The Strategy of Creating a Virtual Interactive Platform for the Low-Carbon Open Innovations Relay
A strategy for the creation of a Virtual Interactive Platform (or Networking Platform) to combine the four web-baseness of expert systems on the transfer and diffusion of low-carbon technologies. It used the concept of “Open Innovation” and “Triple Helix” with regard to theories of “Green Growth” and “Carbon Footprint”. Interpreters expert systems operate on the basis of models of the “Predator-Prey” for the process of transfer and diffusion of technologies, taking into account the features caused by the need to mitigate the effects of climate change.
[1] Communication From The Commission To The European Parliament,
The Council, The European Economic And Social Committee And The
Committee Of The Regions “Analysis of options to move beyond 20%
greenhouse gas emission reductions and assessing the risk of carbon
leakage” - {SEC(2010) 650}. - Brussels, 26.5.2010. - COM(2010) 265
final.
[2] Intergovernmental Panel on Climate Change (2000) Methodological and
Technological Issues in Technology Transfer / Bert Metz, Ogunlade
Davidson, Jan-Willem Martens, Sascha Van Rooijen and Laura Van Wie
Mcgrory (Eds.). - Cambridge University Press, UK. - 432 pp.
[3] Krishna, Ravi Srinivas, Role of Open Innovation Models and IPR in
Technology Transfer in the Context of Climate Change Mitigation
(December 13, 2011). Diffusion Of Renewable Energy Technologies:
Case Studies Of Enabling Frameworks In Developing Countries -
Technology Transfer Perspective Series, pp. 147-158, J. Haselip, I.
Nygaard, U. Hansen, E. Ackom, eds., UNEP Riso Centre, Denmark,
2011.
[4] http://www.climateimpactsonline.com/
[5] http://climate.nasa.gov/interactives/climate_time_machine
[6] http://www.natcarbviewer.com/
[7] http://www.zeroemissionsplatform.eu/
[8] http://www.lcoir-ua.eu/carbon.html
[9] H. W. Chesbrough, W. Vanhaverbeke and J. West (Eds.), “Open
Innovation: researching a new paradigm”, Oxford University Press,
New York, 2006.
[10] R. Viale, H. Etzkowitz, “The Capitalization of Knowledge: A Triple
Helix of University-Industry-Government”, Edward Elgar Publishing,
2010, 368 pp.
[11] “Inclusive Green Growth: The Pathway to Sustainable Development”,
The World Bank, Washington, 2012, 174 pp.
[12] D. Bagchi, S. Biswas, Y. Narahari, P. Suresh, L. U. Lakshmi,
N. Viswanadham, S. V. Subrahmanya, “Carbon Footprint Optimization:
Game Theoretic Problems and Solutions”, ACM SIGecom Exchanges,
Vol. 11, No. 1, 2012, pp. 34-38.
[13] International Energy Agency, “CO2 EMISSIONS FROM FUEL
COMBUSTION Highlights (2012 Edition)”, IEA/OECD, 2012, 138 pp.
[14] Communication from the Commission to the European Parliament, The
Council, The European Economic and Social Committee and the
Committee of the Regions, “A Roadmap for moving to a competitive low
carbon economy in 2050”. - {SEC(2011) 287 final}, {SEC(2011) 288
final}, {SEC(2011) 289 final}. - Brussels, 8.3.2011. - COM(2011) 112
final.
[15] International Energy Agency, “Energy Technology Perspectives 2012:
Pathways to a Clean Energy System”, IEA/OECD, Paris, 2012, 700 pp.
[1] Communication From The Commission To The European Parliament,
The Council, The European Economic And Social Committee And The
Committee Of The Regions “Analysis of options to move beyond 20%
greenhouse gas emission reductions and assessing the risk of carbon
leakage” - {SEC(2010) 650}. - Brussels, 26.5.2010. - COM(2010) 265
final.
[2] Intergovernmental Panel on Climate Change (2000) Methodological and
Technological Issues in Technology Transfer / Bert Metz, Ogunlade
Davidson, Jan-Willem Martens, Sascha Van Rooijen and Laura Van Wie
Mcgrory (Eds.). - Cambridge University Press, UK. - 432 pp.
[3] Krishna, Ravi Srinivas, Role of Open Innovation Models and IPR in
Technology Transfer in the Context of Climate Change Mitigation
(December 13, 2011). Diffusion Of Renewable Energy Technologies:
Case Studies Of Enabling Frameworks In Developing Countries -
Technology Transfer Perspective Series, pp. 147-158, J. Haselip, I.
Nygaard, U. Hansen, E. Ackom, eds., UNEP Riso Centre, Denmark,
2011.
[4] http://www.climateimpactsonline.com/
[5] http://climate.nasa.gov/interactives/climate_time_machine
[6] http://www.natcarbviewer.com/
[7] http://www.zeroemissionsplatform.eu/
[8] http://www.lcoir-ua.eu/carbon.html
[9] H. W. Chesbrough, W. Vanhaverbeke and J. West (Eds.), “Open
Innovation: researching a new paradigm”, Oxford University Press,
New York, 2006.
[10] R. Viale, H. Etzkowitz, “The Capitalization of Knowledge: A Triple
Helix of University-Industry-Government”, Edward Elgar Publishing,
2010, 368 pp.
[11] “Inclusive Green Growth: The Pathway to Sustainable Development”,
The World Bank, Washington, 2012, 174 pp.
[12] D. Bagchi, S. Biswas, Y. Narahari, P. Suresh, L. U. Lakshmi,
N. Viswanadham, S. V. Subrahmanya, “Carbon Footprint Optimization:
Game Theoretic Problems and Solutions”, ACM SIGecom Exchanges,
Vol. 11, No. 1, 2012, pp. 34-38.
[13] International Energy Agency, “CO2 EMISSIONS FROM FUEL
COMBUSTION Highlights (2012 Edition)”, IEA/OECD, 2012, 138 pp.
[14] Communication from the Commission to the European Parliament, The
Council, The European Economic and Social Committee and the
Committee of the Regions, “A Roadmap for moving to a competitive low
carbon economy in 2050”. - {SEC(2011) 287 final}, {SEC(2011) 288
final}, {SEC(2011) 289 final}. - Brussels, 8.3.2011. - COM(2011) 112
final.
[15] International Energy Agency, “Energy Technology Perspectives 2012:
Pathways to a Clean Energy System”, IEA/OECD, Paris, 2012, 700 pp.
@article{"International Journal of Earth, Energy and Environmental Sciences:65254", author = "Mykola S. Shestavin", title = "The Strategy of Creating a Virtual Interactive Platform for the Low-Carbon Open Innovations Relay", abstract = "A strategy for the creation of a Virtual Interactive Platform (or Networking Platform) to combine the four web-baseness of expert systems on the transfer and diffusion of low-carbon technologies. It used the concept of “Open Innovation” and “Triple Helix” with regard to theories of “Green Growth” and “Carbon Footprint”. Interpreters expert systems operate on the basis of models of the “Predator-Prey” for the process of transfer and diffusion of technologies, taking into account the features caused by the need to mitigate the effects of climate change.
", keywords = "Climate Change, Expert Systems, Low-Carbon Technology, Open Innovation, Virtual Interactive Platform. ", volume = "7", number = "10", pages = "655-6", }
