Selforganizing memory: active learning of landmarks used for navigation

Cruse H, Hübner D (2008)
Biological Cybernetics 99(3): 219-236.

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Zeitschriftenaufsatz | Veröffentlicht | Englisch
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Biological Cybernetics
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99
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3
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219-236
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Cruse H, Hübner D. Selforganizing memory: active learning of landmarks used for navigation. Biological Cybernetics. 2008;99(3):219-236.
Cruse, H., & Hübner, D. (2008). Selforganizing memory: active learning of landmarks used for navigation. Biological Cybernetics, 99(3), 219-236. doi:10.1007/s00422-008-0256-7
Cruse, H., and Hübner, D. (2008). Selforganizing memory: active learning of landmarks used for navigation. Biological Cybernetics 99, 219-236.
Cruse, H., & Hübner, D., 2008. Selforganizing memory: active learning of landmarks used for navigation. Biological Cybernetics, 99(3), p 219-236.
H. Cruse and D. Hübner, “Selforganizing memory: active learning of landmarks used for navigation”, Biological Cybernetics, vol. 99, 2008, pp. 219-236.
Cruse, H., Hübner, D.: Selforganizing memory: active learning of landmarks used for navigation. Biological Cybernetics. 99, 219-236 (2008).
Cruse, Holk, and Hübner, David. “Selforganizing memory: active learning of landmarks used for navigation”. Biological Cybernetics 99.3 (2008): 219-236.

4 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Neural mechanisms of insect navigation.
Webb B, Wystrach A., Curr Opin Insect Sci 15(), 2016
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No need for a cognitive map: decentralized memory for insect navigation.
Cruse H, Wehner R., PLoS Comput Biol 7(3), 2011
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Compact internal representation of dynamic situations: neural network implementing the causality principle.
Villacorta-Atienza JA, Velarde MG, Makarov VA., Biol Cybern 103(4), 2010
PMID: 20589508
Are bigger brains better?
Chittka L, Niven J., Curr Biol 19(21), 2009
PMID: 19922859

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