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F4F RoboFly Research Robot Drone
Introducing
F4F RoboFly
F4F RoboFly a fully autonomous research robot for indoor and outdoor deployment. It is ready to fly with ROS based open source software for extensive customization. It offers great agility and maneuverability, easily handling outdoor conditions and fast flights. The drone is highly expandable with USB and Ethernet ports, enabling easy connection to various sensors and accessories, making it a cost-effective option for initial research and education. Its modular design allows for easy upgrades and customization, featuring motors housed in separate sections for vibration reduction and a Raspberry Pi main computer for compatibility with a wide range of accessories and software. The drone also includes vibration reduction technology for sensitive payloads. F4F RoboFly is simulator-ready for testing visual algorithms. Equipped with onboard artificial intelligence and computer vision capabilities, the drone features powerful onboard processing for complex tasks and complete autonomy in real-world environments.
Loaded with Cutting-Edge Technology
In Detail
Parameters
Application
- Fully equipped for multi-robot and swarm applications
- Ideal choice for various industrial and research purposes
- Onboard image processing
- Motion and trajectory planning
- Locomotion generation
- Control, communication, coordination
- Stabilization of groups of ground, aerial, and modular robots
Features
Small But Powerful
F4F RoboFly autonomous research robot drone provides a versatile and cost-effective solution for developing and validating your drone research in indoor and outdoor conditions. It is an ideal starting point which offers a solid foundation that can be expanded into a more sophisticated and customizable platform.
Compatible with advanced simulators like Unreal Engine, F4F RoboFly is a perfect research drone for testing and refining visual algorithms and training AI systems before deployment in real-world environments.
Great Agility and Maneuverability
Easily handles outdoor conditions, including wind and fast flights.
Highly Expandable
Features USB and Ethernet ports, enabling the connection of various sensors and accessories.
Cost Effective
Designed for initial research needs, before moving to more sophisticated solutions.
Modular Design
Allows for easy upgrades and customization of hardware components.
Raspberry Pi Main Computer
Employs the highly popular Raspberry Pi, offering a vast array of accessories, software, and a large supportive community.
Vibration Reduction
Silentblocks and a separate motor section significantly reduce vibrations for sensitive payloads and IMU, enhancing performance in vision-based navigation and localization tasks.
Open Source and Development-friendly
Open source software on Linux with ROS allows for extensive customization.
Simulator Ready
Compatible with advanced simulators, making it perfect for testing and refining visual algorithms and training AI systems before real-world deployment.
Onboard Artificial Intelligence
Equipped with AI capabilities, enabling advanced decision-making and autonomous functions.
Powerful Onboard Processing
Features a strong onboard processor capable of handling complex computations and tasks.
Onboard Computer Vision Supported
Equipped with computer vision capabilities, enhancing perception and interaction with the environment.
Full Autonomy in Real-World
Operates autonomously in indoor/outdoor environment, navigating and performing tasks independently.
5" Propellers
2 or 3 blade 5-inch propellers available according to specification.
Forward Facing Camera
Up to 64-megapixel high-performance camera with versatile resolution and FPS options for VIO-based localization.
Down Facing Camera
Up to 64-megapixel high-performance camera with versatile resolution and FPS options for object detection and precise visual landing.
Silentblocks
Significant reduction of vibrations for performance enhancement.
Battery
Powerful 4S 3700 mAh battery, providing up to 14 minutes of flight time on a single charge.
Main Computer
Popular Raspberry Pi computer enabling an extensive range of accessories, software, and community support.
FCU
Powerful H7 32bit processor inside.
Distribution Board with Precise IMU
Cabelless integration of main drone components.
ESC
Comprehensive compact 4-in-1 configuration.
Battery Connector
Reliable and stable connection, allowing the battery to function safely and effectively.
GNSS and Compass
Compatible with all navigation systems - GPS, Galileo, GLONASS, BeiDou and QZSS.
Motors
Housed in a separate motor section for vibration reduction. Light and swift unit enabling agile flight with up to 4.0 thrust-to-weight ratio.
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F4F RoboFly Video
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Get Your Own F4F RoboFly
Order your F4F RoboFly now and start your research today! Contact our sales team at sales@fly4future.com or place your order online.
F4F RoboFly
Basic
Ideal as a starting point for basic research for indoor and outdoor localization, navigation and path planning.
F4F RoboFly
Vision
Ideal for research of advanced applications like computer vision, image processing, neural networks, and inference.
F4F RoboFly
Swarm
Tailored for research on drone swarm behavior, decentralized swarms, mutual localization, and swarms without communication.
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What We Do
Custom Drones
We custom-build ready-to-fly fully autonomous drones that can be adjusted for any application and industry.
Development & Prototyping
We design and develop advanced autonomous aerial systems to meet the particular needs of our individual clients.
Research Projects
We participate in many projects in various fields financed by the EU and Czech Republic, as well as private research institutions.