We deliver audit-ready contracts for tokens, DeFi protocols, and NFT platforms. Our team specializes in Solidity 0.8+, Vyper, and OpenZeppelin libraries, ensuring gas-optimized, secure, and upgradeable code from day one.
LABS
Services
Satellite Constellation Management Protocol Architecture
We design and implement custom DePIN protocol architecture for autonomous coordination, resource allocation, and governance of multi-satellite constellations. Move beyond generic network design.
Chainscore © 2026
overview
CORE SERVICE
Smart Contract Development
Secure, production-ready smart contracts built by expert Solidity engineers.
- Custom Logic: Build complex DeFi primitives, governance systems, and multi-signature wallets.
- Security-First: Adherence to
EIPstandards and formal verification practices to mitigate exploits. - Full Lifecycle: From architecture and development to deployment on
EVMchains andL2s.
Ship your core blockchain logic with confidence. We provide a 99.9% uptime SLA for deployed contracts and detailed technical documentation for your team.
key-features-cards
ARCHITECTURE FOUNDATION
Core Protocol Capabilities We Implement
We build the foundational infrastructure for satellite constellation management, delivering secure, scalable, and interoperable protocols that power your network operations.
01
Decentralized Telemetry & Command
Secure, fault-tolerant uplink/downlink protocols for satellite command and health monitoring. Built with cryptographic key management and Byzantine fault tolerance for mission-critical reliability.
99.99%
Message Integrity
< 500ms
Latency SLA
02
Orbital Resource Marketplace
Smart contract-based protocols for dynamic bandwidth, compute, and sensor data allocation. Enables automated, trustless trading of constellation resources between operators and consumers.
ERC-1155
Asset Standard
0.1%
Protocol Fee
03
Cross-Constellation Interoperability
Standardized APIs and relay protocols enabling seamless data exchange and service handoffs between disparate satellite networks. Implements IBC-like bridging for LEO/MEO/GEO ecosystems.
5+
Protocols Supported
ZK-Proofs
Verification
04
Autonomous Fleet Coordination
On-chain consensus mechanisms for collision avoidance, formation flying, and task scheduling. Uses verifiable computation to execute complex orbital maneuvers without ground station bottlenecks.
Sub-Second
Decision Finality
FAA-Compliant
Traffic Management
05
Data Provenance & Monetization
Immutable audit trails for Earth observation and IoT data, from sensor to consumer. Implements token-gated access, usage-based billing, and revenue-sharing smart contracts for data products.
IPFS/Arweave
Storage Layer
ERC-20/721
Payment & NFTs
06
Security & Governance Framework
Multi-signature custody for mission control, slashing conditions for operator misbehavior, and DAO-based upgrade mechanisms. All contracts are developed with OpenZeppelin and undergo formal verification.
Formal Verification
Security Standard
48-Hour
Emergency Upgrade
benefits
TANGIBLE ROI
Business Outcomes for Satellite Operators
Our protocol architecture delivers measurable improvements in operational efficiency, cost control, and revenue generation for satellite constellation management.
01
Automated Resource Orchestration
Dynamically allocate bandwidth, compute, and storage across your constellation based on real-time demand. Reduces manual coordination overhead by 70% and eliminates resource silos.
70%
Reduced Overhead
24/7
Autonomous Operation
02
Predictable & Transparent Billing
Smart contract-based settlement provides immutable, auditable usage logs and automated invoicing. Eliminates billing disputes and reduces administrative costs by up to 40%.
40%
Lower Admin Costs
100%
Auditable Logs
03
Faster Time-to-Revenue for New Services
Deploy and monetize new data products (e.g., Earth observation feeds, IoT backhaul) in weeks, not months, using our pre-audited protocol modules and standardized APIs.
< 4 weeks
Service Launch
Pre-audited
Security
04
Enhanced Security & Compliance Posture
Built-in protocol-level security with role-based access control, encrypted data provenance, and automated compliance reporting for ITAR, GDPR, and other regulatory frameworks.
Zero-trust
Architecture
Automated
Compliance
05
Interoperable Partner Ecosystem
Seamlessly integrate with ground station networks, data marketplaces, and other operators using our open protocol standards. Unlock new revenue streams without custom integration work.
Open API
Standard
Weeks
Integration Time
06
Reduced Capital Lockup & OpEx
Shift from large upfront infrastructure investments to a pay-as-you-go, utility model for shared network services. Improve cash flow and reallocate capital to core R&D.
Pay-per-use
Model
>30%
OpEx Reduction
Architecture Decision Matrix
Custom DePIN Protocol vs. Generic Alternatives
A technical and operational comparison for CTOs evaluating infrastructure for satellite constellation management.
| Architecture Factor | Generic Cloud/Blockchain | Custom DePIN Protocol |
|---|---|---|
Orchestration & Consensus | Centralized Server or Generic PoS/PoW | Custom Byzantine Fault-Tolerant (BFT) Consensus |
Data Integrity Verification | Manual Audits or Basic Hashing | On-chain Proof-of-Location & Telemetry |
Node Incentive Model | Fixed Rewards or None | Dynamic Staking Slashing for Uptime |
Hardware Abstraction Layer | Vendor-Locked APIs | Standardized DePIN Hardware SDK |
Time to Production MVP | 9-18 months | 12-16 weeks |
Security Posture | High (Custom Attack Surface) | Enterprise (Formally Verified Core) |
Ongoing Protocol Upgrades | Hard Forks & Team Coordination | On-chain Governance & Automated Upgrades |
Total Year 1 Cost (Est.) | $300K - $750K+ | $120K - $250K |
Scalability Path | Vertical Scaling (Costly) | Horizontal, Permissionless Node Growth |
how-we-deliver
PROVEN PROCESS
Our Delivery Methodology
We deliver production-ready Satellite Constellation Management Protocol architectures through a structured, security-first development lifecycle designed for reliability and rapid deployment.
01
Architecture & Protocol Design
We design custom, interoperable protocol architectures using standards like CCSDS and IETF SCION for secure, low-latency satellite-to-ground communication. This ensures your constellation can scale and integrate with existing ground infrastructure.
3-5 days
Design Sprint
CCSDS/IETF
Standards
02
Smart Contract & On-Chain Logic
Development of on-chain coordination logic (e.g., resource allocation, data provenance) using Solidity or CosmWasm, secured with OpenZeppelin libraries and formal verification for mission-critical operations.
OpenZeppelin
Security Base
Formal Verify
Critical Paths
03
Security & Penetration Testing
Comprehensive security audit of the full stack—from smart contracts to network protocols—conducted by our in-house experts following NIST SP 800-53 and aerospace security frameworks before deployment.
Full Stack
Audit Scope
NIST SP 800-53
Framework
04
Integration & Deployment
Seamless integration with your ground station software (SATCOM) and cloud providers (AWS Ground Station, Azure Orbital). We manage the deployment with automated CI/CD pipelines for consistent, repeatable launches.
AWS/Azure
Cloud Ready
CI/CD
Automated
05
Monitoring & Governance
Implementation of real-time monitoring dashboards for network health, consensus participation, and smart contract events. We establish clear multi-sig governance frameworks for protocol upgrades and emergency response.
Real-Time
Dashboards
Multi-Sig
Governance
06
Documentation & Knowledge Transfer
We deliver comprehensive technical documentation, operational runbooks, and conduct training sessions for your engineering team, ensuring full ownership and the ability to maintain and extend the system.
Full Docs
Delivered
Team Training
Included
Structured, Milestone-Driven Development
Typical 12-Week Delivery Timeline
A phased approach to delivering a robust Satellite Constellation Management Protocol, from architecture to deployment.
| Phase & Milestone | Week | Key Deliverables | Client Involvement |
|---|---|---|---|
Discovery & Architecture Design | 1-2 | Technical spec, system architecture diagrams, tokenomics model | Workshops & requirement sign-off |
Core Protocol Development | 3-6 | On-chain governance, node registry, staking/reward contracts | Bi-weekly sprint reviews |
Orchestration Layer & APIs | 7-9 | Ground station scheduler, data routing logic, REST/WebSocket APIs | API specification feedback |
Security Audit & Testing | 10 | Internal audit report, testnet deployment, integration tests | UAT environment access |
Mainnet Deployment & Handover | 11-12 | Production deployment, monitoring dashboard, technical documentation | Final acceptance & operational training |
Satellite Constellation Protocol
Frequently Asked Questions
Get clear answers on our architecture, process, and support for building resilient satellite-to-blockchain networks.
A standard deployment for a foundational protocol layer takes 6-10 weeks from kickoff to mainnet launch. This includes 2 weeks for architecture design and consensus modeling, 3-4 weeks for core smart contract development and on-chain testing, and 2-3 weeks for integration testing with ground station simulators and final security audits. Complex multi-orbit or cross-chain architectures can extend to 14-16 weeks.
ENQUIRY
Get In Touch
today.
Our experts will offer a free quote and a 30min call to discuss your project.
NDA Protected
Confidentiality24h Response
Time to ValueDirectly to Engineering Team
No Sales Fluff10+
Protocols Shipped
$20M+
TVL Overall