Mathematical Modeling of Preference Intensity of Japanese Medaka for Environmental Factors in Streamflow
スポンサーリンク
概要
著者
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Hiramatsu Kazuaki
Laboratory of Drainage and Water Environment,Division of Regional Environment Science,Department of
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Shikasho Shiomi
Laboratory of Drainage and Water Environment,Division of Regional Environment Science,Department of
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Shikasho Shiomi
Laboratory Of Drainage And Water Environment Division Of Regional Environment Science Department Of
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Shikasho Shiomi
Laboratory Of Drainage And Water Environment Division Of Regional Environment Science Department Of
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Hiramatsu Kazuaki
Laboratory Of Drainage And Water Environment Division Of Regional Environment Science Department Of
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Hiramatsu Kazuaki
Laboratory Land-drainage And Reclamation Engineering Faculty Of Agriculture Kyushu University
関連論文
- Drainage and Inundation Analysis in a Flat Low-lying Paddy-cultivated Area of the Red River Delta,Viet Nam
- Alteration of General Behavior of Male Medaka,oryzias latipes,Exposed to Tributyltin and /or Polychlorinated Biphenyls
- Numerical Simulations of Cohesive Sediment Transportation in Coastal Waters Considering Time-dependent Sediment Resuspension and Deposition
- Flow in a U-shaped Burrow
- Chaotic and Fractal Modeling of Water-Stage Time Series in a Tidal River
- Mathematical Modeling of Fish Schooling of Japanese Medaka using Basic Behavioral Patterns
- Nonlinear Prediction of River Water-Stages by Feedback Artificial Neural Network
- Deriving the Storage Function Model Parameters by Using Runoff Data Only
- Hydrograph Recession Analysis using Wavelet Transforms
- Mathematical Modeling of Preference Intensity of Japanese Medaka for Environmental Factors in Streamflow
- Settling Velocity of Particles in a Grid-Generated Turbulence
- Nitrogen and phosphorus runoff modeling in a flat low-lying paddy cultivated area
- Optimal gate operation of a main drainage canal in a flat, low-lying, agricultural area using a tank model
- Vagueness ratio of storage function model parameters and its relation to the accuracy of hydrograph prediction
- Numerical prediction of suspended sediment concentrations in the Ariake Sea, Japan, using a time-dependent sediment resuspension and deposition model