From 2594ab10cbe4f6d37267fc021858ac6b26039448 Mon Sep 17 00:00:00 2001 From: Yijia Zhang Date: Wed, 16 Apr 2025 14:28:24 +0000 Subject: [PATCH] =?UTF-8?q?=E4=BF=AE=E6=AD=A3=E7=BC=96=E8=BE=91OPENENET-Mo?= =?UTF-8?q?neroSpace-Satellite-Network-for-monero.md=20=E5=85=B3=E4=BA=8ET?= =?UTF-8?q?his=20proposal=20is=20"unspecific"=20at=20best.=E4=BF=AE?= =?UTF-8?q?=E6=AD=A3=E7=BC=96=E8=BE=91?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- ...oneroSpace-Satellite-Network-for-monero.md | 70 +++++++++++++++++++ 1 file changed, 70 insertions(+) diff --git a/OPENENET-MoneroSpace-Satellite-Network-for-monero.md b/OPENENET-MoneroSpace-Satellite-Network-for-monero.md index d435006..c3bba88 100644 --- a/OPENENET-MoneroSpace-Satellite-Network-for-monero.md +++ b/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.