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Journal of Artificial General Intelligence

The Journal of the Artificial General Intelligence Society

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Editorial: Approaches and Assumptions of Self-Programming in Achieving Artificial General Intelligence

Kristinn R. Thórisson
  • Center for Analysis & Design of Intelligent Agents / School of Computer Science Reykjavik University 101 Reykjavik, Iceland & Icelandic Institute for Intelligent Machines 2.h. Uranus 101 Reykjavik, Iceland
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/ Eric Nivel
  • Center for Analysis & Design of Intelligent Agents / School of Computer Science Reykjavik University 101 Reykjavik, Iceland
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/ Ricardo Sanz / Pei Wang
Published Online: 2013-01-04 | DOI: https://doi.org/10.2478/v10229-011-0017-1
  • Balmelli, L., Brown, D., Cantor, M., and Mott, M. (2006). Model-driven systems development. IBM Systems Journal, 45(3):569-585.Google Scholar

  • Garlan, D., Allen, R. and Ockerbloom, J. (1995). Architectural mismatch or why it’s hard to build systems out of existing parts. Proceedings of the Seventeenth International Conference on Software Engineering, 179-185.Google Scholar

  • Hansen, L. P. and Sargent, T. J. (2007). Robustness. Princeton University Press.Google Scholar

  • Heylighen, F. and Joslyn, C. (2001). Cybernetics and second order cybernetics. In R. A. Mayers (ed.), Encyclopedia of Physical Science and Technology, Vol. 4, Academic Press, 155–170.Google Scholar

  • Hutter, M. (2007) Universal algorithmic intelligence: A mathematical top→down approach. In B. Goertzel and C. Pennachin, editors, Artificial General Intelligence, Cognitive Technologies, pages 227–290. Springer, Berlin, 2007.Google Scholar

  • Koza, J. R., Keane, M. A., Bennett III, F. H., and Mydlowec, W. (2000). Automatic Creation of Human-Competitive Programs and Controllers by Means of Genetic Programming. In Genetic Programming and Evolvable Machines, 1:121-164.Google Scholar

  • Laird, J. E., Newell, A. and Rosenbloom P. S. (1987) Soar: an architecture for general intelligence. Artificial Intelligence, 33(1):1–64, 1987.Google Scholar

  • Muggleton, S. and de Raedt, L. (1994). Inductive logic programming: Theory and methods. The Journal of Logic Programming, 19–20, Supplement 1(0):629–679.Google Scholar

  • Newell, A. (1963). A guide to the general problem-solver program GPS-2-2. RAND Corporation, Santa Monica, California, Technical Report No. RM-3337-PR.Google Scholar

  • Nivel, E. (2007). Ikon Flux 2.0. Reykjavik University, School of Computer Science Technical Report, RUTR-CS07006.Google Scholar

  • Pissanetzky, S. (2011). Emergence and Self-organization in Partially Ordered Sets. Complexity, 17(2):19-38.CrossrefWeb of ScienceGoogle Scholar

  • Sanz, R., Hernández, C., Gómez, J., Bermejo-Alonso, J., Rodríguez, M., Hernando, A., and Sánchez, G. (2009). Systems, models and self-awareness: Towards architectural models of consciousness. International Journal of Machine Consciousness, 1(2):255–279.Google Scholar

  • Schmidhuber. J. (2006). Gödel machines: Fully self-referential optimal universal self-improvers. In B. Goertzel and C. Pennachin, (eds.), Artificial General Intelligence, 199–226. Springer Verlag, 2006.Google Scholar

  • Thórisson, K. R. (2012). A New Constructivist AI: From Manual Construction to Self- Constructive Systems. In P. Wang and B. Goertzel (eds.), Theoretical Foundations of Artificial General Intelligence, Atlantis Thinking Machines, 4:145-171.Google Scholar

  • Thórisson, K. R. & H. P. Helgason (2012). Cognitive Architectures and Autonomy: A Comparative Review. Journal of Artificial General Intelligence, 3(2):1-30.Google Scholar

About the article

Published Online: 2013-01-04

Citation Information: Journal of Artificial General Intelligence, Volume 3, Issue 3, Pages 1–10, ISSN (Online) 1946-0163, DOI: https://doi.org/10.2478/v10229-011-0017-1.

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