Stop Downlinking Clouds.
The ultimate pre-filter for Earth Observation. Zero-power, radiation-hardened optical inference for the orbital edge.
Learn MoreThe Problem
The Downlink Bottleneck
Space is the ultimate Harsh Edge. Power, bandwidth, and radiation make digital AI nearly impossible.
The Bandwidth Trap
Modern Hyperspectral and SAR satellites generate terabytes of data per orbit. But transmitting that data to expensive ground stations is the ultimate bottleneck.
The AI Power Limit
90% of downloaded satellite imagery is useless — empty oceans, cloud cover, or baseline terrain. But running a digital GPU in orbit to filter the data drains the satellite's strict solar power budget and generates unmanageable heat in a vacuum.
The Radiation Threat
Cosmic rays cause "Single Event Upsets" in digital memory, flipping 1s to 0s and corrupting neural network weights. Hardened chips cost millions.
The Solution
The Solphio Orbital Pre-Filter
Solphio sits directly between the satellite's camera and its radio transmitter, acting as an analogue gatekeeper.
Filter at the Speed of Light
The camera streams live data onto the Solphio disc. If the optical signature of the target (e.g., a wildfire, a methane leak, or an illegal vessel) is not detected, the image is instantly purged.
Low-Bandwidth Alerts
If the physical pattern matches, Solphio triggers a micro-watt spike, saving that specific image and sending an instant, low-bandwidth text alert to the ground station: "Fire signature confirmed at Lat/Long."
Saving Millions
By only downlinking anomalies, satellite operators save millions in ground-station fees and reduce time-to-action from days to milliseconds.
The Unfair Physics Advantage
Radiation Hardened by Default
You cannot flip a physical hole with a cosmic ray.
Because Solphio's algorithms are physically burned into the microscopic pits of a polymer disc, the "weights" of our neural network are permanently immune to ionizing radiation. It is natively radiation-hardened without the multi-million-dollar shielding required by digital chips.
Digital Chips
Require expensive rad-hardening
Solphio Disc
Immune by physics
Roadmap & Partnership
The Path to Orbit
While the optics are perfect for space, surviving the vibration of a rocket launch and the vacuum of orbit requires specialised mechanical engineering.
Validation (NOW)
Proving the math on Earth with our Digital Twin emulator.
Mechanical Engineering
R&D work under non-dilutive grants only aiming at dry-lubricant motors, counter-rotating torque cancellation, and vacuum-rated enclosures for launch survival.
We want your pre-downlink data.
Are you a satellite operator drowning in data? Share a sample of your raw, pre-downlink orbital captures. We will run it through our Digital Twin emulator to prove exactly how much bandwidth and power Solphio will save your next constellation.
- Hyperspectral or SAR imagery
- Raw, pre-processed captures preferred
- Free simulation report showing bandwidth & power savings