Citation Relationships



Swindale NV (1996) The development of topography in the visual cortex: a review of models. Network 7:161-247 [PubMed]

References and models cited by this paper

References and models that cite this paper

Bednar JA, Kelkar A, Miikkulainen R (2004) Scaling self-organizing maps to model large cortical networks. Neuroinformatics 2:275-302 [Journal] [PubMed]

   Scaling self-organizing maps to model large cortical networks (Bednar et al 2004) [Model]

Bhaumik B, Mathur M (2003) A cooperation and competition based simple cell receptive field model and study of feed-forward linear and nonlinear contributions to orientation selectivity. J Comput Neurosci 14:211-27 [PubMed]

Harris AE, Ermentrout GB, Small SL (2000) A model of ocular dominance column development by competition for trophic factor: effects of excess trophic factor with monocular deprivation and effects of antagonist of trophic factor. J Comput Neurosci 8:227-50 [PubMed]

Hjorth JJ, Sterratt DC, Cutts CS, Willshaw DJ, Eglen SJ (2015) Quantitative assessment of computational models for retinotopic map formation. Dev Neurobiol 75:641-66 [Journal] [PubMed]

   Quantitative assessment of computational models for retinotopic map formation (Hjorth et al. 2015) [Model]

Mayer N, Herrmann JM, Geisel T (2003) Shaping of receptive fields in the visual cortex during retinal maturation. J Comput Neurosci 15:307-20 [PubMed]

Rishikesh N, Venkatesh YV (2003) A computational model for the development of simple-cell receptive fields spanning the regimes before and after eye-opening Neurocomputing 50:125-158 [Journal]

   Development of orientation-selective simple cell receptive fields (Rishikesh and Venkatesh, 2003) [Model]

Stevens JL, Law JS, Antolík J, Bednar JA (2013) Mechanisms for stable, robust, and adaptive development of orientation maps in the primary visual cortex. J Neurosci 33:15747-66 [Journal] [PubMed]

   Mechanisms for stable, robust, and adaptive development of orientation maps (Stevens et al. 2013) [Model]

Tamosiunaite M, Porr B, Wörgötter F (2007) Self-influencing synaptic plasticity: recurrent changes of synaptic weights can lead to specific functional properties. J Comput Neurosci 23:113-27 [Journal] [PubMed]

   Self-influencing synaptic plasticity (Tamosiunaite et al. 2007) [Model]

(8 refs)