PREDICTIVE AND PREVENTIVE TEHCHNOLOGY
In today's rapidly developing technological world, the importance of predictive and preventive systems is increasing day by day. These technologies enable industries to anticipate potential risks and take precautions before problems escalate. For Flaresight, these technologies form the basis of our mission to protect satellites from the harmful effects of solar flares.
FlareSight AI
Artificial intelligence is the cornerstone of Flaresight's predictive and preventive capabilities. By analysing large-scale solar data such as magnetograms and continuum, it can detect subtle patterns that the human eye might miss. This precision enables real-time analysis and rapid decision-making, keeping satellites one step ahead of solar threats.
REAL-TIME MONITORING
Flaresight provides continuous monitoring of solar activity and detection of anomalies. Adjusts power levels to protect circuits during solar flares
AUTONOMOUS SATELLITE CONTROL
It gives direct commands to satellites with the data it receives autonomously and extends the life of satellites by preventing damage.
Avoids high repair costs due to unpredictable solar events
WHY FLARESIGHT AI?
Flaresight is committed to redefining satellite protection standards. Our predictive and preventive technologies not only protect valuable assets in space, but also lay the groundwork for a future that eliminates the uncertainty of solar activity. With Flaresight, safe and sustainable space exploration becomes a reality.
MATERIAL
FlareSight provides higher accuracy with less data. Continuum data represent the distribution of brightness on the solar surface and play a critical role in analysing solar activity. Magnetogram data show the distribution and intensity of magnetic fields on the solar surface. The Kp index is an indicator that quantifies the level of geomagnetic activity occurring in the Earth's magnetosphere. and using only these three provides clearer results than those in the market.
USER FRIENDLY INTERFACE
The Flaresight project is equipped with a modern and user-friendly interface developed for ground stations. This interface facilitates the processes of monitoring the state of the sun in real time, analysing the collected data and making operational decisions.