The mission defines the system.
The system defines the outcome.
We design and deliver long-range, autonomous maritime mission systems for persistent ISR, distributed early warning, undersea and surface threat detection, spectrum-contested operations, and deep battlespace reach—proven in the world’s harshest conditions.
When range and persistence are no longer limiting factors, missions can be conceived and executed differently.
Maritime operations impose the most demanding conditions on autonomous systems—saltwater corrosion, severe weather, dynamic launch and recovery, and continuous exposure. Systems that operate reliably at sea are, by definition, deployable across air and land domains.
Maritime Missions
Surface combatants and patrol vessels are constrained by the horizon. Manned aviation is constrained by cost, availability, and endurance. Subsurface and surface threats exploit distance, persistence, and ambiguity faster than centralized sensing can respond.
Our mission systems extend maritime awareness and operational reach far beyond organic ship-based limits—persistently, and at scale.
This includes mission profiles such as wide-area maritime surveillance, over-the-horizon detection and targeting, and fleet protection. It also includes enabling anti-submarine and anti-surface operations at extended range, and the protection of critical maritime infrastructure.
Fleet reach increases without adding hulls.
Awareness persists without continuous human presence.
Air Missions
Air operations are increasingly constrained by the need for persistent sensing and coordination rather than episodic presence. In many cases, the limiting factor is not sensor performance, but the cost, availability, and vulnerability of crewed assets required to keep sensors on station.
Adversaries exploit gaps created by rotation cycles, coverage handovers, and the concentration of sensing into a small number of high-value platforms.
Our mission systems extend airborne coverage and coordination without introducing additional crewed aircraft, single points of failure, or new operational dependencies into the force.
This includes mission profiles such as distributed airborne early warning, wide-area air domain awareness, long-range target detection and designation, and resilient sensing architectures designed to tolerate attrition.
Coverage scales through persistence and distribution.
Air domain awareness is sustained without concentrating risk.
Land Missions
Land operations increasingly occur under conditions of degraded communications, contested spectrum, and limited infrastructure. In these environments, continuous situational awareness and coordination are difficult to sustain using centralized systems or constant human control.
Adversaries exploit terrain, mobility, and electronic disruption to fragment sensing, delay decision-making, and isolate units from higher command.
Our mission systems distribute sensing and coordination across space, enabling persistent overwatch and mission execution even when connectivity is intermittent or denied.
This includes mission profiles such as persistent border and area surveillance, protection of critical infrastructure, wide-area overwatch of maneuver corridors, and autonomous operation in spectrum-contested environments.
Capability persists without continuous connectivity.
One principle across domains
Shift human involvement away from the platform where persistence is the primary constraint.
Distribute sensing and effect to match the scale of the mission.
Integrate with existing command structures rather than replacing them.