Lurvanto Space Systems is founded in Canada, focusing on aerospace engineering and satellite component testing.
Secured a contract with the Canadian Space Agency (CSA) for orbital debris tracking protocol development.
Opened a state-of-the-art high-vacuum thermal simulation facility for small-satellite stress testing.
Launched a dedicated service line for radiation shielding analysis, supporting commercial satellite deployments.
Began providing comprehensive support for the entire commercial small-satellite lifecycle, in full accordance with CSA technical protocols.
Our Identity
Lurvanto Space Systems is a Canadian aerospace engineering firm dedicated to ensuring the safety and sustainability of space operations. We provide critical orbital debris tracking and satellite component stress testing services.
"Precision in the vacuum of space."
To support the growing commercial space sector by delivering reliable high-vacuum thermal simulation and radiation shielding analysis, adhering strictly to Canadian Space Agency technical protocols.
"Guarding orbits, enabling innovation."
Our work is defined by unwavering integrity, meticulous precision in every simulation, and a commitment to innovative solutions that address the complex challenges of modern spaceflight.
"Excellence is our baseline."
We combine rigorous engineering with a forward-thinking approach. Our team thrives on solving problems that haven't been encountered before, ensuring client satellites survive the harsh realities of space.
"Solving tomorrow's problems today."
Find answers to common inquiries about our orbital debris tracking, satellite testing, and CSA-compliant services.
Orbital debris tracking involves monitoring and cataloging non-functional human-made objects in Earth's orbit. For Lurvanto, it's critical to ensure the safety and longevity of client satellites by providing collision risk assessments and avoidance maneuvers, in full compliance with Canadian Space Agency (CSA) space situational awareness protocols.
Our high-vacuum thermal simulation replicates the extreme temperature fluctuations and vacuum conditions of space. Components are tested in specialized chambers to validate their performance, material integrity, and thermal management systems, ensuring they can withstand the harsh environment of low Earth orbit (LEO) and beyond.
We analyze the effectiveness of shielding materials against cosmic rays and solar particle events. Using modeling and material testing, we help clients optimize their satellite designs to protect sensitive electronics from radiation-induced failures, a key requirement for reliable small-satellite deployments.
Yes, absolutely. All our engineering services, from debris tracking data reporting to component stress testing protocols, are developed and executed in accordance with the latest CSA technical standards and guidelines for the commercial space sector.
We commonly test propulsion systems, communication antennas, power systems (solar panels, batteries), and structural elements. Our stress testing evaluates mechanical, thermal, and vibrational loads to simulate launch and on-orbit conditions.
From a small Canadian research team to a trusted partner in orbital safety.
Founded with a vision to secure the future of space exploration, Lurvanto Space Systems began as a specialized research group focused on the emerging challenge of orbital debris. Our first major milestone was the development of a proprietary high-vacuum thermal simulation chamber, enabling precise stress testing for satellite components under space-like conditions. This breakthrough led to our first contract with the Canadian Space Agency (CSA), aligning our protocols with national technical standards. As the commercial small-satellite sector boomed, we expanded our expertise into radiation shielding analysis, becoming a critical support system for new deployments. Today, from our headquarters at 477 Elena Throughway, we continue to pioneer solutions that ensure the sustainability and safety of activities in Earth's orbit, guided by our commitment to precision, innovation, and the long-term health of the space environment.