Integrated vertical monitoring technology makes farms safer

Malicious fish pond poisoning incidents occur every year. Once a poisoning incident has occurred, the farmers have almost lost their efforts for a year. For such security risks, the use of security early warning mechanisms, the first time to kill the danger in the cradle is the best way. With the development of technology, the monitoring system has penetrated into all kinds of farms.

Fish pond aquaculture: The application of IoT water quality online monitoring system to monitor IoT technology is a revolution in aquaculture technology, an important tool for the development of modern fishery, and an important way to realize modernization of fishery. To thoroughly change the history of fish farming in the past and open a new chapter in aquaculture. The first is to quantify the management of the pond culture environment and improve the science of breeding; the second is to reduce the labor intensity of the employees and improve the labor efficiency; third is to achieve energy conservation and emission reduction, since the indicators can be accurately measured and controlled, accurate Oxygen, precise feeding, reducing the number of water changes and electricity consumption, after initial tests, can save energy and reduce emissions by 50%. The fourth is to improve product quality. Due to the improvement of water quality, fish diseases will be significantly reduced and product quality will be significantly improved.

According to estimates by experts, after using the Internet of Things intelligent control and management system to raise fish, not only can it effectively improve economic efficiency, but also it is conducive to aquaculture production technology becoming increasingly perfect, implementing standardized breeding requirements, strictly controlling the use of input products, and the purification cycle of pond water quality. Use to ensure a virtuous circle of aquaculture ecosystems, reduce aquaculture pollution, and improve the quality of the ecological environment.

Applications:

On October 14, the technical staff of a certain aquatic production development company in Chaohu City monitored the water quality monitoring of fish ponds in real time through the computer in the office, kept abreast of the water quality of the pond, and issued various operating instructions. Recently, the Chaohu Fisheries Bureau took the lead in promoting the use of the first “Internet of Things” water quality online monitoring and management system in Anhui Province and the use of micropore oxygen aeration to regulate the use of water quality systems in the two bases for improved aquatic products. The adoption of this project technology has facilitated aquaculture. Households can monitor the water quality of fish ponds at any time, such as water temperature, pH, and dissolved oxygen, and truly realize real-time understanding of pond water quality in 24 hours.

Live pig breeding: "Eye eye" dynamic monitoring of the electronic eye using induction lines to sense the pressure from the car on the road, through the bionic electronic eye sensor to the signal to the central processor, sending register temporary (the data in a red light cycle effective). The “E-Eye” monitor installed in the farm can dynamically monitor the growth status of the poultry and feed back the information in the venue.

Applications:

This year, China Telecom and the Huangpi District Animal Husbandry Department jointly set up a pilot network information platform for pig production to put electronic eyes into the pigsty. Through the monitoring system, the breeder can understand the health status of live pigs and breeding pigs in real time, solve the problem once it is found, and avoid cross-infection that may be caused by manual inspection. At the same time, through the Internet, experts can provide remote guidance and treatment, and can also provide real-time preview capabilities to foreign customers. In the surveillance screen of the Bureau of Animal Husbandry in Huangpi District, 10,000 pigs are moving at a leisurely pace. The staff can monitor the status of live pig rearing in 45 large-scale farming areas in the district just by looking at the computer.

Crab farming: Monitoring system for anti-theft and anti-collapse bars The use of electronic eyes for crabs has two major advantages: First, it prevents crabs from running away. Although there are breeding poles beside the breeding ponds, the breeding columns will dump over time and the crabs may run away. Through the electronic eye, you can find out where the culture column is dumped. The second is to prevent theft. Crabs have high economic returns and some lawbreakers will steal them.

Applications:

On the morning of October 15th, in the crab breeding waters of the Yangzi River Aquaculture Cooperative, unlike other places, there is a 360-degree rotating “electronic eye” in addition to oxygen. Xu Feng, director of the Yangtze River Aquaculture Cooperative Association, said that they started using "electronic eyes" from last year. The "electronic eye" saves manpower costs. Xu Feng said that the "electronic eye" plus computers constitute a breeding system, each set of about 16,000 yuan, can monitor nearly 100 acres of water. If you use manpower, you need at least two people. The annual labor wage is about 50,000 yuan. More importantly, when people have “fight”, “electronic eyes” can work 24 hours. It is understood that there are currently more than 10 "electronic eyes" used by Gaoqiao to raise crabs.

Slaughter monitoring: RFID technology traces its origins RFID is a simple wireless system with only two basic components that are used to control, detect and track objects. The system consists of an interrogator (or reader) and a number of transponders (or tags). RFID radio frequency identification is a non-contact automatic identification technology. It automatically identifies target objects and obtains relevant data through radio frequency signals. The identification work can be performed in various harsh environments without manual intervention. RFID technology can identify high-speed moving objects and can identify multiple labels at the same time. The operation is quick and easy. RFID is used in slaughtering monitoring to track the origin of meat products and monitor the quality of cultured products from the source.

Applications:

The livestock slaughtering monitoring platform in Foshan City can be fully operational during the year. Through RFID technology, the platform conducts full monitoring and tracing of live pig purchasing, trading, slaughtering and sales information, and monitors the slaughtering operations of enterprises through video surveillance in real time.

In fact, from producers to consumers, meat hygiene and safety include aquaculture, slaughtering, and distribution. Each link needs close supervision to ensure that the public can enjoy safe meat. In the farming sector, the agricultural sector is committed to standardizing the pig breeding behavior of farmers and strengthening the comprehensive prevention and control of animal diseases.

According to statistics, about 60% of live pigs in Foshan rely on external transportation every year. In order to ensure the quality and safety of meat products, the city has implemented the “fixed-point supply and factory-yard linkage” model for pigs since 2009. Taking the Meat Food Factory of Foshan City Food Co., Ltd. as an example, the pigs slaughtered at the plant are all from more than 30 hog farms linked to its “factory”. All links such as captive breeding, trading, slaughtering, and unqualified meat destruction were monitored by the camera 24 hours a day. Their video information was transmitted to the “Informatization Supervision Platform for Livestock Slaughtering and Slaughtering” of the Chancheng District Department of Trust and received all-weather supervision.

Conclusion:

For farmers, a safe and healthy culture environment is the most appropriate. Monitoring the application of the security system in the farm provides the user with an umbrella to provide on-the-spot dynamics at any time. With the development of science and technology, farmers can use information terminals such as mobile phones, PDAs, and computers to grasp the environmental information of their farms in real time, obtain abnormal alarm information and early warning information in time, and adjust control equipment in real time according to the monitoring results to achieve aquaculture. Scientific breeding and management will eventually achieve the goal of saving energy, reducing consumption, protecting the environment, and increasing production and income.