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---
layout: fr
title: OPENENET-MS01-MoneroSpace-Decentralized-Satellite-Network
author: OPENENET Team
author: OPENENET
date: April 13, 2025
amount: 30000
milestones:
- name: Satellite Node Hardware Design & Team Formation
funds: 7000
- name: Core Team Formation - Role Definition
funds: 0.5
done: false
status: unfinished
- name: Radiation-Hardened Node Software Development & Compliance Preparation
funds: 8000
- name: Core Team Formation - Recruitment Launch
funds: 0.5
done: false
status: unfinished
- name: Satellite Prototype Testing & Spectrum Application
funds: 10000
- name: Core Team Formation - Technical Vetting
funds: 1
done: false
status: unfinished
- name: Community Testnet Launch & First Deployment
funds: 5000
- name: Core Team Formation - Contract Finalization
funds: 1
done: false
status: unfinished
- name: Infrastructure Setup - Gitea Repository Launch
funds: 0.5
done: false
status: unfinished
- name: Infrastructure Setup - Nextcloud Collaboration Hub
funds: 0.5
done: false
status: unfinished
- name: Hardware Development - Radiation Component Survey
funds: 1000
done: false
status: unfinished
- name: Hardware Development - Component Qualification
funds: 1000
done: false
status: unfinished
- name: Hardware Development - 3U CubeSat Preliminary Design
funds: 1500
done: false
status: unfinished
- name: Hardware Development - Subsystem Integration Review
funds: 1500
done: false
status: unfinished
- name: Hardware Development - Thermal Analysis Setup
funds: 1000
done: false
status: unfinished
- name: Hardware Development - Radiation Test Protocol
funds: 1000
done: false
status: unfinished
- name: Software Development - Space Node Requirements
funds: 1000
done: false
status: unfinished
- name: Software Development - Hybrid Architecture Design
funds: 1500
done: false
status: unfinished
- name: Software Development - Core Module Implementation
funds: 2000
done: false
status: unfinished
- name: Software Development - End-to-End Testing
funds: 1500
done: false
status: unfinished
- name: Compliance - ITU Spectrum Coordination
funds: 1000
done: false
status: unfinished
- name: Compliance - Radiation Hardening Certification
funds: 1500
done: false
status: unfinished
- name: Compliance - Ground Station Audits
funds: 2000
done: false
status: unfinished
- name: Compliance - Export Control Clearance
funds: 1500
done: false
status: unfinished
- name: Community Ecosystem - Testnet Infrastructure
funds: 1000
done: false
status: unfinished
- name: Community Ecosystem - Developer Incentive Program
funds: 1000
done: false
status: unfinished
- name: Deployment Planning - Orbit Constellation Design
funds: 1000
done: false
status: unfinished
- name: Deployment Planning - Ground Station Integration
funds: 1000
done: false
status: unfinished
- name: Deployment Planning - Launch Campaign Strategy
funds: 1000
done: false
status: unfinished
payouts:
- date: 2025-05-31
amount: 0.5
- date: 2025-06-30
amount: 0.5
- date: 2025-07-31
amount: 1
- date: 2025-08-31
amount: 1
- date: 2025-09-30
amount: 7000
amount: 1000
- date: 2025-10-31
amount: 1000
- date: 2025-11-30
amount: 1500
- date: 2025-12-31
amount: 1500
- date: 2026-01-31
amount: 1000
- date: 2026-02-28
amount: 1000
- date: 2026-03-31
amount: 8000
amount: 1500
- date: 2026-04-30
amount: 1500
- date: 2026-05-31
amount: 1000
- date: 2026-06-30
amount: 1000
- date: 2026-07-31
amount: 1500
- date: 2026-08-31
amount: 1500
- date: 2026-09-30
amount: 10000
amount: 1000
- date: 2026-10-31
amount: 1000
- date: 2026-11-30
amount: 1000
- date: 2026-12-31
amount: 1000
- date: 2027-01-31
amount: 1000
- date: 2027-02-28
amount: 1000
- date: 2027-03-31
amount: 5000
---
amount: 1000
# OPENENET-MS01-MoneroSpace-Decentralized-Satellite-Network
**Proposal ID:** OPENENET-MS01
- **Project Repository:** [https://git.openenet.cn/MoneroSpace](https://git.openenet.cn/MoneroSpace)
- **Collaboration Platform:** [https://cloud.openenet.cn/](https://cloud.openenet.cn/)
- **Project Funding Deadline:** December 28, 2035, 00:00 UTC. Unused funds will be returned to CCS if the project is incomplete by this date.
- **Project Repository:** [https://git.openenet.cn/MoneroSpace](https://git.openenet.cn/MoneroSpace) *(Gitea-based open-source hub)*
- **Collaboration Platform:** [https://cloud.openenet.cn/MoneroSpace](https://cloud.openenet.cn/MoneroSpace) *(Nextcloud collaboration hub, account application required)*
- **Funding Deadline:** December 28, 2035 (UTC) • Unused funds returned to CCS
## 1. Project Overview
### 1.1 Core Objectives
MoneroSpace aims to build a **decentralized censorship-resistant satellite communication network** through open-source hardware and encryption protocols, achieving:
- **Global Ubiquitous Access**: Providing Monero transaction channels for regions without terrestrial networks (e.g., oceans, polar areas) and censored zones (e.g., Iran, Syria).
- **Physical-Layer Censorship Resistance**: Bypassing internet blockades with low-earth orbit (LEO) satellites to ensure independent transaction broadcasting.
- **Community-Driven Ecosystem**: Open-sourcing satellite hardware designs and communication protocols to enable third-party node deployment.
## 1. Project Vision: Redefining Decentralized Communication
### 1.2 Core Values
| Dimension | Innovation | Contribution to Monero Ecosystem |
|--------------|----------------------------------------------------------------------------|------------------------------------------------|
| **Technical** | Laser-RF hybrid communication and radiation-hardened full-node design | Enhances network redundancy against 51% attacks and geographic blockades |
| **Compliance**| Neutral-region ground station deployment and ITU spectrum compliance | Meets international telecommunication regulations and data privacy standards |
| **Economic** | Satellite node mining incentives and transaction fee sharing model | Establishes a sustainable decentralized infrastructure economy |
MoneroSpace aims to build the first community-owned, censorship-resistant satellite network integrated with Monero. As a pioneering project with no existing models, we rely on **open-source collaboration and incremental milestones** to ensure transparency and accountability at every stage.
## 2. Technical Solution
### 2.1 Satellite Node Hardware Architecture (3U CubeSat Standard)
#### 2.1.2 Hardware Design Resources
- Motherboard Layout: [/MoneroSpace](https://git.openenet.cn/MoneroSpace)
- Antenna Deployment Mechanism: [/MoneroSpace](https://git.openenet.cn/MoneroSpace)
## 2. Network Architecture
### 2.2 Communication System Design
#### 2.2.1 Three-Layer Communication Architecture
### 2.1 Satellite Node Hardware Schematic
```mermaid
graph TD
A[Power Subsystem] --> B[Deployable Solar Panels]
A --> C[Redundant Batteries]
D[Communication Subsystem] --> E[Laser Transceiver (1550nm)]
D --> F[RF Transceiver (S-band)]
G[Processing Subsystem] --> H[Radiation-Hardened CPU]
G --> I[Error-Correcting Memory]
B --> J[Power Management Unit]
E --> K[Beam Steering Module]
F --> L[Antenna Deployment Mechanism]
J --> G
K --> D
L --> D
```
### 2.2 Three-Layer Communication Architecture
```mermaid
graph TB
subgraph User Layer
A[User Terminal] -->|UHF 400-470MHz| B[Satellite Node]
U[User Terminal] -->|UHF 400-470MHz| S[Satellite Node]
end
subgraph Satellite Layer
B -->|Laser 1550nm| C[Neighbor Satellite 1]
B -->|Laser 1550nm| D[Neighbor Satellite 2]
C -->|Laser 1550nm| E[Ground Station]
D -->|S-Band 2-4GHz| E
S -->|Laser Link| N1[Neighbor Satellite 1]
S -->|Laser Link| N2[Neighbor Satellite 2]
N1 -->|RF Link| G[Ground Station]
N2 -->|RF Link| G
end
subgraph Ground Layer
E[Neutral Ground Station] -->|Tor Network| F[Monero Mainnet]
G[Neutral Ground Station] -->|Tor Network| M[Monero Mainnet]
end
```
- **User Access**:
- Terminal modification: Compatible with commercial satellite terminals (e.g., Starlink Dish), integrated with radiation-hardened encryption modules (ChaCha20-Poly1305 algorithm).
- Dynamic frequency hopping: 128 frequency points with 10-second interval switching, combined with satellite-side frequency prediction to achieve 45% improved anti-jamming success rate.
- **Inter-Satellite Communication**:
- Laser links: Randomly select 2 neighboring satellites for data forwarding, adding 30% dummy transactions to obfuscate transmission paths (anonymity set expanded 5x).
- RF links: Serve as emergency channels during laser outages, using DVB-S2X standard and AES-256-GCM encryption with latency < 500ms.
- **Ground Access**:
- Ground stations located in neutral regions (Zug, Switzerland & Reykjavik, Iceland), each equipped with 5 radiation-hardened servers running Monero full nodes.
- Access to the mainnet via 3-hop Tor relays, achieving 99.9% node IP anonymity.
## 6. Community Engagement Plan
### 6.1 Open-Source Collaboration
- **Hardware Design**: All CAD drawings and BOM lists are open-sourced on Gitea under the CERN-OHL protocol, enabling third-party modification.
- **Protocol Development**: Laser communication code is released under the MIT protocol, welcoming community contributions.
- Repository: [https://git.openenet.cn/MoneroSpace](https://git.openenet.cn/MoneroSpace) (Under Development)
## 3. Transparent Development Infrastructure
### 6.3 Transparency Assurance
- **Progress Tracking**: Weekly updates on development progress are posted to the Gitea repository.
### 3.1 Open-Source Toolchain
- **Gitea Repository**:
- Hosts hardware designs (CAD, BOM), software code, and milestone trackers
- Licenses: CERN-OHL (hardware), MIT (software)
- Access: [https://git.openenet.cn/MoneroSpace](https://git.openenet.cn/MoneroSpace)
- **Nextcloud Hub**:
- Secure platform for document sharing, compliance filings, and audit reports
- Public access for non-sensitive project updates
## 7. Proposer Information (Preparation Phase)
### 7.1 Current Status
- **Community Certification**: Applying for Monero Community Developer Certification (MCC), expected to complete in Q3 2025.
- **Collaboration Platforms**: Gitea and Nextcloud are under preparation; send resumes to admin@openenet.cn to apply for collaboration access.
- **Communication Channel**:
- Email: admin@openenet.cn
## 4. Funding Allocation
### 4.1 Budget Breakdown
```mermaid
pie
title Funding Allocation
"Team & Infrastructure" : 6
"Hardware Development" : 12000
"Software Development" : 10000
"Compliance & Testing" : 6000
"Community & Deployment" : 2000
```
### 4.2 Milestone Payout Timeline
```mermaid
gantt
title Milestone Payout Schedule
dateFormat YYYY-MM
section Core Team & Infrastructure
Role Definition :2025-05, 1mo
Recruitment Launch :2025-06, 1mo
Technical Vetting :2025-07, 1mo
Contract Finalization :2025-08, 1mo
section Development
Hardware Research :2025-09, 2mo
Software Design :2026-01, 2mo
Compliance Filings :2026-03, 2mo
section Testing & Deployment
Environmental Testing :2026-05, 2mo
Testnet Launch :2026-07, 2mo
Launch Preparation :2026-09, 6mo
```
## 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
## 5. Community Engagement
- **Success Metrics**:
- Minimum 5 independent technical reviews from certified aerospace consultants (reports published on Gitea)
### 5.1 Contribution Opportunities
- **Hardware**: Participate in CubeSat mechanical design or radiation-hardening simulations
- **Software**: Optimize Monero node for low-power space environments
- **Compliance**: Assist with ITU spectrum negotiations or data privacy framework development
### 5.2 Accountability Mechanisms
- **Financial Transparency**:
- All transactions logged on the Monero blockchain
- Quarterly audits by CCS-approved firms, reports on Nextcloud
- **Technical Oversight**:
- Key designs require 3+ expert reviews before milestone completion
- Real-time progress via Gitea commit history and development logs
### 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
## 6. Risk Management
- **Success Metrics**:
- Minimum 10 code contributions from external developers (tracked on GitHub)
- Official confirmation email from ITU regulatory experts acknowledging consultation
### 6.1 Key Challenges & Mitigation
| Challenge | Mitigation Strategy |
|-------------------------|---------------------------------------------|
| Radiation Tolerance | Redundant component design + iterative testing|
| Regulatory Delays | Early engagement with ITU and regional bodies|
| Cross-Disciplinary Gap | Community-driven reviews and open workshops |
### 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
## 7. A Message to the Monero Community
- **Success Metrics**:
- Publicly released video showcasing prototype testing procedures and results
- Uploaded ITU receipt document to the CCS project update page
Dear Community,
MoneroSpace is a testament to what we can achieve when we dare to explore uncharted territory. We have no pre-existing playbook—just a vision of a decentralized future where privacy knows no bounds.
With 23 incremental payouts tied to clear milestones, we invite you to join us in building this historic infrastructure. Every XMR contributes to a satellite network that could one day serve marginalized regions, bypass censorship, and strengthen Moneros global resilience.
### 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
Together, were not just funding a project—were launching a movement. Join us in making decentralization truly planetary.
- **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. Economic Model & Sustainability Plan
To ensure long-term network viability, a **0.03% transaction fee** will be applied to all satellite-mediated Monero transactions, with a proportional allocation designed to balance operational needs and community contribution:
- **0.015% to OPENENET Team**Funds will exclusively support day-to-day maintenance, including satellite bandwidth costs, ground station operations, and software updates. This ensures continuous service without compromising decentralization.
- **0.015% to Monero Community Chest (CCS)**Reinvested in broader ecosystem development, such as funding future open-source projects, security audits, or educational initiatives. This aligns with Moneros community-driven ethos, creating a self-sustaining feedback loop.
This fee structure is hard-coded into the satellite communication protocol, with transparency enforced through:
1. **On-chain visibility**Transaction fee distributions recorded on the Monero blockchain for public audit.
2. **Annual reports**Detailed breakdowns of fund usage published in the Gitea repository, subject to community review.
By dedicating half of the fee to the CCS, we reinforce our commitment to the broader Monero ecosystem, ensuring that satellite network benefits extend beyond its technical infrastructure to support the communitys collective goals.
## 10. 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.
**Proposer:** OPENENET Team
**Proposer:** OPENENET
**Contact:** admin@openenet.cn
**Date:** April 13, 2025