Knowledge Enhancement
OceanGPT integrates multiple knowledge bases and tool libraries, and adopts technologies such as retrieval knowledge enhancement and knowledge enhancement planning. With the deep integration of general language understanding ability and ocean professional knowledge, as well as workflow task orchestration, it effectively improves the performance of large models in professional tasks in the ocean field.
Datasets
Marine culture refers to the sum of values, beliefs, art and social customs related to the ocean. It not only reflects the profound historical relationship between humans and the ocean, but also embodies the extensive impact of the ocean on the development of human society.
Ocean level refers to the height of the ocean relative to a certain reference surface. Its changes are affected by factors such as tides, air pressure, wind and global climate change, and have an important impact on the ecological environment and human activities in coastal areas.
Marine science and technology refers to various technologies and innovations applied to marine research and development, including ocean observation, deep-sea exploration, resource development and environmental protection technologies, which have promoted humanity's in-depth understanding and sustainable use of the ocean.
Marine resources include organisms, minerals, energy and space resources in the ocean. They are of great value to human survival and development. At the same time, the rational development and protection of these resources are also the key to achieving sustainable development.
Marine chemistry focuses on the study of chemicals in the ocean and their circulation processes, including salt, nutrients, dissolved gases and pollutants, which is crucial to understanding the operating mechanisms of marine ecosystems and the impact of environmental changes.
Marine life refers to all kinds of organisms living in the ocean, from tiny plankton to huge whales. They constitute a complex and diverse ecosystem and play an irreplaceable role in maintaining the ecological balance of the earth.
Maritime law refers to the international and domestic laws that regulate the behavior of countries in marine affairs, including the development of marine resources, the use of sea areas and the protection of the marine environment, with the aim of promoting the peaceful use and sustainable development of the ocean.
Hydrometeorology is the science that studies the interaction between the atmosphere and the hydrosphere, covering phenomena such as precipitation, evaporation, river flow and ocean circulation. It is of great significance for understanding climate change, managing water resources and predicting natural disasters.
Maritime military involves national defense activities conducted in the marine environment, including naval operations, maritime security maintenance and marine strategic deployment, which is vital to safeguarding national sovereignty and maritime rights and interests.
Ocean exploration refers to the activities of human beings using various technical means to conduct scientific research and resource surveys on the ocean, aiming to reveal the mysteries of the ocean, develop marine resources, and expand the space for human survival and development.
Marine disaster prevention and mitigation involves early warning, prevention and response measures for marine natural disasters, aiming to reduce the losses caused to human life and property and the marine ecological environment by disasters such as storm surges, tsunamis and red tides.
Marine geography is the science that studies the ocean and its surrounding environment. It involves seabed topography, coastline changes, marine climate and sea area division. It is of great significance for understanding global environmental changes and rationally utilizing ocean space.
Marine robots are automated equipment designed specifically for the marine environment. They can perform tasks including deep-sea exploration, scientific research, resource exploration, and seabed construction, greatly expanding humanity's ability to explore and utilize the ocean.
Tools
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 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 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 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.
Marine science image interpretation refers to the understanding and interpretation of various types of image data involved in marine research, including profiles, distribution maps, etc., in order to visually present the characteristics and changing trends of the marine environment.
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 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 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 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.
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.