Robert Clewley, Ph.D.

Affiliations: 
Georgia State University, Atlanta, GA, United States 
Area:
Dynamical systems, computational
Website:
http://neuroscience.gsu.edu/rclewley.html
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"Robert Clewley"
Mean distance: 14.55 (cluster 17)
 
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Publications

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Sengül S, Clewley R, Bertram R, et al. (2014) Determining the contributions of divisive and subtractive feedback in the Hodgkin-Huxley model. Journal of Computational Neuroscience. 37: 403-15
Ogden A, Cheng A, Rida PC, et al. (2014) Quantitative multi-parametric evaluation of centrosome declustering drugs: centrosome amplification, mitotic phenotype, cell cycle and death. Cell Death & Disease. 5: e1204
Wojcik J, Schwabedal J, Clewley R, et al. (2014) Key bifurcations of bursting polyrhythms in 3-cell central pattern generators. Plos One. 9: e92918
Clewley R. (2012) Hybrid models and biological model reduction with PyDSTool. Plos Computational Biology. 8: e1002628
Pannu V, Rida PC, Ogden A, et al. (2012) Induction of robust de novo centrosome amplification, high-grade spindle multipolarity and metaphase catastrophe: a novel chemotherapeutic approach. Cell Death & Disease. 3: e346
Clewley R. (2011) Inferring and quantifying the role of an intrinsic current in a mechanism for a half-center bursting oscillation: A dominant scale and hybrid dynamical systems analysis. Journal of Biological Physics. 37: 285-306
Wojcik J, Clewley R, Shilnikov A. (2011) Order parameter for bursting polyrhythms in multifunctional central pattern generators. Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics. 83: 056209
Clewley R. (2011) Encoding the fine-structured mechanism of action potential dynamics with qualitative motifs. Journal of Computational Neuroscience. 30: 391-408
Clewley R, Soto-Treviño C, Nadim F. (2009) Dominant ionic mechanisms explored in spiking and bursting using local low-dimensional reductions of a biophysically realistic model neuron. Journal of Computational Neuroscience. 26: 75-90
Clewley RH, Guckenheimer JM, Valero-Cuevas FJ. (2008) Estimating effective degrees of freedom in motor systems. Ieee Transactions On Bio-Medical Engineering. 55: 430-42
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