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Network: Computation in Neural Systems Volume 6, 1995 - Issue 4
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Original Article

Quality and efficiency of retrieval for Willshaw-like autoassociative networks. I. Correction

A Frolov Institute for Theoretical physics, University of Linz, Austria
,
A Kartashov Institute for Theoretical physics, University of Linz, Austria
,
A Goltsev Institute for Theoretical physics, University of Linz, Austria
&
R Folk Institute for Theoretical physics, University of Linz, Austria
Pages 513-534 | Received 15 Sep 1995, Published online: 09 Jul 2009

References

  • Hopfield J J. Neural networks and physical system with emergent collective computational abilities. Proc. Natl. Acad. Sci. USA 1982; 79: 2554–8
  • Gardner-Medwin A R. The recall of events through the learning of associations between their parts. Proc. R. Soc. B 1976; 194: 375–402
  • Rolls E T. Information representation, processing, and storage in the brain: Analysis at the single-neuron level. The Neural and Molecular Bases of Learning, J-P Changeux, M Konishi. Wiley, New York 1988; 503–39
  • Miyashita Y, Chang H S. Neuronal correlate of pictorial short-term memory in the primate temporal cortex. Nature 1988; 331: 68–70
  • Willshaw D J, Buneman O P, Longuet-Higgins H C. Nonholographic associative memory. Nature 1969; 222: 960–2
  • Buckingham J T, Willshaw D. Performance characteristics of the associative net. Network: Comput. Neural Syst. 1992; 3: 407–14
  • Frolov A A, Muraviev I P. Neural Models of Associative Memory. Nauka, Moscow 1987, (in Russian)
  • Palm G. On associative memory. Biol. Cybern. 1980; 36: 19–31
  • Frolov A A. Information properties of bilayer neuron nets with binary plastic synapses. Biophysika 1989; 34: 868–76, (in Russian)
  • Frolov A A, Muraviev I P. Informational Characteristics of Neural Networks. Nauka, Moscow 1988, (in Russian)
  • Nadal J-P. Associative memory: on the (puzzling) sparse coded nets. J. Phys. A: Math. Gen. 1991; 24: 1093–101
  • Palm G, Sommer F T. Information capacity in recurrent McCulloch-Pitts networks with sparsely coded memory states. Network: Comput. Neural Syst. 1992; 3: 177–86
  • Kanter I. Potts-glass models of neural networks. Phys. Rev. A 1988; 37: 2739–42
  • Frolov A A, Kartashov A, Goltsev A, Folk R. Quality and efficiency of retrieval for Willshaw-like autoassociative networks: II. Recognition. Network: Comput. Neural Syst. 1995; 6: 535–49
  • Kartashov A, Frolov A A, Goltsev A, Folk R. Quality and efficiency of retrieval for Willshaw-like autoassociative networks: III. Network: Comput. Neural Syst. 1997; 8: 71–86
  • Willshaw D. Holography, associative memory, and inductive generalization. Parallel Models of Associative Memory, G E Hinton, J A Anderson. Lawrence Erlbaum, New York 1981
  • Willshaw D. Models of distributed associative memory. PhD Thesis. Edinburgh University, unpublished. 1971
  • Amosov N M. Modeling of Thinking and Mind. Spartan Books, New York 1967
  • Amari S. Characteristics of sparsely encoded associative memory. Neural Networks 1989; 2: 451–7
  • Perez-Vicente C J, Amit D J. Optimized network for sparsely coded patterns. J. Phys. A: Math. Gen. 1989; 22: 559–69
  • Amit D J, Gutfreund H, Sompolinsky H. Information storage in neural networks with low levels of activity. Phys. Rev. 1987; 35: 2293–303
  • Gibson W G, Robinson J. Statistical analysis of the dynamics of a sparse associative memory. Neural Networks 1992; 5: 645–61
  • Amit D J, Gutfreund H, Sompolinsky H. Statistical mechanics of neural networks near saturation. Ann. Phys. 1987; 173: 30–67
  • Amari S. Mathematical foundation of neurocomputing. Proc. IEEE 1990; 78: 1443–63
  • Dunin-Barkowski V L, Larionova. An information learning and its recall in Marr's memory unit. Biol. Cybern. 1985; 51: 407–15
  • Husek D, Frolov A A. Evaluation of the information capacity of Hopfield network by computer simulation. Neural Network World 1994; 4/1: 53–65
  • Buhmann J, Divko R, Schulten K. Associative memory with high information content. Phys. Rev. A 1989; 39: 2689–92
  • Horner H. Neural networks with low level of activity: Ising vs. McCulloch-Pitts neurons. Z. Phys. B 1989; 75: 133–6
  • Frolov A A, Muraviev I P. Informational characteristics of neural networks capable of associative learning based on Hebbian plasticity. Network: Comput. Neural Syst. 1993; 4: 495–536
  • Gardner E. Structure of metastable states in the Hopfield model. J. Phys. A: Math. Gen. 1986; 19: L1047–52
  • Henkel R D, Opper M. Parallel dynamics of the neural network with the pseudoinverse coupling matrix. J. Phys. A: Math. Gen. 1991; 24: 2201–18
  • Kirkpatrick S, Sherrington D. Infinite-ranged models of spin-glasses. Phys. Rev. B 1978; 17: 4384–403

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