Air
Lineage enables assured UAV command, telemetry, and mission-link integrity in contested-spectrum environments where conventional encryption, session handshakes, and clean RF assumptions fail.
Air
Lineage enables assured UAV command, telemetry, and mission-link integrity in contested-spectrum environments where conventional encryption, session handshakes, and clean RF assumptions fail.
PQE UAV Command Links
Lineage protects UAV command-and-control traffic against interception, spoofing, replay, and harvest-now-decrypt-later collection. Instead of relying on fragile session handshakes or long-lived fleet keys, Lineage derives single-use message keys locally from authenticated public Q-Blocks and endpoint-held secret state. Every command is authenticated before the aircraft acts on it.
Single-use keys for every command message
Spoofed or replayed commands rejected before execution
Post-quantum confidentiality for mission-critical C2
PQE UAV Command Links
Lineage protects UAV command-and-control traffic against interception, spoofing, replay, and harvest-now-decrypt-later collection. Instead of relying on fragile session handshakes or long-lived fleet keys, Lineage derives single-use message keys locally from authenticated public Q-Blocks and endpoint-held secret state. Every command is authenticated before the aircraft acts on it.
Single-use keys for every command message
Spoofed or replayed commands rejected before execution
Post-quantum confidentiality for mission-critical C2
PQE UAV Command Links
Lineage protects UAV command-and-control traffic against interception, spoofing, replay, and harvest-now-decrypt-later collection. Instead of relying on fragile session handshakes or long-lived fleet keys, Lineage derives single-use message keys locally from authenticated public Q-Blocks and endpoint-held secret state. Every command is authenticated before the aircraft acts on it.
Single-use keys for every command message
Spoofed or replayed commands rejected before execution
Post-quantum confidentiality for mission-critical C2
Built For Defence UAVs and Drone Swarms
Lineage is designed for UAVs that must remain controllable when the spectrum is degraded, congested, or actively attacked. For single drones, it protects flight commands, override authority, mission updates, geofences, and sensor tasking. For swarms, it prevents a captured or spoofed node from rewriting group guardrails or issuing unauthorised movement instructions.
Ground-to-air and inter-agent guardrail protection
Captured UAV does not expose wider fleet authority
Supports swarm coordination, ISR, logistics, and BVLOS missions
Built For Defence UAVs and Drone Swarms
Lineage is designed for UAVs that must remain controllable when the spectrum is degraded, congested, or actively attacked. For single drones, it protects flight commands, override authority, mission updates, geofences, and sensor tasking. For swarms, it prevents a captured or spoofed node from rewriting group guardrails or issuing unauthorised movement instructions.
Ground-to-air and inter-agent guardrail protection
Captured UAV does not expose wider fleet authority
Supports swarm coordination, ISR, logistics, and BVLOS missions
Built For Defence UAVs and Drone Swarms
Lineage is designed for UAVs that must remain controllable when the spectrum is degraded, congested, or actively attacked. For single drones, it protects flight commands, override authority, mission updates, geofences, and sensor tasking. For swarms, it prevents a captured or spoofed node from rewriting group guardrails or issuing unauthorised movement instructions.
Ground-to-air and inter-agent guardrail protection
Captured UAV does not expose wider fleet authority
Supports swarm coordination, ISR, logistics, and BVLOS missions
Fail-Secure Autonomy Under EW Pressure
When a hostile or corrupted command fails authentication, Lineage does not pass it through and hope the aircraft can recover later. The platform retains its last verified guardrail set: geofences, no-fly volumes, emergency triggers, operating envelope, and fail-safe rules. Authority defaults to the last known-good state, not to the newest unverified instruction.
Rejects forged or corrupted commands
Retains last verified geofence and operating envelope
Supports safe return, hold, or autonomy fallback behaviours
Fail-Secure Autonomy Under EW Pressure
When a hostile or corrupted command fails authentication, Lineage does not pass it through and hope the aircraft can recover later. The platform retains its last verified guardrail set: geofences, no-fly volumes, emergency triggers, operating envelope, and fail-safe rules. Authority defaults to the last known-good state, not to the newest unverified instruction.
Rejects forged or corrupted commands
Retains last verified geofence and operating envelope
Supports safe return, hold, or autonomy fallback behaviours
Fail-Secure Autonomy Under EW Pressure
When a hostile or corrupted command fails authentication, Lineage does not pass it through and hope the aircraft can recover later. The platform retains its last verified guardrail set: geofences, no-fly volumes, emergency triggers, operating envelope, and fail-safe rules. Authority defaults to the last known-good state, not to the newest unverified instruction.
Rejects forged or corrupted commands
Retains last verified geofence and operating envelope
Supports safe return, hold, or autonomy fallback behaviours
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