We develop an account of how mutually inconsistent models of the same target system can provide coherent information about the system. Our account makes use of ideas from the debate surrounding robustness analysis and draws on the idea of a shared structure among models. To illustrate, we consider a case study from international trade-theory
Complex phenomena often require complex explanations. In simple cases, a single model can explain a ...
Complex phenomena often require complex explanations. In simple cases, a single model can explain a ...
In Simulation and Similarity, Michael Weisberg offers a similarity-based account of the model–world ...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
Complex phenomena often require complex explanations. In simple cases, a single model can explain a ...
Complex phenomena often require complex explanations. In simple cases, a single model can explain a ...
In Simulation and Similarity, Michael Weisberg offers a similarity-based account of the model–world ...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
We develop an account of how mutually inconsistent models of the same target system can provide cohe...
Complex phenomena often require complex explanations. In simple cases, a single model can explain a ...
Complex phenomena often require complex explanations. In simple cases, a single model can explain a ...
In Simulation and Similarity, Michael Weisberg offers a similarity-based account of the model–world ...
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