Dynamical systems modeling, particularly via systems of ordinary differential equations, has been used to effectively capture the temporal behavior of different biochemical components in signal transduction networks. Despite the recent advances in experimental measurements, including sensor development and '-omics' studies that have helped populate protein-protein interaction networks in great detail, systems biology modeling lacks systematic methods to estimate kinetic parameters and quantify associated uncertainties. This is because of multiple reasons, including sparse and noisy experimental measurements, lack of detailed molecular mechanisms underlying the reactions, and missing biochemical interactions. Additionally, the inherent nonli...
Mathematical modelling opens the door to a rich pathway to study the dynamic properties of biologica...
A b s t r a c t: This paper proposes to use approximate instead of exact stochastic simulation algor...
Mechanistic models based on systems of nonlinear differential equations can help provide a quantitat...
Dynamical systems modeling, particularly via systems of ordinary differential equations, has been us...
Nonlinear dynamic systems such as biochemical pathways can be represented in abstract form using a n...
AbstractNonlinear dynamic systems such as biochemical pathways can be represented in abstract form u...
Background A common challenge in systems biology is to infer mechanistic descriptions of biological ...
Many mathematical models have now been employed across every area of systems biology. These models i...
Improved mechanistic understanding of biochemical networks is one of the driving ambitions of System...
Motivation: Cellular information processing can be described mathematically using differential equat...
Systems biology models are used to understand complex biological and physiological systems. Interpre...
Motivation: Dynamical models describing intracellular phenomena are increasing in size and complexit...
The modelling of biochemical networks becomes delicate if kinetic parameters are varying, uncertain ...
Motivation: There often are many alternative models of a biochemical system. Distinguishing models a...
Motivation: There are several levels of uncertainty involved in the mathematical modelling of bioche...
Mathematical modelling opens the door to a rich pathway to study the dynamic properties of biologica...
A b s t r a c t: This paper proposes to use approximate instead of exact stochastic simulation algor...
Mechanistic models based on systems of nonlinear differential equations can help provide a quantitat...
Dynamical systems modeling, particularly via systems of ordinary differential equations, has been us...
Nonlinear dynamic systems such as biochemical pathways can be represented in abstract form using a n...
AbstractNonlinear dynamic systems such as biochemical pathways can be represented in abstract form u...
Background A common challenge in systems biology is to infer mechanistic descriptions of biological ...
Many mathematical models have now been employed across every area of systems biology. These models i...
Improved mechanistic understanding of biochemical networks is one of the driving ambitions of System...
Motivation: Cellular information processing can be described mathematically using differential equat...
Systems biology models are used to understand complex biological and physiological systems. Interpre...
Motivation: Dynamical models describing intracellular phenomena are increasing in size and complexit...
The modelling of biochemical networks becomes delicate if kinetic parameters are varying, uncertain ...
Motivation: There often are many alternative models of a biochemical system. Distinguishing models a...
Motivation: There are several levels of uncertainty involved in the mathematical modelling of bioche...
Mathematical modelling opens the door to a rich pathway to study the dynamic properties of biologica...
A b s t r a c t: This paper proposes to use approximate instead of exact stochastic simulation algor...
Mechanistic models based on systems of nonlinear differential equations can help provide a quantitat...