Hauptinhalt
Topinformationen
Education Working Group Remote Sensing and Digital Image Analysis
Dr. rer. nat. Thomas Jarmer
Lehrveranstaltungen
Sommersemester 2025
Wintersemester 2024/25
Sommersemester 2024
Wintersemester 2023/24
Scientific programming in Python (co-taught by Christoph Stenkamp and Philipp Thölke)
Allgemeine Informationen
- Veranstaltungsart
- Seminar
- Semester
- SoSe 2020
- ECTS-Punkte
- 4
- Veranstaltungsnummer
- 8.3323
- Voraussetzungen
- Basic Knowledge of Programming in General (eg. Informatik A). As python has the easiest syntax of most programming languages, coming from other languages should not too big of a problem. Note however, that we will only give a brief introduction into python itself, so if you want to start with the basics, we recommend the course "Basic Programming Python" (https://studip.uni-osnabrueck.de/dispatch.php/course/details/index/362d9169eb9e74986c0c866bdad2f138)
- Details
- Link zur Veranstaltung in StudIP
Dozent*innen
Tutor*innen
Beschreibung
In this course, we will handle the tools and methods you need for Scientific Programming in Python. We will deal with the python-libraries used to work with experiments and experimental data - from creating experiments, cleaning the data and working with the dataset to analyzing and plotting the results. This course is not taught by Kai-Uwe Kühnberger, but by Philipp Thölke and Christoph Stenkamp, students of Cognitive Science at the IKW.
As for our course schedule, we will first give a general introduction into git, python and pythonic programming as well as debugging, before we will delve into the SciPy-Stack. For that, we will look at numpy and pandas to deal with experiment data, matplotlib, plotnine, seaborn and jupyter widgets to visualize it, as well as expyriment and statsmodels, to give you an A to Z to create and analyze scientific experiments.
Note that we will not upload any lectures to the files-section of this course, but use GitHub to distribute the lecture material - the respective repository can be found at https://github.com/scientificprogrammingUOS/lectures and how to clone a repository is explained in part 2 of the introduction :)
Studienbereiche
- Cognitive Science > Bachelor-Programm
- Cognitive Science > Master-Programm
Modulzuordnungen der Veranstaltung
- Bachelor of Science Informatik > CS-BWP-MCS - Methoden der Kognitionswissenschaft gültig ab WiSe 2019/20
- Bachelor of Science Mathematik > CS-BWP-MCS - Methoden der Kognitionswissenschaft gültig ab WiSe 2019/20
- Bachelor of Science Cognitive Science > CS-BWP-MCS - Methoden der Kognitionswissenschaft gültig ab WiSe 2019/20
- Master of Science Mathematik > CS-BWP-MCS - Methoden der Kognitionswissenschaft gültig ab WiSe 2019/20
