Recent engineering-based modelling efforts in systems biology suggest that some forms of biological robustness depend on structural features of the internal organization of living systems. To explain such features, abstract representations of patterns of organization or design principles within the framework of control theory have been proposed. We characterize such model-based explanations as structural-causal explanations and situate our account in the broader philosophical debate about explanation in biology
This paper adds to the philosophical literature on mechanistic explanation by elaborating two relate...
The use of new technology and mathematics to study the systems of nature is one of the most signific...
International audienceThe central aim of this paper consists in arguing that biological organisms re...
Recent engineering-based modelling efforts in systems biology suggest that some forms of biological ...
Recent engineering-based modelling efforts in systems biology suggest that some forms of biological ...
In this paper I analyze the process by which modelers in systems biology arrive at an adequate repre...
International audienceLiving systems employ several mechanisms and behaviors to achieve robustness a...
The robustness of a biochemical network can be inferred mathematically from its architecture. M athe...
It is argued that once biological systems reach a certain level of complexity, mechanistic explanati...
We review the most basic, established facts from atomic physics, cellular biology and human psycholo...
Mathematical models applied in contemporary theoretical and systems biology are based on some implic...
International audienceOrganization figures centrally in the understanding of biological systems adva...
Living systems employ several mechanisms and behaviors to achieve robustness and maintain themselves...
This paper derives from a broader project dealing with the notion of causal order. I use this term t...
Many processes in natural biological systems, such as chemotaxis in bacteria and osmoregulation in y...
This paper adds to the philosophical literature on mechanistic explanation by elaborating two relate...
The use of new technology and mathematics to study the systems of nature is one of the most signific...
International audienceThe central aim of this paper consists in arguing that biological organisms re...
Recent engineering-based modelling efforts in systems biology suggest that some forms of biological ...
Recent engineering-based modelling efforts in systems biology suggest that some forms of biological ...
In this paper I analyze the process by which modelers in systems biology arrive at an adequate repre...
International audienceLiving systems employ several mechanisms and behaviors to achieve robustness a...
The robustness of a biochemical network can be inferred mathematically from its architecture. M athe...
It is argued that once biological systems reach a certain level of complexity, mechanistic explanati...
We review the most basic, established facts from atomic physics, cellular biology and human psycholo...
Mathematical models applied in contemporary theoretical and systems biology are based on some implic...
International audienceOrganization figures centrally in the understanding of biological systems adva...
Living systems employ several mechanisms and behaviors to achieve robustness and maintain themselves...
This paper derives from a broader project dealing with the notion of causal order. I use this term t...
Many processes in natural biological systems, such as chemotaxis in bacteria and osmoregulation in y...
This paper adds to the philosophical literature on mechanistic explanation by elaborating two relate...
The use of new technology and mathematics to study the systems of nature is one of the most signific...
International audienceThe central aim of this paper consists in arguing that biological organisms re...