Drone technology advancements have revolutionized agriculture by helping farmers increase profitability and improve efficiency. They are employed for field mapping, surveying, crop studying, and spraying, reducing operation costs, improving crop quality, and increasing yield. Our solutions are designed to achieve sustainable agricultural management decisions.

Multispectral Data Collection

Enhance the effectiveness of precision farming through the collection of multispectral data from farms.


Creation of Aerial Maps

Detection of anomalies and patterns through Aerial Maps generated by Artificial Intelligence algorithms


Data Evaluation

Pattern analysis and anomaly detection through a data assessment on the online platform.


Healthy Inspections

Ensure your farm is healthy by adopting drones to perform the diagnosis of cultures, through an inspection with multispectral cameras, allowing to detect problems preventively.

The Role of Drone Technology in Sustainable Agriculture

Integration with multispectral cameras – drones fully integrated with multispectral cameras, capable of scanning the terrain autonomously.

Map processing algorithms – The data collected by the drones can be downloaded at beXStream, which analyses and processes them, presenting results in a simple and clear way.

Decision support – The incorporation with management, support and monitoring tools, enables the system to carry out decision support, for daily aid of farmers.

Save your time

Collect accurate information to reduce decisioning time and make the adequacy of measures more efficient.

Save your time

Collect accurate information to reduce decisioning time and make the adequacy of measures more efficient.

Monitor your plantations

The creation of multispectral maps, point clouds and 3D models of aerial images generated through the 2D/3D mapping software, allow agricultural producers to have a notion – in real time – about the status of their plantations in specific areas and receive notifications about those that require more attention.


A Class 3 hexacopter powered by a high-capacity battery and controlled by a state-of-the-art flight controller, that can be commanded either by a wireless local radio control or by a remote-control application.


An innovative user-friendly platform providing total remote control of drones in one application integrated with robust functionality that allows creation, monitoring, and review of each mission.


A fixed base station used to increase the accuracy of GPS navigation signals. This will wirelessly send corrections to a moving receiver in real time.