3D Flight Route Planning
Navigating through challenging terrains is now an issue of the past, thanks to a 3D flight route solution. The Phantom 4 RTK scans and maps target areas, making it easier to identify all aspects of the field. In Orchard mode, 3D flight routes can be generated based on the shapes of each tree after they are identified. Afterward, users can conduct efficient spraying with their T20.
Data Acquisition: Phantom 4 RTK
Centimeter-Level Positioning
High-Precision Data Collection
100-ha Area Mapped within 25 Minutes[3]
Planning: DJI Terra
Real-Time Mapping
2D/3D Reconstruction
AI-Generated Flight Paths
Task Management: DJI Agriculture Platform
Long-Distance Task Management
Long-Distance Device Management
Agras T20
Improved Operational Efficiency
Sprays up to 12 ha/hour[1]
Precision Farming
Our agricultural solution packages are designed to monitor crop health and generate variable treatment procedures. The P4 Multispectral scans target areas and generates multispectral charts that provide actionable insights into crop health and help formulate variable spraying and seeding maps. [4] Through the DJI Agriculture Management Platform, users can access DJI Terra shapefiles and apply them to spraying and seeding operations.
Data Acquisition: P4 Multispectral
Centimeter-Level Positioning
Data Collection Through Multispectral Sensors
47-ha Imagery Collection in a Single Flight[5]
Field Planning: DJI Terra
Real-Time NDVI Mapping
Agricultural Shapefiles
AI Field Planning
Task Management: DJI Agriculture Management Platform
Long-Distance Task Management
Long-Distance Device Management
Agras T20
Precision Farming
Introduction
The Agras T20 feature a brand-new design including a foldable frame and a quick-release spray tank and flight battery, making replacement, installation, and storage easy. The stable and reliable modular aerial-electronics system is integrated with a dedicated industrial flight controller, OCUSYNC ™ 2.0 HD transmission system, and RTK module. It has dual IMUs and barometers and adopts a propulsion control system redundancy design including both digital and analog signals to ensure flight safety.
The GNSS+RTK dual-redundancy system is compatible with GPS, GLONASS, BeiDou and Galileo. The T20 also supports centimetre-level positioning [1] when used with the onboard D+RTK™. Dual-antenna technology provides strong resistance against magnetic interference.
The upgraded spraying system features an improvement in payload. it also has a 4-channel electromagnetic flow meter to ensure consistent spraying for all sprinklers.
The new-generation onmidirectional digital radar provides functions such as terrain following and obstacle sensing and circumventing in all horizontal directions. The aircraft is equipped with a wide-angle FPV camera that enables users to observe the landscape from the front of the aircraft.
The aircraft has a backup power system, which supplies power to the aircraft for approximately 20 seconds when the Intelligent Flight Battery is powered off due to malfunctioning during flight. This allows the aircraft to avoid accident and land safely.
Due to its industrial design and material, the T20 is dustproof, waterproof and corrosion-resistant. The aircraft has a protection rating of IPX6 (IEC standard 60529), while the protection rating of the aerial-electronics system, spray control system, propulsion ESC system and radar module is up to IP67.
The Smart Controller 2.0 uses the DJI OcuSync 2.0 transmission system, has a maximum control distance of up to 3km [1], and supports W-Fi and Bluetooth functions. The remote controller is equipped with a 5.5" bright, dedicated screen that has the DJI Agras app built-in, significantly improving smoothness and stability. When the RTK dongle is connected to the remote controller, users can plan operations to centimetre -level precision. The Multi-Aircraft Control mode (coming soon) of the remote controller can be used to coordinate the operation of up to five aircraft at the same time, enabling pilots to work efficiently. Both the built-in battery and external battery can be used to supply power to the remote controller. The total working time is up to four hours, which fully meets the requirements for long and high-intensity operations.
[1]The remote controller is able to reach its maximum transmission distance (FCC/NCC: 5km; CE/KCC/MIC/SRRC: 3km in an open area with no electromagnetic interference and at an altitude of approximately 2.5m.
For more information visit the DJI Agras T20 Downloads page for User Guides and other relevant documentation.