"From Vision to Blueprint - Defining Tomorrow's Digital Twin Architecture"
An AI Capability Demonstration & Educational Reference Framework
IMPORTANT: This is a conceptual reference architecture and AI demonstration model showcasing advanced synthetic data generation capabilities for aerospace digital twins. No physical implementation or actual fleet required.
- β Complete Reference Architecture - Detailed blueprints for digital twin systems
- β AI Capability Demonstration - High-quality synthetic data generation
- β Educational Resource - Learn aerospace system architecture patterns
- β Research Foundation - Base for academic and industry research
- β Standards Precursor - Define patterns before industry needs them
- π Type: Educational & Reference Model
- π€ Implementation: AI-Generated Synthetic Data
- π Purpose: Blueprint for Future Systems
- π¬ Status: Conceptual Architecture (Not Deployed)
AMEDEO-P-DT-OPTIM/
β
βββ 00-FRAMEWORK/ # Core Framework & Engines
β βββ core/ # Core services and utilities
β βββ quantum-engine/ # Quantum computing simulation
β βββ ai-ml/ # AI/ML models and generators
β βββ synthetic-core/ # Synthetic data generation
β βββ integration/ # System integration layer
β
βββ 01-ORGANIZATIONAL/ # Layer 1: Organizational Digital Twin
β βββ governance/ # Governance models and policies
β βββ decision-frameworks/ # Decision support systems
β βββ hmi/ # Human-Machine Interface designs
β βββ knowledge-management/ # Knowledge base and documentation
β
βββ 02-PROCEDURAL/ # Layer 2: Procedural Digital Twin
β βββ lifecycle-phases/ # 11-phase lifecycle management
β βββ workflow-automation/ # Automated workflow definitions
β βββ compliance/ # Compliance and standards
β βββ process-optimization/ # Process improvement models
β
βββ 03-TECHNICAL-AMEDEO-P/ # Layer 3: Technical Systems (Domain-Specific)
β βββ AIR/ # Aviation Systems (1,400)
β βββ SPACE/ # Spacecraft Systems (700)
β βββ DEFENSE/ # Defense Systems (1,050)
β βββ GROUND/ # Ground Vehicle Systems (350)
β βββ CROSS/ # Cross-Domain Systems (420)
β
βββ 04-INTELLIGENT-MACHINE/ # Layer 4: AI & Quantum Layer
βββ quantum-processing/ # Quantum algorithm simulations
βββ predictive-analytics/ # Predictive models
βββ optimization-engines/ # Optimization algorithms
βββ autonomous-systems/ # Self-learning systems
- 3,920 Total Systems
- 39,200 Configuration Items (CIs)
- 431,200 Lifecycle Management Points (11 phases Γ CIs)
- 5 Operational Domains
- 7 AMEDEO-P Segments per Domain
Aviation and atmospheric flight systems with traditional aerospace focus.
| Segment | Interpretation | Systems | Example CIs |
|---|---|---|---|
| A | Airframes & Structures | 200 | Wings, fuselage, control surfaces |
| M | Mechanical Systems | 200 | Landing gear, actuators, hydraulics |
| E | Environmental Control | 200 | Pressurization, HVAC, oxygen |
| D | Digital/Avionics | 200 | FMS, navigation, communication |
| E | Energy/Electrical | 200 | Generators, batteries, distribution |
| O | Operating Systems | 200 | Flight ops, crew systems, procedures |
| P | Propulsion | 200 | Turbofans, turboprops, fuel systems |
Orbital and deep space systems with spacecraft-specific requirements.
| Segment | Interpretation | Systems | Example CIs |
|---|---|---|---|
| A | Architecture/Structure | 100 | Satellite bus, solar arrays, antennas |
| M | Maneuvering/Attitude | 100 | Reaction wheels, thrusters, gyros |
| E | Environment/Life Support | 100 | Thermal control, radiation shielding |
| D | Data/Communication | 100 | Telemetry, payload data, ground link |
| E | Energy/Power | 100 | Solar panels, RTGs, batteries |
| O | Operations/Mission | 100 | Ground stations, orbital mechanics |
| P | Propulsion | 100 | Ion drives, chemical rockets |
Military and defense systems with combat and protection focus.
| Segment | Interpretation | Systems | Example CIs |
|---|---|---|---|
| A | Armor/Protection | 150 | Reactive armor, stealth, countermeasures |
| M | Munitions/Weapons | 150 | Missiles, targeting, fire control |
| E | Electronic Warfare | 150 | ECM, radar, sensors, SIGINT |
| D | Data/C4ISR | 150 | Battle networks, encryption, intel |
| E | Energy/Power Systems | 150 | Field generators, directed energy |
| O | Operations/Command | 150 | C2, logistics, mission planning |
| P | Platform/Mobility | 150 | Engines, tracks, propulsion |
Terrestrial vehicle and ground-based systems.
| Segment | Interpretation | Systems | Example CIs |
|---|---|---|---|
| A | Architecture/Chassis | 50 | Frame, body, structural components |
| M | Mobility/Drivetrain | 50 | Suspension, transmission, steering |
| E | Environmental | 50 | HVAC, NBC protection, cabin |
| D | Digital/Autonomous | 50 | ADAS, navigation, V2X communication |
| E | Energy/Hybrid | 50 | Batteries, fuel cells, charging |
| O | Operations/Fleet | 50 | Fleet management, maintenance |
| P | Powertrain/Engines | 50 | ICE, electric motors, fuel systems |
Multi-domain interoperable systems and shared technologies.
| Segment | Interpretation | Systems | Example CIs |
|---|---|---|---|
| A | Adaptive Architecture | 60 | Modular designs, reconfigurable |
| M | Multi-role Systems | 60 | Convertible, dual-use technologies |
| E | Extended Environment | 60 | All-domain environmental adaptation |
| D | Distributed Networks | 60 | Joint communications, interop |
| E | Energy Universal | 60 | Cross-platform power, harvesting |
| O | Orchestration/Joint Ops | 60 | Combined operations, standards |
| P | Polymorphic Propulsion | 60 | Multi-mode, adaptive powerplants |
CI-{Domain}{Segment}{System:03d}-{Item:03d}
- AIR:
CI-AF001-001(Airframe System 001, Item 001) - SPACE:
CI-SA045-012(Architecture System 045, Item 012) - DEFENSE:
CI-DM023-005(Munitions System 023, Item 005) - GROUND:
CI-GP015-008(Powertrain System 015, Item 008) - CROSS:
CI-XD033-002(Distributed System 033, Item 002)
environment:
python: ">=3.9"
memory: "16GB minimum"
storage: "100GB for synthetic data"
optional:
- "GPU for ML acceleration"
- "Quantum simulator (Qiskit/Cirq)"# Clone the repository
git clone https://github.com/robbbo-t/amedeo-p-dt-optim.git
cd amedeo-p-dt-optim
# Run setup script
chmod +x scripts/setup.sh
./scripts/setup.sh
# Initialize framework
python init_framework.py --mode reference# Generate AIR domain synthetic data
python 00-FRAMEWORK/synthetic-core/generate.py \
--domain AIR \
--segment A \
--systems 10 \
--duration 1000h \
--output data/synthetic/air/The framework includes a comprehensive directory structure builder that creates the complete AMEDEO-P system hierarchy:
# Quick setup with different modes
./scripts/quick_build.sh
# Or run directly:
./build_structure.sh --mode minimal # 35 systems (demo)
./build_structure.sh --mode sample # 392 systems (testing)
./build_structure.sh --mode full # 3,920 systems (complete)- 3 Build Modes: Minimal (35), Sample (392), or Full (3,920 systems)
- Automated Structure: Creates all 5 domains with proper AMEDEO-P segments
- CI Lifecycle: 11-phase lifecycle for each Configuration Item
- Validation: Built-in structure verification tools
- Documentation: Auto-generated setup and configuration files
π Target Structure (Full Mode):
- Domains: 5 (AIR, SPACE, DEFENSE, GROUND, CROSS)
- Systems: 3,920 total across all domains
- Configuration Items: 39,200 (10 per system)
- Lifecycle Folders: 431,200 (11 phases per CI)
# Setup environment
./scripts/setup.sh
# Build structure
./build_structure.sh --mode sample
# Validate structure
./validate_structure.sh
# View statistics
cat STATISTICS.mdSee Complete Build Instructions for detailed setup guide.
| Layer | Component | Progress | Next Milestone |
|---|---|---|---|
| 00-FRAMEWORK | Core Infrastructure | 75% | Synthetic generators complete |
| 01-ORGANIZATIONAL | Governance Models | 85% | Decision trees finalized |
| 02-PROCEDURAL | Process Automation | 90% | Workflow templates ready |
| 03-TECHNICAL | Domain Systems | 75% | All domains documented |
| 04-INTELLIGENT | AI/Quantum | 60% | Quantum sim operational |
- Generation Speed: 1M data points/second
- Data Fidelity: 98% statistical accuracy
- Anomaly Injection: Configurable 0.001-0.1%
- Sensor Simulation: Up to 10^9 virtual sensors
- Quantum Simulation: 1,000 qubits (simulated)
We welcome contributions to enhance this reference architecture!
- Read CONTRIBUTING.md
- Check open issues
- Submit PRs following our standards
- π Domain-specific system definitions
- π€ Synthetic data generation patterns
- π Educational content and tutorials
- π§ͺ Validation and testing frameworks
framework_metrics:
documentation_coverage: 85%
example_completeness: 75%
synthetic_data_quality: 98%
api_definition: 90%
test_coverage: 70%AMEDEO-P DT-OPTIMβ’ Framework
Copyright Β© 2025 - AI Reference Architecture
License: MIT (Educational & Research Use)
Commercial Use: Contact for licensing
See LICENSE for details.
- π FAQ
- π Issue Tracker
- π¬ Discussions
- π§ Contact: robbbo.t@dt-optim-framework.io
