DJI Phantom 4 Multispectral
The DJI P4 Multispectral is a new drone for use in agriculture by the world’s leading drone manufacturer, DJI.
Farmers and agricultural researchers can now gather accurate level right down to plant-level thanks to this new precision drone. Integrated with a 6 sensor camera array your agricultural flying mission are now easier, more reliable & more efficient.
The multispectral sensor on this drone provides a live NDVI feed, as well as inclusive RTK functionality for supreme accuracy, RTK mobile station sold seperately.
What can this Multispectral Drone be used for?
There are two key areas where this Multispectral DJI Phantom excels:
Precision Agriculture / Farming – The P4 Multispectral can be used to correct accurate farming data throughout the seasons. The multispectral camera setup allows you to collect and interpret data it’s impossible for the human eye to see. The data the P4 Multispectral collects can then be used in Vegitation Indexes such as NDRE or NDVI. In turn, farmers can lower costs, save valuable resources and perhaps most importantly, maximise yields.
Environmental Monitoring and Inspection – Routinely inspecting and maintaining plant material can be difficult. The P4 Multispectral, along with DJI’s GS Pro app, simplifies this process substantially. Built-in RTK also means you’ll get even more accurate results, right down to 1cm accuracy in fact!
Key Features of the P4 Multispectral
- 5-Camera Array covering Blue, Green, Red, Red Edge and NIR (Near Infrared)
- Additional Single RGB Camera
- Integrated Spectral Sunlight Sensor for Increased Accuracy
- Live RGB and NDVI Feed Available from the Drone
- Integrated RTK for 1-cm Accuracy
- All Cameras Stabilised by 3-Axis Gimbal
- All Sensors are 2MP
- 27 Minute Flight Time
- 7km Transmission Range
- Support for DJI’s GS Pro Flight Planning App
The DJI Phantom 4 Multispectral is compatible with the D-RTK 2 Mobile Station which is DJI’s upgraded high-precision GNSS receiver that supports all major global satellite navigation systems, providing real-time differential corrections that generate centimeter-level positioning data for improved relative accuracy.