Éléments de comparaison de prévisions statistiques des pics d'ozone

Bel, L.; Bellanger, L.; Bonneau, V.; Ciuperca, G.; Dacunha-Castelle, D.; Deniau, C.; Ghattas, B.; Misiti, M.; Misiti, Y.; Oppenheim, G.; Poggi, J. M.; Tomassone, R.

Bel, L. ; Bellanger, L. ; Bonneau, V. ; Ciuperca, G. ; Dacunha-Castelle, D. ; Deniau, C. ; Ghattas, B. ; Misiti, M. ; Misiti, Y. ; Oppenheim, G. ; Poggi, J. M. ; Tomassone, R.

Revue de Statistique Appliquée, Tome 47 (1999), p. 7-25 / Harvested from Numdam

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Publié le : 1999-01-01

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@article{RSA_1999__47_3_7_0,
     author = {Bel, Louis and Bellanger, Lise and Bonneau, V. and Ciuperca, G. and Dacunha-Castelle, Didier and Deniau, Claude and Ghattas, Badih and Misiti, M. and Misiti, Y. and Oppenheim, G. and Poggi, Jean-Michel and Tomassone, Richard},
     title = {\'El\'ements de comparaison de pr\'evisions statistiques des pics d'ozone},
     journal = {Revue de Statistique Appliqu\'ee},
     volume = {47},
     year = {1999},
     pages = {7-25},
     language = {fr},
     url = {http://dml.mathdoc.fr/item/RSA_1999__47_3_7_0}
}

Bel, L.; Bellanger, L.; Bonneau, V.; Ciuperca, G.; Dacunha-Castelle, D.; Deniau, C.; Ghattas, B.; Misiti, M.; Misiti, Y.; Oppenheim, G.; Poggi, J. M.; Tomassone, R. Éléments de comparaison de prévisions statistiques des pics d'ozone. Revue de Statistique Appliquée, Tome 47 (1999) pp. 7-25. http://gdmltest.u-ga.fr/item/RSA_1999__47_3_7_0/

Bibliographie

[1] Bel L., Bellanger L., Bonneau V., Ciuperca G., Dacunha-Castelle D., Deniau C., Ghattas B., Misiti M., Misiti Y., Oppenheim G., Poggi J-M., Tomassone R. (1997). Prévisions des pointes de pollution dans la région parisienne, O3 et NO2: phase opérationnelle. Rapport de contrat de recherche Airparif, oct., 193 p.

[2] Breiman L., Friedman J.H., Olshen R.A., Stone C.J. (1984). Classification and Regression Tree. Wadsworth, Belmont, CA. | MR 726392 | Zbl 0541.62042

[3] Brion D., Gilibert E. (1997). Forecasting Atmospheric Pollution Peaks over the Ile-de-France. Preprint, 36 p.

[4] Clark T.L., Karl T.R. (1982). Application of prognostic meteorological variables to forecasts of daily maximum one-hour ozone concentration in the northeastern United States. Journ. Applied Meteo., vol. 21 (11), 1662- 1671.

[5] Eder B.K., Davis J.M., Bloomfield P. (1994). An automated classification scheme designed to better elucidate the dependence of ozone on meteorology. Journal of Applied Meteorology, vol. 33, 1182-1198.

[6] Fromage A. (1996). Prévision des pointes de pollution atmosphérique : état de l'art dans le monde et perspectives pour la région Ile-de-France. Mémoire Ecole des Mines de Paris.

[7] Härdle W. (1990). Applied nonparametric regression. Cambridge Univ. Press. | MR 1161622 | Zbl 0714.62030

[8] Hastie T., Tibshirani R. (1990). Generalized additive models. Chapman & Hall. | MR 1082147 | Zbl 0747.62061

[9] Jin S., Demerjian K. (1993). A photochemical box model for urban air quality study. Atmos. Environ., 27B, 371-387.

[10] Karl T.R. (1979). Potential application of model output statistics (MOS) to forecasts surface ozone concentrations. Journ. Applied Meteo., vol. 18 (3), 254- 265.

[11] Linton O.B., Härdle W. (1996). Estimation of additive regression models with known links. Biometrika, vol. 83, 529-540. | MR 1423873 | Zbl 0866.62017

[12] Milionis A.E., Davies T.D. (1994). Regression and stochastic models for air pollution, I and II. Atmospheric Environment, 28 (17), 2801-2822.

[13] National Research Council (1991). Rethinking the ozone problem in urban and regional air pollution. National Academy Press, Washington, D.C.

[14] Poggi J-M. (1994). Prévision non paramétrique de la consommation électrique. Revue de Statistique Appliquée, XLII (4), 83-98. | Numdam

[15] Poulos G.S., Pielke R.A. (1994). A numerical analysis of Los Angeles basin pollution transport to the Grand Canyon under stably stratified, southwest flow conditions. Atmospheric Environment, 28 (20), 3329-3357.

[16] Ryan W.F. (1995). Forecasting severe ozone episodes in the baltimore metropolitan area. Atmospheric Environment, 29 (17), 2387-2398. | MR 1345149

[17] Seinfeld J.H. (1988). Ozone air quality models : a critical review. JAPCA, vol. 38, 616-645.

[18] Sheifinger H., Stohl A., Kromp-Kolb H., Spangl W. (1996). A statistical method for predicting daily maximum ozone concentrations. Gefahrstoffe-Reinhaltung der Luft, vol. 56, 133-137.

[19] Tomassone R., Dervin C., Masson J-P. (1993). Biométrie, modélisation des phénomènes biologiques. Masson, Paris. | Zbl 0789.62091

[20] Toupance G. (1988). L'ozone dans la basse troposphère. Théorie et pratique. Univ. de Créteil.

[21] Vautard R., Beekmann M., Honoré C. (1997). Inverse modeling of pollution episodes over the Paris area using a photochemical box model. Air pollution modelling, Bologne, 16-18 sept., proceedings in press.

[22] Venables W.N., RIPLEY B.D (1994). Modern Applied Statistics with S-Plus. Springer-Verlag. | MR 1337030 | Zbl 0806.62002

[23] Wilks D.R. (1995). Statistical methods in the atmospheric sciences : an introduction. Academic Press.

[24] Walcek C.J., Yuan H.H. (1995). Calculated influence of temperaturerelated factors on ozone formation rates in the lower troposphere. J. of Applied Meteorology, vol. 34, 1056-1069.

[25] Wipij D., Sally Liu L-J. (1994). Prediction models for personal ozone exposure assessment in «Case Studies in Biometry». Lange N. et al. (Ed) Wiley, 41 - 56.