Neuroeconomics / Decision Neuroscience
BIO-620 / 2 credits
Teacher(s): Gerstner Wulfram, Invited lecturers (see below)
Language: English
Remark: From June 10th to 14th, the course runs every morning 9h15-10h45 and 11h10 - 12h40
Frequency
Only this year
Summary
This course covers three major topics introducing: (1) fMRI methods, experimental designs and fMRI analysis; (2) recent research on cognitive and decision neuroscience in humans; (3) neuroimaging studies in the field of social cognition. Guest speaker: Visiting Professor Jean-Claude Dreher
Content
This course is designed for PhD students interested in Human Decision Making in a broad sense. Even though the main target audience are EFPL PhD students in neuroscience, the course is open for students with various backgrounds. Basic knowledge in neuroscience or fMRI or Reinforcement Learning is a plus, but not required, since essentials concept are covered during the first day.
It will cover three major topics introducing: (1) fMRI methods, experimental designs and fMRI analysis; (2) recent research on cognitive and decision neuroscience in humans; (3) neuroimaging studies in the field of social cognition. The course will focus on our current understanding regarding the neural underpinnings of reward processing, motivation and individual/social decision-making. Topics covered include model-based fMRI, reinforcement learning, the neural bases of choice, preferences and relative rewards, the role of emotion in decision-making, social cognition, social dominance hierarchies, moral judgments and prosocial behavior.
The topics to be covered are:
Course 1
Introduction to Cognitive, Decision and Social neurosciences. Experimental Methods in Cognitive Neurosciences.
Course 2
Introduction to Reinforcement learning and model-based fMRI
Course 3
The computation of stimulus values in choice and models of perceptual decisions
Course 4
The social brain: Social learning, reference frames and dominance representations in the human brain
Course 5
The cognitive neuroscience of moral decisions and social emotions
Exams: form teams of two and come up with a research question (related to the class) that students would want to answer and the experimental design they would choose to do this. A short proposal up should be written on two A4-pages.
Credits will be given for assessed proposals. No grades need to be given. The reports must be turned with in 2 weeks of the last day of the course.
The objective of this course is to introduce basic elements of fMRI technique, experimental design and model-based analysis in the fields of human Cognitive, Decision and Social Neurosciences, with a particular focus on reward, motivation, emotion, individual and social decision making. We will illustrate how computational modeling can be used to identify the neural substrates of different cognitive processes using model-based fMRI.
Learning Outcomes:
+Learn about the academic field of cognitive neuroscience, neuroeconomics and social neuroscience, its major theories, results and debates.
+Become a critical reader of research findings by learning the methodological standards for evaluating the soundness of such studies.
+Develop the ability to effectively write and speak about cognitive neuroscience results and debates.
+Acquire some practical skills for designing and analyzing an experiment in the field of cognitive/decision neuroscience.
Keywords
fMRI, neuroeconomics, decision neuroscience, social neuroscience, machine learning
Learning Prerequisites
Required courses
Undergraduates: 'Introduction to Neural Science' or with permission of the instructor.
Also recommended are 'Behavioral and Integrative Neuroscience', 'Introduction to Theoretical Neuroscience', 'Bayesian Modeling of Behavior' and 'Neural data analysis'
Resources
Bibliography
- Neuroeconomics, Decision Making and the Brain, 2nd Edition, Edited by Glimcher and Fehr, Academic Press, Elsevier, 2014.
-Decision Neuroscience: an integrative perspective, 1st edition, Edited by JC Dreher and L Tremblay, Academic Press, Elsevier, 2016
Moodle Link
In the programs
- Exam form: Project report (session free)
- Subject examined: Neuroeconomics / Decision Neuroscience
- Lecture: 20 Hour(s)
- Practical work: 4 Hour(s)
- Type: optional