The neurobiological mechanisms of sequence processing

Organizers

Petros E. Vlachos | Frankfurt Institute for Advanced Studies, Germany
Alessio Quaresima | Institut Pasteur, France / Max Planck Institute for Psycholinguistics, Netherlands
Hartmut Fitz | Max Planck Institute for Psycholinguistics and Radboud University, Netherlands

Abstract

Recognition and generation of temporal sequences are fundamental capacities of human and animal cognition. Nevertheless, our understanding of the computational basis of these capacities remains limited. Many models have been proposed, but what do they tell us about the neural mechanisms? Does a unifying principle exist, or is sequence processing implemented by diverse neural algorithms? The workshop brings together theoretical and model-based approaches to explain sequence processing in the brain. It aims to foster discussion about the computational principles that support both the sequential propagation of neuronal activity (sequence generation) and the integration of temporal patterns (sequence recognition) in biological networks.

Schedule (CEST)

Sunday, Sept 29

14:00

Petros E. Vlachos and Alessio Quaresima | Frankfurt Institute for Advanced Studies, Germany, and Institut Pasteur, France / Max Planck Institute for Psycholinguistics, Netherlands
Introduction by the organizers

14:05

Alessio Quaresima | Institut Pasteur, France / Max Planck Institute for Psycholinguistics, Netherlands
Spontaneous formation of sequence-dependent memories in network with dendrites

14:35

Matthew Farrell | RIKEN Center for Brain Science, Japan
Recall tempo of Hebbian sequences depends on the interplay of Hebbian kernel with tutor signal timing

15:05

Gianluigi Mongillo | Institut de la Vision, CNRS / INSERM / Sorbonne University, France
Synaptic Theory of Serial Order

15:35

General discussion: Neurobiological models of sequence processing

16:00

30 min coffee break

16:30

Viola Priesemann | Max Planck Institute for Dynamics and Self-Organization, Germany
Developing sequence memory capacity even in the absence of structured input

17:00

Claudia Clopath | Imperial College London, UK
Unsupervised plasticity and sequential activity

17:30

Barna Zajzon | Forschungszentrum Jülich, Germany
Sequence learning under biophysical constraints: a re-evaluation of prominent models

18:00

General discussion: Principles of sequence learning

18:30

End of first day

Monday, Sept 30

08:30

Tristan Stöber | Ruhr University Bochum, Germany
A potential role of hippocampal region CA2 in prioritizing sequences for episodic memory formation

09:00

Sara Jamali | Institut de l’Audition / Institut Pasteur, France
Representations of sequence structure violations in the mouse auditory cortex

09:30

Luis Riquelme | Max Planck Instutute for Brain Science, Germany
Sequential propagation and routing of single spikes in cortex

10:00

30 min coffee break

10:30

Tomoki Fukai | Okinawa Institute of Science and Technology Graduate University, Japan
Self-supervised learning of sequence patterns in single neurons and networks

11:00

Anna Levina | University of Tübingen, Germany
Individual neuron and network-mediated timescales for solving long temporal dependency tasks

11:30

Nicolas Brunel | Duke University, USA
Dynamic control of sequential retrieval speed in networks with heterogeneous learning rules

12:00

General discussion: Sequence processing, what’s next?

12:30

End