9 February 2024
Introduction to Conjoint Experimentsonline course
"Learn about the logic and basic notions of conjoint analysis (CJA), and how to apply these by looking at different applications of conjoint analysis within the field of behavioural sciences.
You must have intermediate familiarity with the basis of experimental design, survey experiments and regression analysis. While example datasets and full syntax codes will be provided, intermediate knowledge of R is expected.
You need to know how to:
- read datasets in R;
- work with data frames;
- perform basic data manipulation; and
- run basic statistical analyses such as linear or logistic regression.
- More advanced knowledge of statistical computing, such as writing functions and loops, is helpful but not essential.
Note: This course will give an applied introduction to conjoint experiments. If you are already familiar with conjoint analysis or you are interested in the broader theory behind conjoint and factorial experiments, this is not the right course for you.
The course is structured around eight key topics:
1. General idea of conjoint experiments. The logic underlining conjoint experiments, their development, and the reasons behind the rising interest in them within the social sciences.
2. Outcome framework at the base of modern causal analysis. In particular, the fundamental problem of causal inference (Holland, 1986) within the framework of conjoint analysis.
3. Different ways to measure individual preferences in a conjoint experiment. The focus will be on Choice-Based Conjoint measurement but other measurements will be discussed (e.g. Rating, Ranking, Combined, and Adaptive).
4. Overview of different types of conjoint design, their use, and their limitations. Alternatives, Choice Sets and Context design will be explained, paying particular attention to the design of conjoint alternatives.
6. Introduction to simple workflows to deploy a conjoint design using Qualtrics.
7. Overview of different methods to analyse a conjoint experiment with specific focus on AMCEs, marginal mean and omnibus F-test. We will briefly discuss subgroup differences and visualisation.
8. Recent advances in conjoint analysis including power analysis and the usage of mixture modelling to discover treatment heterogeneity.
How the course will work online
The course is designed to exploit the interactive capabilities of online technology, combining short, pre-recorded lectures, and live group work during daily two hour Zoom sessions. Solutions will be provided and discussed in live sessions in an interactive way to facilitate learning, problem solving, and exchange of ideas. There will be presentations with Q&A sessions and small-group work. You will have access to a number of online pre-course materials for you to work through at your own pace.
Make sure that your R and Python environments work and that you can run a script before coming to class since we will have no time to resolve technical issues. If you have already collected data, bring it along. If not, you’ll get a toy dataset to play with. Be sure to have installed in R the cjoint and cregg packages together with any other package that you use for data management/cleaning/visualization (e.g. dplyr, ggplot, etc).
Note: This course will give an applied introduction to conjoint experiments. If you are already familiar with conjoint analysis or you are interested in the broader theory behind conjoint and factorial experiments, this is not the right course for you."
Alberto Stefanelli is a FWO PhD Fellow at KU Leuven, Visiting Researcher at Yale University and New York University. His research interests include radicalism, voting behaviour, democratic erosion, and political methodology.
Researchers, professional analysts, and advanced students.
"This course offers an applied introduction to Choice-Based Conjoint, along with hands-on experience in lab sessions and aims to:
• Provide you with a basic understanding of the structure, logical underpinnings, basic notions, and analytical goals of conjoint analysis.
• Identify areas of application where conjoint analysis could be successfully implemented.
• Critically evaluate conjoint experiment applications and understand the advantages/disadvantages compared to more traditional methods.
• Implement your own conjoint experiment into an (online) survey platform.
• To understand and be able to apply different techniques to analyse conjoint experiments.
• Be able to easily visualise the result of a conjoint experiment.
• Prepare you for more advanced conjoint (and factorial experiments) courses or workshops."
"You can earn up to four credits for attending this course.
3 ECTS credits – Attend 100% of live sessions and engage fully with class activities.
4 ECTS credits – Attend 100% of live sessions, engage fully with class activities and complete a post-class assignment."
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