Human Brain Project: Scientists Propose New Guidelines for Describing Network Connectivity

Jülich, 18 October 2022 – Researchers who work with neuronal network models – simplified representations of brains – need to "speak the same language" so that their results can be understood and reproduced. Scientists at the Human Brain Project now propose guidelines for the unambiguous description of network connectivity. The guidelines are based on concepts in use in the computational neuroscience community. To provide an intuitive understanding of network properties, they also propose a graphical notation for network diagrams unifying existing diagram styles.

The researchers found that published descriptions of network connectivity are often incomplete and imprecise. This may in turn lead to wrong predictions of network activity when attempting to reproduce model results, as even small differences between rules may lead to different network dynamics.

“Precise definitions of connectivity rules are crucial for the correct and efficient algorithmic implementation of a network in simulators,” said neuroscientist Johanna Senk, the lead author of the study. The researchers hope that the guidelines they propose will increase reproducibility, because they will ensure that when two neuroscientists use the same term or symbol they mean the same thing.

This consistency is also an important factor in overcoming the current complexity barrier, notes Prof. Sacha van Albada of Forschungszentrum Jülich, head of the research group “Theoretical Neuroanatomy”. Most neuronal network models that have been developed until now still have limited complexity. But the new EBRAINS digital research infrastructure built by the HBP is now making increasingly complex models manageable for individual scientists as Sacha van Albada points out.

Original publication:

Senk J, Kriener B, Djurfeldt M, Voges N, Jiang H-J, Schüttler L, et al.
Connectivity concepts in neuronal network modeling
PLoS Comput Biol (2022), DOI: 10.1371/journal.pcbi.1010086

Contacts

Prof. Dr. Sacha van Albada

Group Leader - Theoretical Neuroanatomy

• Institute for Advanced Simulation (IAS)
• Institute for Advanced Simulation (IAS-6), Computational and Systems Neuroscience

Building 15.22 /
Room 2002

+49 2461/61-96808

E-Mail

Dr. Johanna Senk

Team Leader - Future Simulation Architectures

• Institute for Advanced Simulation (IAS)
• Institute for Advanced Simulation (IAS-6), Computational and Systems Neuroscience

Building 15.22 /
Room 4009

+49 2461/61-4748

E-Mail

Tobias Schlößer

Pressereferent

Building 15.3 /
Room R 3028a

+49 2461/61-4771

E-Mail

Further information

Institute of Neuroscience and Medicine

Computational and Systems Neuroscience (INM-6)

The brain is a highly complex organ and ubiquitous in our daily lives. However, little is understood about it or its functions. Undertaking the study of this organ is a challenging and fascinating endeavour and can spawn new technologies and alternative methods of treatment of diseases. Research at the Institute of Computational and Systems Neuroscience encompasses theoretical, data-analytic and simulation approaches to develop multi-scale models of the brain.

Project

Human Brain Project

The Human Brain Project aims to put in place a cutting-edge research infrastructure that will allow scientific and industrial researchers to advance our knowledge in the fields of neuroscience, computing, and brain-related medicine.