THERMAL IMAGERY.
Thermal Imagery.
Challenge
In 2021 Aistech is deploying a constellation of earth-observing satellites in the thermal band. The images taken by our space telescope are especially valuable thanks to their characteristics of high spatial resolution and high temporal frequency and will be a first-in-kind capability on the commercial market. These images, in conjunction with other data sources, will allow the generation of high-value geospatial intelligence that has until now not been possible.
Our multispectral telescope (MST) including thermal is a unique optical payload developed by the Aistech Team. It is purpose-built for Earth Observation and enables the acquisition of images in three spectral channels simultaneously where atmospheric transmittance is greater than 60%. In the first version of MST, the system will be able to acquire images in the visible (VIS) (0.4um – 0.7um), near-infrared (NIR) (0.8um – 0.9um) and thermal (TIR / LWIR) (8.0um – 12.0) ranges. um).
Aistech Solution
- Provide a better proxy to estimate water content in vegetation and Earth surface.
- More accurate fire detection and fuel state estimation.
- Detection independent of light conditions. Providing insights about what activities are occuring.
THERMAL IMAGERY.
Thermal Imagery.
Challenge
In 2021 Aistech is deploying a constellation of earth-observing satellites in the thermal band. The images taken by our space telescope are especially valuable thanks to their characteristics of high spatial resolution and high temporal frequency and will be a first-in-kind capability on the commercial market. These images, in conjunction with other data sources, will allow the generation of high-value geospatial intelligence that has until now not been possible.
Our multispectral telescope (MST) including thermal is a unique optical payload developed by the Aistech Team. It is purpose-built for Earth Observation and enables the acquisition of images in three spectral channels simultaneously where atmospheric transmittance is greater than 60%. In the first version of MST, the system will be able to acquire images in the visible (VIS) (0.4um – 0.7um), near-infrared (NIR) (0.8um – 0.9um) and thermal (TIR / LWIR) (8.0um – 12.0) ranges. um).
Aistech Solution
- Provide a better proxy to estimate water content in vegetation and Earth surface.
- More accurate fire detection and fuel state estimation.
- Detection independent of light conditions. Providing insights about what activities are occuring.
