Publications of A Levina

Journal Article (26)

1.
Journal Article
Safavi, S.; Chalk, M.; Logothetis, N.; Levina, A.: Signatures of criticality in efficient coding networks. Proceedings of the National Academy of Sciences of the United States of America 121 (41), e2302730121 (2024)
2.
Journal Article
Zeraati, R.; Buendía, V.; Engel, T.; Levina, A.: Topology-dependent coalescence controls scaling exponents in finite networks. Physical Review Research 6 (2), 023131 (2024)
3.
Journal Article
Yamamoto, H.; Spitzner, F.; Takemuro, T.; Buendía, V.; Murota, H.; Morante, C.; Konno, T.; Sato, S.; Hirano-Iwata, A.; Levina, A. et al.; Priesemann, V.; Muñoz, M.; Zierenberg, J.; Soriano, J.: Modular architecture facilitates noise-driven control of synchrony in neuronal networks. Science Advances 9 (34), eade1755 (2023)
4.
Journal Article
Zeraati, R.; Shi, Y.-L.; Steinmetz, N.; Gieselmann, M.; Thiele, A.; Moore, T.; Levina, A.; Engel, T.: Intrinsic timescales in the visual cortex change with selective attention and reflect spatial connectivity. Nature Communications 14 (1), 1858 (2023)
5.
Journal Article
Shi, Y.-L.; Zeraati, R.; Levina, A.; Engel, T.: Spatial and temporal correlations in neural networks with structured connectivity. Physical Review Research 5, 013005 (2023)
6.
Journal Article
Levina, A.; Priesemann, V.; Zierenberg, J.: Tackling the subsampling problem to infer collective properties from limited data. Nature Reviews Physics 4 (12), pp. 770 - 784 (2022)
7.
Journal Article
Khajehabdollahi, S.; Prosi, J.; Giannakakis, E.; Martius, G.; Levina, A.: When to Be Critical? Performance and Evolvability in Different Regimes of Neural Ising Agents. Artificial Life 28 (4), pp. 458 - 478 (2022)
8.
Journal Article
Zeraati, R.; Engel, T.; Levina, A.: A flexible Bayesian framework for unbiased estimation of timescales. Nature Computational Science 2 (3), pp. 193 - 204 (2022)
9.
Journal Article
Fardet, T.; Levina, A.: Weighted directed clustering: interpretations and requirements for heterogeneous, inferred, and measured networks. Physical Review Research 3, 043124 (2021)
10.
Journal Article
Zeraati, R.; Priesemann, V.; Levina, A.: Self-organization toward criticality by synaptic plasticity. Frontiers in Physics 9, 619661 (2021)
11.
Journal Article
Sukenik, N.; Vinogradov, O.; Weinreb, E.; Segal, M.; Levina, A.; Moses, E.: Neuronal circuits overcome imbalance in excitation and inhibition by adjusting connection numbers. Proceedings of the National Academy of Sciences of the United States of America 118 (12), e2018459118 (2021)
12.
Journal Article
Fardet, T.; Levina, A.: Simple models including energy and spike constraints reproduce complex activity patterns and metabolic disruptions. PLoS Computational Biology 16 (12), pp. 1 - 22 (2020)
13.
Journal Article
Zierenberg, J.; Wilting, J.; Priesemann, V.; Levina, A.: Tailored ensembles of neural networks optimize sensitivity to stimulus statistics. Physical Review Research 2, 013115, pp. 1 - 9 (2020)
14.
Journal Article
Zierenberg, J.; Wilting, J.; Priesemann, V.; Levina, A.: Description of spreading dynamics by microscopic network models and macroscopic branching processes can differ due to coalescence. Physical Review E 101 (2), 022301, pp. 1 - 13 (2020)
15.
Journal Article
Shi, D.; Levina, A.; Noori, H.: Refined parcellation of the nervous system by algorithmic detection of hidden features within communities. Physical Review E 100 (1), 012301, pp. 1 - 14 (2019)
16.
Journal Article
Das, A.; Levina, A.: Critical Neuronal Models with Relaxed Timescale Separation. Physical Review X 9, 021062, pp. 1 - 11 (2019)
17.
Journal Article
Levina, A.; Priesemann, V.: Subsampling scaling. Nature Communications 8, 15140 (2017)
18.
Journal Article
Denker, M.; Levina, A.: Avalanche dynamics. Stochastics and Dynamics 16 (2), 1660005 (2016)
19.
Journal Article
Effenberger; Jost, J.; Levina, A.: Self-organization in Balanced State Networks by STDP and Homeostatic Plasticity. PLoS Computational Biology 11 (9), e1004420 (2015)
20.
Journal Article
Effenberger, F.; Jost, J.; Levina, A.: Self-organization in balanced state networks by STDP and homeostatic plasticity. PLoS Computational Biology 11 (9), pp. 1 - 30 (2015)
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