For his PhD (awarded in 1965), Robert worked at McGill University on the spectral model using spectral harmonics for the representation of atmospheric fields in global climate and numerical weather prediction models.[2]
Between 1963 and 1970, Robert developed the semi-implicit time integration algorithm for an efficient integration of the primitive equations for numerical weather prediction and climate models. Several weather centres in the world adopted this algorithm for their models (Canada in 1974, Australia in 1976, ECMWF in 1977, USA in 1980).
In 1980, Robert successfully combined his semi-implicit scheme with existing Lagrangian techniques which allows the use of much longer time steps and hence produces a very efficient integration of meteorological equations.
Robert retired from the Canadian Meteorological Centre in Montreal in 1987 and took a Faculty position at the Université du Québec à Montréal. There he worked with colleagues to develop a fully elastic atmospheric model that relaxed the hydrostatic approximation used by all large-scale climate and numerical weather prediction models, thus paving the way to a universal model formulation usable at all scales. The resulting model came to be known by the name of Mesoscale Compressible Community model (MC2).
Robert's career was devoted to developing and implementing numerical techniques to solve the interacting time-dependentpartial differential equations governing the chronological development of atmospheric behavior in an efficient manner, while still retaining accuracy; in contrast to many scientists who were concerned only with precision.
International influence[]
During his career, André Robert held several positions in national and international organizations:[3]
In 1968-69, he was a visiting professor at the American meteorologists training center in Washington, D.C.
From 1968 to 1972, he was a member of the meteorology and atmospheric sciences subcommittee on the National Research Council of Canada.
From 1972 to 1976 he was editor of publications of the WMO in numerical weather prediction.
In 1972-1973, he was President of the Canadian Meteorological and Oceanographic Society. At the same time, he was president of the group for the organization of a WMO conference on the subgrid parameterization in Leningrad (USSR), and another on modeling in Tallahassee (Florida).
In 1974, he chaired the International Symposium on Spectral Methods in Numerical Weather Prediction in Copenhagen, Denmark. In 1975, he was a member of the Canadian delegation to the Seventh World Meteorological Organization Congress. From 1980 to 1983, he was a member of the selection committee for fellowships in meteorology, astronomy and Aeronomy of the Natural Sciences and Engineering Research Council.
Bergeron, G., J. Côté and A. Robert, 1990 : Resolution sensitivity experiments with a spectral model of the shallow water equations. Recherche note. 14 p. plus fig. and tables.
Robert, André; Yakimiw, Evhen (1986). "Identification and elimination of an inflow boundary computational solution in limited area model integrations". Atmosphere-Ocean. 24 (4): 369–385. doi:10.1080/07055900.1986.9649258.
Robert, André (1976). Hartmann, Dennis L.; Merilees, Philip Errol (eds.). Sensitivity experiments for the development of NWP models. Proceedings of the (eleventh) Stanstead Seminar : held at Bishop's University, Lennoxville, Québec, Canada, July 7–11, 1975. Publication in meteorology. 114. Department of Meteorology, McGill University. pp. 68–81. OCLC9053677.
Robert, A., 1974: Garp activities related to computational considerations. WMO Working Group on Numerical Experimentation, Report No. 4, pp. 2–23.
Robert, A., 1973: Computational resolution requirements for accurate medium-range numerical predictions. Symposium on difference and spectral methods for atmosphere and ocean dynamics problems. Siberian Branch of the Academy of Sciences, Novosibirsk, U.S.S.R., pp. 82–102.
Robert, André (1971). Merilees, Philip Errol (ed.). Truncation errors in a filtered barotropic model. Proceedings of the (ninth) Stanstead Seminar : held at MacDonald College Campus, McGill University, Ste-Anne-de-Bellevue, Quebec, Canada, July 12–16, 1971. Publication in meteorology. 103. Department of Meteorology, McGill University. pp. 13–28. OCLC2529697.
Kwizak, M. and A. Robert, 1971: A semi-implicit scheme for grid point atmospheric models of the primitive equations. Monthly Weather Review, Vol. 99, No. 1, pp. 32–36.
Robert, A., F.G. Shuman and J.P. Gerrity, 1970: On partial difference equations in mathematical physics. Monthly Weather Review, Vol. 98, No. 1, pp. 1–6.
Robert, A., 1969: An unstable solution to the problem of advection by the finite-difference Eulerian method. Office Note No. 30, National Meteorological Center, Washington, D.C.
Robert, A., 1969: Forecast experiments with a spectral model. Proceedings of Seminars on the middle-atmosphere. Stanstead, Québec. Department of Meteorology, McGill University, pp. 69–82.
Robert, A., 1968: Résultats de quelques applications récentes de la méthode spectrale. La Météorologie. Paris, France. pp. 453–469.
Robert, A., 1968: The treatment of moisture and precipitation in atmospheric models integrated by the spectral method. Journal of Applied Meteorology. Vol. 7, pp. 730–735.
Robert, A., 1968: The integration of a spectral model of the atmosphere by the implicit method. Proceedings of the International Symposium on Numerical Weather Prediction. Tokyo. pp. 19–25.
Robert, A., 1968: Integration of a spectral barotropic model from global 500-mb charts. Monthly Weather Review, Vol. 96, pp. 83–85.
Robert, A., 1967: The incorporation of precipitation into a spectral model of the atmosphere. Proceedings of the Seminar on the middle-atmosphere. Stanstead, Québec. Department of Meteorology, McGill University, pp. 91–114.
Robert, A., 1966: The integration of a low order spectral form of the primitive meteorological equations. Journal of the Meteorological Society of Japan. Vol. 44, pp. 237–245.
Robert, A., 1965: The integration of the spectral form of the primitive equations. Proceedings of the Symposium on the dynamics of large-scale atmospheric processes. Academy of Sciences of the U.S.S.R., Moscow, pp. 66–69.
Robert, A., 1965: The behaviour of planetary waves in an atmospheric model based on spherical harmonics. McGill University. Publication in Meteorology No. 77.
Robert, A., 1963: A baroclinic model for the Canadian numerical weather prediction program. Seminars on the Stratosphere and Mesosphere and Polar Meteorology. Stanstead, Québec. Department of Meteorology, McGill University, pp. 83–88.
Robert, A., 1963: Baroclinic experiments with a four-level statistical dynamical model. Meteorological Memoir No. 15.
Robert, A. and M. Kwizak, 1963: An evaluation of simple non-geostrophic forecasts. Meteorological Memoirs No. 13.
