Explore our innovations Engineered for exploration. Designed for education.
CubeSat
CanSat
Our CanSat is a miniature satellite model designed for hands-on aerospace education and technology testing. Built to fit within the volume of a standard soda can, it simulates the core functions of a satellite—such as data collection, communication, and deployment mechanisms—during atmospheric descent.
The CanSat serves as an entry point for students and early-career engineers to gain real-world experience in system design, sensor integration, and telemetry. It’s used in educational programs, workshops, and competitions to promote STEM learning and practical aerospace skills.
Compact, cost-effective, and highly customizable, the CanSat is a powerful tool for building foundational knowledge in space systems.
PocketQube
Our PocketQube is a miniaturized satellite platform measuring just 5x5x5 cm (1P), designed for ultra-low-cost space missions. Despite its compact size, the system supports essential subsystems such as communication, power, and data handling, making it ideal for technology validation, scientific experiments, and educational applications.
Developed with scalability and accessibility in mind, the PocketQube opens new possibilities for institutions and startups to conduct space-based research without the high costs of traditional satellites.
This platform reflects our commitment to democratizing space, offering hands-on experience in small satellite development and deployment.
FemtoSat
Ignition: Student Rocketry Initiative
Our rocketry development program partners with schools and universities to bring hands-on aerospace engineering into the classroom. Students design, build, and launch experimental rockets — gaining direct experience with propulsion systems, avionics, and flight testing. It’s not just STEM education; it’s spaceflight in the making.
SolGen: Advanced Solar Systems
The SolGen program focuses on developing lightweight, high-efficiency solar panels tailored for small satellites and remote installations. Our research combines novel materials, flexible substrates, and integrated power management systems to boost performance in extreme environments — from stratospheric balloons to orbital platforms.
AeroSense: Environmental Monitoring for Earth & Beyond
AeroSense is our initiative in atmospheric and environmental sensing. From miniature weather stations to satellite-based prediction tools, we’re building systems that track climate variables, detect pollution, and provide real-time data for scientific and public use. Precision sensing. Planet-wide impact.
