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Timo Bröhl
Timo Bröhl
PhD Student, Research Scientist, University of Bonn
Verified email at uni-bonn.de
Title
Cited by
Cited by
Year
Centrality-based identification of important edges in complex networks
T Bröhl, K Lehnertz
Chaos: An Interdisciplinary Journal of Nonlinear Science 29 (3), 2019
542019
The human organism as an integrated interaction network: recent conceptual and methodological challenges
K Lehnertz, T Bröhl, T Rings
Frontiers in Physiology 11, 598694, 2020
202020
Time in brain: how biological rhythms impact on EEG signals and on EEG-derived brain networks
K Lehnertz, T Rings, T Bröhl
Frontiers in Network Physiology 1, 755016, 2021
192021
Reconfiguration of human evolving large-scale epileptic brain networks prior to seizures: an evaluation with node centralities
R Fruengel, T Bröhl, T Rings, K Lehnertz
Scientific Reports 10 (1), 21921, 2020
172020
A straightforward edge centrality concept derived from generalizing degree and strength
T Bröhl, K Lehnertz
Scientific Reports 12 (1), 4407, 2022
152022
Network structure from a characterization of interactions in complex systems
T Rings, T Bröhl, K Lehnertz
Scientific Reports 12 (1), 11742, 2022
142022
Impact of transcutaneous auricular vagus nerve stimulation on large-scale functional brain networks: From local to global
T Rings, R von Wrede, T Bröhl, S Schach, C Helmstaedter, K Lehnertz
Frontiers in Physiology 12, 700261, 2021
142021
Identifying edges that facilitate the generation of extreme events in networked dynamical systems
T Bröhl, K Lehnertz
Chaos: An Interdisciplinary Journal of Nonlinear Science 30 (7), 2020
132020
Epileptic-network-based prediction and control of seizures in humans
K Lehnertz, T Bröhl, R von Wrede
Neurobiology of Disease, 106098, 2023
102023
Extreme events in a complex network: Interplay between degree distribution and repulsive interaction
A Ray, T Bröhl, A Mishra, S Ghosh, D Ghosh, T Kapitaniak, SK Dana, ...
Chaos: An Interdisciplinary Journal of Nonlinear Science 32 (12), 2022
92022
Transcutaneous auricular Vagus nerve stimulation differently modifies functional brain networks of subjects with different epilepsy types
R von Wrede, T Rings, T Bröhl, J Pukropski, S Schach, C Helmstaedter, ...
Frontiers in Human Neuroscience 16, 867563, 2022
72022
Modifications of functional human brain networks by transcutaneous auricular vagus nerve stimulation: impact of time of day
R von Wrede, T Bröhl, T Rings, J Pukropski, C Helmstaedter, K Lehnertz
Brain Sciences 12 (5), 546, 2022
72022
Electrodermal activity biofeedback alters evolving functional brain networks in people with epilepsy, but in a non-specific manner
S Schach, T Rings, M Bregulla, JA Witt, T Bröhl, R Surges, R von Wrede, ...
Frontiers in Neuroscience 16, 828283, 2022
62022
Modifying functional brain networks in focal epilepsy by manual visceral-osteopathic stimulation of the vagus nerve at the abdomen
H Lehnertz, T Broehl, T Rings, R Von Wrede, K Lehnertz
Frontiers in Network Physiology 3, 1205476, 2023
22023
A perturbation-based approach to identifying potentially superfluous network constituents
T Bröhl, K Lehnertz
Chaos: An Interdisciplinary Journal of Nonlinear Science 33 (6), 2023
12023
Impact of biological rhythms on the importance hierarchy of constituents in time-dependent functional brain networks
T Bröhl, R Von Wrede, K Lehnertz
Frontiers in Network Physiology 3, 2023
12023
Von Interaktionen zu Interaktionsnetzwerken: Zeitabhängige funktionelle Netzwerke am Beispiel der Epilepsie
T Bröhl, T Rings, K Lehnertz
Klinische Neurophysiologie 51 (03), 132-143, 2020
12020
P-32 Do important vertices and edges in evolving epileptic networks carry predictive information of seizures?
T Bröhl, T Rings, K Lehnertz
Clinical Neurophysiology 148, e23, 2023
2023
The time-evolving epileptic brain network: concepts, definitions, accomplishments, perspectives
T Bröhl, T Rings, J Pukropski, R Von Wrede, K Lehnertz
Frontiers in Network Physiology 3, 2023
2023
From Interactions to Interaction Networks: Time-dependent Functional Networks at the Example of Epilepsy
T Broehl, T Rings, K Lehnertz
KLINISCHE NEUROPHYSIOLOGIE 51 (03), 132-143, 2020
2020
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