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  • APEX – Modular CubeSat platform with onboard artificial intelligence
January 1, 2026
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APEX – Modular CubeSat platform with onboard artificial intelligence

Project overview

APEX is a modular CubeSat platform (ranging from 1U to 12U) designed to accelerate space mission deployment through interchangeable payloads. Equipped with onboard artificial intelligence, it enables data processing directly in orbit, significantly reducing reliance on ground stations.

The goal is to make space missions more accessible, agile and cost-effective, while establishing Canada's sovereignty in Earth observation and space systems.

The Challenge

Today, Canadian space operators lack a modular, reusable CubeSat platform capable of rapidly launching missions with diverse payloads without the need to rebuild an entire satellite from scratch every time.

This capability gap results in high costs, long lead times and a growing dependence on foreign infrastructure and data for highly critical applications.

A professional individual in a blue shirt, smiling confidently with arms crossed, exuding a welcoming and approachable demeanor.
René Jr. Landry is a professor in the Department of Electrical Engineering at ÉTS and Director of LASSENA.
Project objectives
  • Develop a modular, reusable CubeSat platform
  • Enable rapid integration of scientific and industrial payloads
  • Integrate onboard artificial intelligence for in-orbit processing
  • Reduce data transmission latency
  • Strengthen Canadian space sovereignty
Expected benefits
  • Reduced space mission development costs
  • Platform reusability without requiring flight bus requalification
  • In-orbit data processing (space-based edge AI)
  • Reduced latency for critical data
  • Complete sovereignty over the data chain 
Innovation and key differentiators
  • Reusable platform without requiring bus requalification
  • Reduced deployment costs and timelines
  • < 20 minutes latency from sensor to field (compared to several hours with current tools)
  • ~3 minutes of onboard processing on Jetson Orin Nano
  • Complete sovereignty over the data chain; no foreign intermediaries
Expected benefits
  • Reduced space mission development costs
  • Platform reusability without requiring flight bus requalification
  • In-orbit data processing (space-based edge AI)
  • Reduced latency for critical data
  • Complete sovereignty over the data chain 
Applications
  • Defence and national security
  • Northern surveillance
  • Wildfire and environmental risk management
  • Precision agriculture and natural resources
  • Critical infrastructure
  • Academic research 
Results and validation
  • The ProtoSat A-0.1 “Borealis” prototype is operational, and the Critical Design Review (CDR) was completed ahead of schedule.
  • The ODIN system has achieved alpha version validation on the onboard computer.
  • A stratospheric balloon launch (CAN-SBX) is scheduled for 2026 to validate the system in near-space conditions.

Technology readiness level (TRL)

  • The project is currently at TRL 4 to TRL 5, with laboratory validation completed and stratospheric environment testing scheduled for the summer of 2026. The orbital launch of the prototype is planned for 2028–2029.
Technological challenges
  • Qualifying AI algorithms for space environments (radiation hardening and thermal cycling resistance).
  • Integrating optical payloads onto the orbital platform
  • Accessing test infrastructure tailored for CubeSats (thermal-vacuum and vibration testing)
  • Developing inter-satellite architecture and Direct-to-Cell (DTC) relays for the constellation phase
Niveau de maturité technologique (TRL)

Les travaux couvrent des technologies allant du prototypage avancé à des démonstrations expérimentales, avec un potentiel de validation sur banc d'essai, d'expérimentation sur le terrain et de transfert industriel dans un horizon de 1 à 3 ans.

Besoins pour accélérer le projet

  • Expertise en cybersécurité et systèmes embarqués
  • Calcul haute performance (HPC)
  • Technologies RF
  • Intégration à des plateformes autonomes (UAV, UGV)
  • Accès à des réseaux de commercialisation et à des programmes de transfert technologique 
Partenariats

Partnerships

Active partners

  • LASSENA / ÉTS (Montréal)
  • SEDS Canada
  • Canadian Space Agency (CAN-SBX program)

Sought-after partnerships 

  • Federal agencies (DND, NRCan, ISED, CSA) for funding and launch access
  • Operators looking to deploy a payload on a platform with flight heritage
  • Companies specializing in space optics, embedded computing and secure communications
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