Casian Pantea
Casian Pantea
Bestätigte E-Mail-Adresse bei math.wvu.edu - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Identifiability of chemical reaction networks
G Craciun, C Pantea
Journal of Mathematical Chemistry 44 (1), 244-259, 2008
1542008
Persistence and permanence of mass-action and power-law dynamical systems
G Craciun, F Nazarov, C Pantea
SIAM Journal on Applied Mathematics 73 (1), 305-329, 2013
1022013
On the persistence and global stability of mass-action systems
C Pantea
SIAM Journal on Mathematical Analysis 44 (3), 1636-1673, 2012
662012
Some results on injectivity and multistationarity in chemical reaction networks
M Banaji, C Pantea
SIAM Journal on Applied Dynamical Systems 15 (2), 807-869, 2016
342016
CoNtRol: an open source framework for the analysis of chemical reaction networks
P Donnell, M Banaji, A Marginean, C Pantea
Bioinformatics 30 (11), 1633-1634, 2014
332014
The QSSA in chemical kinetics: as taught and as practiced
C Pantea, A Gupta, JB Rawlings, G Craciun
Discrete and topological models in molecular biology, 419-442, 2014
322014
The inheritance of nondegenerate multistationarity in chemical reaction networks
M Banaji, C Pantea
SIAM Journal on Applied Mathematics 78 (2), 1105-1130, 2018
282018
Global injectivity and multiple equilibria in uni-and bi-molecular reaction networks
C Pantea, H Koeppl, G Craciun
Discrete & Continuous Dynamical Systems-B 17 (6), 2153, 2012
182012
Algebraic methods for inferring biochemical networks: a maximum likelihood approach
G Craciun, C Pantea, GA Rempala
Computational biology and chemistry 33 (5), 361-367, 2009
182009
A computational approach to persistence, permanence, and endotacticity of biochemical reaction systems
MD Johnston, C Pantea, P Donnell
Journal of mathematical biology 72 (1-2), 467-498, 2016
142016
Graph-theoretic analysis of multistability and monotonicity for biochemical reaction networks
G Craciun, C Pantea, ED Sontag
Design and analysis of biomolecular circuits, 63-72, 2011
132011
Combinatorial approaches to Hopf bifurcations in systems of interacting elements
D Angeli, M Banaji, C Pantea
Communications in Mathematical Sciences 12 (6), 1101-1133, 0
13*
Computational methods for analyzing bistability in biochemical reaction networks
C Pantea, G Craciun
Proceedings of 2010 IEEE International Symposium on Circuits and Systems …, 2010
92010
Statistical model for biochemical network inference
G Craciun, J Kim, C Pantea, GA Rempala
Communications in Statistics-Simulation and Computation 42 (1), 121-137, 2013
82013
A deficiency-based approach to parametrizing positive equilibria of biochemical reaction systems
MD Johnston, S Müller, C Pantea
Bulletin of mathematical biology 81 (4), 1143-1172, 2019
72019
A generalization of Birch's theorem and vertex-balanced steady states for generalized mass-action systems
G Craciun, S Muller, C Pantea, PY Yu
arXiv preprint arXiv:1802.06919, 2018
62018
Chemical reaction-diffusion networks: convergence of the method of lines
F Mohamed, C Pantea, A Tudorascu
Journal of Mathematical Chemistry 56 (1), 30-68, 2018
62018
Multistationarity in biochemical networks: Results, analysis, and examples
C Conradi, C Pantea
Algebraic and combinatorial computational biology, 279-317, 2019
52019
Convergence to the complex balanced equilibrium for some chemical reaction-diffusion systems with boundary equilibria
G Craciun, J Jin, C Pantea, A Tudorascu
arXiv preprint arXiv:1812.07707, 2018
32018
Mathematical methods for modeling chemical reaction networks
J Carden, C Pantea, G Craciun, R Machiraju, P Mallick
bioRxiv, 070326, 2016
32016
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