Neural Information Processing

Models of Neural Systems

2023

Salfenmoser, L., & Obermayer, K. (2023, Apr.). "Optimal Control of a Wilson-Cowan Model of Neural Population Dynamics" , Chaos (Woodbury, N.Y.) , 33 (4), 043135.

2022

Jajcay, N., Cakan, C., & Obermayer, K. (2022). "Cross-frequency slow oscillation-spindle coupling in a biophysically realistic thalamocortical neural mass model" , Frontiers in Computational Neuroscience , 16 , 769860.
Cakan, C., Dimulescu, C., Khakimova, L., Obst, D., Flöel, A., & Obermayer, K. (2022). "Spatiotemporal patterns of adaptation-induced slow oscillations in a whole-brain model of slow-wave sleep" , Frontiers in Computational Neuroscience , 15 , 800101.

2021

Cakan, C., Jajcay, N., & Obermayer, K. (2021). "neurolib: A Simulation Framework for Whole-brain Neural Mass Modeling" , Cognit. Comput. , 2021 ,
Chouzouris, T., Roth, N., Cakan, C., & K., O. (2021). "Applications of Optimal Nonlinear Control to a Whole-brain Network of FitzHugh-Nagumo Oscillators" , Phys. Rev. E , 2021 (104),

2020

Cakan, C., & Obermayer, K. (2020). "Biophysically grounded mean-field models of neural populations under electrical stimulation" , PLOS Computational Biology , 2020 ,

2019

Mergenthaler, , Oschmann, , & Obermayer, K. (2019). "Glutamate Uptake by Astrocytic Transporters" , Computational Glioscience , 329-361. Spinger Nature Switzerland .
Ladenbauer, J., & Obermayer, K. (2019). "Weak Electric Fields Promote Resonance in Neuronal Spiking Activity: Analytical Results from Two-compartment Cell and Network Models" , PLoS Computational Biology , 15 (e1006974),

2018

Aspart, F., Remme, M., & Obermayer, K. (2018). "Differential Polarization of Cortical Pyramidal Neuron Dendrites through Weak Extracellular Fields" , Computational Biology , 15 (e1006124),
Oschmann, , Berry, , Obermayer, , & Lenk, K. (2018). "From in Silico Astrocyte Cell Models to Neuron-astrocyte Network Models: A Review" , Brain Research Bulletin .

2017

Holca-Lamarre, R., Luecke, J., & Obermayer, K. (2017). "Acetylcholine and Dopamine Signals Differentially Improve Sensory Representations in a Neural Network Model" , Front. Comput. Neurosci. , 11 ,
Balta Beylergila, , Beck, , Deserno, , Lorenz, , Rapp, , Schlagenhauf, , Heinz, A., & Obermayer, K. (2017). "Dorsolateral prefrontal cortex contributes to the impaired behavioral adaptation in alcohol dependence" , Neuroimage: Clinical , 15 , 80–94.
Meyer, , Ladenbauer, , & Obermayer, K. (2017). "Influence of Mexican Hat Recurrent Connectivity on Noise Correlations and Stimulus Encoding" , Frontiers in Computational Neuroscience .
Augustin, , Ladenbauer, , Baumann, , & Obermayer, K. (2017). "Low-dimensional spike rate models derived from networks of adaptive integrate-and-fire neurons: Comparison and implementation" , PLoS Computational Biology , 13 ,
Oschmann, , Mergenthaler, , Jungnickel, , & Obermayer, K. (2017). "Spatial Separation of Two Different Pathways Accounting for the Generation of Calcium Signals in Astrocytes" , PLoS Computational Biology , 13 (2),

2016

Guo, R., Böhmer, W., Hebart, M., Chien, S., Sommer, T., Obermayer, K. *., & Gläscher, J. *. (2016, Dec.). "Interaction of Instrumental and Goal-directed Learning Modulates Prediction Error Representations in the Ventral Striatum" , Journal of Neuroscience , 36 (50), 12650-12660.
Xie, S., Liu, C., Obermayer, K., Zhu, F., Wang, L., Xie, X., & Wang, W. (2016). "Stimulator Selection in SSVEP Based Spatial Selective Attention Study" , Comput. Intelligence Neurosci. , 2016 (6410718),
Ladenbauer, J., Augustin, M., & Obermayer, K. (2016, Jan.). "Intrinsic Control Mechanisms of Neuronal Network Dynamics" in Control of Self-Organizing Nonlinear Systems , Eckehard Schöll, Sabine H. L. Klapp, Philipp Hövel, Eds. Springer International Publishing , 441-460.
ISBN
978-3-319-28027-1, 978-3-319-28028-8
Bielivtsov, D., Ladenbauer, J., & Obermayer, K. (2016). "Controlling Statistical Moments of Stochastic Dynamical Networks" , Physical Review E , 94 (1), 012306. American Physical Society .
Aspart, F., Ladenbauer, J., & Obermayer, K. (2016). "Extending Integrate-and-fire Model Neurons to Account for the Effects of Weak Electric Fields and Input Filtering Mediated by the Dendrite" , PLOS Computional Biology , 12 (11), e1005206.