DEXI 3 Single Build Kit
Meet DEXI 3 — Drone for Exploration & Innovation. Built for curious minds at every level, DEXI 3 is a fully autonomous research and development drone designed with hands-on STEM learning at its core. Whether you're a middle or high school student taking your first flight, a college researcher pushing the boundaries of autonomous systems, or a developer working directly with PX4, DEXI 3 grows with you. Our DEXI 3 kit allows you to assemble the drone and includes a transmitter, receiver, battery, and charger.
Available on backorder
Programming Autonomous Flight
DEXI 3 is a fully programmable, customizable, and modular drone that students will build from the ground up. DEXI introduces a groundbreaking all-in-one flight controller running PX4 Autopilot that integrates optical flow sensing for incredibly accurate positioning while flying indoors or in GPS-denied areas. Complete with onboard computing capabilities, a PI camera, and access to GPIO, the possibilities are endless.
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Block-Coding
DroneBlocks Block Coding ... Coming Soon
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Python
Python, being a versatile programming language, is perfect for interacting with PX4 due to its readability and wide support for libraries.
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ROS
The integration of ROS with PX4 provides a powerful platform for developing sophisticated autonomous drone applications.
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PX4
PX4 is an open-source flight control software platform for drones and other unmanned vehicles. It stands out in the realm of drone technology for its robust architecture and versatile capabilities.
A Revolutionary STEM Drone Kit!
Learning real-world coding skills through programming drones combines practical experience in both software development and robotics. Using tools like DroneBlocks, Python, and the PX4 flight stack, alongside advanced sensor technologies like optical flow, provides a comprehensive, hands-on approach to drone programming.
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Program Autonomous Flight
Learn real-world coding skills, program your drone with DroneBlocks and Python on the PX4 flight stack and optical flow sensing for accurate positioning indoors or GPS-denied areas.
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Manual Flight Control
DEXI is also a means for students to improve their piloting skills and understand drone navigation nuances in a practical setting.
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Advanced Building Experience
Construct your drone from the ground up, gaining invaluable insights into aerodynamics, mechanics, and electronics.
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Customizable Drone Design
With the inclusion of a PI compute module, the drone enables access to GPIO pins for adding servos, offering extensive customization for a unique flight experience.
Hardware Specifications
- Frame: 3″ Custom Drone Frame
- Motors: RCINPOWER GTS V3
- Propellers: Gemfan 3018 Tri-Blade
- Flight Controller / ESC: DroneBlocks PX4 FC with integrated ESC
- Flow & Distance Sensor: Optical Flow and TOF Distance Sensor
- Compute Module: Raspberry Pi CM5
- Camera: Raspberry Pi Camera Module 3
- Carrier Board: DroneBlocks Pi Carrier Board
- Battery: 3000mAh, 3S
- Tx/Rx: RadioMaster Pocket ELRS + ELRS Nano Receiver
- Storage: 128GB Micro SD
- LED Strip: Included
- Charger: Included
Support
Questions? Challenges? We're here, always ready to guide. Because when educators succeed, so do students.
Professional Development
DroneBlocks provides professional development opportunities to ensure educators are well-equipped to deliver our STEM curriculum.
Ongoing Support
You're never navigating solo when you're with DroneBlocks. Our extensive support resources and channels are your co-pilot, ensuring a smooth learning journey.
