2021/2022 KAN-CCMVI2103U Causal Data Science for Business Decision Making
English Title | |
Causal Data Science for Business Decision Making |
Course information |
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Language | English |
Course ECTS | 7.5 ECTS |
Type | Elective |
Level | Full Degree Master |
Duration | Summer |
Start time of the course | Summer |
Timetable | Course schedule will be posted at calendar.cbs.dk |
Max. participants | 60 |
Study board |
Study Board for MSc in Economics and Business
Administration
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Course coordinator | |
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For academic questions related to the course, please contact course responsible Paul Hünemund (phu.si@cbs.dk). | |
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Teaching methods | |
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Last updated on 01/12/2021 |
Relevant links |
Learning objectives | ||||||||||||||||||||||
At the end of the course, students should be able
to:
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Course prerequisites | ||||||||||||||||||||||
Completed Bachelor degree or equivalent | ||||||||||||||||||||||
Examination | ||||||||||||||||||||||
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Course content, structure and pedagogical approach | ||||||||||||||||||||||
Most managerial decision problems require answers to questions such as “what happens if?”, “what is the effect of X on Y?”, or “was it X that caused Y to go up?” In other words, practical business decision-making requires knowledge about cause-and-effect. While standard tools in machine learning and AI are designed for efficient pattern detection in high-dimensional settings, they are not able to distinguish causal relationships from simple correlations in the data. That means, most commonly used approaches to machine learning fall short in addressing pressing questions in business analytics and strategic management. This creates an important mismatch between the answers that these algorithms can provide and the problems that managers and strategists would like to solve. Which is why, in recent years, several leading companies from the tech sector and elsewhere (among them: Facebook, Google, Uber, Spotify, Zalando and McKinsey) have started to heavily invest into their causal data science capabilities.
This course will provide an introduction into the topic of causal inference in machine learning and AI, with a focus on applications to practically relevant, data-driven business cases. The course is meant to be conceptual rather than technical, in order to bridge the gap between data science and management strategy, for better evidence-based decision-making. A variety of hands-on examples will be discussed that allow students to apply their newly obtained knowledge and carry out state-of-the-art causal analyses by themselves. The course will thereby loosely follow the structure of “The Book of Why” by Judea Pearl and Dana Mackenzie, which has ushered a new era of causal thinking in data science and machine learning upon its publication in 2018. In particular, students will be put into the position to detect sources of confounding influence factors that threaten valid causal conclusions, understand the problem of selective measurement in data collection, and extrapolate causal knowledge across different business contexts. By developing an overarching framework for causal data science, the course will also cover several standard tools for causal inference, which are often used in empirical research in business and economics (such as difference-in-differences, instrumental variables, regression discontinuity designs, A/B testing and experiments, etc.). Thus, while not a research methods course as such, this elective will nonetheless be highly relevant for students who plan to conduct a quantitative data analysis as part of their master thesis project. |
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Description of the teaching methods | ||||||||||||||||||||||
The course consists of in-class lectures, guest lectures by practitioners from the tech sector, and hands-on tutorials in which students will learn how to carry out their own causal data analyses. In these practical sessions, state-of-the-art software for causal analysis will be used (www.causalfusion.net, no coding experience required). The course will incorporate (non-graded) problem sets, which can be done either individually or in groups, and which will prepare students for the written take-home exam. No specific prior knowledge is required. However, basic concepts in statistics (conditional means, variances, hypothesis testing, regression) will be useful and therefore repeated at the beginning of the course. In-class lectures will feature case studies and guest speakers to demonstrate the practical relevance of the covered material. | ||||||||||||||||||||||
Feedback during the teaching period | ||||||||||||||||||||||
Feedback will be provided on exercises and problem sets during class. | ||||||||||||||||||||||
Student workload | ||||||||||||||||||||||
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Further Information | ||||||||||||||||||||||
Short 3 weeks course that cannot be combined with any other course
Preliminary Assignment: The course coordinator uploads Preliminary Assignment on Canvas at the end of May. It is expected that students participate as it will be included in the final exam, but the assignment is without independent assessment & grading
Course and exam timetable is/will be available on https://www.cbs.dk/uddannelse/international-summer-university-programme-isup/courses-and-exams
We reserve the right to cancel the course if we do not get enough applications. This will be communicated on https://www.cbs.dk/uddannelse/international-summer-university-programme-isup/courses-and-exams in start March. |
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