OMJET type unmanned aerial vehicle | ROSPROEKT LLC

The innovative use of OMJET unmanned aerial vehicles in construction is to expand the possibilities of effective management of construction projects, increase the safety and accuracy of work, accelerate the construction process and reduce the overall cost of designing and implementing facilities.

In a world where innovation is not just a buzzword, but a vital necessity, we present not just an idea, but a solution. The use of UAVs responds to urgent needs by offering an efficient and cost-effective approach. It allows you to simplify processes, reduce costs and increase efficiency in your field.

The use of OMJET unmanned aerial vehicles in terms of reducing construction time allows:

1. Increase productivity and reduce costs:
   
   1. Minimizing the need for expensive, complex traditional inspection methods (scaffolding, cranes, climbers).
   2. Efficient and fast inspection of facilities, which saves employees' working time and reduces costs.
2. Automate the management of construction facilities:
   
   1. The introduction of artificial intelligence and machine learning technologies for the automatic analysis of data obtained using drones.
   2. Automation of infrastructure monitoring processes, which increases the efficiency of decision-making.
3. Save time on collecting data about the construction site.
4. Promptly identify and fix problems.

The use of OMJET unmanned aerial vehicles makes it possible to improve the quality and safety of construction facilities.:

1. To quickly collect high-precision information to create digital models of terrain and objects, obtain 3D models, orthophotoplans and terrain maps, which improves design and significantly reduces errors.
2. To monitor and control construction in real time. Regular remote monitoring of the progress of construction works makes it possible to compare the actual condition of facilities and planned indicators, and prompt detection of problem areas and defects reduces the time for adjustments, downtime and costs. The use of BVS also allows for thermal imaging to detect thermal insulation defects and assess damage after extreme weather events.
3. Improve the safety of construction and installation work by replacing personnel in dangerous conditions: high-rise structures, hard-to-reach facilities, and unsafe construction sites. The use of UVS allows for the inspection of hard-to-reach structural elements and the inspection of high-rise structures without the use of industrial climbers.
4. Implement digitalization and integration with BIM technology. The ability to integrate the data obtained using the BS into a single BIM environment allows for significant improvements in the quality of decision-making at all stages of construction, from design to operation.