The same protocol stack that keeps a phone connected in Tehran can carry a science payload from the far side of the Moon. One network layer for Earth, orbit, and deep space.
A satellite is overhead for minutes, then gone for hours. Regular internet gives up instantly. Our protocol waits for the path to return, then delivers.
Earth to Moon: 2.6 seconds. Earth to Mars: up to 24 minutes. No regular protocol survives that. Ours was built for it.
Solar storms and cosmic rays corrupt data constantly. Our stack retransmits, re-routes, and keeps the data moving even when individual links fail.
| Standard | Details |
|---|---|
| NASA DTN Bundle Protocol v7 | RFC 9171, interoperable with ION, HDTN, μPCN |
| LunaNet Interoperability Specification v5 | NASA / ESA / JAXA, published January 2025 |
| CCSDS Bundle Protocol Specification | The international space agency consensus |
| ESA ARTES programs | Open call for resilient SatCom networking |
| NASA HDTN reference implementation | High-rate DTN router for science downlink |
| NIST post-quantum cryptography | Hybrid handshake: classical + lattice + code-based |
Satellite fleets need routing that survives handovers and partial failures. Data keeps moving across the constellation without waiting for confirmations from every hop.
From lunar relays to Mars orbiters: store, carry, forward. Data bundles travel autonomously across light-minutes of delay with quantum-safe verification.
Multiple ground stations instead of a single point of failure. Data is handed between operators with cryptographic receipts. Nobody trusts anybody, the data still arrives.
When cables are cut and satcom is the only link, the same stack reuses satellite contact windows to get messages out and coordination back in.
Click to watch store-carry-forward deliver data across light-time delay.
Click to simulate store-carry-forward
Click to simulate store-carry-forward