Theory and applications of causal inference and causal learning (Sommersemester 2020)
Dozent:
Prof. Dr. Christoph Lippert
(Digital Health - Machine Learning)
,
Matthias Kirchler
(Digital Health - Machine Learning)
,
Dr. rer. nat. Stefan Konigorski
(Digital Health - Machine Learning)
Allgemeine Information
- Semesterwochenstunden: 2
- ECTS: 3
- Benotet:
Ja
- Einschreibefrist: 06.04.2020 - 22.04.2020
- Lehrform: Seminar
- Belegungsart: Wahlpflichtmodul
- Lehrsprache: Englisch
- Maximale Teilnehmerzahl: 15
Studiengänge, Modulgruppen & Module
- SCAD: Scalable Computing and Algorithms for Digital Health
- HPI-SCAD-C Concepts and Methods
- SCAD: Scalable Computing and Algorithms for Digital Health
- HPI-SCAD-T Technologies and Tools
- SCAD: Scalable Computing and Algorithms for Digital Health
- HPI-SCAD-S Specialization
- DICR: Digitalization of Clinical and Research Processes
- HPI-DICR-C Concepts and Methods
- DICR: Digitalization of Clinical and Research Processes
- HPI-DICR-T Technologies and Tools
- DICR: Digitalization of Clinical and Research Processes
- HPI-DICR-S Specialization
- APAD: Acquisition, Processing and Analysis of Health Data
- HPI-APAD-C Concepts and Methods
- APAD: Acquisition, Processing and Analysis of Health Data
- HPI-APAD-T Technologies and Tools
- APAD: Acquisition, Processing and Analysis of Health Data
- HPI-APAD-S Specialization
- HDAS: Health Data Security
- HPI-HDAS-C Concepts and Methods
- HDAS: Health Data Security
- HPI-HDAS-T Technologies and Methods
- HDAS: Health Data Security
- HPI-HDAS-S Specialization
- DATA: Data Analytics
- HPI-DATA-K Konzepte und Methoden
- DATA: Data Analytics
- HPI-DATA-T Techniken und Werkzeuge
- DATA: Data Analytics
- HPI-DATA-S Spezialisierung
Beschreibung
Please note: Course starts 04/21/20 via Zoom (Link below)
Recommendation: read chapter 1 of Reference 1 (see below) before the first class
Causality underlies everything that happens around and in us. In recent years, causality has also gotten much more attention in research, and different streams of research have been established in the fields of statistics, epidemiology, econometrics, and machine learning. In this class, we will go through part of different standard textbooks as well papers to build up the basic concepts and mathematical foundation of causal inference and causal learning. In addition, we will consider applications with a focus on health applications as well as the potential for applications, since these are still in development.
- Type: Advanced seminar with discussion of book chapters & papers on theory and applications of causal inference and causal learning
- Helpful introductory background reading: J Pearl (2018). The book of why
- Evaluation: participation in weekly discussions, presentation
Structure of the classes:
- Discussion of the chapter(s) that were assigned for the respective class. At the beginning of the class, everybody describes 3 things on the chapter: what he learned, things/concepts that stood out for him/her, and what he would like to go through in the class in more detail..
- It is expected that everybody has read all materials for each class and actively contributes to the discussions.
- There is one main responsible student for each session, who leads the session and discussions. In addition to leading the discussions, the student prepares some additional details for presentation in the class (e.g. go through one example/proof in detail, or provide code or results from an analysis). This can be chosen by the student or a topic can be given.
Recommendation: read chapter 1 of Reference 1 (see below) before the first class
Overview:
# | Date | Topic |
1 | 21.04.2020 | Introduction to Causal Inference, Presentation of topics and seminar structure |
2 | 28.04.2020 | Randomized Experiments |
3 | 05.05.2020 | Observational Studies |
4 | 12.05.2020 | Effect Modification & Interaction |
5 | 19.05.2020 | Causal Graphs & Inference in Graphical Models |
6 | 26.05.2020 | Bias due to Confounding & Selection Bias |
7 | 02.06.2020 | Measurement Bias & Random Variability |
8 | 09.06.2020 | Details on main concepts in causal inference |
9 | 16.06.2020 | Inverse probability weighting & standardization |
10 | 23.06.2020 | G-estimation & propensity scores |
11 | 30.06.2020 | Instrumental variables & Mendelian Randomization |
12 | 07.07.2020 | (Emulated) target trials |
13 | 14.07.2020 | Variable selection for Causal inference, Learning cause effect models I |
14 | 21.07.2020 | Connections to Machine Learning |
Voraussetzungen
open for Master- and PhD students in Digital Health & Data Engineering.
Prerequisite: statistical/machine learning knowledge at the level of the ‘Deep Learning’ class by Christoph Lippert or the ‘Data Analysis using R, 1 – Statistical Epidemiology’ by Stefan Konigorski
Recommendation: read chapter 1 of Reference 1 (see below) before the first class
Literatur
(Main reference for the class is book 1):
- Hernán MA, Robins JM (2020). Causal Inference: What If. Boca Raton: Chapman & Hall/CRC. Available from: https://www.hsph.harvard.edu/miguel-hernan/causal-inference-book/
- Peters J, Janzing D, Schölkopf B (2017). Elements of Causal Inference - Foundations and Learning Algorithms. MIT Press. Available from: https://mitpress.mit.edu/books/elements-causal-inference
- Bishop, C. M. (2006). Pattern recognition and machine learning. Springer.
Lern- und Lehrformen
The course will take place via Zoom
Zoom link: https://zoom.us/j/95749197426 (meeting ID 957 4919 7426)
For password, please contact stefan.konigorski(at)hpi.de
Leistungserfassung
Grade:
- Active contribution to discussions in class: 30%
- Presentation in one class: 70%
Termine
- Time: Tuesdays 11.00-12.30
- Place: G1 E15/16/ via zoom
- First class: 21.4.2020, last class 21.07.2020
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