- stochastic modeling fro hydrology
- Model optimization and parameterization
At the end of this learning unit, the student is able to : | |
| 1 | a. Contribution to 'Learning Outcomes' program M2.2 ; M2.3 ; M6.5 ; M6.8 b . Specific formulation for this activity LO program (maximum 10) At the end of the course and of the practicals, the students will be able: - to characterize the type of flow in channels/rivers. - to understand and be able to apply the theory on gradually varying flow and rapid varying flow; - to measure the river discharge with different techniques - to use modelling approaches to simulate river discharge and design methods to control flood risks. - to estimate hydrological model parameters by different methods - to understand stochastic hydrology concepts - to use stochastic models to calibrate and simulate river discharge |
The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.
- Open channel hydraulics (8 hours)
- Stochastic modeling in hydrology (8 hours)
- Parameter estimation (4 hours)
Practicals:
- Flow discharge measurements in situ (3 hours)
- Modeling exercises in computer room :
- HEC-RAS (6 hours)
- Stochastic modeling (6 hours)
- Field practical work for river discharge measurments
- Practical work in the computer room allow students to use advanced methods of hydrological modeling
- The practical work and the reports are a executed in teams
- 50% on practical reports
- 50% on oral evaluation of theory
Transparents des cours sur Moodle
