Computational geometry: an introduction
Computational geometry: an introduction
Mind children: the future of robot and human intelligence
Mind children: the future of robot and human intelligence
Computability and logic: 3rd ed.
Computability and logic: 3rd ed.
The algorithmic beauty of plants
The algorithmic beauty of plants
Artificial intelligence: a modern approach
Artificial intelligence: a modern approach
The simple dynamics of super Turing theories
Theoretical Computer Science - Special issue on universal machines and computations
Computation, dynamics, and cognition
Computation, dynamics, and cognition
Complexity and real computation
Complexity and real computation
Complexity - Special issue on uncoventional models of computation
Robot: Mere Machine to Transcendent Mind
Robot: Mere Machine to Transcendent Mind
Artificial Morality: Virtuous Robots for Virtual Games
Artificial Morality: Virtuous Robots for Virtual Games
Minds and Machines
Two Dogmas of Computationalism
Minds and Machines
Minds and Machines
Minds and Machines
Modeling adaptive autonomous agents
Artificial Life
Three Paradigms of Computer Science
Minds and Machines
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If the computational theory of mind is right, then minds are realized by machines. There is an ordered complexity hierarchy of machines. Some finite machines realize finitely complex minds; some Turing machines realize potentially infinitely complex minds. There are many logically possible machines whose powers exceed the Church–Turing limit (e.g. accelerating Turing machines). Some of these supermachines realize superminds. Superminds perform cognitive supertasks. Their thoughts are formed in infinitary languages. They perceive and manipulate the infinite detail of fractal objects. They have infinitely complex bodies. Transfinite games anchor their social relations.