publication . Preprint . 2015

Are there intelligent Turing machines?

Bátfai, Norbert;
Open Access English
  • Published: 12 Mar 2015
Abstract
This paper introduces a new computing model based on the cooperation among Turing machines called orchestrated machines. Like universal Turing machines, orchestrated machines are also designed to simulate Turing machines but they can also modify the original operation of the included Turing machines to create a new layer of some kind of collective behavior. Using this new model we can define some interested notions related to cooperation ability of Turing machines such as the intelligence quotient or the emotional intelligence quotient for Turing machines.
Subjects
arXiv: Computer Science::Computational ComplexityComputer Science::General LiteratureComputer Science::Formal Languages and Automata Theory
ACM Computing Classification System: TheoryofComputation_COMPUTATIONBYABSTRACTDEVICESTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESTheoryofComputation_GENERAL
free text keywords: Computer Science - Artificial Intelligence, 68Q05, F.1.2
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16 references, page 1 of 2

[1] N. Batfai. Recombinations of Busy Beaver Machines. ArXiv e-prints, CoRR, abs/0908.4013, 2009. URL http://arxiv.org/abs/0908.4013. [OpenAIRE]

[2] N. Batfai. On the Running Time of the Shortest Programs. ArXiv e-prints, CoRR, abs/0908.1159, 2009. URL http://arxiv.org/abs/0908.1159. [OpenAIRE]

[3] G. Chaitin. Meta Math! : The Quest for Omega. Pantheon, 2005. ISBN 0-37-5423133. URL http://arxiv.org/pdf/math/0404335v7.pdf.

[4] C. Fellbaum, editor. WordNet: an electronic lexical database. MIT Press, 1998.

[5] S. R. Hamero . Quantum computation in brain microtubules? The Penrose-Hamero 'Orch OR' model of consciousness. Philosophical Transactions Royal Society London : Mathematical, Physical and Engineering Sciences, 356(1743):1869{1896, 1998.

[6] D. B. Lenat. Cyc: A large-scale investment in knowledge infrastructure. Commun. ACM, 38(11):33{38, 1995. [OpenAIRE]

[7] H. Liu and P. Singh. Conceptnet - a practical commonsense reasoning tool-kit. BT Technology Journal, 22(4):211{226, 2004.

[8] H. Marxen, S. Gmbh, J. Buntrock, and T. U. Berlin. Attacking the busy beaver 5. Bull EATCS, 40:247{251, 1990.

[9] N. E. Mavromatos, A. Mershin, and D. V. Nanopoulos. QED-Cavity Model of Microtubules Implies Dissipationless Energy Transfer and Biological Quantum Teleportation. International Journal of Modern Physics B, 16:3623{3642, 2002.

[10] P. Michel. The Busy Beaver Competition: a historical survey. ArXiv eprints, 2009. URL http://arxiv.org/abs/0906.3749.

[11] J. v. Neumann. The Computer and the Brain. Yale University Press, 1958. ISBN 0-30-0007930.

[12] T. Rado. On non-computable functions. The Bell System Technical Journal, 41(3):877{884, 1962. [OpenAIRE]

[13] J. R. Searle. Minds, brains and programs. Behavioral and Brain Sciences, 3, 1980.

[14] A. Tanenbaum and D. J. Wetherall. Computer Networks. Prentice Hall, 5th edition, 2011. ISBN 0-13-212695.

[15] J. Von Neumann. Mathematical foundations of quantum mechanics. Princeton Univ. Press, 1955.

16 references, page 1 of 2
Abstract
This paper introduces a new computing model based on the cooperation among Turing machines called orchestrated machines. Like universal Turing machines, orchestrated machines are also designed to simulate Turing machines but they can also modify the original operation of the included Turing machines to create a new layer of some kind of collective behavior. Using this new model we can define some interested notions related to cooperation ability of Turing machines such as the intelligence quotient or the emotional intelligence quotient for Turing machines.
Subjects
arXiv: Computer Science::Computational ComplexityComputer Science::General LiteratureComputer Science::Formal Languages and Automata Theory
ACM Computing Classification System: TheoryofComputation_COMPUTATIONBYABSTRACTDEVICESTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESTheoryofComputation_GENERAL
free text keywords: Computer Science - Artificial Intelligence, 68Q05, F.1.2
Download from
16 references, page 1 of 2

[1] N. Batfai. Recombinations of Busy Beaver Machines. ArXiv e-prints, CoRR, abs/0908.4013, 2009. URL http://arxiv.org/abs/0908.4013. [OpenAIRE]

[2] N. Batfai. On the Running Time of the Shortest Programs. ArXiv e-prints, CoRR, abs/0908.1159, 2009. URL http://arxiv.org/abs/0908.1159. [OpenAIRE]

[3] G. Chaitin. Meta Math! : The Quest for Omega. Pantheon, 2005. ISBN 0-37-5423133. URL http://arxiv.org/pdf/math/0404335v7.pdf.

[4] C. Fellbaum, editor. WordNet: an electronic lexical database. MIT Press, 1998.

[5] S. R. Hamero . Quantum computation in brain microtubules? The Penrose-Hamero 'Orch OR' model of consciousness. Philosophical Transactions Royal Society London : Mathematical, Physical and Engineering Sciences, 356(1743):1869{1896, 1998.

[6] D. B. Lenat. Cyc: A large-scale investment in knowledge infrastructure. Commun. ACM, 38(11):33{38, 1995. [OpenAIRE]

[7] H. Liu and P. Singh. Conceptnet - a practical commonsense reasoning tool-kit. BT Technology Journal, 22(4):211{226, 2004.

[8] H. Marxen, S. Gmbh, J. Buntrock, and T. U. Berlin. Attacking the busy beaver 5. Bull EATCS, 40:247{251, 1990.

[9] N. E. Mavromatos, A. Mershin, and D. V. Nanopoulos. QED-Cavity Model of Microtubules Implies Dissipationless Energy Transfer and Biological Quantum Teleportation. International Journal of Modern Physics B, 16:3623{3642, 2002.

[10] P. Michel. The Busy Beaver Competition: a historical survey. ArXiv eprints, 2009. URL http://arxiv.org/abs/0906.3749.

[11] J. v. Neumann. The Computer and the Brain. Yale University Press, 1958. ISBN 0-30-0007930.

[12] T. Rado. On non-computable functions. The Bell System Technical Journal, 41(3):877{884, 1962. [OpenAIRE]

[13] J. R. Searle. Minds, brains and programs. Behavioral and Brain Sciences, 3, 1980.

[14] A. Tanenbaum and D. J. Wetherall. Computer Networks. Prentice Hall, 5th edition, 2011. ISBN 0-13-212695.

[15] J. Von Neumann. Mathematical foundations of quantum mechanics. Princeton Univ. Press, 1955.

16 references, page 1 of 2
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