Smart Fish Farming, The Underwater Monitoring System Are Essential!

Smart fishery refers to the use of engineering technology, mechanical equipment, monitoring instruments, management software, wireless sensing, and other modern technical means for fishery production to achieve a standardized breeding model with high density, high output value, and high efficiency. Compared with the traditional extensive farming model, the intelligent fishery has obvious advantages. First, the degree of mechanization and automation is high, and advanced breeding technology can be quickly used; the second is to achieve high-density breeding and save water resources through recycling water and sewage treatment. It is an environment-friendly, water-saving, and high-output breeding model. The third is that most of the personnel engaged in the intelligent fishery have high scientific and technological and cultural qualities, so the production efficiency of an intelligent fishery is high, and the management level of enterprises is also high, which will play a better role in promoting the structural adjustment and technological progress of my country's fishery industry. big effect.

In recent years, human development of marine fishery resources has gradually moved from the near sea to the deep sea. This also puts forward new requirements for marine fishery equipment. Nowadays, we are all about green and environmental protection, especially in terms of diet. Customers may know where your sea cucumbers, fish, and shrimp are cultured, photos from seedlings to mid-term to mature stages, etc., and record your farming through underwater cameras. In the process, the transparency of aquaculture can be achieved, so that customers can know more and be assured of real food.

The Internet of Things remote monitoring system is a real-time collection by intelligent terminals such as monitoring cameras in the breeding area, online water quality monitoring (temperature, light, residual chlorine, pH value, dissolved oxygen, turbidity, salinity, ammonia nitrogen content, etc.), underwater cameras, etc., and upload it to the land control room server. The land central control room server sends the received information to the user's mobile phone, personal computer, and other intelligent terminals. Users watch videos and water quality parameters through the terminal and send control commands such as oxygenation and feeding to the land central control room according to the needs of aquaculture. , Early warning of abnormal situations, and timely measures to reduce losses.