Air · Land · Maritime · Distributed

A family of systems built around shared foundations.

Aerinos is exploring aerial, ground, maritime and distributed platforms that use a common autonomy, command and payload architecture.

Change the vehicle without starting the mission system over.

Closed platforms make each new sensor, communications package or operating domain a separate engineering program. Aerinos is separating vehicle geometry from mission software and integration boundaries.

Common payload boundaries

Planned mechanical, power and data interfaces intended to reduce one-off integration across vehicles.

Shared mission software

Reusable planning, perception and mission services designed to move between operating domains.

Edge computing

An expandable onboard processing architecture for sensor fusion, autonomy and partner applications.

Secure command

Designed to support encrypted communications, role-aware access and operator-defined autonomy limits.

Field serviceability

Modules, packaging and access points shaped around austere deployment and maintainability.

Production discipline

Common components and design-for-manufacture choices intended to support repeatable assembly.

Development posture

What we can say now.

System families

Air, land, maritime and distributed sensing concepts

Mission layer

Shared planning, perception, command and payload services

Payload approach

Design target: swappable modules and partner integration

Control modes

Design target: human-supervised autonomy with local manual operation on selected ground and maritime configurations for emergency, recovery and maintenance use

Deployment

Design target: expeditionary transport and field serviceability

Program status

Concept and development; configurations will evolve through engineering and test

Concept imagery is illustrative. Specifications and measured performance will be published by configuration as testing matures.

Human authority is part of the architecture.

Aerinos systems are designed around traceable mission logic, policy-defined operator control and appropriate human supervision.

Kinetic-capable configurations may be supported only for authorized government users and within applicable law, policy and rules of engagement.

Read about the architecture

Government · allied · industry

Bring us the mission.

We are building around real operating requirements and integration constraints.

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