The gyro-stabilized photoelectric imaging turntable is a rotating platform technology that integrates high-precision gyroscopes and photoelectric sensors. Its core significance lies in achieving stable and accurate imaging and target capture in a dynamic environment.

1. Offset the shaking of the ship and ensure image stability
Ship is easily affected by waves, wind and its own mechanical vibration during navigation, which causes the camera image to shake violently. Traditional fixed cameras are difficult to capture clear images.

The high-precision gyroscope senses the changes in the ship's attitude (roll, pitch, yaw) in real time, and the closed-loop control algorithm drives the turntable to compensate for vibration in reverse.

It achieves "jitter-free imaging" and ensures the continuity and stability of video streams and image data, which is suitable for all-weather and all-sea monitoring.

2. Accurate identification and tracking of long-range targets
Photoelectric turntable function:
Supports multi-axis rotation of the camera (horizontal/vertical/incline), covers a 360° field of view, and automatically locks suspicious targets (such as other ships, floating objects, reefs).
Combined with laser radar or infrared sensors, it enhances the target detection capability under low visibility conditions such as night and haze.

3. Improve ship safety and operational efficiency
Stable images provide a reliable data source for AIS (Automatic Identification System) and ECDIS (Electronic Chart Display and Information System), assisting navigation decisions.
Monitor key areas of the deck, cargo hold and engine room to prevent safety accidents such as fire and leakage.
Remotely monitor cargo status (such as container displacement, liquid cargo leakage) to reduce manual inspection costs.
Replace crew members to monitor operations in high-risk areas in bad weather.

4. Support intelligent and automated upgrades
Integrate data from gyroscopes, photoelectric cameras, sonars, and radars to build a 3D dynamic model of the ship's surroundings.
Combined with AI algorithms (such as target classification and behavior recognition), automated threat assessment and response can be achieved.
Provide remotely controlled "eyes" for unmanned surface vessels (USVs). The mother ship can adjust the camera's viewing angle in real time through a turntable to command the unmanned ship to perform tasks.