UAV Product Solution

Three-Degree-of-Freedom Multi-Rotor UAV Testing Platform

Key Features:

1. Indoor UAV Flight Operations: Enables safe and controlled drone operation within indoor environments.
2. Real-Time Flight Data Visualization: Simultaneous display of multiple waveform data streams for easy analysis.
3. High Efficiency & Flexibility: Designed to save engineers’ time and improve R&D efficiency. Engineers can instantly test new ideas without the need for field testing at designated locations.
4. Three-Degree-of-Freedom Motion: Allows full control over roll, pitch, and yaw axes for precise maneuverability.
5. Technical Parameter Monitoring: Synchronously inspect various technical parameters of the UAV in real-time.
6. Convenient Maintenance & Troubleshooting: Ideal for diagnosing and repairing faults during development and after-sales service.
7. Optimized for R&D: Provides a safe and controllable platform for prototyping, debugging, and validating new UAV technologies in the lab.
8. Safety Protection: Prevents accidental damage to drones and enhances operator safety during testing.

Application Scenarios:

• Laboratories: Verifying technical specifications and testing new components.
• R&D Departments: Validating new modules, firmware, and software functions.
• Engineering Teams: Assembling products and analyzing performance to streamline production.
• Production Lines: Functionality testing of finished drones, ensuring all parameters are calibrated before takeoff.
• Pre-Flight Calibration: Sensor alignment and PID tuning before actual flight testing.
• After-Sales Service: Fault analysis, repair verification, and post-maintenance flight simulation.
• Flight Training: Safe environment for pilot training, ensuring safety of both equipment and trainees.

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Product Overview

The development, production, and servicing of drones require frequent test flights to verify and fine-tune performance metrics. However, prototype or in-production UAVs may contain defects that lead to crashes or pose safety risks. Additionally, new pilots undergoing training are more likely to make operational errors, which could damage drones or result in personal injury.

Our Solution:

The drone is mounted on a three-degree-of-freedom multi-rotor simulation platform for indoor flight simulation. This setup mitigates risks associated with real-world test flights and pilot errors while enabling full system verification.

The platform supports independent movement across roll, pitch, and yaw axes, allowing for comprehensive sensor calibration, PID parameter tuning, and real-time performance monitoring. This facilitates safe and efficient analysis of drone behavior and flight characteristics.

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Technical Specifications

• Input Voltage: AC 220V / 50Hz
• Operating System: Windows 10
• Communication Protocols: Modbus 485, Ethernet, USB
• Baud Rate: 115200 bps
• Degrees of Freedom: Roll, Pitch, Yaw (3-DOF)
• Rotation Accuracy: ±1°
• Supported UAV Size: Rotor spacing of 450–600 mm
• Connectivity: RF (Wi-Fi, customizable)
• Materials: Aluminum alloy, carbon fiber
• Operating Temperature: -10°C to +60°C
• Storage Temperature: -20°C to +85°C
• Humidity: <85% RH (non-condensing)
• Dimensions: L1800 mm × W1030 mm × H1800 mm

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System Components

• Platform: Composed of motor-driven actuators, high-precision sensors, and mechanical assemblies.
• UAV Unit: Equipped with sensors and control modules for flight simulation and data collection.
• Control Center: Includes a PC, control software, and communication modules for sending commands and analyzing data.
• Sensor Suite: Includes accelerometers, gyroscopes, magnetometers, and position sensors mounted on both the drone and the rotating platform.
• Display Terminal: Provides real-time visualization of flight data, imagery, and system status.