Queensland Brain Institute, University of Queensland, St Lucia, Australia.
PLoS Comput Biol. 2013;9(5):e1003005. doi: 10.1371/journal.pcbi.1003005. Epub 2013 May 9.
Receptive fields acquired through unsupervised learning of sparse representations of natural scenes have similar properties to primary visual cortex (V1) simple cell receptive fields. However, what drives in vivo development of receptive fields remains controversial. The strongest evidence for the importance of sensory experience in visual development comes from receptive field changes in animals reared with abnormal visual input. However, most sparse coding accounts have considered only normal visual input and the development of monocular receptive fields. Here, we applied three sparse coding models to binocular receptive field development across six abnormal rearing conditions. In every condition, the changes in receptive field properties previously observed experimentally were matched to a similar and highly faithful degree by all the models, suggesting that early sensory development can indeed be understood in terms of an impetus towards sparsity. As previously predicted in the literature, we found that asymmetries in inter-ocular correlation across orientations lead to orientation-specific binocular receptive fields. Finally we used our models to design a novel stimulus that, if present during rearing, is predicted by the sparsity principle to lead robustly to radically abnormal receptive fields.
通过对自然场景稀疏表示的无监督学习获得的感受野具有与初级视觉皮层 (V1) 简单细胞感受野相似的特性。然而,驱动感受野在体内发育的因素仍存在争议。支持感觉经验在视觉发育中重要性的最强证据来自于在异常视觉输入下饲养的动物的感受野变化。然而,大多数稀疏编码解释只考虑了正常的视觉输入和单眼感受野的发育。在这里,我们应用了三个稀疏编码模型来研究六种异常饲养条件下的双眼感受野发育。在每种情况下,所有模型都以相似且高度忠实的程度匹配了实验中观察到的感受野性质的变化,这表明早期的感官发育确实可以用对稀疏性的推动来理解。正如文献中先前预测的那样,我们发现,在方位上的眼间相关性的不对称导致了方位特异性的双眼感受野。最后,我们使用我们的模型设计了一种新颖的刺激,如果在饲养期间存在,根据稀疏原理预测会导致非常异常的感受野。
