Rudiyanto Gunawan - Citegraph

Author Info

Name	Affiliation	Papers
RUDIYANTO GUNAWAN	Department of Chemical Engineering, University of California, Santa Barbara, CA 93106, United States	18
Collaborators	Citations	PageRank
38	153	15.50
Referers	Referees	References
451	388	125

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100451

Publications (18 rows)

Collaborators (38 rows)

Referers (100 rows)

Referees (100 rows)

Title	Citations	PageRank	Year
Deltanets Plus : Elucidating The Mechanism Of Drugs And Diseases Using Gene Expression And Transcriptional Regulatory Networks	0	0.34	2021
SINCERITIES: inferring gene regulatory networks from time-stamped single cell transcriptional expression profiles.	0	0.34	2018
TRaCE+: Ensemble inference of gene regulatory networks from transcriptional expression profiles of gene knock-out experiments.	3	0.36	2016
Optimal design of gene knockout experiments for gene regulatory network inference.	4	0.42	2016
Inferring gene targets of drugs and chemical compounds from gene expression profiles.	1	0.35	2016
REDEMPTION: reduced dimension ensemble modeling and parameter estimation	0	0.34	2015
Parameter estimation of dynamic biological network models using integrated fluxes.	4	0.41	2014
Reduction of kinetic models using dynamic sensitivities.	2	0.47	2013
Incremental parameter estimation of kinetic metabolic network models	7	0.51	2012
Parameter estimation of kinetic models from metabolic profiles: two-phase dynamic decoupling method.	9	0.66	2011
Understanding dynamics using sensitivity analysis: caveat and solution.	8	0.81	2011
Global parameter estimation methods for stochastic biochemical systems.	25	1.21	2010
Stochastic Drift in Mitochondrial DNA Point Mutations: A Novel Perspective Ex Silico.	1	0.39	2009
Sensitivity Measures for Oscillating Systems: Application to Mammalian Circadian Gene Network	15	1.86	2008
A multiscale systems approach to microelectronic processes	1	0.36	2006
Circadian rhythm: A natural, robust, multi-scale control system	5	0.83	2006
Iterative approach to model identification of biological networks.	68	5.51	2005
Phase Sensitivity Analysis Of A Circadian Rhythm Gene Network	0	0.34	2005

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