India’s Bellatrix and Korea’s TelePIX Partner to Launch Next-Gen VLEO Imaging Satellite by 2028

India’s Bellatrix Aerospace and South Korea’s TelePIX have signed a landmark Memorandum of Understanding (MoU) to jointly develop a Very Low Earth Orbit (VLEO) imaging satellite, slated for launch in 2028. This collaboration, announced during Korea–India Space Day in Daejeon, represents a bold step toward next-generation Earth observation technology.

TelePIX announced the collaboration on May 29, 2026, and Bellatrix’s leadership also participated in a signing ceremony in Daejeon, South Korea.

The Partnership

• Bellatrix Aerospace: Known for its eco-friendly propulsion systems, including the Air-Breathing Electric Propulsion (ABEP) platform.
• TelePIX: Specializes in AI-driven imaging payloads, with its flagship wide-swath optical camera “Chouette.”
• Objective: Build a VLEO satellite that combines advanced propulsion with cutting-edge imaging, enabling sharper, wider, and more frequent Earth observation.

LEO vs VLEO: What’s the Difference?

Orbit Type	Altitude Range	Key Features	Advantages	Challenges
Low Earth Orbit (LEO)	~500–1,200 km	Most common orbit for Earth observation satellites	Balanced resolution, stable operations	Requires onboard fuel for propulsion
Very Low Earth Orbit (VLEO)	~150–250 km	Much closer to Earth’s surface	Ultra-high resolution imagery, reduced latency	Severe atmospheric drag, shorter satellite lifespan

TelePIX’s “Chouette” Payload

• Wide-Swath Imaging: Covers twice the area of conventional satellites.
• Multispectral Capability: Useful for defense, agriculture, and environmental monitoring.
• AI Integration: Real-time image processing for faster decision-making.
• Optimized for VLEO: Designed to minimize drag and maximize efficiency.

Applications

• Defense: Border surveillance, maritime monitoring.
• Disaster Response: Floods, cyclones, wildfires with near-real-time imaging.
• Environmental Monitoring: Climate change, pollution, forestry.
• Urban Planning: Infrastructure development, insurance risk assessment.

Challenges Ahead

• Atmospheric Drag: Constant deceleration risk at 150–250 km altitude.
• Satellite Longevity: VLEO missions face harsher conditions than LEO.
• Constellation Costs: Scaling to multiple satellites requires significant investment.
• Technology Validation: Air-breathing propulsion is still in early stages of testing.

Conclusion

The Bellatrix–TelePIX MoU is more than a bilateral partnership; it’s a strategic leap into the future of Earth observation. By marrying propulsion innovation with AI-driven imaging, the mission could redefine how governments, businesses, and researchers monitor our planet. If successful, this VLEO satellite will set new benchmarks for resolution, coverage, and responsiveness — potentially reshaping the global satellite imaging industry.