diff --git a/README.md b/README.md index a5893d4..ded8c3d 100644 --- a/README.md +++ b/README.md @@ -11,11 +11,183 @@ A Global Source # GAIA-AIR_COAFI-LIFEWORK_PART1.md **Part I - GAIA PULSE ID (GP-ID) - Core Project Identity** +# Cosmic Omnidevelopable Aero Foresights Index (COAFI) + +## Part I: GAIA PULSE ID (GP-ID) - Core Project Identity + +This part of the COAFI document defines the core identity, vision, mission, values, and guiding principles of the GAIA AIR project. It also introduces key initiatives and frameworks that are central to the project. + +### 1.1 Vision, Mission, and Values + +#### 1.1.1 The GAIA AIR Manifesto + +* **IN:** `GP-ID-VIS-0101-001-A` - **Long-Term Vision Statement** + * **Document:** `GP-ID-VIS-0101-001-A - GAIA AIR Long-Term Vision Statement` + * **Content:** `[Vision 2050: A Harmonically Interconnected World via Open Skyway By 2050, GAIA AIR envisions a world where air travel is seamlessly integrated with planetary ecosystems, powered by sustainable energy, and guided by resonant intelligence. Open Skyway will be the global infrastructure enabling this vision, fostering interconnectedness, collaboration, and a renewed sense of planetary unity. We aim to transcend the limitations of classical aerospace, ushering in an era of quantum-coherent flight and governance. Our ultimate vision is not just to expand human reach, but to deepen our resonance with the cosmos. ]` +* **IN:** `GP-ID-VIS-0101-002-A` - **Core Principles and Values** + * **Document:** `GP-ID-VIS-0101-002-A - GAIA AIR Core Principles and Values` + * **Content:** `[ document titled ROBBBO-TX-GA-STR-0001 - Gaia Air Project Charter which outlines the core principles and values of GAIA AIR. Here are the key points: Innovation: Fostering a culture of continuous improvement and technological advancement. Sustainability: Prioritizing environmental stewardship in all phases of the project. Safety and Compliance: Upholding the highest standards of safety, quality, and regulatory compliance. Integrity: Operating with transparency, ethics, and accountability. Collaboration: Promoting teamwork and collaboration across all project teams and stakeholders]` +* **IN:** `GP-ID-VIS-0101-003-A` - **Sustainability Commitment** + * **Document:** `GP-ID-VIS-0101-003-A - GAIA AIR Sustainability Commitment` + * **Content:** `[ document titled GAIA_AIR_Definicion_Descripcion_General which outlines the sustainability commitment of GAIA AIR. Here are the key points: Zero-Emission Flight Operations: The goal is to achieve zero-emission flight operations and set industry benchmarks for sustainability1. AI-Driven Air Traffic Control (ATC): Implement AI-powered ATC systems to manage increasing air traffic volumes autonomously, increasing capacity and safety of airspace management globally Global Industry Standardization: Establish GAIA AIR as a leader in aerospace technology standards for safety, sustainability, and automation, influencing global regulations and driving industry-wide adoption Operational Cost Reduction: Reduce operational costs through intelligent energy management and automated maintenance protocols Improved Asset Utilization: Increase aircraft uptime and reliability through predictive maintenance and self-healing systems]` +* **IN:** `GP-ID-VIS-0101-004-A` - **Technological Innovation Goals** + * **Document:** `GP-ID-VIS-0101-004-A - GAIA AIR Technological Innovation Goals` + * **Content:** `[document titled AMPEL360-001 which outlines the technological innovation goals for GAIA AIR. Here are the key points: Quantum Propulsion System (QPS): This system promises to revolutionize multiple industries through its application in quantum propulsion. The initial theoretical tests have shown significant potential, and the progress in prototyping and validation phases has been meticulous and promising. The system integrates advanced technologies such as plasma superconductivity and radioactive decay recycling, offering an innovative solution to current energy and telecommunications challenges1. Geometric Projection Transponder (GPT): The GAIA-GPT algorithm optimizes flight routes in real-time using advanced geometric projections. By projecting flight paths onto different geometric surfaces, the algorithm calculates and adjusts trajectories based on real-time factors like fuel efficiency, weather conditions, and airspace constraints. This enables the system to dynamically identify the most efficient route even in complex or unpredictable environments. Navier-Stokes Weather Predictions: The GAIA-Meteo algorithm uses predictive weather models based on the Navier-Stokes equations to improve route planning for aircraft. This real-time optimization reduces both flight time and fuel consumption while maintaining high levels of safety and operational standards. These goals are part of GAIA AIR's broader commitment to technological innovation and sustainability in the aerospace industry.]` +* **IN:** `GP-ID-VIS-0101-005-A` - **Community and Societal Impact** + * **Document:** `GP-ID-VIS-0101-005-A - GAIA AIR Community and Societal Impact` + * **Content:** `[[Generative Design of the AMPEL360XWLRGA Tail Cone] document which outlines the community and societal impact of the GAIA AIR project. Here are the key points: Sustainability and Lifecycle Management: The project includes a detailed Lifecycle Analysis (LCA) demonstrating a 20% reduction in CO₂ emissions compared to the baseline. The Material Sustainability Plan ensures all materials meet GAIA AIR’s sustainability criteria, focusing on end-of-life recyclability and minimal environmental impact1. Operational Gains: Post-implementation, operational efficiencies have increased by 40%, showcasing significant enhancements in process automation and resource optimization1. Cost Reductions: Companies have reported 35% savings on operational costs due to streamlined processes and optimized resource management1. Eco Enhancements: There has been a 25% improvement in sustainability measures, particularly regarding emissions and compliance with green standards1. These points highlight GAIA AIR's commitment to creating a positive social and economic impact through sustainability, operational efficiency, and cost reduction.]` +* **IN:** `GP-ID-VIS-0101-006-A` - **Future-Forward Scalability** + * **Document:** `GP-ID-VIS-0101-006-A - GAIA AIR Future-Forward Scalability` + * **Content:** `[ Generative-Design-Priciples-AMPEL360XWLRGA-Tail-Cone which outlines the future-forward scalability of GAIA AIR. Here are the key points: Simulation and Test Results: The document includes detailed results from CFD simulations, FEA analysis, and wind tunnel testing, showing significant performance gains and sustainability improvements1. Sustainability and Lifecycle Management: It highlights a 20% reduction in CO₂ emissions compared to the baseline and a comprehensive Material Sustainability Plan focusing on end-of-life recyclability1. Operational Gains and Cost Reductions: The project has achieved a 40% increase in operational efficiencies and a 35% reduction in operational costs1. These points emphasize GAIA AIR's commitment to scalability, sustainability, and operational efficiency.]` + +### 1.2 Project History and Evolution + +* **IN:** `GP-ID-HIST-0102-001-A` - **Founding Principles and Early Concepts** + * **Document:** `GP-ID-HIST-0102-001-A - Founding Principles and Early Concepts` + * **Content:** `[Placeholder for the document describing the initial ideas and principles that led to the GAIA AIR project.]` +* **IN:** `GP-ID-HIST-0102-002-A` - **Major Technological Milestones** + * **Document:** `GP-ID-HIST-0102-002-A - Major Technological Milestones` + * **Content:** `[Placeholder for a document tracking the key technological milestones achieved in the project's history.]` +* **IN:** `GP-ID-HIST-0102-003-A` - **Roadmap Evolution** + * **Document:** `GP-ID-HIST-0102-003-A - Roadmap Evolution` + * **Content:** `[Placeholder for a document describing how the project's roadmap has evolved over time, including changes in goals, timelines, and technologies.]` + +### 1.3 Current Status and Objectives + +* **IN:** `GP-ID-STAT-0103-001-A` - **Current Project Status Report** + * **Document:** `GP-ID-STAT-0103-001-A - Current Project Status Report` + * **Content:** `[Placeholder for a regularly updated document providing a snapshot of the project's current status, progress, and challenges.]` +* **IN:** `GP-ID-STAT-0103-002-A` - **Short-Term Objectives (1-2 years)** + * **Document:** `GP-ID-STAT-0103-002-A - Short-Term Objectives (1-2 years)` + * **Content:** `[Placeholder for a document outlining the project's specific objectives for the next 1-2 years.]` +* **IN:** `GP-ID-STAT-0103-003-A` - **Mid-Term Objectives (2-5 years)** + * **Document:** `GP-ID-STAT-0103-003-A - Mid-Term Objectives (2-5 years)` + * **Content:** `[Placeholder for a document outlining the project's specific objectives for the next 2-5 years.]` + +### 1.4 Future Directions and Foresights + +* **IN:** `GP-ID-FUT-0104-001-A` - **Technological Foresight** + * **Document:** `GP-ID-FUT-0104-001-A - Technological Foresight` + * **Content:** `[Placeholder for a document exploring potential future technological developments and their implications for the GAIA AIR project.]` +* **IN:** `GP-ID-FUT-0104-002-A` - **Market and Societal Impact** + * **Document:** `GP-ID-FUT-0104-002-A - Market and Societal Impact` + * **Content:** `[Placeholder for a document analyzing the potential market for GAIA AIR technologies and their broader societal impact.]` +* **IN:** `GP-ID-FUT-0104-003-A` - **Sustainability Roadmap** + * **Document:** `GP-ID-FUT-0104-003-A - Sustainability Roadmap` + * **Content:** `[Placeholder for a document outlining the project's long-term sustainability goals and strategies.]` + +### 1.5 Ethical Considerations & Framework + +* **IN:** `GP-ID-ETH-0105-001-A` - **Ethics by Design Principles** + * **Document:** `GP-ID-ETH-0105-001-A - Ethics by Design Principles` + * **Content:** `[Placeholder for a document outlining the ethical principles that guide the design and development of GAIA AIR technologies.]` +* **IN:** `GP-ID-ETH-0105-002-A` - **AI Ethics Guidelines** + * **Document:** `GP-ID-ETH-0105-002-A - AI Ethics Guidelines` + * **Content:** `[Placeholder: Guidelines specific to use of AI]` +* **IN:** `GP-ID-ETH-0105-003-A` - **Quantum Technology Ethics** + * **Document:** `GP-ID-ETH-0105-003-A - Quantum Technology Ethics` + * **Content:** `[Placeholder: Guidelines specific to use of Quantum tech]` + +### 1.6 "Cosmic Index" Introduction and User Guide + +* **IN:** `GP-ID-COSMIC-0106-001-A` - **Cosmic Index Overview** + * **Document:** `GP-ID-COSMIC-0106-001-A - Cosmic Index Overview` + * **Content:** `[Placeholder for a document providing a general overview of the "Cosmic Index" and its purpose.]` +* **IN:** `GP-ID-COSMIC-0106-002-A` - **Cosmic Index User Manual** + * **Document:** `GP-ID-COSMIC-0106-002-A - Cosmic Index User Manual` + * **Content:** `[Placeholder for a detailed user manual explaining how to use the "Cosmic Index."]` + +### 1.7 ML-P Integration + +* **IN:** `GP-ID-MLP-0107-001-A` - **ML-P Framework Overview** + * **Document:** `GP-ID-MLP-0107-001-A - ML-P Framework Overview` + * **Content:** `[Placeholder for a document describing the overall ML-P framework and its architecture.]` +* **IN:** `GP-ID-MLP-0107-002-A` - **ML-P Integration Strategy** + * **Document:** `GP-ID-MLP-0107-002-A - ML-P Integration Strategy` + * **Content:** `[Placeholder for a document outlining the strategy for integrating ML-P into various GAIA AIR systems.]` + +### 1.8 Open Skyway Initiative + +* **IN:** `GP-ID-OPENSKY-0108-001-A` - **Open Skyway Initiative Charter** + * **Document:** `GP-ID-OPENSKY-0108-001-A - Open Skyway Initiative Charter` + * **Content:** `[Placeholder for the document defining the goals, principles, and governance of the Open Skyway initiative.]` +* **IN:** `GP-ID-OPENSKY-0108-002-A` - **Open Skyway Community Engagement Plan** + * **Document:** `GP-ID-OPENSKY-0108-002-A - Open Skyway Community Engagement Plan` + * **Content:** `[Placeholder for a document outlining the plan for engaging with the broader community and fostering collaboration.]` + +### 1.9 Future Concepts and Initiatives + +* **P/N:** `GP-ID-FUT-0102` - **SPHERAs-FAMILY Concepts** + * **IN:** `GP-ID-FUT-0102-001-A` - **GAIA AIR SPHERAs-FAMILY Overview** + * **Document:** `GP-ID-FUT-0102-001-A - GAIA AIR SPHERAs-FAMILY Overview` + * **IN:** `GP-ID-FUT-0102-002-A` - **SPHERICRAFT Concept Document** + * **Document:** `GP-ID-FUT-0102-002-A - SPHERICRAFT Concept Document` + * **IN:** `GP-ID-FUT-0102-003-A` - **SPHERASHUTTLE Concept Document** + * **Document:** `GP-ID-FUT-0102-003-A - SPHERASHUTTLE Concept Document` + * **IN:** `GP-ID-FUT-0102-004-A` - **SPHERAFLOWSAT Concept Document** + * **Document:** `GP-ID-FUT-0102-004-A - SPHERAFLOWSAT Concept Document` + * **IN:** `GP-ID-FUT-0102-005-A` - **SPHERACAPSULES ROBOTICS Concept Document** + * **Document:** `GP-ID-FUT-0102-005-A - SPHERACAPSULES ROBOTICS Concept Document` + * **IN:** `GP-ID-FUT-0102-006-A` - **Digital/Analog Twin Methodology for Quantum Advancement** + * **Document:** `GP-ID-FUT-0102-006-A - Digital/Analog Twin Methodology` + +### 1.10 Numbering and Naming + +* **IN:** `GP-ID-PN-0103-001-A` - **GAIA AIR Part Numbering System** + * **Document:** `GP-ID-PN-0103-001-A - GAIA AIR Part Numbering System` + * **Content:** + ``` + Introduction: Purpose, scope, and importance of a consistent part numbering system. + + Part Number Structure: + Detailed explanation of each field in the P/N: [Project Code]-[System Code]-[Subsystem Code]-[Component Code]-[Sequential Number]-[Maturity Level] + Examples for each field. + Rules for assigning codes (e.g., allowed characters, length limits). + Table with allowed values + Flowchart diagram with the P/N creation. + + Project Code: + Definition: GAIAPULSE + Justification: Clearly identifies all parts as belonging to the GAIA AIR project. + + System Code: + Definition: Two or three-letter code indicating the major system (e.g., AM for AMPEL, QP for Quantum Propulsion, AE for AEHCS). + Controlled List: A table listing all allowed System Codes and their meanings. This is critical for consistency. This list must be maintained and updated as the project evolves. + + Subsystem Code: + Definition: Two or three-letter code indicating the subsystem within the major system (aligned with ATA chapters where applicable, or custom codes for new systems). + Controlled List: A table listing all allowed Subsystem Codes and their meanings, organized by System Code. This is also critical. + + Component Code: + Definition: A two to four-letter code indicating the specific component or assembly (e.g., FRM for Frame, PS for Particle Source, QSM for Quantum State Modulator). + Controlled List: A table listing all allowed Component Codes and their meanings, organized by System and Subsystem. This is essential to prevent duplication and ambiguity. + + Sequential Number: + Definition: A five-digit (or more) number, starting from 00001, to uniquely identify each part within that component type. + Rules: How to assign sequential numbers (e.g., centrally controlled, assigned by engineering teams, etc.). How to handle gaps in the sequence. How to handle parts that are similar but not identical (variants). + + Maturity Level: + Definition: A single letter indicating the maturity level: + X: Experimental/Conceptual + P: Prototype + D: Development + Q: Qualified + O: Operational + R: Retired/Replaced + Rules: Criteria for assigning and changing the maturity level (e.g., after successful completion of a PDR, the level might change from P to D). + + Examples: Provide several examples of complete P/Ns, breaking them down to show how each field is used. + Requesting New Codes: Describe the process for requesting new System, Subsystem, or Component codes (who approves them, how are they added to the controlled lists). + Integration with PLM/PDM: Explain how the P/N system is implemented within the project's PLM/PDM system (e.g., 3DEXPERIENCE, Teamcenter). + Revision History: A table tracking changes to the P/N system document. + + Appendices (if needed): + Detailed flowcharts for different P/N assignment scenarios. + Examples of P/N usage in different document types (drawings, BOMs, etc.) + ``` --- -Below is a **consolidated document** that weaves together the various elements of your vision—from the **Quasi-Quanto-Quantum** Framework to the **Open Skyway** concept and the **GAIA AIR** ecosystem (including AMPEL360XWLRGA, the COAFI structure, and more). This integrated draft is designed to serve both as a **philosophical manifesto** and a **practical reference** for ongoing development. Feel free to adapt, reorganize, or expand sections as needed for specific publishing formats (e.g., research paper, book, digital repository). - --- ## QUASI QUANTO QUANTUM @@ -331,152 +503,7 @@ Sustainability and Lifecycle Management: It highlights a 20% reduction in CO₂ Operational Gains and Cost Reductions: The project has achieved a 40% increase in operational efficiencies and a 35% reduction in operational costs1. These points emphasize GAIA AIR's commitment to scalability, sustainability, and operational efficiency.] -### 1.1.2 Project History and Evolution - -* **IN:** GP-ID-HIST-0102-001-A - **Founding Principles and Early Concepts** - * **Document:** GP-ID-HIST-0102-001-A - Founding Principles and Early Concepts - * **Content:** [Placeholder for the document describing the initial ideas and principles that led to the GAIA AIR project.] - -* **IN:** GP-ID-HIST-0102-002-A - **Major Technological Milestones** - * **Document:** GP-ID-HIST-0102-002-A - Major Technological Milestones - * **Content:** [Placeholder for a document tracking the key technological milestones achieved in the project's history.] -* **IN:** GP-ID-HIST-0102-003-A - **Roadmap Evolution** - * **Document:** GP-ID-HIST-0102-003-A - Roadmap Evolution - * **Content:** [Placeholder for a document describing how the project's roadmap has evolved over time, including changes in goals, timelines, and technologies.] - -### 1.1.3 Current Status and Objectives - -* **IN:** GP-ID-STAT-0103-001-A - **Current Project Status Report** - * **Document:** GP-ID-STAT-0103-001-A - Current Project Status Report - * **Content:** [Placeholder for a regularly updated document providing a snapshot of the project's current status, progress, and challenges.] - -* **IN:** GP-ID-STAT-0103-002-A - **Short-Term Objectives (1-2 years)** - * **Document:** GP-ID-STAT-0103-002-A - Short-Term Objectives (1-2 years) - * **Content:** [Placeholder for a document outlining the project's specific objectives for the next 1-2 years.] - -* **IN:** GP-ID-STAT-0103-003-A - **Mid-Term Objectives (2-5 years)** - * **Document:** GP-ID-STAT-0103-003-A - Mid-Term Objectives (2-5 years) - * **Content:** [Placeholder for a document outlining the project's specific objectives for the next 2-5 years.] - -### 1.1.4 Future Directions and Foresights - -* **IN:** GP-ID-FUT-0104-001-A - **Technological Foresight** - * **Document:** GP-ID-FUT-0104-001-A - Technological Foresight - * **Content:** [Placeholder for a document exploring potential future technological developments and their implications for the GAIA AIR project.] - -* **IN:** GP-ID-FUT-0104-002-A - **Market and Societal Impact** - * **Document:** GP-ID-FUT-0104-002-A - Market and Societal Impact - * **Content:** [Placeholder for a document analyzing the potential market for GAIA AIR technologies and their broader societal impact.] - -* **IN:** GP-ID-FUT-0104-003-A - **Sustainability Roadmap** - * **Document:** GP-ID-FUT-0104-003-A - Sustainability Roadmap - * **Content:** [Placeholder for a document outlining the project's long-term sustainability goals and strategies.] - -### 1.1.5 Ethical Considerations & Framework - -* **IN:** GP-ID-ETH-0105-001-A - **Ethics by Design Principles** - * **Document:** GP-ID-ETH-0105-001-A - Ethics by Design Principles - * **Content:** [Placeholder for a document outlining the ethical principles that guide the design and development of GAIA AIR technologies.] - -* **IN:** GP-ID-ETH-0105-002-A - **AI Ethics Guidelines** - * **Document:** GP-ID-ETH-0105-002-A - AI Ethics Guidelines - * **Content:** [Placeholder: Guidelines specific to use of AI] - -* **IN:** GP-ID-ETH-0105-003-A - **Quantum Technology Ethics** - * **Document:** GP-ID-ETH-0105-003-A - Quantum Technology Ethics - * **Content:** [Placeholder: Guidelines specific to use of Quantum tech] - -### 1.1.6 "Cosmic Index" Introduction and User Guide - -* **IN:** GP-ID-COSMIC-0106-001-A - **Cosmic Index Overview** - * **Document:** GP-ID-COSMIC-0106-001-A - Cosmic Index Overview - * **Content:** [Placeholder for a document providing a general overview of the "Cosmic Index" and its purpose.] - -* **IN:** GP-ID-COSMIC-0106-002-A - **Cosmic Index User Manual** - * **Document:** GP-ID-COSMIC-0106-002-A - Cosmic Index User Manual - * **Content:** [Placeholder for a detailed user manual explaining how to use the "Cosmic Index."] - -### 1.1.7 ML-P Integration - -* **IN:** GP-ID-MLP-0107-001-A - **ML-P Framework Overview** - * **Document:** GP-ID-MLP-0107-001-A - ML-P Framework Overview - * **Content:** [Placeholder for a document describing the overall ML-P framework and its architecture.] - -* **IN:** GP-ID-MLP-0107-002-A - **ML-P Integration Strategy** - * **Document:** GP-ID-MLP-0107-002-A - ML-P Integration Strategy - * **Content:** [Placeholder for a document outlining the strategy for integrating ML-P into various GAIA AIR systems.] - -### 1.1.8 Open Skyway Initiative - -* **IN:** GP-ID-OPENSKY-0108-001-A - **Open Skyway Initiative Charter** - * **Document:** GP-ID-OPENSKY-0108-001-A - Open Skyway Initiative Charter - * **Content:** [Placeholder for the document defining the goals, principles, and governance of the Open Skyway initiative.] - -* **IN:** GP-ID-OPENSKY-0108-002-A - **Open Skyway Community Engagement Plan** - * **Document:** GP-ID-OPENSKY-0108-002-A - Open Skyway Community Engagement Plan - * **Content:** [Placeholder for a document outlining the plan for engaging with the broader community and fostering collaboration.] - -### 1.2 Future Concepts and Initiatives - * **P/N:** GP-ID-FUT-0102 - * **IN:** GP-ID-FUT-0102-001-A - **GAIA AIR SPHERAs-FAMILY Overview** - * **Document:** GP-ID-FUT-0102-001-A - GAIA AIR SPHERAs-FAMILY Overview - * **IN:** GP-ID-FUT-0102-002-A - **SPHERICRAFT Concept Document** - * **Document:** GP-ID-FUT-0102-002-A - SPHERICRAFT Concept Document - * **IN:** GP-ID-FUT-0102-003-A - **SPHERASHUTTLE Concept Document** - * **Document:** GP-ID-FUT-0102-003-A - SPHERASHUTTLE Concept Document - * **IN:** GP-ID-FUT-0102-004-A - **SPHERAFLOWSAT Concept Document** - * **Document:** GP-ID-FUT-0102-004-A - SPHERAFLOWSAT Concept Document - * **IN:** GP-ID-FUT-0102-005-A - **SPHERACAPSULES ROBOTICS Concept Document** - * **Document:** GP-ID-FUT-0102-005-A - SPHERACAPSULES ROBOTICS Concept Document - * **IN:** GP-ID-FUT-0102-006-A - **Digital/Analog Twin Methodology for Quantum Advancement** - * **Document:** GP-ID-FUT-0102-006-A - Digital/Analog Twin Methodology - -### 1.3 Numbering and naming - -* **IN:** GP-ID-PN-0103-001-A - **GAIA AIR Part Numbering System** - - * **Document:** GP-ID-PN-0103-001-A - GAIA AIR Part Numbering System - * **Content:** - * 1. **Introduction:** Purpose, scope, and importance of a consistent part numbering system. - * 2. **Part Number Structure:** - * Detailed explanation of each field in the P/N: `[Project Code]-[System Code]-[Subsystem Code]-[Component Code]-[Sequential Number]-[Maturity Level]` - * Examples for each field. - * Rules for assigning codes (e.g., allowed characters, length limits). - * Table with allowed values - * Flowchart diagram with the P/N creation. - * 3. **Project Code:** - * Definition: `GAIAPULSE` - * Justification: Clearly identifies all parts as belonging to the GAIA AIR project. - * 4. **System Code:** - * Definition: Two or three-letter code indicating the major system (e.g., `AM` for AMPEL, `QP` for Quantum Propulsion, `AE` for AEHCS). - * **Controlled List:** A table listing *all* allowed System Codes and their meanings. This is *critical* for consistency. *This list must be maintained and updated as the project evolves.* - * 5. **Subsystem Code:** - * Definition: Two or three-letter code indicating the subsystem *within* the major system (aligned with ATA chapters where applicable, or custom codes for new systems). - * **Controlled List:** A table listing all allowed Subsystem Codes and their meanings, organized by System Code. *This is also critical.* - * 6. **Component Code:** - * Definition: A two to four-letter code indicating the specific component or assembly (e.g., `FRM` for Frame, `PS` for Particle Source, `QSM` for Quantum State Modulator). - * **Controlled List:** A table listing all allowed Component Codes and their meanings, organized by System and Subsystem. *This is essential to prevent duplication and ambiguity.* - * 7. **Sequential Number:** - * Definition: A five-digit (or more) number, starting from 00001, to uniquely identify each part *within* that component type. - * **Rules:** How to assign sequential numbers (e.g., centrally controlled, assigned by engineering teams, etc.). How to handle gaps in the sequence. How to handle parts that are *similar* but not *identical* (variants). - * 8. **Maturity Level:** - * Definition: A single letter indicating the maturity level: - * `X`: Experimental/Conceptual - * `P`: Prototype - * `D`: Development - * `Q`: Qualified - * `O`: Operational - * `R`: Retired/Replaced - * **Rules:** Criteria for assigning and changing the maturity level (e.g., after successful completion of a PDR, the level might change from P to D). - * 9. **Examples:** Provide several examples of complete P/Ns, breaking them down to show how each field is used. - * 10. **Requesting New Codes:** Describe the process for requesting new System, Subsystem, or Component codes (who approves them, how are they added to the controlled lists). - * 11. **Integration with PLM/PDM:** Explain how the P/N system is implemented within the project's PLM/PDM system (e.g., 3DEXPERIENCE, Teamcenter). - * 12. **Revision History:** A table tracking changes to the P/N system document. - * **13. Appendices (if needed):** - * Detailed flowcharts for different P/N assignment scenarios. - * Examples of P/N usage in different document types (drawings, BOMs, etc.) ---- ``` **Explanation:**