Switch to: Citations

Add references

You must login to add references.
  1. A computational foundation for the study of cognition.David Chalmers - 2011 - Journal of Cognitive Science 12 (4):323-357.
    Computation is central to the foundations of modern cognitive science, but its role is controversial. Questions about computation abound: What is it for a physical system to implement a computation? Is computation sufficient for thought? What is the role of computation in a theory of cognition? What is the relation between different sorts of computational theory, such as connectionism and symbolic computation? In this paper I develop a systematic framework that addresses all of these questions. Justifying the role of computation (...)
    Download  
     
    Export citation  
     
    Bookmark   98 citations  
  • The mind as the software of the brain.Ned Block - 1990 - In Daniel N. Osherson & Edward E. Smith (eds.), An Invitation to Cognitive Science: Visual cognition. 2. MIT Press. pp. 377-425.
    In this section, we will start with an influential attempt to define `intelligence', and then we will move to a consideration of how human intelligence is to be investigated on the machine model. The last part of the section will discuss the relation between the mental and the biological.
    Download  
     
    Export citation  
     
    Bookmark   60 citations  
  • Representation and Reality.Hilary Putnam - 1987 - MIT Press.
    Hilary Putnam, who may have been the first philosopher to advance the notion that the computer is an apt model for the mind, takes a radically new view of his...
    Download  
     
    Export citation  
     
    Bookmark   304 citations  
  • (2 other versions)Troubles with functionalism.Ned Block - 1978 - Minnesota Studies in the Philosophy of Science 9:261-325.
    The functionalist view of the nature of the mind is now widely accepted. Like behaviorism and physicalism, functionalism seeks to answer the question "What are mental states?" I shall be concerned with identity thesis formulations of functionalism. They say, for example, that pain is a functional state, just as identity thesis formulations of physicalism say that pain is a physical state.
    Download  
     
    Export citation  
     
    Bookmark   507 citations  
  • The Rediscovery of the Mind.John R. Searle - 1992 - MIT Press. Edited by Ned Block & Hilary Putnam.
    The title of The Rediscovery of the Mind suggests the question "When was the mind lost?" Since most people may not be aware that it ever was lost, we must also then ask "Who lost it?" It was lost, of course, only by philosophers, by certain philosophers. This passed unnoticed by society at large. The "rediscovery" is also likely to pass unnoticed. But has the mind been rediscovered by the same philosophers who "lost" it? Probably not. John Searle is an (...)
    Download  
     
    Export citation  
     
    Bookmark   679 citations  
  • (2 other versions)The Rediscovery of the Mind, by John Searle. [REVIEW]Mark William Rowe - 1992 - Philosophy 68 (265):415-418.
    Download  
     
    Export citation  
     
    Bookmark   651 citations  
  • Computation, individuation, and the received view on representation.Mark Sprevak - 2010 - Studies in History and Philosophy of Science Part A 41 (3):260-270.
    The ‘received view’ about computation is that all computations must involve representational content. Egan and Piccinini argue against the received view. In this paper, I focus on Egan’s arguments, claiming that they fall short of establishing that computations do not involve representational content. I provide positive arguments explaining why computation has to involve representational content, and how that representational content may be of any type. I also argue that there is no need for computational psychology to be individualistic. Finally, I (...)
    Download  
     
    Export citation  
     
    Bookmark   60 citations  
  • (2 other versions)Troubles with Functionalism.Ned Block - 1993 - In Alvin I. Goldman (ed.), Readings in Philosophy and Cognitive Science. Cambridge: MIT Press. pp. 231.
    Download  
     
    Export citation  
     
    Bookmark   367 citations  
  • Triviality arguments against functionalism.Peter Godfrey-Smith - 2009 - Philosophical Studies 145 (2):273 - 295.
    “Triviality arguments” against functionalism in the philosophy of mind hold that the claim that some complex physical system exhibits a given functional organization is either trivial or has much less content than is usually supposed. I survey several earlier arguments of this kind, and present a new one that overcomes some limitations in the earlier arguments. Resisting triviality arguments is possible, but requires functionalists to revise popular views about the “autonomy” of functional description.
    Download  
     
    Export citation  
     
    Bookmark   38 citations  
  • Computation without representation.Gualtiero Piccinini - 2008 - Philosophical Studies 137 (2):205-241.
    The received view is that computational states are individuated at least in part by their semantic properties. I offer an alternative, according to which computational states are individuated by their functional properties. Functional properties are specified by a mechanistic explanation without appealing to any semantic properties. The primary purpose of this paper is to formulate the alternative view of computational individuation, point out that it supports a robust notion of computational explanation, and defend it on the grounds of how computational (...)
    Download  
     
    Export citation  
     
    Bookmark   105 citations  
  • Does a rock implement every finite-state automaton?David J. Chalmers - 1996 - Synthese 108 (3):309-33.
    Hilary 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 class of automata that can serve as a basis for understanding the (...)
    Download  
     
    Export citation  
     
    Bookmark   149 citations  
  • What is computation?B. Jack Copeland - 1996 - Synthese 108 (3):335-59.
    To compute is to execute an algorithm. More precisely, to say that a device or organ computes is to say that there exists a modelling relationship of a certain kind between it and a formal specification of an algorithm and supporting architecture. The key issue is to delimit the phrase of a certain kind. I call this the problem of distinguishing between standard and nonstandard models of computation. The successful drawing of this distinction guards Turing's 1936 analysis of computation against (...)
    Download  
     
    Export citation  
     
    Bookmark   89 citations  
  • The Rediscovery of the Mind.John Searle - 1992 - Philosophy and Phenomenological Research 55 (1):201-207.
    Download  
     
    Export citation  
     
    Bookmark   520 citations  
  • Representation and Reality.H. Putnam - 1988 - Tijdschrift Voor Filosofie 52 (1):168-168.
    Download  
     
    Export citation  
     
    Bookmark   276 citations  
  • Why everything doesn't realize every computation.Ronald L. Chrisley - 1994 - Minds and Machines 4 (4):403-420.
    Some have suggested that there is no fact to the matter as to whether or not a particular physical system relaizes a particular computational description. This suggestion has been taken to imply that computational states are not real, and cannot, for example, provide a foundation for the cognitive sciences. In particular, Putnam has argued that every ordinary open physical system realizes every abstract finite automaton, implying that the fact that a particular computational characterization applies to a physical system does not (...)
    Download  
     
    Export citation  
     
    Bookmark   37 citations  
  • (1 other version)Computational vs. causal complexity.Matthias Scheutz - 2001 - Minds and Machines 11 (4):543-566.
    The main claim of this paper is that notions of implementation based on an isomorphic correspondence between physical and computational states are not tenable. Rather, ``implementation'' has to be based on the notion of ``bisimulation'' in order to be able to block unwanted implementation results and incorporate intuitions from computational practice. A formal definition of implementation is suggested, which satisfies theoretical and practical requirements and may also be used to make the functionalist notion of ``physical realization'' precise. The upshot of (...)
    Download  
     
    Export citation  
     
    Bookmark   29 citations  
  • Content, computation and externalism.Oron Shagrir - 2001 - Mind 110 (438):369-400.
    The paper presents an extended argument for the claim that mental content impacts the computational individuation of a cognitive system (section 2). The argument starts with the observation that a cognitive system may simultaneously implement a variety of different syntactic structures, but that the computational identity of a cognitive system is given by only one of these implemented syntactic structures. It is then asked what are the features that determine which of implemented syntactic structures is the computational structure of the (...)
    Download  
     
    Export citation  
     
    Bookmark   70 citations  
  • When physical systems realize functions.Matthias Scheutz - 1999 - Minds and Machines 9 (2):161-196.
    After briefly discussing the relevance of the notions computation and implementation for cognitive science, I summarize some of the problems that have been found in their most common interpretations. In particular, I argue that standard notions of computation together with a state-to-state correspondence view of implementation cannot overcome difficulties posed by Putnam's Realization Theorem and that, therefore, a different approach to implementation is required. The notion realization of a function, developed out of physical theories, is then introduced as a replacement (...)
    Download  
     
    Export citation  
     
    Bookmark   45 citations  
  • On effective procedures.Carol E. Cleland - 2002 - Minds and Machines 12 (2):159-179.
    Since the mid-twentieth century, the concept of the Turing machine has dominated thought about effective procedures. This paper presents an alternative to Turing's analysis; it unifies, refines, and extends my earlier work on this topic. I show that Turing machines cannot live up to their billing as paragons of effective procedure; at best, they may be said to provide us with mere procedure schemas. I argue that the concept of an effective procedure crucially depends upon distinguishing procedures as definite courses (...)
    Download  
     
    Export citation  
     
    Bookmark   15 citations  
  • Searle's abstract argument against strong AI.Andrew Melnyk - 1996 - Synthese 108 (3):391-419.
    Discussion of Searle's case against strong AI has usually focused upon his Chinese Room thought-experiment. In this paper, however, I expound and then try to refute what I call his abstract argument against strong AI, an argument which turns upon quite general considerations concerning programs, syntax, and semantics, and which seems not to depend on intuitions about the Chinese Room. I claim that this argument fails, since it assumes one particular account of what a program is. I suggest an alternative (...)
    Download  
     
    Export citation  
     
    Bookmark   11 citations  
  • (1 other version)Computational versus Causal Complexity.Matthias Scheutz - 2001 - Minds and Machines 11 (4):543-566.
    The main claim of this paper is that notions of implementation based on an isomorphic correspondence between physical and computational states are not tenable. Rather, ``implementation'' has to be based on the notion of ``bisimulation'' in order to be able to block unwanted implementation results and incorporate intuitions from computational practice. A formal definition of implementation is suggested, which satisfies theoretical and practical requirements and may also be used to make the functionalist notion of ``physical realization'' precise. The upshot of (...)
    Download  
     
    Export citation  
     
    Bookmark   29 citations  
  • Causal vs. computational complexity?Matthias Scheutz - 2001 - Minds and Machines 11:534-566.
    Download  
     
    Export citation  
     
    Bookmark   14 citations