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Home All issues Volume 23 / No 2 (avril-juin 2015) Nat. Sci. Soc., 23 2 (2015) 133-149 References
Open Access
Issue
Nat. Sci. Soc.
Volume 23, Number 2, avril-juin 2015
Dossier : « À propos des relations natures/sociétés »
Page(s) 133 - 149
DOI https://doi.org/10.1051/nss/2015037
Published online 08 July 2015
  • Babonneau, F., Kanudia, A., Labriet, M., Loulou, R., Vial, J.-P., 2012. Energy security: a robust optimization approach to design a robust European energy supply via TIAM, Environmental Modeling and Assessment, 17, 1, 19-37. [CrossRef] [Google Scholar]
  • Ben-Tal, A., El Ghaoui, L., Nemirovski, A., 2009. Robust optimization, Princeton, Princeton University Press. [Google Scholar]
  • Dessai, S., Hulme, M., 2004. Does climate adaptation policy need probabilities?, Climate Policy, 4, 2, 107-128. [CrossRef] [Google Scholar]
  • Dessai, S., Hulme, M., 2007. Assessing the robustness of adaptation decisions to climate change uncertainties: a case study on water resources management in the east of England, Global Environmental Change, 17, 1, 59-72. [CrossRef] [MathSciNet] [Google Scholar]
  • Dessai, S., Hulme, M., Lempert, R., Pielke, R., 2009. Climate prediction: a limit to adaptation, in Adger, W.N., Lorenzoni, I., O’Brien, K.L. (Eds), Adapting to climate change: thresholds, values, governance, Cambridge (UK)/New York, Cambridge University Press. [Google Scholar]
  • Finon, D., 1979. Scope and limitations of formalized optimisation of a national energy system, the EFOM model, in Strub, A.S. (Ed.), Energy models for the European community. An energy policy special, Guildford, IPC Science and technology Press Limited. [Google Scholar]
  • Fishbone, L.G., Abilock, H., 1981. Markal, a linear- programming model for energy systems analysis: Technical description of the BNL version, International Journal of Energy Research, 5, 4, 353-375. [Google Scholar]
  • Fragnière, E., Haurie, A., 1996. A stochastic programming model for energy/environment choices under uncertainty, International Journal of Environment and Pollution, 6, 4-6, 587-603. [Google Scholar]
  • Haurie, A., Kübler, J.J.E., Clappier, A., van den Bergh, H., 2004. A metamodeling approach for integrated assessment of air quality policies, Environmental Modeling & Assessment, 9, 1, 1-12. [CrossRef] [Google Scholar]
  • Hawkins, E., Sutton, R., 2009. The potential to narrow uncertainty in regional climate predictions, Bulletin of the American Meteorological Society, 90, 8, 1095-1107. [Google Scholar]
  • Hill, D. (Ed.), 1996. The baked apple? Metropolitan New York in the greenhouse, Annals of The New York Academy of Sciences, 790. [Google Scholar]
  • Linnerud, K., Mideksa, T.K., Eskeland, G., 2011. The impact of climate change on nuclear power supply, The Energy Journal, 32, 1, 149-168. [CrossRef] [Google Scholar]
  • Loulou, R., Kanudia, A., 1999. Minimax regret strategies for greenhouse gas abatement: methodology and application, Operations Research Letters, 25, 219-230. [CrossRef] [MathSciNet] [Google Scholar]
  • Loulou, R., Labriet, M., 2008. ETSAP-TIAM: the TIMES integrated assessment model, Part I: Model structure, Computational Management Science, 5, 1, 7-40. [CrossRef] [MathSciNet] [Google Scholar]
  • Loulou, R., Labriet, M., Kanudia, A., 2009. Deterministic and stochastic analysis of alternative climate targets under differentiated cooperation regimes, Energy Economics, 31, supp. 2, 131-143. [Google Scholar]
  • Oremip (Observatoire régional de l’énergie de Midi-Pyrénées), 2013. Chiffres clés de l’énergie et des gaz à effet de serre en Midi-Pyrénées 2011, Oremip. [Google Scholar]
  • Région Midi-Pyrénées, 2011. Schéma régional climat-air-énergie (SRCAE) de Midi-Pyrénées : projet de schéma soumis à consultation. Document principal et annexes, Région Midi-Pyrénées. [Google Scholar]
  • Thénie, J., van Delft, C., Vial, J.-P., 2007. Automatic formulation of stochastic programs via an algebraic modeling language, Computational Management Science, 4, 1, 17-40. [CrossRef] [MathSciNet] [Google Scholar]
  • Vázquez-Rowe, I., Rege, S., Marvuglia, A., Thénie, J., Haurie, A., Benetto, E., 2013. Application of three independent consequential LCA approaches to the agricultural sector in Luxembourg, The International Journal of Life Cycle Assessment, 18, 8, 1593-1604. [Google Scholar]
  • Wene, C.-O., 1980. The optimum mix of conservation and substitution: an example from retrofitting of old buildings, International Journal of Energy Research, 4, 3, 271-282. [Google Scholar]
  • Wene, C.-O., Andersson, O., 1983. Long-range community energy planning: case study Jönköping (in Swedish), Efn/AES, Stockholm, Energiforskningsnämnden. [Google Scholar]
  • Wene, C.-O., Rydén, B., 1988. A comprehensive energy model in the municipal energy planning process, European Journal of Operational Research, 33, 2, 212-222. [Google Scholar]

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