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Core Specification: Holonic Predictive Architecture: Difference between revisions

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(Created page with "<div style="background-color:azure; border:1px outset azure; padding:0 20px; max-width:860px; margin:0 auto; "> = Core Specification: Holonic Predictive Architecture = == 1. Overview == * Purpose of the system * High-level diagram (Perception → Recognition → Projection) * Relationship to tri-layer ontology (Past / Event / Anticipatory) == 2. Tri-Layer Ontology == * P: Past / Memory * E: Event / Present * A: Anticipatory / Future * Interaction between layers == 3....")
 
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= Core Specification: Holonic Predictive Architecture =
= Core Specification: Holonic Predictive Architecture =
 
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== 1. Overview ==
== 1. Overview ==
* Purpose of the system
* Purpose of the system

Latest revision as of 10:23, 7 March 2026

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Tri-Level Holarchy
 ∞  Prueitt, Paul S.
 ∞  Social Brain Design Session
 ∞  Paul S. Pruiett's Stratified Tri-level Holarchy
 ∞  Stratification Theory — to Neural Architecture
 ∞  Core Specification: Holonic Predictive Architecture
 ∞  Substrate & Data Specification (SKV Spec)
 ∞  General Frameworks

Core Specification: Holonic Predictive Architecture

1. Overview

  • Purpose of the system
  • High-level diagram (Perception → Recognition → Projection)
  • Relationship to tri-layer ontology (Past / Event / Anticipatory)

2. Tri-Layer Ontology

  • P: Past / Memory
  • E: Event / Present
  • A: Anticipatory / Future
  • Interaction between layers

3. Perception–Recognition–Projection Cycle

  • Perception: E-layer events
  • Recognition: P↔E resonance
  • Projection: A-layer anticipations
  • Full cycle description

4. System Layers

  • Substrate Layer (SKV)
  • Realization Layer (UPT, timeline matrix)
  • Hamiltonian Layer (energy landscape)
  • Holonic Layer (ontology of holons)
  • Dashboard Layer (visualization)
  • Transport Layer (protocols)

5. End-to-End Flow

  • From raw input to holon formation
  • From holons to anticipatory projections
  • Feedback into perception

6. Design Goals and Constraints

  • Substrate independence
  • Observability and debuggability
  • Extensibility and modularity
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