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In this paper we present the extension of the kinetic logic proposed by René Thomas for analysis of genetic regulatory gene networks. We consider the case with a Gaussian noise added to the regulation function and propose a method of analyzing the resulting model with a discrete time Markov model.
Bartek Wilczyński. "A stochastic extension of R. Thomas regulatory network modelling." Banach Center Publications 80.1 (2008): 271-276. <http://eudml.org/doc/282001>.
@article{BartekWilczyński2008, abstract = {In this paper we present the extension of the kinetic logic proposed by René Thomas for analysis of genetic regulatory gene networks. We consider the case with a Gaussian noise added to the regulation function and propose a method of analyzing the resulting model with a discrete time Markov model.}, author = {Bartek Wilczyński}, journal = {Banach Center Publications}, keywords = {gene networks; stochastic logical networks}, language = {eng}, number = {1}, pages = {271-276}, title = {A stochastic extension of R. Thomas regulatory network modelling}, url = {http://eudml.org/doc/282001}, volume = {80}, year = {2008}, }
TY - JOUR AU - Bartek Wilczyński TI - A stochastic extension of R. Thomas regulatory network modelling JO - Banach Center Publications PY - 2008 VL - 80 IS - 1 SP - 271 EP - 276 AB - In this paper we present the extension of the kinetic logic proposed by René Thomas for analysis of genetic regulatory gene networks. We consider the case with a Gaussian noise added to the regulation function and propose a method of analyzing the resulting model with a discrete time Markov model. LA - eng KW - gene networks; stochastic logical networks UR - http://eudml.org/doc/282001 ER -