280320 VU Numerical weather forecast (2024S)
Continuous assessment of course work
Labels
Registration/Deregistration
Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
- Registration is open from Mo 05.02.2024 00:00 to Tu 27.02.2024 23:59
- Registration is open from Th 29.02.2024 00:00 to We 06.03.2024 23:59
- Deregistration possible until Su 31.03.2024 23:59
Details
max. 15 participants
Language: German
Lecturers
Classes (iCal) - next class is marked with N
First lecture and exercise on 7 March 2024.
No lecture on 18 April 2024.
- Thursday 07.03. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 07.03. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 14.03. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 14.03. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 21.03. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 21.03. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 11.04. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 11.04. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 18.04. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 18.04. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 25.04. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 25.04. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 02.05. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 02.05. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 16.05. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 16.05. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 23.05. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 23.05. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 06.06. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 06.06. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 13.06. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 13.06. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 20.06. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 20.06. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 27.06. 09:15 - 10:15 Praktikumsraum Meteorologie 2F513 5.OG UZA II
- Thursday 27.06. 10:30 - 12:30 Praktikumsraum Meteorologie 2F513 5.OG UZA II
Information
Aims, contents and method of the course
Assessment and permitted materials
Lecture part: Oral exam. No auxiliary devices allowed.Exercises:
Solution and presentation of weekly exercises.
A laptop is required for solving the exercises (or access to the Teaching Hub via the Internet).
Please get in touch with us if computing support is required.
Solution and presentation of weekly exercises.
A laptop is required for solving the exercises (or access to the Teaching Hub via the Internet).
Please get in touch with us if computing support is required.
Minimum requirements and assessment criteria
The final grade is a weighted average of the exam on the lecture part (65 %) and the points for the exercise part (35%).
Points for the exercise part will be based on solutions and the presentation of results during the exercises.
Attendance of a minimum of 80% required in the exercise part.Grade 5: < 50%
Grade 4: 50-62,5%;
Grade 3: 62,5-75%;
Grade 2: 75-87,5%;
Grade 1: > 87,5%
Points for the exercise part will be based on solutions and the presentation of results during the exercises.
Attendance of a minimum of 80% required in the exercise part.Grade 5: < 50%
Grade 4: 50-62,5%;
Grade 3: 62,5-75%;
Grade 2: 75-87,5%;
Grade 1: > 87,5%
Examination topics
Exam on lecture part: Entire content of the lecture (slides in Moodle)
Reading list
Kalnay, E.: Atmospheric modelling, data assimilation and predictability. Cambridge University Press, 2003, 341 S.
(full list see Moodle)
(full list see Moodle)
Association in the course directory
PM-AtmMod
Last modified: Mo 02.12.2024 08:46
* Operational NWP systems and their history;
* Global observing system;
* Data assimilation to construct model initial conditions;
* Parameterization of sub-grid processes;
* Ensemble prediction.In the exercises, students will work with observational data, apply data assimilation concepts, and evaluate forecast model output.
Students will learn how to process and handle NWP data using python and shell programming.