Agri Solutions
Agriculture is one of the most desired choices to traditional farming tools and UAVs are a leading tool being used globally. Together with multispectral cameras, drones can capture vegetation transformations and parameters that are otherwise only possible by satellite imagery. UAVs in precision agriculture offer all the benefits of mapping and survey together with multispectral imagery (near-infrared, red-edge, and visible light) to calculate vegetation indices. Multispectral imagery can detect crop health and damages to plants before they occur. This leverages farmers with instruments to incorporate predictive care of crops and obtain more profitable crop yields.
SMART PRECISION FARMING
Drone data is used to extract soil characteristics including temperatures, moisture, and elevation which benefits more precise soil sampling. Our Drones and the sensors we use can help farmers in more than one way, it lets them plan and troubleshoots irrigation systems, help with water flow control, monitor plant emergence and population, monitor plant health, enhance crop models and predict a harvest’s quality and final yield.
High Efficiency
Farmers and agronomists can instantly pinpoint areas that require attention with the help of our specialist and state-of-the-art multispectral NDVI sensors to maximize the crop, health, and quality of your crops.
Lower Downtime
Drones significantly lower the time spent field walking and covering areas faster, offer real-time insights, are more precise than conventional methods, and are non-evasive to crops.
Low Costs
Drones can enable you to dramatically lower your costs, eliminate human error and bring business intelligence by having fast, detailed information on every crop.
MAPPING & SURVEYING OF FARM
Drone surveying is a fast, accurate, and cost-effective choice to traditional surveying. Modern drone technologies allow for the use of (GIS surveys) that capture, analyze, and provide you with high-resolution maps. Other services such as Digital Elevations, Terrain, and Surface models can be created for a better insight into your farm management and planning purposes.
CROP MONITORING
A mixture of large farm fields and low efficiency in crop monitoring systems are some of the most prominent farming challenges. An agricultural UAV enables the farmer to overcome some of these challenges. UAVs with thermal imaging cameras help the farmer to monitor their farm. Remote sensing using UAV facilitates the collection of high-resolution images for decision making and is demonstrated to detect crop water stress, crop yield estimation, and crop diseases.
HEALTH & YIELD MONITORING
Maps accurately track the health of crops using Using normalized difference vegetation index (NVDI) regular flyovers. Our drones can make detailed three-dimensional maps and “geographic information system surveys” (GIS surveys), tracking soil amount and richness, allowing farmers to find high yield zones and determine irrigation and nitrogen management systems. Maps created using normalized difference vegetation index (NDVI) software can help determine potential disease vectors and act as a tool for detailed soil analysis. Throughout the crop cycle, drones can determine crop variation, detect unhealthy crops, and track damage across an entire parcel in a matter of hours.
CROP SPRAYING
Agricultural drone spraying is evolving as an increasingly practical application, helping to preserve crop health and yields. Drones are deployed for spraying pesticides for disease, weed, and pest control. Using drones for this application offers a fully-automated, targeted and precise solution substituting labor-intensive, time-consuming, and potentially harmful use of backpack sprayers and other equipment. UAVs can automatically adapt their height according to the terrain when spraying across uneven fields. This improves the spraying accuracy and saves resources.
IRRIGATION MANAGEMENT
Drones can carry thermal cameras, the farmers can determine areas with low soil moisture, pinpoint dehydrated crops, locate water-logged areas, and in general have a sense of the overall health status of crops in the field. Such precise monitoring was either not possible with traditional farming, inefficiently done, or overly expensive as experts have to be contracted to carry out the task.