工具 – OceanGPT

Tools

Tidal forecast

Tidal forecasting is the process of predicting the time and height of tidal rise and fall at a specific location by analyzing astronomical and oceanographic data, providing important reference information for activities such as navigation, fisheries, and coastal engineering.

Ocean Sonar Interpretation

Ocean sonar interpretation involves analyzing underwater sound wave data collected by sonar equipment to detect seabed topography, identify underwater objects and study marine life. It is one of the key technologies for exploring and understanding the marine environment.

Fish health status analysis

Fish health status analysis is to judge the health level of fish populations by testing and evaluating fish's physiological indicators, disease status and living environment factors, providing a scientific basis for fishery management and ecological environmental protection.

Red Tide Warning

Red tide warning is to predict the occurrence time and scale of red tide by monitoring marine environmental parameters and phytoplankton communities, so as to take timely measures to reduce the harm to marine ecology and human health.

Interpretation of Charts and Graphs in Marine Literature

Interpretation of charts and graphs in marine literature refers to the analysis and understanding of various charts and graphs involved in marine scientific research, including the visualization of data such as ocean temperature, salinity, and current speed, to help readers better understand the changing patterns of the marine environment and its impact.

Fish identification

Fish identification refers to determining the species of fish by observing their appearance, color, markings, and analyzing their DNA sequences. It is of great significance to fishery management, ecological protection, and scientific research.

Typhoon track forecast

Typhoon path forecast uses meteorological models and satellite data to predict the movement direction and speed of a typhoon, so as to make disaster prevention and mitigation preparations in advance and protect the lives and property of people in coastal areas.

Underwater robot control

Underwater robot control refers to the operation of underwater robots to perform tasks such as detection, filming, sampling and maintenance through remote control or programming settings. It is widely used in marine research, resource exploration and seabed engineering construction.

Underwater robot control code generation

Underwater robot control code generation refers to writing or automatically generating program codes to control the movement of underwater robots, sensor data collection and task execution according to task requirements, so as to achieve efficient and accurate underwater operations.

Underwater robot code checker

The underwater robot code checker is a tool used to check and verify the correctness and efficiency of the code that controls the underwater robot, ensuring that the robot can perform its intended tasks safely and accurately.