Title :
Parametric analysis of dynamically equivalent reaction network models
Author :
Csercsik, David ; Szederkenyi, Gabor
Author_Institution :
Fac. of Inf. Technol. & Bionics, Pamany Peter Catholic Univ., Budapest, Hungary
Abstract :
Using the results related to dynamically equivalent realizations of reaction kinetic systems, we analyze the dynamical properties of mass action reaction networks on which the well known structure based theorems of reaction kinetics are not directly applicable with respect to given range of certain rate coefficients. We introduce a transformation matrix to describe parametric changes, and show that if the appropriate transformation matrix has been found, parameter ranges for which certain dynamical properties can be ensured may be determined via the solution of a linear programming problem. The method is illustrated by numerical examples.
Keywords :
chemistry computing; dynamics; linear programming; matrix algebra; reaction kinetics theory; reaction rate constants; dynamical properties; dynamically equivalent reaction network model; linear programming problem; mass action reaction network; numerical analysis; parameter range determination; parametric analysis; parametric change; rate coefficient range; reaction kinetic system; reaction kinetics theory; structure based theorem; transformation matrix; Chemicals; Couplings; Educational institutions; Kinetic theory; Linear programming; Stability analysis; Vectors;
Conference_Titel :
Control and Automation (MED), 2014 22nd Mediterranean Conference of
Conference_Location :
Palermo
Print_ISBN :
978-1-4799-5900-6
DOI :
10.1109/MED.2014.6961566
