Remote monitoring
Aeromax proposes offers a comprehensive solution that includes preparation of a full technological cycle of monitoring:
- inspection of facilities with the help of unmanned aircraft vehicles;
- provision of broadband communication channels over the entire length of monitoring facilities;
- data processing, visualization and storage;
- statistical reports generation and analytics.
The customer receives a video image of the facility under examination in real time and information about detected violations based on the results of processing aerial photography data as well as in automated mode. Monitoring parameters and data analysis are set depending on the needs of a customer.
During monitoring of territories’ changes in an automated mode the following works are carried out:
- identification of construction violations, land use and ecology with the databases formation;
- determination of the actual amount of performed work;
- fixing deviations from the project documentation and calendar plan.
Results of monitoring are provided in the form of agreed reporting forms and can be integrated with the information systems of the customer. It is possible to provide access to the results through a web service.
Availability of corporate production of unmanned aircraft, aerial cameras and gyro-stabilized platforms allows to select the optimal solution for tasks of any complexity. The fleet of the company consists of variable aircraft, including airplane-type Д-20 unmanned aircraft with a flight duration of up to 10 hours and MK-4 and MK-6 drones which can carry a load of up to 2 kg during 80 minutes.
The aircraft and aerial survey equipment type is selected individually with regard to tasks of the customer, which allows to achieve the required performance and quality of the obtained data. The area of the site covered by aerial photography using a single UAV can reach 500 km2 per day. Photography is carried out by calibrated full-frame cameras with high-class optics ensuring the images’ spatial resolution up to 1 cm/pixel.
Results:
On-line obtaining a video image of the examined objects.
Field of application:
- inspection of engineering structures;
- ensuring the safety of facilities;
- environmental objectives.
Aerial photographs in original resolution with the exact coordinates of the photographing centers and the orientation angles of the aerial camera.
Field of application:
- photogrammetric processing;
- decoding.
Orthophotoplans of scales 1:500, 1:1000, 1:2000, 1:5000 and 1:10000.
Field of application:
- creation of topographic and thematic maps and plans;
- monitoring of changes;
- navigation services;
- geoinformation systems.
The digital terrain model displays all the terrain objects visible during survey: land plots, vegetation, buildings and structures. If necessary, it can be visualized with a photorealistic texture. A digital relief model displays the earth surface. Both types of models can be represented as a raster elevation map or triangles irregular net (TIN).
Field of application:
- creation of topographic and thematic maps and plans;
- monitoring of changes;
- design and visualization of project solutions;
- creation of infrastructure facilities’ digital twins;
- navigation services and geoinformation systems;
- cinema and mass media, VR, AR.
Presentation of the external surface of an object with a density of 1 point per 1-16 pixels of the original image when creating a photogrammetric dense cloud. Dense clouds of points can be classified, as well as visualized based on photography data.
Field of application:
- 3D-modeling;
- cartography;
- designing;
- creation of infrastructure facilities’ digital twins.
The result of aerial photography in different spectral ranges can be the original sets of aerial photographs and orthomosaics created on their basis. The combination of spectral channels makes it possible to obtain maps of vegetation indices.
Field of application:
- determination of vegetation state;
- scientific investigations.
Thermograms and orthomosaics created based on them make it possible to identify thermal anomalies and analyze the thermal picture.
Field of application:
- heat losses identification;
- inspection of engineering structures;
- inspection of water reservoirs;
- scientific investigations.
On-line obtaining a video image of the examined objects.
Field of application:
- inspection of engineering structures;
- ensuring the safety of facilities;
- environmental objectives.
Aerial photographs in original resolution with the exact coordinates of the photographing centers and the orientation angles of the aerial camera.
Field of application:
- photogrammetric processing;
- decoding.
Orthophotoplans of scales 1:500, 1:1000, 1:2000, 1:5000 and 1:10000.
Field of application:
- creation of topographic and thematic maps and plans;
- monitoring of changes;
- navigation services;
- geoinformation systems.
The digital terrain model displays all the terrain objects visible during survey: land plots, vegetation, buildings and structures. If necessary, it can be visualized with a photorealistic texture. A digital relief model displays the earth surface. Both types of models can be represented as a raster elevation map or triangles irregular net (TIN).
Field of application:
- creation of topographic and thematic maps and plans;
- monitoring of changes;
- design and visualization of project solutions;
- creation of infrastructure facilities’ digital twins;
- navigation services and geoinformation systems;
- cinema and mass media, VR, AR.
Presentation of the external surface of an object with a density of 1 point per 1-16 pixels of the original image when creating a photogrammetric dense cloud. Dense clouds of points can be classified, as well as visualized based on photography data.
Field of application:
- 3D-modeling;
- cartography;
- designing;
creation of infrastructure facilities’ digital twins.
The result of aerial photography in different spectral ranges can be the original sets of aerial photographs and orthomosaics created on their basis. The combination of spectral channels makes it possible to obtain maps of vegetation indices.
Field of application:
- determination of vegetation state;
- scientific investigations.
Thermograms and orthomosaics created based on them make it possible to identify thermal anomalies and analyze the thermal picture.
Field of application:
- heat losses identification;
- inspection of engineering structures;
- inspection of water reservoirs;
- scientific investigations.