TY - GEN ID - cogprints3340 UR - http://cogprints.org/3340/ A1 - Yang, Li A1 - Jabri, Marwan Y1 - 2003/// N2 - Given the importance of using resources efficiently in the competition for survival, it is reasonable to think that natural evolution has discovered efficient cortical coding strategies for representing natural visual information. Sparse representations have intrinsic advantages in terms of fault-tolerance and low-power consumption potential, and can therefore be attractive for robot sensorimotor control with powerful dispositions for decision-making. Inspired by the mammalian brain and its visual ventral pathway, we present in this paper a hierarchical sparse coding network architecture that extracts visual features for use in sensorimotor control. Testing with natural images demonstrates that this sparse coding facilitates processing and learning in subsequent layers. Previous studies have shown how the responses of complex cells could be sparsely represented by a higher-order neural layer. Here we extend sparse coding in each network layer, showing that detailed modeling of earlier stages in the visual pathway enhances the characteristics of the receptive fields developed in subsequent stages. The yield network is more dynamic with richer and more biologically plausible input and output representation. PB - Lund University Cognitive Studies KW - hierarchical sparse coding network KW - visual ventral pathway KW - sensorimotor control TI - Sparse visual models for biologically inspired sensorimotor control SP - 131 AV - public EP - 138 ER -