For UAV/drone-based land surveying and mapping the precision RAV offers high area output and remarkable position accuracy. Thereby RAV represents a very efficient supplement to traditional survey methods like terrestrial measurement with laser scanning and total station monitoring. So the actionable data can be produced by surveying land, areas and objects for preparation of site plans, contour maps and summary of existing condition at the beginning of project by orthophotos, photogrammetry, 3-D modelling, point clouds or volume calculations. Areas can be flown over exactly according to your settings and requirements.
RAV in agriculture can be big boon to farmers. They carry the potential to completely transforming and revolutionizing the farming and agriculture industry. Agricultural drones are high-tech systems that can do things a farmer can’t for eg: soil health scans, monitoring crop health, applying fertilizers and watering needs of the fields, even tracking weather and estimating yields, and then collecting the data and analyzing it for prompt action.
RAV could provide major relief for both inner cities and villages, taking traffic off the roads and into the skies. Though payloads are limited a network of RAV could bolster first and last-mile logistics networks.
Designed for easy use, quick deployment, and intense accuracy, RAV makes it simple, fast and cost-effective to collect the information needed to manage forests. Using the optional waypoint navigation mode, users can inspect large areas autonomously, providing a rapid yet thorough inspection. RAV benefits forest management in the following ways
RAV are beneficial for infrastructure inspection because, it can cover a large area in a systematic way. It can easily be programmed and controlled to reach difficult and restricted areas which might be crucial in identifying a problem in any many installations. The use of RAV for infrastructure inspection saves time and cost in the following industries.
Areas that are prone to large-scale disasters such as earthquakes and flooding benefit greatly from visual imaging and 3D mapping. Manned aircraft are often too expensive to use, satellite mapping does not meet high-resolution needs, and both take too much time during emergency situations.
RAV are smaller, more agile, better controlled, and better equipped for use by our emergency services as they can be on field repurposed and put into multiple uses from taking photographs to supply of vitals like medicines to the survivors.
A key benefit to using RAV technology is in collection of data and intelligence. For example, collecting evidence used to analyse emerging scenes. RAV can be equiped with laser scanners and thermal photos to have a better view providing actionable data to deal with emerging situations.
The use of RAV to map disaster areas provides greater advantages in costs and in rapid response times when compared to traditional methods. Several RAV can be deployed quickly, generate high-resolution and 3D mapping, identify hotspot areas that have sustained the most damage, and upload the data in real-time to coordinate relief efforts.
Risk engineering and pricing, aerial site assessments can identify property features that allow the owner either to seek a reduced risk profile or to take appropriate actions to lower overall risk and justify premium discounts.
RAV can provide a safer, faster, and more cost-effective way to conduct a site inspection, particularly in challenging working conditions.
Insurance companies can benefit by