Difference between revisions of "BiologicalLifeResearch"

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* Engine Data are divided into Engine Core Data (mind.xml, mind.core.xml), Engine Lifecycle Data (mind.lifecycle.xml), Engine Speciic Data (mind.specific.xml, mind.integration.xml) and Engine Target Data (target.xml)
 
* Engine Data are divided into Engine Core Data (mind.xml, mind.core.xml), Engine Lifecycle Data (mind.lifecycle.xml), Engine Speciic Data (mind.specific.xml, mind.integration.xml) and Engine Target Data (target.xml)
 
* Detailed data are grouped using two distinct structures - Brain Centers and Mind Areas
 
* Detailed data are grouped using two distinct structures - Brain Centers and Mind Areas
* Brain Centers are anatomical groups existing as major solid structures or sets of scattered
+
* Brain Centers are anatomical groups existing as major solid structures or sets of nuclei or cortices
 +
* Brain Areas are functional structures grouping items implementing major mind functions
 
* see also: [[BiologicalModel|Biological Model Details]]
 
* see also: [[BiologicalModel|Biological Model Details]]
  
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'''Approach of defining areas''':
 
'''Approach of defining areas''':
 
* make areas functionally named and identified
 
* make areas functionally named and identified
* do not create thalamus area to avoid mixing unrelated paths, assign thalamus nuclei to other areas
+
* do not create thalamus and limbic area to avoid mixing unrelated paths, assign thalamus and limbic  nuclei to other areas
* do not create limbic area to avoid mixing unrelated functions, assign limbic components to other areas
+
 
* take into account all subcortical nuclei and ganglia
 
* take into account all subcortical nuclei and ganglia
 
* all areas mapped by Brodmann placed in cortical category
 
* all areas mapped by Brodmann placed in cortical category
 
* consider only single left hemisphere
 
* consider only single left hemisphere
* consider area as set of groups of regions and links which serve similar function, with area corresponging to providing this function in several circuits (groups)
+
* consider area as set of groups of regions and links which serve similar function, with area corresponding to providing this function in several circuits (groups)
  
 
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{| class=wikitable width=80%

Revision as of 10:53, 10 July 2016

Biological Life Research

Home -> BiologicalLifeResearch

bio-research.jpg


This page is intended to create model of biological human brain based on open research results across the world. Related findings are structured by other research themes.

Overall Brain

Biological Model

  • Biological Model contains Central Nervous System (CNS), Peripheral Nervous System (PNS) and human organs, connected together and systematically described in machine-readable format
  • Model data are divided into Engine Data (mind.*.xml, target.xml), Internal Model Data (hmind, muscles, nerves) and External Model Data (circuits)
  • Engine Data are divided into Engine Core Data (mind.xml, mind.core.xml), Engine Lifecycle Data (mind.lifecycle.xml), Engine Speciic Data (mind.specific.xml, mind.integration.xml) and Engine Target Data (target.xml)
  • Detailed data are grouped using two distinct structures - Brain Centers and Mind Areas
  • Brain Centers are anatomical groups existing as major solid structures or sets of nuclei or cortices
  • Brain Areas are functional structures grouping items implementing major mind functions
  • see also: Biological Model Details

Brain Areas

Approach of defining areas:

  • make areas functionally named and identified
  • do not create thalamus and limbic area to avoid mixing unrelated paths, assign thalamus and limbic nuclei to other areas
  • take into account all subcortical nuclei and ganglia
  • all areas mapped by Brodmann placed in cortical category
  • consider only single left hemisphere
  • consider area as set of groups of regions and links which serve similar function, with area corresponding to providing this function in several circuits (groups)
Area Code Area Name Type Function Comments
aHuman
TSA Target Sensory Area target aHuman Target Sensors Biological Sensors
TEA Target Effectory Area target aHuman Target Effectors Biological Motors
Lower Brain
LLC Locomotion Control Area core Learned Rythmic Movements Locomotion Nuclei and Cerebellum
LAC Autonomous Control Area lifecycle Autonomic Nuclei and Ganglia Nuclei to Control Autonomic Organs and Autonomic Ganglia
LMC Modulatory Contol Area lifecycle Ascending and Descending Non-Specific Modulation Includes Nuclei Projecting Both Up and Down
LPC Peripheral Control Area specific Conscious Control of Target Sensory Ganglia, Conscious Sensory and Motor Nuclei
LRC Motor Reflex Area specific Reflexive Motor Behavior Nuclei of Reflex Circuits Resulting in Motor Behavior and Posture Maintenance
Forebrain
FEC Execution Control Area core Executing Motor Sequences Premotor and Supplemental Sequences are Wrapped out via Basal Ganglia
FAM Affective Motivations Area core Aggregate Body and Mental Motivations Merges Top Body Feeling and Sensory Streams
FMM Memory Management Area core Establish Hierarchical Memory Top of Sensory Hierarchy
Neocortical Brain
NMA Motor Aggregation Area core Motor Hierarhical Aggregation Wrap Out Motor Sequences to Specific Motor Steps
NDM Decision Making Area core Sensory-Drive Associations with Working Memory Choose Actions and Create Working Memory
NCP Conscious Personality Area core Produce Mental Feeling Handle Pain and Errors
NSA Sensory Aggregation Area specific Unimodal Sensory Aggregation Neocortical Sensory Data and Unimodal Aggregation
NPE Unimodal Execution Area specific Initiate Polymodal Execution Aggregate polymodal data, direct to planning and decision making

Brain Structure Overview

(generated)


Forebrain Diencephalon (FD):

Forebrain Telencephalon (FT):

Hindbrain Myelencephalon (HL):

Hindbrain Metencephalon (HT):

Midbrain Mesencephalon (MM):

Cerebral Cortex (NC):

Peripheral Nervous System (PNS):

Spinal Cord (SC):

Target (TG):

Circuits

(generated)