Lappi Otto and Anna‐Mari Rusanen
- Published in print:
- 2011
- Published Online:
- September 2011
- ISBN:
- 9780199574131
- eISBN:
- 9780191728921
- Item type:
- chapter
- Publisher:
- Oxford University Press
- DOI:
- 10.1093/acprof:oso/9780199574131.003.0011
- Subject:
- Mathematics, Logic / Computer Science / Mathematical Philosophy
A body of recent literature has proposed that explanation in neurosciences, including cognitive neuroscience, is mechanistic. It has also been argued that the mechanistic model could be extended to ...
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A body of recent literature has proposed that explanation in neurosciences, including cognitive neuroscience, is mechanistic. It has also been argued that the mechanistic model could be extended to cover explanations in computer sciences and cognitive sciences. Mechanistic explanation as standardly conceived is a form of causal explanation, and it requires that the explanatory mechanisms are concrete, implemented mechanisms. However, ‘computing mechanisms’ can mean two things. On the one hand, it can refer to concrete — causal — computing mechanisms, such as brains (ex hypothesi) or man‐made computers, etc. On the other hand, it can also refer to abstract computing mechanisms such as abstract Turing machines. Therefore, the notion of computation can be used in cognitive science in at least two ways. Since there are computational explanations, in which Turing machines are considered as abstract mechanisms, the current formulation of mechanistic explanation does not cover those explanations.Less
A body of recent literature has proposed that explanation in neurosciences, including cognitive neuroscience, is mechanistic. It has also been argued that the mechanistic model could be extended to cover explanations in computer sciences and cognitive sciences. Mechanistic explanation as standardly conceived is a form of causal explanation, and it requires that the explanatory mechanisms are concrete, implemented mechanisms. However, ‘computing mechanisms’ can mean two things. On the one hand, it can refer to concrete — causal — computing mechanisms, such as brains (ex hypothesi) or man‐made computers, etc. On the other hand, it can also refer to abstract computing mechanisms such as abstract Turing machines. Therefore, the notion of computation can be used in cognitive science in at least two ways. Since there are computational explanations, in which Turing machines are considered as abstract mechanisms, the current formulation of mechanistic explanation does not cover those explanations.
