Viola Priesemann

Viola Priesemann (born 28 April 1982) is a German physicist and computational neuroscientist. One of her research priorities is to explore how the human brain organizes its neuronal capacities, to enable meaningful information processing.[1]

Viola Priesemann
(Fotograph by Joao Pinheiro Neto)
Born (1982-04-28) April 28, 1982
Bobingen, Germany
NationalityGerman
Alma materTechnische Universität Darmstadt
Scientific career
Doctoral advisorTheo Geisel
Other academic advisorsGilles Laurent

Education and career

Viola Priesemann was born in Bobingen, Germany. She studied physics at the Technische Universität Darmstadt. She conducted research on neural information processing at the École normale supérieure in Paris, at the California Institute of Technology, and at the Max Planck Institute for Brain Research in Frankfurt. Priesemann's doctoral thesis focused on propagation dynamics in neural networks and the role of phase transitions in information processing.[2][3]

After working as a postdoc with Theo Geisel, she became a fellow at the Bernstein Center for Computational Neuroscience Göttingen in 2014 and successfully applied for an independent Max Planck Research Group in 2015, which she currently leads at the Max Planck Institute for Dynamics and Self-Organization in Göttingen. She studies propagation processes in complex systems[4] and the self-organization and emergence of information processing in living and artificial neural networks.[5][6]

Priesemann is a Fellow of the Elisabeth Schiemann Kolleg[7] and a member of the Cluster of Excellence Multiscale Bioimaging.[8]

Media appearances

In the course of the COVID-19 pandemic, Priesemann researched the spread and containment strategies of the coronavirus SARS-CoV-2[9] and also increasingly appeared in public. She was co-author and first signatory of the statements of the non-university research institutions, the John Snow Memorandum[10] and the Leopoldina. She is initiator of a Pan-European Statement,[11][12] which emphasizes the need for a common European approach to COVID-19 containment and presents a clear action plan. The weekly newspaper Die Zeit devoted a multi-page dossier to the mathematical study of the pandemic by Priesemann and her research group at the Max Planck Institute in December 2020.[13]

Priesemann has been calculating scenarios of how the spread of the Sars-CoV2 coronavirus accelerates or weakens under different conditions ever since the outbreak of the corona pandemic. During the first wave of SARS-CoV-2, Germany was one among many countries introducing rules for social distancing in order to slow down the spreading of the virus. In comparison to other countries in Europe, the death rates were relatively low in Germany. According to an article published in Science, the timing and coordination of the various measurements were also based on Priesemann's calculations on the quantification of the virus. The code on which the related calculations have been based is freely available and adaptable to various countries or regional scenarios. In addition to looking at the basic reproduction number (R), Priesemann observed that besides the risks associated with surpassing the value of an R-value above 1, a further tipping point may be reached when the number of infections is rising so fast, that the health authorities fail to identify infected persons, tested as positive fast enough to test (and if necessary isolate) contact persons.[14] Priesemann developed a containment strategy that employed "Social Bubbles". An article on this approach was published in The Lancet and ended up finding its way into several statements on how to contain Covid in Europe.[15] Besides that Priesemann is one of the scientists, supporting various public statements issued by the German National Academy of Sciences Leopoldina.

Since borders have little influence on the spreading of the virus, Priesemann recently initiated two interdisciplinary statements to achieve joint European action on containment, which are supported by over a thousand scientists. Further information about the research conducted by Prof. Priesemann is available on her bilingual (German & English) website.[16]

Awards

  • 2010 Thomas B. Grave and Elizabeth F. Grave Scholarship
  • 2014–2015 Chair of the Computational Neuroscience Social at the Annual Meeting of the SfN
  • 2015 Fellow of the Schiemann Kolleg
  • 2016–2017 German-Israel Foundation Young Investigator Grant
  • 2016–2018 Project leader Physics to Medicine Initiative
  • 2021 Communitas Prize of the Max Planck Society[17]

References

  1. "Research, Self-organization, spreading dynamics and information processing" (in German). Retrieved 9 April 2021.
  2. Priesemann, Viola; Wibral, M.; Valderrama, M.; Pröpper, R.; Le Van Quyen, M.; Geisel, T.; Triesch, J.; Nikolić, D.; Munk, M. H. (2014). "Spike avalanches in vivo suggest a driven, slightly subcritical brain state". Frontiers in Systems Neuroscience. 8: 108. doi:10.3389/fnsys.2014.00108. PMC 4068003. PMID 25009473.
  3. Priesemann, Viola; Valderrama, Mario; Wibral, Michael; Le Van Quyen, Michel (2013). "Neuronal Avalanches Differ from Wakefulness to Deep Sleep – Evidence from Intracranial Depth Recordings in Humans". PLOS Computational Biology. 9 (3): e1002985. Bibcode:2013PLSCB...9E2985P. doi:10.1371/journal.pcbi.1002985. PMC 3605058. PMID 23555220.
  4. Wilting, Jens; Priesemann, Viola (2018). "Inferring collective dynamical states from widely unobserved systems". Nature Communications. 9 (1): 2325. arXiv:1608.07035. Bibcode:2018NatCo...9.2325W. doi:10.1038/s41467-018-04725-4. PMC 5998151. PMID 29899335. S2CID 4357740.
  5. Cramer, Benjamin; Stöckel, David; Kreft, Markus; Wibral, Michael; Schemmel, Johannes; Meier, Karlheinz; Priesemann, Viola (2020). "Control of criticality and computation in spiking neuromorphic networks with plasticity". Nature Communications. 11 (1): 2853. arXiv:1909.08418. Bibcode:2020NatCo..11.2853C. doi:10.1038/s41467-020-16548-3. PMC 7275091. PMID 32503982. S2CID 202660759.
  6. Zierenberg, Johannes; Wilting, Jens; Priesemann, Viola (2018). "Homeostatic Plasticity and External Input Shape Neural Network Dynamics". Physical Review X. 8 (3): 031018. arXiv:1807.01479. Bibcode:2018PhRvX...8c1018Z. doi:10.1103/PhysRevX.8.031018. S2CID 49572049.
  7. "Unterstützung auf dem Weg nach oben" (in German). max Plank Gesellschaft. Retrieved 22 February 2021.
  8. "The MBExC" (in German). MBExC. Retrieved 22 February 2021.
  9. Dehning, Jonas; Zierenberg, Johannes; Spitzner, F. Paul; Wibral, Michael; Neto, Joao Pinheiro; Wilczek, Michael; Priesemann, Viola (10 July 2020). "RESEARCH ARTICLE Inferring change points in the spread of COVID-19 reveals the effectiveness of interventions". Science. 369 (6500): eabb9789. doi:10.1126/science.abb9789. PMC 7239331. PMID 32414780.
  10. "(61) Coronavirus-Update: Winter is coming".
  11. "Calling for pan-European commitment for rapid and sustained reduction in SARS-CoV-2 infections". {{cite journal}}: Cite journal requires |journal= (help)
  12. "An action plan for pan-European defence against new SARS-CoV-2 variants". {{cite journal}}: Cite journal requires |journal= (help)
  13. Henk, Malte (17 December 2020). "Hat sie die Lösung? Die Physikerin Viola Priesemann durchdringt mit ihren Gleichungen die Pandemie. An der Politik verzweifelt sie manchmal". Die Zeit. pp. 15–17.
  14. "Dr. Viola Priesemann – Physics, Complex Systems & Neural Networks". Retrieved 21 February 2021.
  15. Priesemann, Viola; Balling, Rudi; Brinkmann, Melanie M.; Ciesek, Sandra; Czypionka, Thomas; Eckerle, Isabella; Giordano, Giulia; Hanson, Claudia; Hel, Zdenek; Hotulainen, Pirta; Klimek, Peter (6 February 2021). "An action plan for pan-European defence against new SARS-CoV-2 variants". The Lancet. 397 (10273): 469–470. doi:10.1016/S0140-6736(21)00150-1. ISSN 0140-6736. PMC 7825950. PMID 33485462.
  16. "Contain COVID-19". www.containcovid-pan.eu. Retrieved 21 February 2021.
  17. "Communitas-Preis für Viola Priesemann".
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