The aim of this paper is to give an overview of computer modelling and simulation in cellular biology, in particular as applied to complex biochemical processes within the cell. This is illustrated by the use of the techniques of object-oriented modelling, where the computer is used to construct abstractions of objects in the domain being modelled, and these objects then interact within the computer to simulate the system and allow emergent properties to be observed. The paper also discusses the role of computer simulation in understanding complexity in biological systems, and the kinds of information which can be obtained about biology via simulation
The systems biology community is building increasingly complex models and simulations of cells and o...
The basis of computer modelling of any process or system is mathematical models that describe those ...
The aim of a biological model is to understand the integrated structure and behavior of complex biol...
Recent advances in computer technology have promoted the design and use of detailed, computer-based ...
For many years, computers have played an important role in helping scientists to store, manipulate, ...
The systems biology community is building increasingly complex models and simulations of cells and o...
The faithful reproduction and accurate prediction of the phe-notypes and emergent behaviors of compl...
For a system-level understanding of living cells, a quantitative representation of these systems inv...
International audienceThe theory of complex systems has become more and more relevant over the last ...
The systems biology community is building increasingly complex models and simulations of cells and o...
The modeling and simulation of chemical systems in a meaningful scale has become recently possible a...
This paper, which is being presented in two parts, is concerned with the problem of a realistic and ...
The main goal of this thesis was to investigate possible computational approaches useful to study th...
Understanding the behaviour of biological systems requires a complex setting of in vitro and in vivo...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
The systems biology community is building increasingly complex models and simulations of cells and o...
The basis of computer modelling of any process or system is mathematical models that describe those ...
The aim of a biological model is to understand the integrated structure and behavior of complex biol...
Recent advances in computer technology have promoted the design and use of detailed, computer-based ...
For many years, computers have played an important role in helping scientists to store, manipulate, ...
The systems biology community is building increasingly complex models and simulations of cells and o...
The faithful reproduction and accurate prediction of the phe-notypes and emergent behaviors of compl...
For a system-level understanding of living cells, a quantitative representation of these systems inv...
International audienceThe theory of complex systems has become more and more relevant over the last ...
The systems biology community is building increasingly complex models and simulations of cells and o...
The modeling and simulation of chemical systems in a meaningful scale has become recently possible a...
This paper, which is being presented in two parts, is concerned with the problem of a realistic and ...
The main goal of this thesis was to investigate possible computational approaches useful to study th...
Understanding the behaviour of biological systems requires a complex setting of in vitro and in vivo...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
The systems biology community is building increasingly complex models and simulations of cells and o...
The basis of computer modelling of any process or system is mathematical models that describe those ...
The aim of a biological model is to understand the integrated structure and behavior of complex biol...