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Dynamic Organization of Hierarchical Memories

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  • Tomoki Kurikawa
  • Kunihiko Kaneko

Abstract

In the brain, external objects are categorized in a hierarchical way. Although it is widely accepted that objects are represented as static attractors in neural state space, this view does not take account interaction between intrinsic neural dynamics and external input, which is essential to understand how neural system responds to inputs. Indeed, structured spontaneous neural activity without external inputs is known to exist, and its relationship with evoked activities is discussed. Then, how categorical representation is embedded into the spontaneous and evoked activities has to be uncovered. To address this question, we studied bifurcation process with increasing input after hierarchically clustered associative memories are learned. We found a “dynamic categorization”; neural activity without input wanders globally over the state space including all memories. Then with the increase of input strength, diffuse representation of higher category exhibits transitions to focused ones specific to each object. The hierarchy of memories is embedded in the transition probability from one memory to another during the spontaneous dynamics. With increased input strength, neural activity wanders over a narrower state space including a smaller set of memories, showing more specific category or memory corresponding to the applied input. Moreover, such coarse-to-fine transitions are also observed temporally during transient process under constant input, which agrees with experimental findings in the temporal cortex. These results suggest the hierarchy emerging through interaction with an external input underlies hierarchy during transient process, as well as in the spontaneous activity.

Suggested Citation

  • Tomoki Kurikawa & Kunihiko Kaneko, 2016. "Dynamic Organization of Hierarchical Memories," PLOS ONE, Public Library of Science, vol. 11(9), pages 1-19, September.
    • Handle: RePEc:plo:pone00:0162640
    DOI: 10.1371/journal.pone.0162640
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    References listed on IDEAS

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    1. Yasuko Sugase & Shigeru Yamane & Shoogo Ueno & Kenji Kawano, 1999. "Global and fine information coded by single neurons in the temporal visual cortex," Nature, Nature, vol. 400(6747), pages 869-873, August.
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