Mirror Symmetric Topographic Maps Can Arise from Activity-Dependent Synaptic Changes
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Publication:4678446
DOI10.1162/0899766053491904zbMath1060.92024OpenAlexW2096433506WikidataQ48930252 ScholiaQ48930252MaRDI QIDQ4678446
Reiner Schulz, James A. Reggia
Publication date: 23 May 2005
Published in: Neural Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1162/0899766053491904
Related Items (3)
A Model for Learning Topographically Organized Parts-Based Representations of Objects in Visual Cortex: Topographic Nonnegative Matrix Factorization ⋮ Self-organizing neural projections ⋮ Plasticity-Induced Symmetry Relationships Between Adjacent Self-Organizing Topographic Maps
Cites Work
- On the stationary state of Kohonen's self-organizing sensory mapping
- Cooperative self-organization of afferent and lateral connections in cortical maps
- Tonotopic representation of auditory responses using self-organizing maps
- Temporally Asymmetric Learning Supports Sequence Processing in Multi-Winner Self-Organizing Maps
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