修正编辑OPENENET-MoneroSpace-Satellite-Network-for-monero.md

关于This proposal is "unspecific" at best.修正编辑

OPENENET-MoneroSpace-Satellite-Network-for-monero.md

@@ -108,6 +108,76 @@ graph TB
   - Email: admin@openenet.cn  
 
 
+## 8. Expected Delivery Results
+### 8.1. Satellite Node Hardware Design & Team Formation (7,000 XMR)  
+- **Deliverables**:  
+- Finalized 3U CubeSat hardware design package including:  
+- Detailed CAD drawings of the satellite structure  
+- Bill of Materials (BOM) with radiation-hardened component specifications  
+- Selection report for radiation-resistant processors, memory, and storage  
+- Public announcement of the core team with:  
+- At least 5 members with proven expertise in aerospace engineering or blockchain development  
+- Verified professional profiles (LinkedIn/community contributions)  
+- Fully initialized Gitea repository with:  
+- Open-source hardware design templates  
+- Version control system for iterative design updates  
+
+- **Success Metrics**:  
+- Minimum 5 independent technical reviews from certified aerospace consultants (reports published on Gitea)   
+
+
+### 8.2. Radiation-Hardened Node Software Development & Compliance Preparation (8,000 XMR)  
+- **Deliverables**:  
+- Working prototype of the Monero node software optimized for satellite hardware, featuring:  
+- Memory/processing efficiency improvements for low-power space environments  
+- Public GitHub commit history demonstrating code progress  
+- Draft submission package for ITU spectrum allocation, including:  
+- Frequency usage plan for laser/RF communication links  
+- Proposed satellite orbit parameters (altitude, inclination, orbital period)  
+- Compliance checklist for international telecommunication regulations  
+- Risk assessment report for software resilience, covering:  
+- Strategies to mitigate single-event upsets (SEU) in space radiation  
+- Redundancy plans for critical node functions  
+
+- **Success Metrics**:  
+- Minimum 10 code contributions from external developers (tracked on GitHub)  
+- Official confirmation email from ITU频谱 regulatory experts acknowledging consultation  
+
+
+### 8.3. Satellite Prototype Testing & Spectrum Application (10,000 XMR)  
+- **Deliverables**:  
+- Lab-tested satellite prototype demonstrating:  
+- 72-hour stability in thermal vacuum chambers (-55°C to +85°C) with test data logs  
+- Radiation tolerance exceeding 100krad total dose (certified by independent testing lab)  
+- Formal submission of ITU spectrum application, with:  
+- Publicly shared application ID and filing date  
+- Confirmation of receipt from the ITU Radiocommunication Bureau  
+- Updated compliance framework document outlining:  
+- GDPR/Switzerland FDP data protection protocols for ground station operations  
+- Cybersecurity measures for satellite-ground communication  
+
+- **Success Metrics**:  
+- Publicly released video showcasing prototype testing procedures and results  
+- Uploaded ITU receipt document to the CCS project update page  
+
+
+### 8.4. Community Testnet Launch & First Deployment Plan (5,000 XMR)  
+- **Deliverables**:  
+- Functional community testnet enabling:  
+- Over 100 developers to simulate satellite-node interactions (transaction routing, orbit dynamics)  
+- Open API for third-party node integration  
+- Detailed deployment plan for the first 3 satellites, including:  
+- Chosen orbital slots and launch window feasibility study  
+- Ground station locations (Switzerland/Iceland) with site readiness reports  
+- Revised economic model document explaining:  
+- Transaction fee distribution for node operators  
+- Incentive structures for community contributors  
+
+- **Success Metrics**:  
+- Active participation from 50+ developers in testnet stress tests  
+- Signed memorandum of understanding (MOU) with at least one reputable launch provider (e.g., Star River Power or SpaceX)  
+
+
 ## 9. Conclusion  
 The MoneroSpace project focuses on **open-source collaboration** to address Monero's physical-layer censorship resistance needs. Despite preparation-phase challenges, our transparent development process, community-driven incentives, and robust technical solutions aim to build a decentralized satellite communication infrastructure.