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Robust working memory in a two-dimensional continuous attractor networkWojtak, W., Coombes, S., Avitabile, D., Bicho, E., & Erlhagen, W.Cognitive Neurodynamics
@article{WojtakCoombesAvitabileEtAl2023, author = {Wojtak, Weronika and Coombes, Stephen and Avitabile, Daniele and Bicho, Estela and Erlhagen, Wolfram}, title = {Robust working memory in a two-dimensional continuous attractor network}, journal = {Cognitive Neurodynamics}, month = {May}, year = {2023}, doi = {10.1007/s11571-023-09979-3}, }
Wojtak, W., Coombes, S., Avitabile, D., Bicho, E., & Erlhagen, W.. (2023). Robust working memory in a two-dimensional continuous attractor network. Cognitive Neurodynamics. http://doi.org/10.1007/s11571-023-09979-32022
Brain-inspired multiple-target tracking using Dynamic Neural FieldsKamkar, S., Moghaddam, H. A., Lashgari, R., & Erlhagen, W.Neural Networks, 151, 121–131@article{KamkarMoghaddamLashgariEtAl2022, author = {Kamkar, Shiva and Moghaddam, Hamid Abrishami and Lashgari, Reza and Erlhagen, Wolfram}, title = {Brain-inspired multiple-target tracking using Dynamic Neural Fields}, journal = {Neural Networks}, volume = {151}, pages = {121–131}, month = {July }, year = {2022}, doi = {10.1016/j.neunet.2022.03.026}, }
Kamkar, S., Moghaddam, H. A., Lashgari, R., & Erlhagen, W.. (2022). Brain-inspired multiple-target tracking using Dynamic Neural Fields. Neural Networks, 151, 121–131. http://doi.org/10.1016/j.neunet.2022.03.0262006
A dynamic model for action understanding and goal-directed imitation.Erlhagen, W., Mukovskiy, A., & Bicho, E.Brain research, 1083(1), 174–88@article{ErlhagenMukovskiyBicho2006, author = {Erlhagen, Wolfram and Mukovskiy, Albert and Bicho, Estela}, title = {A dynamic model for action understanding and goal-directed imitation.}, journal = {Brain research}, volume = {1083}, number = {1}, pages = {174–88}, month = {April}, year = {2006}, doi = {10.1016/j.brainres.2006.01.114}, }
Erlhagen, W., Mukovskiy, A., & Bicho, E.. (2006). A dynamic model for action understanding and goal-directed imitation. Brain research, 1083(1), 174–88. http://doi.org/10.1016/j.brainres.2006.01.1142004
Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortexJancke, D., Erlhagen, W., Schöner, G., & Dinse, H. R.The Journal of Physiology, 556(3), 971–982@article{JanckeErlhagenSchönerEtAl2004, author = {Jancke, Dirk and Erlhagen, Wolfram and Schöner, Gregor and Dinse, Hubert R}, title = {Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex}, journal = {The Journal of Physiology}, volume = {556}, number = {3}, pages = {971–982}, year = {2004}, }
Jancke, D., Erlhagen, W., Schöner, G., & Dinse, H. R. (2004). Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex. The Journal of Physiology, 556(3), 971–982.2002
Dynamic field theory of movement preparation.Erlhagen, W., & Schöner, G.Psychological Review, 109(3), 545–572@article{ErlhagenSchöner2002, author = {Erlhagen, Wolfram and Schöner, Gregor}, title = {Dynamic field theory of movement preparation.}, journal = {Psychological Review}, volume = {109}, number = {3}, pages = {545–572}, year = {2002}, doi = {10.1037//0033-295X.109.3.545}, }
Erlhagen, W., & Schöner, G.. (2002). Dynamic field theory of movement preparation. Psychological Review, 109(3), 545–572. http://doi.org/10.1037//0033-295X.109.3.5451999
The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representationsErlhagen, W., Bastian, A., Jancke, D., Riehle, A., & Schöner, G.Journal of Neuroscience Methods, 94(1), 53–66@article{ErlhagenBastianJanckeEtAl1999, author = {Erlhagen, Wolfram and Bastian, Annette and Jancke, Dirk and Riehle, Alexa and Schöner, Gregor}, title = {The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations}, journal = {Journal of Neuroscience Methods}, volume = {94}, number = {1}, pages = {53–66}, year = {1999}, }
Erlhagen, W., Bastian, A., Jancke, D., Riehle, A., & Schöner, G.. (1999). The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations. Journal of Neuroscience Methods, 94(1), 53–66.Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortexJancke, D., Erlhagen, W., Dinse, H. R., Akhavan, A. C., Giese, M., Steinhage, A., & Schöner, G.J Neurosci, 19(20), 9016–9028@article{JanckeErlhagenDinseEtAl1999, author = {Jancke, Dirk and Erlhagen, Wolfram and Dinse, Hubert R and Akhavan, Amir C and Giese, Martin and Steinhage, Axel and Schöner, Gregor}, title = {Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex}, journal = {J Neurosci}, volume = {19}, number = {20}, pages = {9016–9028}, year = {1999}, }
Jancke, D., Erlhagen, W., Dinse, H. R., Akhavan, A. C., Giese, M., Steinhage, A., & Schöner, G.. (1999). Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex. J Neurosci, 19(20), 9016–9028.