Intelligence Without Tethers

Operate Anywhere

Our autonomy software gives machines the ability
to operate independently, in real time, under extreme conditions.

About Argus Autonomy

We deliver advanced autonomy software that enables precise, reliable operation of robotic systems in environments where GPS, continuous communications, or human oversight are unreliable.

Built on cutting-edge engineering, we focus on delivering foundational autonomy capabilities for safety-critical and high-consequence applications. Our software is built to operate onboard, in real time, enabling autonomous platforms to perceive, reason, and act independently in complex and uncertain conditions. Argus Autonomy supports a wide range of autonomous vehicles across space, aerial, marine, and robotic domains.

Our Technology

We deliver a full onboard autonomy stack that fuses computer vision, AI-driven trajectory planning, and adaptive control to support precise autonomous operation in challenging environments.

Our approach enables real-time interpretation of onboard sensor data and informed action under uncertainty, without dependence on external positioning or continuous communications. The software is designed to integrate with existing autonomous platforms and support reliable operation in dynamic, cluttered, and GPS-denied conditions across space, air, marine, and advanced robotic applications.

The Problem

 Operating complex vehicles through manual control or remote piloting becomes increasingly impractical as environments grow more constrained, distant, or time-critical.

Communication delays, limited bandwidth, and human workload impose hard limits on responsiveness and precision, particularly in space and other high-consequence settings. As a result, autonomy is essential for achieving reliable and scalable operations. However, many existing autonomous systems still depend on GPS, external infrastructure, or tightly scripted behaviours, which break down in degraded, denied, or rapidly changing conditions. This gap limits true operational independence.

Value Proposition

 Enabling autonomous systems to operate with greater precision, reliability, and independence in constrained and uncertain environments.

By reducing reliance on external positioning, persistent communications, and remote intervention, our approach supports more responsive and resilient autonomous behaviour. The result is enhanced performance in dynamic operating conditions, lower operational risk, and expanded mission capability across multiple autonomous domains, particularly in applications where adaptability and trust in onboard decision-making are critical.

Operational Domains

Space Systems

Autonomous guidance and control for proximity operations, servicing, and in-orbit manoeuvres.

Marine Systems

Adaptive autonomy for surface and subsea vehicles operating in dynamic, communication-limited conditions.

Aerial Systems

Reliable navigation and decision-making for UAVs in GPS-denied and contested environments.

Robotic Systems

Precision motion and perception for advanced robotic platforms in complex, uncertain environments.

Our team

Abdulla Tammam
Entrepreneurial Lead

Maxwell Hogan
Lead Systems
Integration Engineer

  Powlami Ghosh 
Technology Transfer Officer

Chuyao Wang
Lead Perception
and ML Engineer

David Falzani 
Business Advisor

Nabil Aouf 
Principal Scientific Advisor

Ziwei Wang
Lead Autonomy
Software Engineer

Get in touch

Get in touch with the Argus Autonomy team to discuss next steps or request more information.