"CH - \u0160v\u00FDcarsk\u00E1 konfederace" . . . "Initial Errors Growth in Chaotic Low-Dimensional Weather Prediction Model" . "http://link.springer.com/chapter/10.1007%2F978-3-319-00542-3_34" . . "2194-5357" . "80230" . "RIV/00216208:11320/13:10195620" . "10"^^ . "Initial Errors Growth in Chaotic Low-Dimensional Weather Prediction Model"@en . "2013" . . . . . . . . "Mik\u0161ovsk\u00FD, Ji\u0159\u00ED" . "Initial Errors Growth in Chaotic Low-Dimensional Weather Prediction Model"@en . "Bedn\u00E1\u0159, Hynek" . "3"^^ . . . . . "210" . "10.1007/978-3-319-00542-3_34" . . . "Model; Prediction; Weather; Low-Dimensional; Chaotic; Growth; Errors; Initial"@en . . "3"^^ . . . "S, Z(MSM0021620860)" . . . "Advances in Intelligent Systems and Computing" . . "RIV/00216208:11320/13:10195620!RIV14-MSM-11320___" . "Initial Errors Growth in Chaotic Low-Dimensional Weather Prediction Model" . "11320" . "This paper studies an error growth in a low-dimensional atmospheric model after the initial exponential divergence died away. We test cubic, quartic and logarithmic hypotheses by ensemble prediction method. Furthermore quadratic hypothesis that was suggested by Lorenz in 1969 is compared with the ensemble prediction method. The study shows that a small error growth is best modeled by the quadratic hypothesis. After the initial error exceeds about a half of the error saturation value, logarithmic approximation becomes superior." . . . "Raidl, Ale\u0161" . "[007EAE5149E8]" . "This paper studies an error growth in a low-dimensional atmospheric model after the initial exponential divergence died away. We test cubic, quartic and logarithmic hypotheses by ensemble prediction method. Furthermore quadratic hypothesis that was suggested by Lorenz in 1969 is compared with the ensemble prediction method. The study shows that a small error growth is best modeled by the quadratic hypothesis. After the initial error exceeds about a half of the error saturation value, logarithmic approximation becomes superior."@en .