Airogen Space
Pioneering the next frontier of space exploration with fully integrated, AI-driven software, bespoke silicon, and high-fidelity simulation platforms for the world's most demanding missions.
Pioneering Aerospace Software
We engineer the digital backbone of modern space exploration. Our software is built on a foundation of reliability, security, and autonomy, powering everything from satellite constellations to deep-space probes. We deliver robust, mission-critical solutions that perform flawlessly in the unforgiving environment of space.
Flight & Operations Software
Custom spacecraft and satellite software for mission-critical systems. This includes autonomous Guidance, Navigation, and Control (GNC) algorithms, robust Fault Detection, Isolation, and Recovery (FDIR) systems, and real-time telemetry processing running on hardened operating systems.
Simulation & Digital Twins
We create high-fidelity simulations covering the entire mission lifecycle. Our testing software uses physics-based models for Hardware-in-the-Loop (HIL) validation, environmental testing, and full mission rehearsals. This allows for comprehensive pre-flight verification and operator training.
Ground Segment & Mission Control
Bespoke ground segment solutions for space agencies, including secure multi-mission architectures, advanced telemetry visualization, and automated mission planning tools. We deliver scalable, cloud-native solutions that provide operators with unparalleled situational awareness.
Our Code Philosophy
// We build deterministic, verifiable systems.
fn calculate_burn_vector(
state: &OrbitalState,
target: &TargetVector
) -> BurnCommand {
// Ensure pre-conditions are met for safety.
assert!(state.is_stable());
// ... high-assurance trajectory calc ...
return BurnCommand::execute(delta_v);
}Next-Generation Silicon
To control the entire technology stack, we are developing proprietary aerospace-grade silicon. Our focus is on radiation-hardened System-on-Chips (SoCs) that integrate powerful processing with specialized functions for the extreme environments of space. This vertical integration of hardware and software allows for unprecedented performance and reliability.
Our SoCs feature dedicated neural processing units (NPUs) that run sophisticated AI models directly on the hardware. This enables real-time adaptive flight control, allowing spacecraft to autonomously adjust trajectories, manage complex maneuvers, and respond to unforeseen environmental conditions with millisecond precision.
Radiation-Hardened by Design: Built to withstand cosmic rays and solar flares.
Adaptive Flight Control: On-chip AI for instantaneous trajectory adjustments.
Integrated Photonics: Ultra-high-speed, radiation-resistant data transfer within the SoC.
Low-Power Consumption: Maximizing mission duration and capability.
Intelligent Aerospace
At Airogen Space, Artificial Intelligence is not an add-on; it is the central nervous system of our technology. We develop and deploy sophisticated AI and machine learning models, from the silicon level to ground control, to create systems that are not just automated, but truly autonomous. Our core capability lies in creating resilient, edge-AI solutions that can operate in the most demanding environments, making critical decisions light-minutes away from human oversight.
Autonomous Navigation & Control
Our AI systems process multi-sensor data in real-time for precise, autonomous navigation. This enables spacecraft to perform complex proximity operations, land on unprepared terrain, and dynamically avoid orbital debris. Our models fuse data from star trackers, IMUs, and optical sensors to build a complete environmental picture.
Predictive Health Management
We utilize machine learning to constantly monitor the health of critical subsystems. By analyzing telemetry for subtle anomalies, our AI can predict potential failures in power, propulsion, and avionics. This moves maintenance from a reactive to a predictive model, maximizing asset lifespan and value.
Intelligent Data Processing
With limited bandwidth to Earth, our onboard AI prioritizes scientific discovery. It autonomously analyzes sensor data, identifies key phenomena, and compresses information. This edge-processing capability is critical for deep-space missions where communication delays are significant, ensuring the most valuable insights are transmitted first.
Optimized Mission Operations
On the ground, our AI optimizes every facet of mission operations. From intelligent satellite constellation management to automated mission planning and resource allocation, we ensure maximum efficiency and scientific return. Our tools help automate routine operational procedures, freeing human operators to focus on critical decisions.
Join Our Mission
We are looking for brilliant minds to help us shape the future of aerospace. Founded in Norway by a team of veteran engineers, software architects, and designers, our mission is to solve the most complex challenges in space. If you are passionate about precision engineering and relentless innovation, we want to hear from you.
Connect With Us
Have a project in mind or want to learn more? We'd love to hear from you. Reach out via the form below or email us directly.
Aker Brygge, 0250 Oslo, Norway
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