision for Smart Grid Communications: 2030 and Beyond. IEEE.

32 32 GRID 2030 (2003). A National Vision for Electricity's Second 100 Years (July 2003) [Online]. https://www.energy.gov/oe/downloads/grid‐2030‐national‐vision‐electricity‐s‐second‐100‐years (accessed 7 October 2020).

33 33 Radio Regulations (2020). http://www.itu.int/pub/R‐REG‐RR (accessed 18 October 2020).

34 34 Sendin, A., Sanchez‐Fornie, M.A., Berganza, I. et al. (2016). Telecommunication Networks for the Smart Grid. Artech House.

35 35 (2020). Electricity System Development: A Focus on Smart Grids Overview of Activities and Players in Smart Grids [Online]. https://www.unece.org/fileadmin/DAM/energy/se/pdfs/eneff/eneff_h.news/Smart.Grids.Overview.pdf (accessed 7 October 2020).

36 36 Maitland, D. (2020). Report of the Independent Commission For World Wide Telecommunications Development. ITU – Independent Commission for World Wide Telecommunications Development (December 1984) [Online]. http://search.itu.int/history/HistoryDigitalCollectionDocLibrary/12.5.70.en.100.pdf (accessed 8 October 2020).

37 37 Forge, S., Horvitz, R., and Blackman, C. (2014). Is Commercial Cellular Suitable for Mission Critical Broadband?: Study on Use of Commercial Mobile Networks and Equipment for “Mission‐Critical” High‐Speed Broadband Communications in Specific Sectors: Final Report. Luxembourg: Publications Office.

38 38 (2020). Real‐time Spanish Electricity Demand. https://demanda.ree.es/visiona/peninsula/demanda/total/ (accessed 29 November 2020).

39 39 Rocky Mountain Institute (2014). The Economics of Grid Defection [Online]. https://rmi.org/insight/economics‐grid‐defection/ (accessed 8 October 2020).

40 40 Smart Grids Explained – YouTube – EENERGY. https://youtu.be/5cIy‐5c1DdE.

41 41 Cherukupalli, S.E. and Anders, G.J. (2020). Distributed Fiber Optic Sensing and Dynamic Rating of Power Cables. Wiley.

42 42 REV Connect (2020). Accelerating Innovative Energy Partnerships in New York State. https://nyrevconnect.com/ (accessed 24 October 2020).

43 43 T. Godfrey (2020). Guidebook for Advanced Distribution Automation Communications. Electric Power Research Institute – EPRI, Technical Report 3002003021 (November 2014) [Online]. https://www.epri.com/research/products/000000003002003021 (accessed 8 October 2020).

44 44 Taxation Ruling TR 2020/3 (2020) [Online]. https://www.ato.gov.au/law/view/document?docid=TXR/TR20203/NAT/ATO/00001 (accessed 8 October 2020).

45 45 ISO/IEC (2020). ISO/IEC Guide 2:2004 Standardization and Related Activities – General Vocabulary Ed. 8 [Online]. https://isotc.iso.org/livelink/livelink/Open/8389141 (accessed 29 November 2020).

46 46 IEC (2020). Smart Grid Standards Map. http://smartgridstandardsmap.com/ (accessed 24 October 2020).

47 47 Study Group 15 at a Glance (2020). ITU‐T Study Group 15 – Networks, Technologies and Infrastructures for Transport, Access and Home. https://www.itu.int/en/ITU‐T/about/groups/Pages/sg15.aspx (accessed 24 October 2020).

48 48 ETSI (2020). Standards, mission, vision, direct member participation. ETSI. https://www.etsi.org/about (accessed 24 October 2020).

49 49 European Committee for Standardization – CEN (2020). Who We Are. https://www.cen.eu/about/Pages/default.aspx (accessed 24 October 2020).

50 50 CENELEC (2020). About CENELEC – Who We Are. https://www.cenelec.eu/aboutcenelec/whoweare/index.html (accessed 24 October 2020).

51 51 American National Standards Institute – ANSI (2020). ANSI Introduction. https://www.ansi.org:443/about/introduction (accessed 24 October 2020).

52 52 (2020). About 3GPP. https://www.3gpp.org/about‐3gpp (accessed 29 November 2020).

53 53 National Institute of Standards and Technology (2015). About NIST (5 January 2015). https://www.nist.gov/about‐nist (accessed 24 October 2020).

54 54 Conseil International des Grands Reseaux Electriques (2020). Introducing CIGRE. https://www.cigre.org/GB/about/introducing‐cigre.asp (accessed 24 October 2020).

55 55 CIGRE Study Committee SC D2 (2020). CIGRE SC D2 > Home. Information Systems and Telecommunication. http://d2.cigre.or/home.asp (accessed 24 October 2020).

56 56 Electric Power Research Institute (2020). EPRI Home. https://www.epri.com/about (accessed 24 October 2020).

57 57 EUTC (2020). Welcome to European Utility Technology Council. https://eutc.org/ (accessed 29 November 2020).

58 58 (2020). Utilities Telecom & Technology Council America Latina. http://www.utcamericalatina.org/ (accessed 29 November 2020).

59 59 OCDE (2020). Universal Service Obligations. DAF/COMP(2010)13 (April 2010) [Online]. http://www.oecd.org/regreform/sectors/45036202.pdf (accessed 8 October 2020).

60 60 ITU‐T Study Group 12 – Performance, QoS and QoE (2020). Study Group 12 at a Glance. https://www.itu.int/en/ITU‐T/about/groups/Pages/sg12.aspx (accessed 8 October 2020).

61 61 Blume, S.W. (2011). High Voltage Protection for Telecommunications. Piscataway, NJ: IEEE Press.

62 62 (2011). Enabling and Managing End‐to‐End Resilience. Heraklion – Greece [Online]. https://www.enisa.europa.eu/activities/identity‐and‐trust/library/deliverables/e2eres/at_download/fullReport (accessed: 8 October 2020).

63 63 CISA (2020). Understanding Denial‐of‐Service Attacks. https://us‐cert.cisa.gov/ncas/tips/ST04‐015 (accessed 24 October 2020).

64 64 (2020). Navigant Research Report Shows Adopting a Fiber Optic Backbone Is a Strategic Imperative for Utilities' Long‐term Success. https://guidehouseinsights.com/news‐and‐views/navigant‐research‐report‐shows‐adopting‐a‐fiber‐optic‐backbone‐is‐a‐strategic‐imperative‐for‐utiliti (accessed 18 October 2020).

65 65 Bennet, R., Barnickel, D.J., Barzegar, F. et al. (2013). Millimeter‐wave surface‐wave communications. US 8897697 B1, 6 November 2013.

66 66 History of the JRC (2020). https://www.jrc.co.uk/about‐jrc/history‐of‐the‐jrc (accessed 29 December 2020).

Smart Grid Telecommunications

Подняться наверх