Ocean wave monitoring has historically faced challenges such as data gaps, equipment drift, and low-frequency instability. Modern Ocean Buoy Sensors have gradually overcome these limitations, resulting in more accurate and reliable observations.
The Ocean Buoy Sensor utilizes inertial navigation technology and a nine-axis IMU to acquire wave displacement, velocity, and acceleration data in real time. With an STM32 processor and proprietary algorithms, it can calculate wave height, period, and direction in real time, generating high-quality energy and directional spectra.
The Ocean Buoy Sensor is designed to enhance the reliability of ocean observation data, especially maintaining stable performance during long-term deployment.
Key advantages include:
Leading error elimination technology: Solving the problems of integral drift and attitude accumulation offset.
Low-power architecture: The device can maintain long-term operation at sea, greatly improving monitoring efficiency.
Furthermore, combined with a lightweight structure and highly corrosion-resistant design, it is ideally suited for both drifting and fixed buoys, maintaining complete data output even in extreme sea conditions.
Ocean Buoy Sensor can be used for:
Wave dynamics research in marine scientific research
Wind farm construction and monitoring
Real-time sea state updates in ports and waterways
Coastal protection engineering
Evaluation and verification of wave energy generation
As one of the few teams in the industry with integrated capabilities in algorithms, hardware, and system platforms, we possess independently developed directional spectrum algorithms, low-frequency stability technology, and sensor interface designs that can be expanded to multiple platforms, enabling us to meet users' end-to-end marine monitoring needs.