In this paper, we survey the recent advances and mathematical foundations of gene-environment networks. We explain their interdisciplinary implications with special regard to human and life sciences as well as financial sciences. Special attention is paid to applications in Operational Research and environmental protection. Originally developed in the context of modeling and prediction of gene-expression patterns, gene-environment networks have proved to provide a conceptual framework for the modeling of dynamical systems with respect to errors and uncertainty as well as the influence of certain environmental items. Given the noise-prone measurement data we extract nonlinear differential equations to describe and analyze the interactions an...
We consider dynamical gene-environment networks under ellipsoidal uncertainty and discuss the corres...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
International audienceThis chapter describes basic principles for modeling genetic regulatory networ...
An emerging research area in computational biology and biotechnology is devoted to mathematical mode...
AbstractAn emerging research area in computational biology and biotechnology is devoted to mathemati...
Abstract: This paper further introduces continuous optimization into the fields of computational bio...
This mathematical contribution is addressed towards the wide interface of life and human sciences th...
In this paper we survey recent advances and mathematical foundations of regulatory networks. We expl...
Gene-environment network studies rely on data originating from different disciplines such as chemist...
In this study, some methodologies and a review of the recently obtained new results are presented fo...
An emerging research area in computational biology and biotechnology is devoted to modelling and pre...
In this survey paper, we present advances achieved during the last years in the development and use ...
In this study, we discuss the models of genetic regulatory systems, so-called gene-environment netwo...
An emerging research area in computational biology and biotechnology is devoted to mathematical mode...
Genes are the fundamental units of biological organisms. Genes encode proteins which carryout variou...
We consider dynamical gene-environment networks under ellipsoidal uncertainty and discuss the corres...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
International audienceThis chapter describes basic principles for modeling genetic regulatory networ...
An emerging research area in computational biology and biotechnology is devoted to mathematical mode...
AbstractAn emerging research area in computational biology and biotechnology is devoted to mathemati...
Abstract: This paper further introduces continuous optimization into the fields of computational bio...
This mathematical contribution is addressed towards the wide interface of life and human sciences th...
In this paper we survey recent advances and mathematical foundations of regulatory networks. We expl...
Gene-environment network studies rely on data originating from different disciplines such as chemist...
In this study, some methodologies and a review of the recently obtained new results are presented fo...
An emerging research area in computational biology and biotechnology is devoted to modelling and pre...
In this survey paper, we present advances achieved during the last years in the development and use ...
In this study, we discuss the models of genetic regulatory systems, so-called gene-environment netwo...
An emerging research area in computational biology and biotechnology is devoted to mathematical mode...
Genes are the fundamental units of biological organisms. Genes encode proteins which carryout variou...
We consider dynamical gene-environment networks under ellipsoidal uncertainty and discuss the corres...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
International audienceThis chapter describes basic principles for modeling genetic regulatory networ...