Project Details
Projekt
Modelling neural network dynamics for motor control
Applicant
Professorin Dr. Silvia Daun
Subject Area
Automation, Mechatronics, Control Systems, Intelligent Technical Systems, Robotics
Term
from 2015 to 2020
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 285670410
Final Report Year
2020
No abstract available
Publications
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A network model comprising 4 segmental, interconnected ganglia, and its application to simulate multi-legged locomotion in crustaceans. Journal of Computational Neuroscience, Vol. 38. 2015, pp. 601–616.
Grabowska, M., Toth, T.I., Smarandache-Wellmann, C., Daun-Gruhn, S.
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Movement-related phase locking in the delta-theta frequency band.
NeuroImage, Vol. 139. 2016, pp. 439-449.
Popovych, S., Rosjat, N., Toth, T.I., Wang, B., Liu, L., Abdollahi, R., Viswanathan, S., Grefkes, C.B., Fink, G.R., Daun, S.
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Age-related changes in oscillatory power affect motor action.
PLoS One, Vol. 12. 2017, Issue 11: e0187911.
Liu, L., Rosjat, N., Popovych, S., Wang, B.A., Yeldesbay, A., Toth, T.I., Viswanathan, S., Grefkes, C.B., Fink, G.F., Daun, S.
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Effects of functional decoupling of a leg in a model of stick insect walking incorporating three ispilateral legs. Physiological Reports, Vol. 5. 2017, Issue 4, e13154.
Toth, T., Daun, S.
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Aging-associated changes of movement-related functional connectivity in the human brain. Neuropsychologia, Vol. 117. 2018, pp. 520-529.
Rosjat, N., Liu, L., Wang, B.A., Popovych, S., Toth, T.I., Viswanathan, S., Grefkes, C., Fink, G.R., Daun, S.
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The role of phase shifts of sensory inputs in walking revealed by means of phase reduction. Journal of Computational Neuroscience, Vol. 44. 2018, pp. 313–339.
Yeldesbay, A., Toth, T.I., Daun, S.
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A kinematic model of stick-insect walking. Physiological Reports, Vol. 7. 2019, Issue 8, e14080.
Toth, T.I., Daun, S.
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Reconstruction of effective connectivity in the case of asymmetric phase distributions. Journal of Neuroscience Methods, Vol. 317. 2019, pp. 94-107.
Yeldesbay, A., Fink, G.R., Daun, S.
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A response-locking protocoll to boost sensitivity for fMRI-based neurochronometry. Human Brain Mapping, Vol. 41. 2020, Issue 12, pp. 3420-3438.
Viswanathan, S., Abdollahi, R.O., Wang, B.A., Grefkes, C., Fink, G.R., Daun, S.
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Intra- and intersegmental neural network architectures determining rhythmic motor activity in insect locomotion. Communications in Nonlinear Science and Numerical Simulation, Vol. 82. 2020, 105078.
Yeldesbay, A., Daun, S.
