The top four agricultural and forestry four emotions (cricket, seedling, insect, and disaster) monitoring and early warning system is based on advanced wireless sensors, the Internet of Things, cloud platforms, big data, and the Internet and other information technologies. It consists of insect forecast light, network digital camera, crop physiological and ecological monitor, early warning and forecast system, expert system, and information management platform. Users at all levels can access data and system management functions through Web, PC, and mobile clients. For each monitoring point, the disease and insect status, crop growth, disaster conditions, air temperature, air humidity, dew point, soil temperature, and light intensity, etc. Real-time monitoring and management of important parameters in various crop growth processes. The system combines modules such as crop management knowledge, crop gallery, and disaster indicators to provide real-time remote monitoring and diagnosis of crops, and provides intelligent, automated management decisions. It is the "thousands of eyes" and "stethoscope" for agricultural technicians to manage agricultural production.
Farming and forestry situation monitoring system architecture diagram
1. View the park data anytime, anywhere <br /> Comprehensive management of the 3D map of the park, all monitoring points are displayed visually, and the monitoring data is clear at a glance.
Soil data: soil temperature, soil moisture, soil salinity, soil pH, etc .;
Meteorological data: air temperature, air humidity, light intensity, rainfall, wind speed, wind direction, carbon dioxide concentration, etc .;
Insect situation data: insect situation photos, statistical counts, etc.
Plant ontology data: fruit swelling, slight changes in stems, leaf temperature, etc .;
Equipment status: fertilizer application, pump pressure, valve status, water meter flow, lighting status, shutter status, etc.
You can choose planting plots, crops, sensors, chart display, digital list display, and time period (last day, week, month);
2. View the pests and diseases in the park anytime, anywhere
The system can trap and kill insects without pollution by using intelligent insect condition monitoring equipment built in the field. At the same time, it uses the GPRS / 3G mobile wireless network to periodically collect live images and automatically upload them to the remote IoT monitoring service platform to work. Personnel can remotely understand the situation and changes of field insect conditions at any time, and formulate control measures. Automatically take pictures after system setting or remote setting to wirelessly send pictures taken on-site to the monitoring platform. The platform automatically records daily collected data to form a pest database, which can be displayed to agricultural experts for remote diagnosis in various charts and lists.
It can remotely issue camera instructions at any time to obtain photos of insects, and can also set time to automatically take pictures for uploading, which can be viewed through mobile phones and computers, without having to go to the field to view.
Insect recognition system, automatic recognition of insect species, and automatic classification and counting.
The historical data can be displayed in the form of curves and reports, and the monitoring data of all monitoring equipment can be clearly and intuitively viewed.
Thousands of times optical magnification microscope can take clear pictures of spores at regular intervals, autofocus, and upload automatically to realize unattended automatic monitoring of spores around the clock.
3. Love situation monitoring
Each province contains a large number of cities, counties and townships. With such a large planting area, it is difficult to show the situation of the whole province with reports. The graphic warning and disaster rendering module is set up to solve this problem.
The platform divides the disasters into different colors according to their severity, and displays them in the form of dots in the provincial administrative map. As soon as the platform's administrative area map is opened, the situation of each region in the province can be displayed visually.
The system can gather all the information and contact information of the experts on pest control, and users can contact experts to discuss the problems of hazard prevention and control.
A 360 ° all-round infrared spherical camera is placed in the management area, which can clearly and intuitively view the crop growth in the planting area and the implementation of remote control of the equipment.
Add fixed point preset function, you can set monitoring points selectively, click to quickly convert and present video images.
6. Task setting, remote automatic control
Remote automatic control of water and fertilizer operations, fans, shades, side windows, wet curtains, plant growth lights, etc. in the greenhouse. After the user sets the monitoring conditions, it can be fully automated and remotely control various agricultural facilities and agricultural machinery on the production site to quickly realize automatic irrigation operations in greenhouses and fields.
At the same time, remote monitoring and control of disease and insect condition monitoring equipment can be realized, and the working condition of the equipment can be remotely managed.
Convenient and fast mobile management
The system has realized seamless docking with mobile phone, tablet computer and PC computer. It is convenient for managers to view system information anytime and anywhere through mobile terminal devices such as mobile phones and remotely operate related devices.
Data collection is the basis for information management and intelligent control. Due to the particularity of the agricultural industry, the sensor is not only controlled indoors, but also because of the production needs to be controlled in the field or field, penetrate into the soil or water, accept the baptism of wind and rain, and corrosion of the soil water quality. Higher.
1.Remote camera-type bug report light
The method of measuring and reporting has been changed, the workflow of measuring and reporting has been simplified, and the health of the measuring and reporting workers has been protected.
2.Remote camera-capable spore capture instrument
It is specially developed to collect disease spores and pollen dust particles that are transmitted with air and transmitted. It is mainly used to detect the disease spore stock and its spreading dynamics, and provide reliable data for predicting and preventing disease epidemics and infection. Collect a variety of pollen to meet the research needs of the application unit. The device can be fixed in the measurement and reporting area, and the spore species and quantity in a specific area can be collected at a fixed point through online analysis and transmitted to the management platform in real time.
3.Wireless field weather station
① The time interval for data storage and sending can be set remotely without the need for on-site operation;
② With a camera, you can take photos and upload them to the platform in real time to understand the field and crop conditions in real time;
③ Solar power, can work long-term in the field;
④ 17 kinds of meteorological parameters such as soil moisture, soil temperature, air temperature and humidity, light intensity, rainfall, wind speed and direction can be configured.
According to the needs of modern agricultural development for water monitoring, various sensors have been developed.
Stainless steel: Wired to a weather station or a greenhouse butler, with high waterproof rating, and can be measured at any time in the field;
Flaky: used in fine agriculture, long-term indoor and outdoor measurement, will not corrode;
Strip type: It can measure the soil moisture in the section of 3-10m, calculate the average value, and the data is accurate;
Tube type: four layers of soil moisture can be measured at one time
5. Plant body sensor
Environmental sensors are currently based on sensors such as air temperature and humidity, light, carbon dioxide, wind speed and direction, rainfall, soil temperature and humidity, etc., and are sensors that understand the growing environment of crops.
The plant body sensor can monitor real-time or staged changes in plant stem thickness, leaf surface temperature, stem flow rate, fruit weight gain and expansion rate, plant photosynthesis and other parameters of the plant itself. Growth status. The measurement of crop parameters can directly reflect the impact of soil or air environmental parameters on crops, thereby guiding users to more scientifically and rationally regulate the production environment to achieve high yield and quality of crops.
Fourth, green prevention and control equipment
Successful application case <br /> Modern Agriculture Demonstration Area of Linpu Base, Xiaoshan Institute of Agricultural Sciences
Top Yunnong Creates Mogao Modern and Efficient Agricultural Water Saving Demonstration Park Agricultural IoT System Tianfu Land's Agricultural Wisdom Process Silhouette——Remembering the perfect grafting of Wenchuan Agriculture and Topu Yunnong Internet of Things TOP Yunnong to create spring and autumn navel Industrial chain agricultural IoT platform
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