Difference between revisions of "BiologicalArchitectureSubsymbolic"

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== Overview ==
 
== Overview ==
  
TBD
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* mind connections can be divided into aggregating and direct
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* aggregating connections reduce level of details, constructing abstracts - object-bound, body-bound or spatial
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** abstracts are also known as symbolic elements
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** abstracts help to create complex behavior by means of integrating many modalities and static and dynamic aspects of environment
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* direct (subsymbolic) connections create behaviour without aggregation
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** most simple is environment-bound muscle power control: gamma-motoneuron -> muscle -> nucleus proprius -> alpha-motoneuron
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** major non-aggregating circuit is muscle control by touch: skin -> dorsal column nuclei -> ventroposterolateral thalamic nucleus -> S1 -> M1 -> alpha-motoneuron -> muscle

Latest revision as of 22:17, 7 December 2015

Biological Life Research

Home -> BiologicalLifeResearch -> BiologicalArchitecture -> BiologicalArchitectureSubsymbolic

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This page covers biological principles of subsymbolic implementation.

Overview

  • mind connections can be divided into aggregating and direct
  • aggregating connections reduce level of details, constructing abstracts - object-bound, body-bound or spatial
    • abstracts are also known as symbolic elements
    • abstracts help to create complex behavior by means of integrating many modalities and static and dynamic aspects of environment
  • direct (subsymbolic) connections create behaviour without aggregation
    • most simple is environment-bound muscle power control: gamma-motoneuron -> muscle -> nucleus proprius -> alpha-motoneuron
    • major non-aggregating circuit is muscle control by touch: skin -> dorsal column nuclei -> ventroposterolateral thalamic nucleus -> S1 -> M1 -> alpha-motoneuron -> muscle