gnunns1@jhem.jhu.edu
Intrinsic Bursters Increase the Robustness of Rythm Generation in an Excitatory Network: Single Pacemaker Cell
Koizumi
H
Geoffrey
Rogan
Nunns
This CellML model is known to run in both PCEnv and COR, the units have been checked and are consistent. The CellML model can recreate the published results for the single cell. However, in addition to the single cell model, this publication also describes a multicellular network, and it uses the simulation results from this model as a basis for its figures. Alone, CellML can not describe this kind of model. Instead we will need to embed the current CellML model within a FieldML or openCMISS framework (or other such modelling frameworks) in order to fully implement the multicellular network description.
1515
Intrinsic Bursters Increase the Robustness of Rythm Generation in an Excitatory Network
97
1526
keyword
2007-02
10000
100000
17167061
K
Purvis
Liston
Fixed "not exactly equivalent but dimensionally equivalent" errors.
Auckland Bioengineering Institute
The University of Auckland
electrophysiology
pacemaker
neuron
neurobiology
2007-00-00 00:00
Intrinsic Bursters Increase the Robustness of Rythm Generation in an Excitatory Network
1526
1515
97
Geoff Nunns
Rogan
Nunns
Geoffrey
J
C
Smith
Lloyd
May
Catherine
Journal of Neurophysiology
H
Koizumi
neuron
neurobiology
electrophysiology
pacemaker
C
Jeffrey
Smith
Robert
J
Butera
Geoff Nunns
This CellML model is known to run in both PCEnv and COR, the units have been checked and are consistent. The CellML model can recreate the published results for the single cell. However, in addition to the single cell model, this publication also describes a multicellular network, and it uses the simulation results from this model as a basis for its figures. Alone, CellML can not describe this kind of model. Instead we will need to embed the current CellML model within a FieldML or openCMISS framework (or other such modelling frameworks) in order to fully implement the multicellular network description.
Purvis
L
K
c.lloyd@auckland.ac.nz
Intrinsic Bursters Increase the Robustness of Rythm Generation in an Excitatory Network: Single Non-Pacemaker Cell
keyword
2008-07-17T14:19:05+12:00
Butera
R
J
17167061
Journal of Neurophysiology
Auckland Bioengineering Institute
The University of Auckland
2008-07-17T00:00:00+00:00