Computational Neuroscience and Neuroinformatics

In computational neuroscience and neuroinformatics we study how the brain processes information.

A major goal is to understand how, in contrast to most computer systems, the brain is so robust and adaptive. These insights will be important to build better future hardware and software. At the same time, tools from informatics such as image analysis, computer simulation, and machine learning are essential to accelerate neuroscientific discovery.

Faculty

Member Research interests
David Willshaw Computational models of development of the nervous system
Peggy Seriès Bayesian approaches to cognition and perception
Douglas Armstrong Molecular neuroinformatics, network models, behavioural models
Matthias Hennig Models of neural networks, homeostasis and development; visual and auditory neuroscience; analysis of large-scale electrophysiological recordings
Ian Simpson Regulatory genomics, bioinformatics and computational biology. Neural development and function especially in cortical structures and in relation to cognition, learning and memory using genomic, meta-genomic, transcriptomic and proteomic data
Arno Onken  Probabilistic models, in particular copula-based models; Dimensionality reduction techniques; Information theory; Applications to biological systems

Associated Faculty

Barbara Webb Perceptual systems for the control of behaviour, robot models of animals, simulation of neural circuits

Joining us

Undergraduates: As an undergraduate in the School of Informatics, you can do projects in our institute:

Undergraduate Projects

MSc students: You should apply directly to the School for information. Once you are a student you can follow the courses and do projects:

MSc Projects

PhD students: If you're interested in knowing more about PhD Programmes being offered by ANC, then please check our information at:

Prospective Postgraduates

Classes

We teach a number of MSc courses in these subjects:

Neural Computation

Computational Cognitive Neuroscience

Neural Information Processing