Putnam has argued that computational functionalism cannot serve as a foundation for the study of the mind, as every ordinary open physical system implements every finite-state automaton. I argue that Putnam's argument fails, but that it points out the need for a better understanding of the bridge between the theory of computation and the theory of physical systems: the relation of implementation. It also raises questions about the classes of automata that can serve as a basis for understanding the mind. I develop an account of implementation, linked to an appropriate class of automata, such that the requirement that a system implement a given automaton places a very strong constraint on the system. This clears the way for computation to pla...
A cursory examination of the history of Artificial Intelligence, AI, serves to highlight several str...
Many computational modeling approaches of the mind seem to be characterized by an implicit strong ph...
Mental representations, Swiatczak (Minds Mach 21:19-32, 2011) argues, are fundamentally biochemical ...
Some have suggested that there is no fact to the matter as to whether or not a particular physical s...
Computational Theory of Mind states that physical systems feature mental properties due to the fact ...
Putnam proved a theorem stating that, under very generic conditions, every physical system implement...
Triviality arguments against the computational theory of mind claim that computational implementatio...
Realism about computation is the view that whether or not a particular physical system is performing...
Computation is central to the foundations of modern cognitive science, but its role is controversial...
Computationalism, or digital mechanism, or simply mechanism, is a hypothesis in the cognitive scienc...
Chalmers (2011) argues for the following two principles: computational sufficiency and computational...
Some philosophers have conflated functionalism and computationalism. I reconstruct how this came abo...
Gödel's theorem is consistent with the computationalist hypothesis. Roger Penrose, however, cla...
The Chinese Room argument shows that the Turing test functions only by syntax, thereby revealing tha...
The most cursory examination of the history of artificial intelligence highlights numerous egregious...
A cursory examination of the history of Artificial Intelligence, AI, serves to highlight several str...
Many computational modeling approaches of the mind seem to be characterized by an implicit strong ph...
Mental representations, Swiatczak (Minds Mach 21:19-32, 2011) argues, are fundamentally biochemical ...
Some have suggested that there is no fact to the matter as to whether or not a particular physical s...
Computational Theory of Mind states that physical systems feature mental properties due to the fact ...
Putnam proved a theorem stating that, under very generic conditions, every physical system implement...
Triviality arguments against the computational theory of mind claim that computational implementatio...
Realism about computation is the view that whether or not a particular physical system is performing...
Computation is central to the foundations of modern cognitive science, but its role is controversial...
Computationalism, or digital mechanism, or simply mechanism, is a hypothesis in the cognitive scienc...
Chalmers (2011) argues for the following two principles: computational sufficiency and computational...
Some philosophers have conflated functionalism and computationalism. I reconstruct how this came abo...
Gödel's theorem is consistent with the computationalist hypothesis. Roger Penrose, however, cla...
The Chinese Room argument shows that the Turing test functions only by syntax, thereby revealing tha...
The most cursory examination of the history of artificial intelligence highlights numerous egregious...
A cursory examination of the history of Artificial Intelligence, AI, serves to highlight several str...
Many computational modeling approaches of the mind seem to be characterized by an implicit strong ph...
Mental representations, Swiatczak (Minds Mach 21:19-32, 2011) argues, are fundamentally biochemical ...