Using the aerospace monitoring facilities, Gazprom Space Systems provides the following range of primary products:
- photos of sites and areas from Earth observation satellites in different modes and bands, specified by the definite task;
- photos of sites and areas taken from UAV;
- spatial data of high-precision geodetic measurements and field compilation survey;
- thermal vision images of objects and areas from UAVs.
Photos of Sites and Areas from Earth Observation Satellites (EOSs)
Photos of objects and territories taken from Earth observation satellites is one of the most efficient sources of data.
Aerospace monitoring missions can use space images taken from various EOSs in various spectral ranges and resolutions. The choice of the required images depends on the specific tasks to be solved.
Photos of Objects and Territories from Unmanned Aerial Vehicles (UAVs)
UAV application ensures getting annotated raw digital photos of objects and territories in the optic range with resolution from 7 to 10 sm/px together with the data on the camera point of sight spatial positioning with the accuracy up to 15 m (geographic coordinates of the shooted site, UAV flight altitude versus the start point, UAV flight absolute altitude, roll and pitch values of UAV and the relative time of shooting).
Images of sites and areas are a source of high detail current information for further interpretation as well as the basis for secondary products of the aerospace monitoring.
Spatial Data of High-Precision Geodetic Measurements and Field Compilation Survey
The spatial data of high-precision geodetic measurements and field compilation survey are used for ensuring the required precision of the raw spatial data processing results.
Thermal Vision Images of Objects and Territories from UAVs
UAVs equipped with thermal vision video camera of far infra-red band give video data on the monitored objects, which further is transformed into a sequence of monoshots of the video images. Still pictures are supplied with the data on their spatial positioning, which allows their compilation into a single thermal vision image of objects and areas.
