Application
Serial number | Item | Value |
1 | EFL | 8.2 |
2 | F/NO. | 2 |
3 | FOV | 58° |
4 | TTL | 30 |
5 | Sensor Size | 1/1.8”,1/2”,1/2.3”,1/2.5”,1/2.7”,1/2.8”,1/2.9”,1/3” |
Description
Smart agriculture is the application of Internet of Things technology in the field of modern agriculture, which mainly includes monitoring function system, monitoring function system, real-time image and video monitoring function. (1) Monitoring function system: According to the plant growth environment information obtained by the wireless network, such as monitoring parameters such as soil moisture, soil temperature, air temperature, air humidity, light intensity, and plant nutrient content. Other parameters can also be selected, such as pH value in the soil, conductivity and so on. Information collection, responsible for receiving data from wireless sensor convergence nodes, storage, display and data management, to realize the acquisition, management, dynamic display and analysis processing of all base test point information, and display it to users in the form of intuitive charts and curves, And according to the feedback of the above information, the agricultural park will be automatically controlled such as automatic irrigation, automatic cooling, automatic roll mold, automatic liquid fertilizer fertilization, automatic spraying and so on. (2) Monitoring function system: realize automatic information detection and control in the agricultural park, by equipped with wireless sensor nodes, solar power supply system, information collection and information routing equipment are equipped with wireless sensor transmission system, and each base point is equipped with wireless sensor nodes , each wireless sensor node can monitor parameters such as soil moisture, soil temperature, air temperature, air humidity, light intensity, and plant nutrient content. Provide various sound and light alarm information and SMS alarm information according to the needs of planting crops. (3) Real-time image and video monitoring functions: The basic concept of the Agricultural Internet of Things is to realize the relationship network between crops and the environment, soil and fertility in agriculture, and realize the best growth of crops through multi-dimensional information and multi-level processing. Environmental conditioning and fertilization management. However, as a person who manages agricultural production, only the numerical connection of things cannot completely create the best growth conditions for crops. Video and image monitoring provide a more intuitive way of expressing the relationship between objects. For example, when a piece of land is short of water, only the moisture data can be seen to be low in the single-layer data of the Internet of Things. How much should be irrigated can't be stubbornly based only on this data to make decisions. Because the inhomogeneity of agricultural production environment determines the congenital drawbacks of agricultural information acquisition, it is difficult to make breakthroughs from pure technical means. The reference of video surveillance can intuitively reflect the real-time status of crop production. The introduction of video images and image processing can not only directly reflect the growth of some crops, but also reflect the overall status and nutritional level of crop growth. It can provide farmers with a more scientific theoretical basis for planting decision-making as a whole.