Kaplan and Craver claim that all explanations in neuroscience appeal to mechanisms. They extend this view to the use of mathematical models in neuroscience and propose a constraint such models must meet in order to be explanatory. I analyze a mathematical model used to provide explanations in dynamical systems neuroscience and indicate how this explanation cannot be accommodated by the mechanist framework. I argue that this explanation is well characterized by Batterman’s account of minimal model explanations and that it demonstrates how relationships between explanatory models in neuroscience and the systems they represent is more complex than has been appreciated
Mechanistic explanations satisfy widely held norms of explanation: the ability to control and answer...
Mechanistic explanation is often held to be necessary for providing causal explanations within the s...
The central aim of this paper is to shed light on the nature of explanation in computational neurosc...
Kaplan and Craver claim that all explanations in neuroscience appeal to mechanisms. They extend this...
There have been recent disagreements in the philosophy of neuroscience regarding which sorts of scie...
Proponents of mechanistic explanation have argued that dynamical models are mere phenomenal models, ...
Several articles have recently appeared arguing that there really are no viable alternatives to mech...
This paper employs an interventionist framework to elucidate some issues having to do with explanat...
Dynamical systems play a central role in explanations in cognitive neuroscience. The grounds for the...
International audienceA major type of explanation in biology consists of mechanistic explanations (e...
The most expressive account of explanations in neuroscience is currently the causal-mechanistic mode...
2018 The Author(s) 2018. This article demonstrates that non-mechanistic, dynamical explanations are ...
Recently, it has been provocatively claimed that dynamical modeling approaches signal the emergence ...
The received view of dynamical explanation is that dynamical cognitive science seeks to provide cove...
This paper considers the way mathematical and computational models are used in network neuroscience ...
Mechanistic explanations satisfy widely held norms of explanation: the ability to control and answer...
Mechanistic explanation is often held to be necessary for providing causal explanations within the s...
The central aim of this paper is to shed light on the nature of explanation in computational neurosc...
Kaplan and Craver claim that all explanations in neuroscience appeal to mechanisms. They extend this...
There have been recent disagreements in the philosophy of neuroscience regarding which sorts of scie...
Proponents of mechanistic explanation have argued that dynamical models are mere phenomenal models, ...
Several articles have recently appeared arguing that there really are no viable alternatives to mech...
This paper employs an interventionist framework to elucidate some issues having to do with explanat...
Dynamical systems play a central role in explanations in cognitive neuroscience. The grounds for the...
International audienceA major type of explanation in biology consists of mechanistic explanations (e...
The most expressive account of explanations in neuroscience is currently the causal-mechanistic mode...
2018 The Author(s) 2018. This article demonstrates that non-mechanistic, dynamical explanations are ...
Recently, it has been provocatively claimed that dynamical modeling approaches signal the emergence ...
The received view of dynamical explanation is that dynamical cognitive science seeks to provide cove...
This paper considers the way mathematical and computational models are used in network neuroscience ...
Mechanistic explanations satisfy widely held norms of explanation: the ability to control and answer...
Mechanistic explanation is often held to be necessary for providing causal explanations within the s...
The central aim of this paper is to shed light on the nature of explanation in computational neurosc...