Malsburg von der C. and Schneider W.: A Neural Cocktail--Party Processor, in: Biological Cybernetics, Vol. 54, 1986, pp. 29-40. Home/Search Document Not in Database Summary Related Articles Check |
This paper is cited in the following contexts:
Robust ASR with unreliable data and minimal assumptions - Cooke, Green, Josifovski.. (1999) (3 citations) (Correct)
....the capture effect [16] More speculatively, since the auditory nervous system handles multiple simultaneous signals, there must be a neural mechanism which enables subsequent processes to identify those components which have arisen from the same source. Solutions to this binding problem [15][3] envisage phase synchronisation of sensory channels containing signal components deemed to originate from the same source, which are desynchronised from channels responding to different objects. Processes sampling the neural array at any instant will receive an unobstructed, but incomplete, ....
Malsburg, C. von der & Schneider, W. (1986), "A neural cocktail-party processor", Biol. Cybern., 54, 29-40.
Robust Automatic Speech Recognition with Missing and .. - Cooke, Green.. (2000) (21 citations) (Correct)
....scene analysis problem involves organising multiple, concurrent signals into associated perceptual streams. There must be a neural mechanism which enables subsequent processes to identify those components which have been grouped into the same stream. Solutions to this binding problem (von der Malsburg Schneider, 1986; Liu et al. 1994; Brown, Cooke Mousset, 1996; Brown Wang, 1997) typically envisage phase synchronisation of sensory channels containing signal components deemed to originate from the same object, which are desynchronised from channels responding to different objects. Processes sampling the ....
Malsburg, C. von der, Schneider, W. (1986) A neural cocktail-party processor, Biol. Cybern., 54, pp.29-40.
Robust Automatic Speech Recognition with Missing and .. - Cooke, Green.. (1999) (21 citations) (Correct)
....scene analysis problem involves organising multiple, concurrent signals into associated perceptual streams. There must be a neural mechanism which enables subsequent processes to identify those components which have been grouped into the same stream. Solutions to this binding problem (von der Malsburg Schneider, 1986; Liu et al. 1994; Brown, Cooke Mousset, 1996; Brown Wang, 1997) typically envisage phase synchronisation of sensory channels containing signal components deemed to originate from the same object, which are desynchronised from channels responding to different objects. Processes sampling the ....
Malsburg, C. von der, Schneider, W. (1986) A neural cocktail-party processor, Biol. Cybern., 54, pp.29-40.
Near Saddle-Node Bifurcation Behavior as Dynamics in Working.. - Nakahara, Doya (1998) (6 citations) (Correct)
....for such complex cognitive tasks such as language comprehension, learning, and reasoning. There can be two basic mechanisms for storage of the short term or working memory in neural networks. One possibility is that information is stored in rapid short term changes in the synaptic weights (Malsburg and Schneider 1986; Schmidhuber 1992) Another possibility, which is investigated in this study, is that information is stored in the sustained activity of neurons due to the dynamics of the network. There have been experimental evidences supporting the latter possibility (Funahashi, Bruce, and Goldman Rakic 1989; ....
Malsburg, C. v. d. and W. Schneider (1986). A neural cocktail-party processor. Biological Cybernetics 54, 29--40.
Multi-Agent Market Modeling Based On Neural Networks - Grothmann (Correct)
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Malsburg von der C. and Schneider W.: A Neural Cocktail--Party Processor, in: Biological Cybernetics, Vol. 54, 1986, pp. 29-40.
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