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Hojeong Kim
Hojeong Kim
Verified email at dgist.ac.kr
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Cited by
Cited by
Year
Asymmetric electrotonic coupling between the soma and dendrites alters the bistable firing behaviour of reduced models
H Kim, KE Jones
Journal of computational neuroscience 30, 659-674, 2011
232011
Derivation of cable parameters for a reduced model that retains asymmetric voltage attenuation of reconstructed spinal motor neuron dendrites
H Kim, LA Major, KE Jones
Journal of computational neuroscience 27, 321-336, 2009
232009
25th annual computational neuroscience meeting: CNS-2016
TO Sharpee, A Destexhe, M Kawato, V Sekulić, FK Skinner, DK Wójcik, ...
BMC neuroscience 17, 1-112, 2016
192016
An action potential-driven model of soleus muscle activation dynamics for locomotor-like movements
H Kim, TG Sandercock, CJ Heckman
Journal of neural engineering 12 (4), 046025, 2015
172015
Asymmetry in signal propagation between the soma and dendrites plays a key role in determining dendritic excitability in motoneurons
H Kim, KE Jones, CJ Heckman
PLoS One 9 (8), e95454, 2014
162014
The retrograde frequency response of passive dendritic trees constrains the nonlinear firing behaviour of a reduced neuron model
H Kim, KE Jones
Public Library of Science 7 (8), e43654, 2012
142012
Muscle length-dependent contribution of motoneuron Cav1.3 channels to force production in model slow motor unit
H Kim
Journal of Applied Physiology 123 (1), 88-105, 2017
102017
PyMUS: python-based simulation software for virtual experiments on motor unit system
H Kim, M Kim
Frontiers in neuroinformatics 12, 15, 2018
82018
Impact of the localization of dendritic calcium persistent inward current on the input-output properties of spinal motoneuron pool: a computational study
H Kim
Journal of Applied Physiology 123 (5), 1166-1187, 2017
42017
Foundational dendritic processing that is independent of the cell type-specific structure in model primary neurons
H Kim, CJ Heckman
Neuroscience letters 609, 203-209, 2015
32015
Neuromodulation impact on nonlinear firing behavior of a reduced model motoneuron with the active dendrite
H Kim, CJ Heckman
Frontiers in computational neuroscience 8, 110, 2014
32014
Cerebral hemodynamics predicts the cortical area and coding scheme in the human brain for force generation by wrist muscles
H Kim
Behavioural Brain Research 396, 112865, 2021
22021
26th annual computational neuroscience meeting (CNS* 2017): part 2
LL Rubchinsky, S Ahn, W Klijn, B Cumming, S Yates, V Karakasis, ...
BMC Neuroscience 18, 1-79, 2017
22017
Modeling System and Method for Muscle Cell Activation
HJ Kim
US Patent App. 14/680,809, 2017
22017
The tight relationship between asymmetric signaling and locational excitability in motoneuron dendrites
H Kim, CJ Heckman
Communicative & Integrative Biology 8 (6), e1110657, 2015
22015
A dynamic calcium-force relationship model for sag behavior in fast skeletal muscle
H Kim, CJ Heckman
PLOS Computational Biology 19 (6), e1011178, 2023
12023
Linking motoneuron PIC location to motor function in closed-loop motor unit system including afferent feedback: a computational investigation
H Kim
Eneuro 7 (2), 2020
12020
Voltage attenuation in reconstructed type-identified motor neurons as a constraint for reduced models
H Kim, LA Major, KE Jones
BMC Neuroscience 9 (Suppl 1), P55, 2008
12008
Decoding force production of skeletal muscle from the female brain using functional near-infrared spectroscopy
H Kim
BMC Research Notes 16 (1), 304, 2023
2023
Reduced modeling method for neurons
HJ Kim, KE Jones
US Patent 11,068,561, 2021
2021
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