MSc in Artificial Intelligence
Nijmegen, Netherlands
DURATION
2 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
01 Jul 2025*
EARLIEST START DATE
Sep 2025
TUITION FEES
EUR 2,601 / per year **
STUDY FORMAT
On-Campus
* final deadline for EU students | deadline for EU students who want to get assistance with housing: 1 May 2025 | deadline for non-EU students: 1 Apr 2025
** for EU/EEA nationals; €19.224 for non-EU/EEA nationals
Introduction
- This programme is designed for students with a background in Artificial Intelligence or related disciplines with a focus on AI
- Gain the skills to advance the study of the brain and cognition through typical AI tools
- Explore the leading methods in computational modelling to understand naturally intelligent systems, building artificially intelligent systems, and improve the interaction between them
- Prepare for a career in data science, academia, R&D, software development, machine learning, policy advisor and more
Why study Artificial Intelligence at Radboud University?
The Master's programme in Artificial Intelligence at Radboud has a distinctly cognitive focus, centred around computational modelling. We offer students two exciting specialisations: cognitive computing and intelligent technology.
Radboud also offers two unique double degree options in combination with the AI programme: computing science, and cognitive neuroscience.
At Radboud, you will also have access to other great research institutes. This programme works closely with the Donders Institute for Brain, Cognition and Behaviour, conducting research in EEG, fMRI, and MEG. This programme also cooperates with the Radboud Behavioural Science Institute and its Virtual Reality Laboratory.
Radboud is also proud of its record in regards to graduates, who often go on to do a PhD or are offered jobs even before graduation.
Admissions
Curriculum
What will you learn?
In the Master’s programme Artificial Intelligence, you will learn how to advance the study of brain and cognition by adopting typical AI tools, such as computer simulation, brain-computer interfacing and robotic design.
This programme has a unique character, focusing on connections between artificial intelligence and cognitive neuroscience. Understanding how the brain works and how it supports intelligent cognitive behaviour is essential for effective agent design. In turn, agent design can lead to hypotheses about how intelligent behaviour is realised by humans.
The programme is closely related to the research carried out by the internationally renowned Donders Institute for Brain, Cognition and Behaviour. This institute has several unique facilities for brain imaging using EEG, fMRI and MEG. You will be able to use these facilities for developing new experimental research techniques, as well as for developing new machine learning algorithms to analyse the brain data and integrate them with brain-computer interfacing systems. You will also cooperate with the Behavioural Science Institute and work in its Virtual Reality Laboratory, which can be used to study the social interaction between humans and avatars.
Gallery
Program Outcome
What will you learn?
In the Master's Program Artificial Intelligence, you will learn how to advance the study of brain and cognition by adopting typical AI tools, such as computer simulation, brain-computer interfacing and robotic design.
This Program has a unique character, focusing on connections between artificial intelligence and cognitive neuroscience. Understanding how the brain works and how it supports intelligent cognitive behaviour is essential for effective agent design. In turn, agent design can lead to hypotheses about how intelligent behaviour is realised by humans.
The Program is closely related to the research carried out by the internationally renowned Donders Institute for Brain, Cognition and Behaviour. This institute has several unique facilities for brain imaging using EEG, fMRI and MEG. You will be able to use these facilities for developing new experimental research techniques, as well as for developing new machine learning algorithms to analyse the brain data and integrate them with brain-computer interfacing systems. You will also cooperate with the Behavioural Science Institute and work in its Virtual Reality Laboratory, which can be used to study the social interaction between humans and avatars.
Scholarships and Funding
Several scholarship options are available. Please check the university website for more information.
Career Opportunities
Career prospects
Graduates from this programme could find work as:
- PhD researchers
- Machine learning experts
- Software developers
- Policy advisors
- Entrepreneurs
- Data scientists
- Programme leaders for R&D