What are the main aspects of the smart agricultural system?
5 thoughts on “What are the main aspects of the smart agricultural system?”
Dean
In the context of the rapid development of information technology, smart agriculture has been highly hoped. Smart agriculture is a new agricultural production method for the development of the Internet, mobile Internet, cloud computing, and IoT technology. It combines it with the scientific management system, so that a variety of information technologies can achieve comprehensive and comprehensive applications in agriculture, thereby helping to promote Agriculture accelerates. As agricultural people, what should we do in the field of agriculture? 1. Technology improvement quality technology is the first productive forces. In the field of agriculture, the role of technology is self -evident. Scientific and advanced agricultural production technology can not only improve production efficiency, but also improve the quality of agricultural products. Therefore, in the process of doing agriculture, we must learn to learn new agricultural technologies, study new agricultural technology, and strive to use technology to armed ourselves and armed our own enterprises, which is easier to succeed. 2. Ecological model improvement income Nowadays, with the influence of industrial upgrading, more and more people start to pay attention to the quality of agricultural products, so ecological agricultural products are the demand products in the future market. The ecological model of breeding can not only improve the environment, but also improve product quality, increase production and efficiency, and benefit farmers to benefit from a benign cycle model, embark on the sustainable development agricultural road, and further improve the benefits of farmers. 3. Differential opening the market The homogeneity of agricultural products is serious. This is no longer a day or two, so if you want to open the market as soon as possible, you must differentiate products. For example, the differences of varieties, quality differentiation, seasons differentiation, and so on. In short, only differentiated agricultural products are easier to attract consumers, open the consumer market, and let agricultural products go to more dining tables. Sminton agricultural use of the Internet of Things technology to realize automatic control methods such as intelligent irrigation, intelligent fertilization and intelligent spraying, which is conducive to reducing agricultural production costs, improving efficiency, and protecting the rural ecological environment. The overall trend of the development trend of smart agriculture in my country is good. In the future, with the change of agricultural development thinking model, smart agriculture is expected to go further.
“智慧农业”是云计算、传感网、3S等多种信息技术在农业中综合、全面的应用,实现更完备的信息化基础支撑、更透彻的农业信息感知、更集中的数据资源、更Extensive interconnection, more in -depth intelligent control, and more intimate public services. (1) Monitoring function system: Plant growth environment information obtained according to the wireless network, such as monitoring parameters such as soil moisture, soil temperature, air temperature, air humidity, light intensity, and plant nutrient content. (2) Monitoring function system: Implement automatic information detection and control in agricultural parks, through wireless sensing nodes, solar power supply systems, information collection and information route equipment, wireless sensing transmission system, each base point point Configure wireless sensing nodes, each wireless A sensing node can monitor parameters such as soil moisture, soil temperature, air temperature, air humidity, light intensity, plant nutrient content and other parameters (3) Real -time image and video surveillance Function: The basic concept of the Agricultural Internet of Things is to realize the relationship network of agricultural crops and the environment, soil, and fertilizer between the crops, and process the best growth environment conditioning and fertilization management of crops through multi -dimensional information and multi -level processing.
Smart agricultural system provides scientific production management solutions for farmers, farms and agricultural enterprises, and bid farewell to problems such as high labor costs and extensive production management. Guided by the key indicators in the crop growth cycle, XSAS ™
provides standardized agricultural calendar templates; Matching key indicators of crop growth, accurately managing agricultural production planning and implementation, improving management efficiency while pursuing the optimal balance of output and quality, and maximizing farm productivity and profitability. The independent use system mainly involves the IOC equipment, agricultural drones, robots, and data services to farm management, and integrates new scenes of smart agricultural production. This information system of agricultural Internet of Things mainly includes the following 1) Environmental monitoring system: air temperature, air humidity, light intensity, photosynthetic radiation, wind speed, wind direction, rainfall, dew point, ultraviolet strength meteorological monitoring equipment; Sensor such as soil temperature, soil moisture, soil conductivity; 2) communication control system: through wired or GPRS/2G/3G/4G wireless communication, the main control processing transmission collection data; 3) Video monitoring system: 360 -degree real -time high -definition network monitoring camera, intelligent mobile terminal, tablet, computers can be viewed at any time; 4) Application management platform: intelligent perception, intelligent early warning, intelligent decision -making, intelligent analysis, expert guidance. 5) Equipment control system: pouring system, ventilation, shading, humidification and other linkage devices, intelligent or manual measure control control.
In fact, smart agriculture is the application of Internet of Things technology adopted by modern agriculture. As a leader in the industry, the Top Internet of Things has done a lot in the research of smart agricultural systems. Smart agricultural systems mainly have monitoring function systems, monitoring function systems, real -time images and video monitoring functions.
The following shows you a smart agricultural case based on the HighTopo visualization scheme. Real -time monitoring of water and fertilizer can not only accurately ensure the balance of water and fertilizer, but also save a lot of extra consumption. (2) Save time -saving and effort -real -time online remote monitoring, quickly irrigated and fertilized in large areas. (3) Intelligent control -automatically feedback control irrigation according to related parameters such as soil moisture. Control temperature and humidity to avoid excessive fertilizer and watering crops caused by yellow leaf necrosis. (4) Increase production -The operation of this system can increase production by 30 ~ 50%, improve crop quality, and improve economic benefits. (5) Reducing the disease -Crops in the greenhouse are extremely prone to cause soil transmission diseases, and drip irrigation can directly and effectively control the occurrence of soil disease diseases. [Flat Software-Construction of everything required for advanced 2D and 3D visualization] The expansion data map software (Hightopo) is a web that is independently developed by Xiamen Tupo Software Technology Co., Ltd., based on HTML5 standard technology The front -end 2D and 3D graphical interface development framework. Hightopo is very suitable for the interface of the real -time monitoring system, which is widely used in telecommunications network topology and equipment management, as well as industrial automation (HMI/Scada) fields such as power and gas. It provides a unique set of WebGL layer abstraction to extend the design model of the Model – View – Presenter (MVP) to the field of 3D graphics. Using HighTopo, you can pay more attention to business logic functions, and you don't have to put energy into the technical details of non -business cores such as 3D rendering and mathematics.
In the context of the rapid development of information technology, smart agriculture has been highly hoped. Smart agriculture is a new agricultural production method for the development of the Internet, mobile Internet, cloud computing, and IoT technology. It combines it with the scientific management system, so that a variety of information technologies can achieve comprehensive and comprehensive applications in agriculture, thereby helping to promote Agriculture accelerates. As agricultural people, what should we do in the field of agriculture?
1. Technology improvement quality
technology is the first productive forces. In the field of agriculture, the role of technology is self -evident. Scientific and advanced agricultural production technology can not only improve production efficiency, but also improve the quality of agricultural products. Therefore, in the process of doing agriculture, we must learn to learn new agricultural technologies, study new agricultural technology, and strive to use technology to armed ourselves and armed our own enterprises, which is easier to succeed.
2. Ecological model improvement income
Nowadays, with the influence of industrial upgrading, more and more people start to pay attention to the quality of agricultural products, so ecological agricultural products are the demand products in the future market. The ecological model of breeding can not only improve the environment, but also improve product quality, increase production and efficiency, and benefit farmers to benefit from a benign cycle model, embark on the sustainable development agricultural road, and further improve the benefits of farmers.
3. Differential opening the market
The homogeneity of agricultural products is serious. This is no longer a day or two, so if you want to open the market as soon as possible, you must differentiate products. For example, the differences of varieties, quality differentiation, seasons differentiation, and so on. In short, only differentiated agricultural products are easier to attract consumers, open the consumer market, and let agricultural products go to more dining tables.
Sminton agricultural use of the Internet of Things technology to realize automatic control methods such as intelligent irrigation, intelligent fertilization and intelligent spraying, which is conducive to reducing agricultural production costs, improving efficiency, and protecting the rural ecological environment. The overall trend of the development trend of smart agriculture in my country is good. In the future, with the change of agricultural development thinking model, smart agriculture is expected to go further.
“智慧农业”是云计算、传感网、3S等多种信息技术在农业中综合、全面的应用,实现更完备的信息化基础支撑、更透彻的农业信息感知、更集中的数据资源、更Extensive interconnection, more in -depth intelligent control, and more intimate public services.
(1) Monitoring function system: Plant growth environment information obtained according to the wireless network, such as monitoring parameters such as soil moisture, soil temperature,
air temperature, air humidity, light intensity, and plant nutrient content.
(2) Monitoring function system: Implement automatic information detection and control in agricultural parks, through wireless sensing nodes, solar power supply systems, information collection and information route equipment, wireless sensing transmission system, each base point point Configure wireless sensing nodes, each wireless
A sensing node can monitor parameters such as soil moisture, soil temperature, air temperature, air humidity, light intensity, plant nutrient content and other parameters
(3) Real -time image and video surveillance Function: The basic concept of the Agricultural Internet of Things is to realize the relationship network of agricultural crops and the environment, soil, and fertilizer between the crops, and process the best growth environment conditioning and fertilization management of crops through multi -dimensional information and multi -level processing.
Smart agricultural system provides scientific production management solutions for farmers, farms and agricultural enterprises, and bid farewell to problems such as high labor costs and extensive production management. Guided by the key indicators in the crop growth cycle, XSAS ™
provides standardized agricultural calendar templates; Matching key indicators of crop growth, accurately managing agricultural production planning and implementation, improving management efficiency while pursuing the optimal balance of output and quality, and maximizing farm productivity and profitability. The independent use system mainly involves the IOC equipment, agricultural drones, robots, and data services to farm management, and integrates new scenes of smart agricultural production.
This information system of agricultural Internet of Things mainly includes the following
1) Environmental monitoring system: air temperature, air humidity, light intensity, photosynthetic radiation, wind speed, wind direction, rainfall, dew point, ultraviolet strength meteorological monitoring equipment; Sensor such as soil temperature, soil moisture, soil conductivity;
2) communication control system: through wired or GPRS/2G/3G/4G wireless communication, the main control processing transmission collection data;
3) Video monitoring system: 360 -degree real -time high -definition network monitoring camera, intelligent mobile terminal, tablet, computers can be viewed at any time;
4) Application management platform: intelligent perception, intelligent early warning, intelligent decision -making, intelligent analysis, expert guidance.
5) Equipment control system: pouring system, ventilation, shading, humidification and other linkage devices, intelligent or manual measure control control.
In fact, smart agriculture is the application of Internet of Things technology adopted by modern agriculture. As a leader in the industry, the Top Internet of Things has done a lot in the research of smart agricultural systems. Smart agricultural systems mainly have monitoring function systems, monitoring function systems, real -time images and video monitoring functions.
The following shows you a smart agricultural case based on the HighTopo visualization scheme. Real -time monitoring of water and fertilizer can not only accurately ensure the balance of water and fertilizer, but also save a lot of extra consumption.
(2) Save time -saving and effort -real -time online remote monitoring, quickly irrigated and fertilized in large areas.
(3) Intelligent control -automatically feedback control irrigation according to related parameters such as soil moisture. Control temperature and humidity to avoid excessive fertilizer and watering crops caused by yellow leaf necrosis.
(4) Increase production -The operation of this system can increase production by 30 ~ 50%, improve crop quality, and improve economic benefits.
(5) Reducing the disease -Crops in the greenhouse are extremely prone to cause soil transmission diseases, and drip irrigation can directly and effectively control the occurrence of soil disease diseases.
[Flat Software-Construction of everything required for advanced 2D and 3D visualization]
The expansion data map software (Hightopo) is a web that is independently developed by Xiamen Tupo Software Technology Co., Ltd., based on HTML5 standard technology The front -end 2D and 3D graphical interface development framework. Hightopo is very suitable for the interface of the real -time monitoring system, which is widely used in telecommunications network topology and equipment management, as well as industrial automation (HMI/Scada) fields such as power and gas.
It provides a unique set of WebGL layer abstraction to extend the design model of the Model – View – Presenter (MVP) to the field of 3D graphics. Using HighTopo, you can pay more attention to business logic functions, and you don't have to put energy into the technical details of non -business cores such as 3D rendering and mathematics.