Starlight Night Vision
Precise Focus, Stunning Visual Performance
A8 mini Gimbal Camera
4K Resolution Mini & Lightweight & AI Tracking
4K Ultra HD Video
& Photography
& Photography
8MP
1/1.7-Inch Sony CMOS
1/1.7-Inch Sony CMOS
270-Degree
Yaw Axis Rotation
Yaw Axis Rotation
6X Digital Zoom
Nose Mode
Upside Down Mode
Compatible with ArduPilot
& PX4 (Mavlink)
& PX4 (Mavlink)
Ethernet, HDMI,
CVBS Video Output
CVBS Video Output
High Accuracy
& High Collaboration Control Algorithm
& High Collaboration Control Algorithm
Starlight Night Vision
HDR
AI Enhanced Smart Identify and Tracking
A8 mini works with the optional SIYI AI tracking module, which combines SIYI's self-developed AI algorithm and collaborate with SIYI optical pods (gimbal cameras) to achieve
real-time tracking and capture of targets, and real-time focusing and zooming to highlight the selected object in the picture.
The target will always be in the center of the picture and maintain a clearly visible proportion of the picture
It supports the anti-lost function. During the following process, if the target is blocked or briefly leaves the monitoring screen,
the AI tracking module can automatically recognize and continue tracking when it re-enters the monitoring screen
real-time tracking and capture of targets, and real-time focusing and zooming to highlight the selected object in the picture.
The target will always be in the center of the picture and maintain a clearly visible proportion of the picture
It supports the anti-lost function. During the following process, if the target is blocked or briefly leaves the monitoring screen,
the AI tracking module can automatically recognize and continue tracking when it re-enters the monitoring screen
Gimbal Working Mode
Gimbal mounted on the head of the plane at an angle of 90 degrees to the horizon will automatically enter the nose mode, which is easy for installation on VTOL drones and planes to achieve an excellent angle and a wider field of view.
Horizontally, gimbal follows when aircraft rotates
Gimbal rotates simultaneously as aircraft rolls to get FPV view, and output enhanced stable images
Horizontally, gimbal does not follow when aircraft rotates
High Accuracy and High Collaboration Control Algorithms
SIYI has done even more in control algorithms and stabilization algorithms
IMU Calibration Algorithms
Compensate and correct errors of the inertial measurement unit, reduce interference factors such as zero bias, scale factor, inter-axis error, temperature drift, noise, etc., greatly improve the measurement accuracy of IMU, and improve the stability of the gimbal in large temperature differences, wide margin steering, and strong vibration environments
Attitude Fusion Algorithms
Comprehensively utilize the data of sensors such as accelerometers and gyroscopes, obtain the pitch angle, roll angle, and yaw angle of the gimbal through mathematical models and filtering algorithms, and fuse this information to effectively improve system performance, stability, and robustness.
Industry-Level 3-Axis Stabilization Algorithms
Deeply integrate and utilize 3-axis gyroscopes, 3-axis accelerometers, PID controllers, motors, and magnetic encoders to achieve gimbal attitude stabilization control and continuously output stable high-definition video images during motion.
High-Precision FOC Motor Control Algorithms
Control the current components of the motor to control torque and magnetic field respectively, thereby achieving decoupling control of the brushless motor and greatly reducing picture jitter.
