Publikationen von Andrej Bicanski

Pazzaglia, A.; Bicanski, A.; Ferrario, A.; Arreguit, J.; Ryczko, D.; Ijspeert, A.: Balancing central control and sensory feedback produces adaptable and robust locomotor patterns in a spiking, neuromechanical model of the salamander spinal cord. PLOS Computational Biology 21 (1), e1012101 (2025)

Burkhardt, M.; Bergelt, J.; Gönner, L.; Dinkelbach, H. Ü.; Beuth, F.; Schwarz, A.; Bicanski, A.; Burgess, N.; Hamker, F. H.: A large-scale neurocomputational model of spatial cognition integrating memory with vision. Neural networks 167, S. 473 - 488 (2023)

Yan, Y.; Burgess, N.; Bicanski, A.: A model of head direction and landmark coding in complex environments. PLoS Computational Biology 17 (9), e1009434 (2021)

Bicanski, A.; Burgess, N.: Neuronal vector coding in spatial cognition. Nature Reviews Neuroscience 21 (9), S. 453 - 470 (2020)

Edvardsen, V.; Bicanski, A.; Burgess, N.: Navigating with grid and place cells in cluttered environments. Hippocampus 30 (3), S. 220 - 232 (2020)

Bicanski, A.; Burgess, N.: A computational model of visual recognition memory via grid cells. Current Biology 29 (6), S. 979 - 990.e4 (2019)

Bicanski, A.; Burgess, N.: A neural-level model of spatial memory and imagery. eLife 7, e33752 (2018)

Evans, T.; Bicanski, A.; Bush, D.; Burgess, N.: How environment and self‐motion combine in neural representations of space. The Journal of Physiology 594 (22), S. 6535 - 6546 (2016)

Bicanski, A.; Burgess, N.: Environmental anchoring of head direction in a computational model of retrosplenial cortex. The Journal of Neuroscience 36 (46), S. 11601 - 11618 (2016)

Bicanski, A.; Ryczko, D.; Cabelguen, J.-M.; Ijspeert, A. J.: From lamprey to salamander: An exploratory modeling study on the architecture of the spinal locomotor networks in the salamander. Biological Cybernetics 107 (5), S. 565 - 587 (2013)

Bicanski, A.; Ryczko, D.; Knuesel, J.; Harischandra, N.; Charrier, V.; Ekeberg, Ö.; Cabelguen, J.-M.; Ijspeert, A. J.: Decoding the mechanisms of gait generation in salamanders by combining neurobiology, modeling and robotics. Biological Cybernetics 107 (5), S. 545 - 564 (2013)

Knusel, J.; Bicanski, A.; Ryczko, D.; Cabelguen, J.-M.; Ijspeert, A. J.: A salamander's flexible spinal network for locomotion, modeled at two levels of abstraction. Integrative and Comparative Biology 53 (2), S. 269 - 282 (2013)

Harischandra, N.; Knuesel, J.; Kozlov, A.; Bicanski, A.; Cabelguen, J.-M.; Ijspeert, A.; Ekeberg, Ö.: Sensory feedback plays a significant role in generating walking gait and in gait transition in salamanders: A simulation study. Frontiers in Neurorobotics 5, 3 (2011)

Ijspeert, A. J.; Bicanski, A.; Knuesel, J.; Cabelguen, J.-M.: Motor pattern generation. In: From Neuron to Cognition via Computational Neuroscience, S. 251 - 284 (Hg. Arbib, M. A.; Bonaiuto, J. J.). MIT Press, Cambridge, MA (2016)

Pazzaglia, A.; Bicanski, A.; Arreguit, J.; Ferrario, A.; Ryczko, D.; Ijspeert, A.: Coupling spiking neural networks and mechanical simulations to investigate walking and swimming in salamanders. In: Proceedings of the 11th International Symposium on Adaptive Motion of Animals and Machines (AMAM2023). (2023)

Pazzaglia, A.; Bicanski, A.; Ferrario, A.; Arreguit, J. P.; Ryczko, D.; Ijspeert, A.: Sensory and central contributions to motor pattern generation in a spiking, neuro-mechanical model of the salamander spinal cord. bioRxiv (2024)