Fundamentals of the Earth System Modelling
BASIC DATA
course listing
A - main register
course code
NSO8001
course title in Estonian
Maa süsteemide numbrilise modelleerimise alused
course title in English
Fundamentals of the Earth System Modelling
course volume CP
-
ECTS credits
3.00
to be declared
yes
fully online course
not
assessment form
Examination
teaching semester
autumn
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
no
Structural units teaching the course
LM - Department of Marine Systems
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Õppeaine eesmärk on luua tingimused teadmiste omandamiseks Maa süsteemide numbriliste mudelite ülesehitusest, numbrilistest lahendusmeetoditest ja erinevatest mudeli tüüpidest ning kinnistada oskused töötamiseks numbriliste mudelitega.
course aims in English
The aim of this course is to create conditions for acquiring knowledge about the structure of numerical models of Earth systems, numerical solution methods and different types of models, and consolidate skills for working with numerical models.
learning outcomes in the course in Est.
Õppeaine läbinud üliõpilane:
- kasutab numbrilise modelleerimise tehnikat üldiselt ja NEMO ookeani mudelit algtasemel;
- võrdleb Maa süsteemide uuringuteks kasutatavaid eri tüüpi numbrilisi mudeleid.
- kasutab numbrilise modelleerimise tehnikat üldiselt ja NEMO ookeani mudelit algtasemel;
- võrdleb Maa süsteemide uuringuteks kasutatavaid eri tüüpi numbrilisi mudeleid.
learning outcomes in the course in Eng.
After completing this course, the student:
- uses numerical modeling techniques in general and the NEMO ocean model at the basic level;
- compares different types of numerical models used for Earth system studies.
- uses numerical modeling techniques in general and the NEMO ocean model at the basic level;
- compares different types of numerical models used for Earth system studies.
brief description of the course in Estonian
Kursus keskendub Maa süsteemide numbriliste mudelite kasutamisele. Loengute käigus käsitletakse osatuletistega diferentsiaalvõrrandite lahendamist, kasutades lõplike vahede meetodeid, numbrilist stabiilsust, koonduvust, täpsust ja numbriliste lähenduste vigu. Detailselt analüüsitakse NEMO modelleerimise raamistiku ülesehitust, numbrilist rakendust ja lahendatakse praktilisi modelleerimisülesandeid. Kursuse käigus tutvustatakse andmete assimileerimise printsiipe ja meetodeid. Selgitatakse mudelite ansambli kasutamist tänapäeva Maa süsteemide rakendustes. Kursuse käigus tutvustatakse erinevaid kasutatavaid Maa süsteemide mudelite tüüpe.
brief description of the course in English
The course focuses on the use of numerical Earth system models. During the lectures, the solution of differential equations with partial derivatives using finite difference methods, numerical stability, convergence, accuracy and errors of numerical approximations are discussed. The structure of the NEMO modeling framework, its numerical implementation, and practical modeling tasks are analyzed in detail. During the course, the principles of data assimilation and different methods are introduced. The use of ensemble models in modern Earth system applications is explained. During the course, different types of Earth system models are introduced.
type of assessment in Estonian
Suuline eksam
type of assessment in English
Oral exam
independent study in Estonian
Üliõpilane lahendab füüsikalise okeanograafia ülesande kasutades NEMO füüsika numbrilist mudelit. Selleks on vajalik läbi töötada NEMO mudeli kirjeldus ja kasutajajuhend. Praktiline tegevus sisaldab NEMO mudelkoodi alla laadimise, kompileerimise klasterarvutil ja testülesande töölepaneku. Teise etapina tuleb mudeli namelist-faili muuta vastavalt püstitatud ülesandele, ettevalmistada mudeli sisend ja väljund ning läbi viia arvutused. Arvutustulemused tuleb analüüsida püstitatud ülesande kontekstis ning valmistada ette ettekanne vastavalt teadusliku ettekande ülesehitusele.
independent study in English
A student will solves a problem in physical oceanography using NEMO circulation model. It requires reading NEMO model description and user’s manual. In practice, a student has to download model code, compile it on cluster machine and run a simple test case. Further on, a student has to change namelist file according to the problem, prepare model input and output and run the model. Model results should be analysed according to the problem. Eventually, a student has to prepare presentation following the standards of the scientific presentation, and present it on the seminar.
study literature
- Haltiner, G.J. and R.T. Williams, 1980. Numerical Prediction and Dynamic Meteorology. John Wiley and Sons.
- Kalnay, E., 2003. Atmospheric Modeling, Data Assimilation and Predictability. Cambridge University Press.
- Kantha, L. and C. Clayson, 2000. Numerical Models of Oceans and Oceanic Processes. Academic Press.
- NEMO ocean engine (G. Madec), Note du Pôle de modélisation, Institut Pierre-Simon Laplace (IPSL), France, No 27, ISSN No 1288-1619, 2008. (https://www.nemo-ocean.eu/wp-content/uploads/NEMO_book.pdf)
- Deaton, M.L. and J.J. Winebrake, 2000. Dynamic Modeling of Environmental Systems, Springer.
- Kalnay, E., 2003. Atmospheric Modeling, Data Assimilation and Predictability. Cambridge University Press.
- Kantha, L. and C. Clayson, 2000. Numerical Models of Oceans and Oceanic Processes. Academic Press.
- NEMO ocean engine (G. Madec), Note du Pôle de modélisation, Institut Pierre-Simon Laplace (IPSL), France, No 27, ISSN No 1288-1619, 2008. (https://www.nemo-ocean.eu/wp-content/uploads/NEMO_book.pdf)
- Deaton, M.L. and J.J. Winebrake, 2000. Dynamic Modeling of Environmental Systems, Springer.
study forms and load
daytime study: weekly hours
2.0
session-based study work load (in a semester):
lectures
1.5
lectures
-
practices
0.0
practices
-
exercises
0.5
exercises
-
lecturer in charge
Urmas Raudsepp, täisprofessor tenuuris (LM - meresüsteemide instituut)
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2025/2026 autumn
Urmas Raudsepp, LM - Department of Marine Systems
Estonian