Difference between revisions of "AHumanTarget"

From aHuman Wiki
Jump to: navigation, search
(Automated page entry using MWPush.pl)
 
(Automated page entry using MWPush.pl)
 
Line 1: Line 1:
 
 
<pre style="color: green">Human biological model</pre>
 
<pre style="color: green">Human biological model</pre>
 
@@[[Home]] -> [[Creatures]] -> [[aHumanTarget]]
 
@@[[Home]] -> [[Creatures]] -> [[aHumanTarget]]

Latest revision as of 18:51, 28 November 2018

Human biological model

@@Home -> Creatures -> aHumanTarget

robomouses.jpg


Full biological high-level model with all nucleus, cortices and related circuits

Overview

Functions:

  • target verifies mind model from several perspectives
  • target analyzes mind model, calculating derived properties
  • target by command plays specified flow scenario
  • target by command generates wiki pages

Design:

  • target executes commands from its topic
  • specific components for all sensory and effectors, not patterned in mind engine
  • target itself does not contain sensors or effectors
  • all regions are stubs and produce stub messages
  • all neurolinks are stubs and affect regions as a whole, not individual neurons

Mind Model Verification

Inputs:

  • mind.xml with linear list of components grouped by areas, and type definitions
  • hmind.xml with full mind hiearchy, containing:
    • components to be used in mind model and referenced in mind.xml
    • component aggregations
    • component elements

Mapping rules:

  • each component is represented in mind element hierarchy
  • each leaf hierarchy element is either component or part of component

Local connectivity rules:

  • each component connector is connected by links to other components
  • there are several inputs or several outputs
  • all component connectors are in use
  • sensory and motor components are defined

Global connectivity rules:

  • for every sensor output connector there is excitatory path to at least some one motor input
  • for every sensor output connector there is any path to at least some input of the same sensor
  • for every motor output connector there is any path to at least some input of the same motor
  • every component input has any path to some sensor or motor output
  • every component output has any path to some sensor or motor input