Archetypal Systems

Trucast Archetypal System Implementation

Overview

The Trucast archetypal system is now fully implemented, providing a comprehensive framework for representing real-world business actors and actions through logical common data JSON schemas. This ensures language model reliability, trust, quality, and transparency throughout all business workflows.

Core Components

1. Blueprint Data Integration (GICS-Aligned)

The system integrates 212 blueprints from all-blueprints.json, each mapped to:

Blueprint Types: Service, Product, Trade, Marketplace, Ecosystem, Subscription, Brokerage
GICS Hierarchy: Sector → Industry Group → Industry → Sub-Industry
Actor-Action Definitions: Each blueprint contains actor/action archetypes
Metrics & Units: Specific business metrics for each domain

Example Blueprint:

{
  "Blueprint_Type": "Service",
  "GICS Sector Name": "Financials",
  "GICS Sub-Industry Name": "Asset Management & Custody Banks",
  "TruCast Manifest Description": "Focuses on investment management & custody solutions. Potential archetype for 'actor': asset manager; 'action': portfolio & fiduciary services.",
  "truCoreId": "BP-SV-ASS-8987B0"
}

2. Protocol Core Enhancement

The protocol assembly engine now:

Dynamically extracts actors from blueprint descriptions
Maps to GICS codes for industry alignment
Validates against real blueprint data

// Core equation implementation
Actor + Action + Blueprint = Protocol

// Example protocol assembly
{
  protocolId: "wealth-management-advisor-analyze-1234567",
  actor: "wealth-advisor",
  action: "analyze",
  blueprint: "wealth-management",
  gicsAlignment: {
    sector: "Financials",
    industry: "Capital Markets",
    subIndustry: "Asset Management & Custody Banks"
  },
  truCoreId: "BP-SV-ASS-8987B0"
}

3. Schema Orchestrator

The TrucastSchemaOrchestrator ensures the logical schema is present at all workflow points:

Schema Injection Points:

User Interface: Chat initialization, message input, response display, workflow panel
Processing: Protocol assembly, workflow execution, validation, completion
Integration: API requests, data transformation, report generation, analytics

Schema Structure:

interface TrucastSchema {
  blueprints: Core business model archetypes
  blueprintTypes: Service, Product, Trade, etc.
  gicsSectors: All GICS sectors from blueprint data
  contextualBlueprints: Relevant to current context
  relevantActors: Extracted from blueprints
  possibleActions: Available business actions
  currentProtocol: Active protocol state
  protocolHistory: Audit trail
  suggestedNextSteps: Workflow guidance
}

4. Workflow Integration

Every workflow now has access to:

Full blueprint context at each step
Actor-specific actions based on role
GICS-aligned business logic
Protocol validation against blueprint data

5. FIS Example (Fintech Software Provider)

FIS is expressed through the logical entity structure:

// FIS as a Technology Services provider
{
  actor: "integration-specialist",
  action: "integrate", 
  blueprint: "technology-services",
  gicsAlignment: "45102010", // IT Consulting & Other Services
  workflow: [
    "system-discovery",
    "data-mapping", 
    "api-setup",
    "validation"
  ]
}

Key Differentiators

1. First-Person Context Preservation

User's role (actor) is always maintained
Actions are contextualized to their business domain
Workflows adapt to actor-specific needs

2. Business Model Precision

212 blueprints covering all GICS sectors
Each blueprint has specific actors, actions, metrics
Validated against real-world business structures

3. JSON Schema Modularity

Every protocol is a JSON document
Schemas are composable and extensible
Full audit trail and versioning

4. Language Model Enhancement

Provides structured context to LLMs
Validates outputs against business logic
Ensures consistent, reliable responses

Implementation Benefits

For Business Users:

Clear Action Guidance: Know exactly what actions are available
Industry Alignment: Work within proven business models
Quality Assurance: All outputs validated against archetypes

For Enterprise Teams:

Cross-Functional Clarity: Common language across departments
Workflow Templates: Reusable patterns for common tasks
Compliance Ready: Full audit trail and validation

For AI/ML Teams:

Structured Context: Rich metadata for model training
Validation Framework: Ensure output quality
Extensibility: Easy to add new blueprints/actors

Usage Example

// Initialize the orchestrator
TrucastOrchestrator.initialize();

// Get schema for current context
const schema = await TrucastOrchestrator.getSchema({
  userMessage: "I need to integrate FIS core banking",
  userRole: "integration-specialist",
  industry: "45" // Information Technology
});

// Execute workflow with full schema awareness
const results = await TrucastOrchestrator.executeWorkflow(
  'fis-core-banking-integration',
  { 
    schema,
    mediaId: 'doc123',
    clientContext: 'FIS Implementation'
  }
);

// Validate the protocol
const validation = TrucastOrchestrator.validate(results.protocol);

Future Extensions

Dynamic Blueprint Discovery: AI-driven blueprint creation from new industries
Protocol Marketplace: Share and monetize workflow templates
Multi-Actor Workflows: Complex workflows involving multiple actors
Real-time Validation: Continuous validation during execution
Analytics Dashboard: Track protocol usage and effectiveness

Conclusion

The Trucast archetypal system provides a robust foundation for business workflow automation. By representing real-world business structures as logical JSON schemas, it enables:

Reliability: Validated against proven business models
Trust: Full transparency and audit trails
Quality: Consistent outputs aligned with business logic
Transparency: Clear actor-action-blueprint relationships

This system ensures that FIS (and any other business) can be expressed through its logical entity structure, with business actors executing business actions on core blueprints, all represented in modular, precise, validated JSON schemas.

PreviousDiagrams NextBulletin

Last updated 2 months ago

Was this helpful?