CN114693312A

CN114693312A - Intelligent agricultural full-flow tracing system

Info

Publication number: CN114693312A
Application number: CN202210265267.8A
Authority: CN
Inventors: 李尤游; 曹斌; 李帅
Original assignee: Jiangsu Intelligent Workshop Technology Research Institute Co ltd
Current assignee: Jiangsu Intelligent Workshop Technology Research Institute Co ltd
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-07-01

Abstract

The invention relates to an intelligent agricultural full-flow tracing system which comprises a basic information management module, a real-time monitoring module, a production supervision module, a two-dimension code management module, a logistics transaction tracking module and a tracing query module, can complete agricultural product and agricultural basic information management and fact monitoring of agricultural management personnel, simultaneously supervises agricultural product planting, growth, harvesting and processing in real time and generates corresponding two-dimension codes, and enables consumers to trace the source of the agricultural products by scanning the two-dimension codes through a mobile phone. The agricultural product tracking method realizes the whole-process tracking and tracing of agricultural products, improves the supervision level of the agricultural products, and provides a basic guarantee for creating agricultural product brands.

Description

Intelligent agricultural full-flow tracing system

Technical Field

The invention relates to an intelligent agricultural full-process tracing system, and belongs to the technical field of intelligent agriculture.

Background

With the improvement of living standard of people, people pay more attention to the safety and the high quality of food, and in the face of the current situation of complex food safety, consumers want to know the quality safety problem of agricultural products and verify information when selecting the agricultural products. The agricultural product traceability is that all links of agricultural products from the seeds to the harvest are recorded in the whole process by a technical means, and the agricultural products are displayed in the form of only one small two-dimensional code, so that a consumer can transparently display a production specification of the agricultural products by scanning the code, inquires all production information, knows the predecessor of the products, increases the transparency of all links of the agricultural products from the field to the dining table, provides a window for displaying good products for an enterprise, and helps the enterprise to build a green and safe high-end brand. At present, most traceability systems in the market can only display information such as varieties, production places, production enterprises, product introduction and the like, and have fewer real-time videos and more information records on crops.

Disclosure of Invention

The invention aims to solve the problems and provides an intelligent agriculture full-flow tracing system with richer files such as picture information, environmental data, records and real-time videos in the acquisition growth period.

The invention adopts the following technical scheme: an intelligent agricultural full-flow tracing system comprises a client, an application server and a database, wherein the client comprises a browser, a mobile phone terminal and sensor equipment of the Internet of things;

the application server comprises a basic information management module, a real-time monitoring module, a production supervision module, a two-dimensional code management module, a logistics transaction tracking module and a traceability query module;

the database comprises a user authority database, an agricultural product information database, a farmland information database, a production information database, a logistics information database and a transaction information database;

the mobile terminal of the mobile phone and the sensor equipment of the internet of things are used for sending data to corresponding application servers by farmland inspectors and managers, the application servers receive and analyze the data and store the data into corresponding databases, the client side sends requests to the application servers, the application servers receive and analyze the requests, farmland information, crop information, logistics information and transaction information are called from the databases, processed and calculated, and results are returned to the browser.

Furthermore, the basic information management module can manage user authority information of crop managers, agricultural product planting information, farmland number types and other information, and can input, add and delete crop and farmland information through the client.

Furthermore, the real-time monitoring module increases real-time image video information of agricultural products and farmland information through the Internet of things sensor equipment and personnel patrol and displays the real-time image video information through the client.

Further, the sensor of the internet of things comprises a temperature and humidity sensor, a soil nutrition parameter and a pesticide spraying sensor which are arranged on a farmland.

Furthermore, the production supervision module can supervise the planting, irrigation, harvesting, processing and packaging processes of agricultural products after receiving the real-time data pushed by the production information database, track time nodes of all links, detect and report corresponding conditions and detection information, and timely notify the time nodes if the time nodes are delayed.

Furthermore, the two-dimension code management module is used for generating and managing a two-dimension code by client management personnel according to basic information of the agricultural products, printing the generated two-dimension code in a production and sale stage and pasting the two-dimension code on the packaged agricultural products.

Furthermore, the logistics transaction tracking module can be used for connecting the agricultural product logistics and the basic information management system and displaying the agricultural product logistics and the basic information management system on a client.

Furthermore, the source tracing query module can enable the client to call corresponding agricultural product data in the server database by scanning the two-dimensional code to query the whole process information query of the agricultural products from planting, production, logistics and transaction.

The invention has the beneficial effects that: the invention realizes the whole-process tracing of the sold agricultural products, can carry out the whole-process supervision on the agricultural products from a series of processes of planting, irrigation, harvesting, processing, packaging and the like, provides the information of the agricultural products to the maximum extent, realizes the seamless butt joint of the agricultural products from the land to the dining table, realizes the integrated management, ensures that consumers see the whole process of the production, processing and transportation of the agricultural products and ensures that the consumers are safer and more relieved for the agricultural products.

Drawings

Fig. 1 is a schematic diagram of the general structure of the intelligent agriculture full-process traceability system of the present invention.

Fig. 2 is a schematic diagram of the operation of the internet of things device in the real-time monitoring module according to the present invention.

Fig. 3 is a schematic diagram of the operation of the camera in the real-time monitoring module according to the present invention.

Fig. 4 is a schematic diagram of the inspection work of the personnel in the real-time monitoring module.

Fig. 5 is a schematic diagram of the operation of the two-dimension code management module in the present invention.

FIG. 6 is a schematic diagram of the operation of the traceability query module in the present invention.

Detailed Description

The invention will be further explained and illustrated with reference to specific examples.

Fig. 1 shows a full-flow traceability system for intelligent agriculture, which includes a client, an application server and a database;

the client comprises a browser, a mobile phone terminal and an Internet of things sensor device;

the application server comprises a basic information management module, a real-time monitoring module, a production supervision module, a two-dimension code management module, a logistics transaction tracking module and a tracing query module;

the basic information management module comprises user authority information management, namely, the data information is managed by the user information and the authority information and stored in a user authority database; the basic information management module is used for carrying out information input by management personnel, and the input data is stored in an agricultural product information database and a farmland information database through analysis;

the agricultural product information management is to perform the functions of inputting, editing and deleting the information including the type, name and model of the agricultural product;

the farmland plot information management has the functions of inputting, editing and deleting farmland numbers, names, longitudes and latitudes and plot type information.

The implementation monitoring module can upload crop related information to a production information database through a camera, an Internet of things sensing monitoring device and personnel for monitoring the real-time growth condition of agricultural products;

as shown in fig. 2, the sensing equipment of the internet of things can collect data of temperature, humidity and soil nutrition parameters of a farmland and send the data to the server, the server collects monitoring data, the monitoring data is analyzed and processed and then stored in the production information database, and a user can check the growth environment condition of crops in real time in a text content mode;

as shown in fig. 3, the camera video monitors: the method comprises the following steps that camera equipment is installed in a farmland of a specified crop, and a user can remotely check farmland conditions through videos; the camera can send collected farmland video data to the server, and after receiving the video stream data, the server performs data processing, encoding and packaging, and then distributes the video to the client for video viewing;

as shown in fig. 4, the personnel patrol: the method comprises the steps that a planting manager regularly inspects a farmland, data such as inspection result information and photos and videos collected in the inspection process are uploaded to a server through a mobile phone client, the server analyzes and processes the inspection data after receiving the inspection data, associates the inspection result information with farmland information and agricultural product information and stores the inspection result information and the data in a production information database, and a user tries and checks inspection conditions through character and picture information displayed by the client.

The production supervision module can detect the condition of the reported crops aiming at key nodes, take pictures and upload relevant detection information and has a warning function, a manager can input the time and the growth condition of the key nodes of the agricultural products through the production supervision module, and when the requirement information is deviated from the information uploaded in the database, the manager is prompted to generate inconsistent information, the agricultural product information can be checked in time, the growth condition of the agricultural products is ensured to be in a monitoring range, and the growth standardization of the agricultural products is ensured to the maximum extent;

as shown in fig. 5, the two-dimensional code management module: the management personnel can call the contents in the agricultural product information database and the farmland information database in the two-dimensional code management module, year and month time is selected, farmland information is selected, crop types are selected, a two-dimensional code generation button is clicked, designated crop information is inquired by the server according to farmland ID, crop ID and time, a unique two-dimensional code mark is generated according to the crop information, the two-dimensional code is printed by the management personnel, a two-dimensional code mark is posted on crops to be sold, and a series of time, quality and other related information of corresponding products can be acquired after the two-dimensional code mark is scanned by a consumer through a mobile phone.

The logistics transaction tracking module: can be connected with logistics and commodity systems, and can access and fuse logistics information and transaction information of crop products.

As shown in fig. 6, the source-tracing query module: the information of the whole process of growth, production, logistics and transaction of crops can be inquired according to the two-dimensional code, a consumer scans the two-dimensional code mark through a mobile phone and analyzes the ID of the agricultural product and searches the ID, the server receives a request and retrieves the ID of the crop from a database to obtain the corresponding agricultural product, relevant information of a series of time, quality and the like including planting, growth, harvesting, processing and the like is called and returned to the client, and the consumer can receive the data of the agricultural product at the mobile phone end and load and display the data.

Claims

1. The utility model provides an wisdom agricultural full flow system of traceing back, includes client, application server and database, its characterized in that: the client comprises a browser, a mobile phone terminal and an Internet of things sensor device;

the application server comprises a basic information management module, a real-time monitoring module, a production supervision module, a two-dimension code management module, a logistics transaction tracking module and a source tracing query module;

the mobile phone terminal and the Internet of things sensor equipment are used for sending data to corresponding application servers by farmland patrol personnel and managers, the application servers receive and analyze the data and store the data into corresponding databases, the managers and consumers send requests to the application servers through the mobile phone terminal and the browser, the application servers receive and analyze the requests, farmland information, crop information, logistics information and transaction information are called from the databases and processed and calculated, and results are returned to the browser.

2. The intelligent agricultural full-process traceability system of claim 1, wherein: the basic information management module can manage information such as user authority information of crop managers, agricultural product planting information and farmland number types, and agricultural products and farmland information can be input, added and deleted through the client.

3. The intelligent agricultural full-process traceability system of claim 1, wherein: the real-time monitoring module is characterized in that the Internet of things sensor equipment and handheld equipment can increase real-time image video information of agricultural products and farmland information during patrol of personnel, and the acquisition module collects monitoring data, analyzes and processes the monitoring data and stores the monitoring data into the production information database.

4. The intelligent agricultural full-process traceability system of claim 3, wherein: the sensor of the internet of things comprises a temperature and humidity sensor, a soil nutrition parameter and a pesticide spraying sensor which are arranged on a farmland.

5. The intelligent agricultural full-process traceability system of claim 1, wherein: the production supervision module can supervise the planting, irrigation, harvesting, processing and packaging processes of agricultural products after receiving the real-time data pushed in the production information database, track time nodes of each link, detect and report corresponding conditions and detection information, and warn and inform if time nodes are delayed.

6. The intelligent agricultural full-process traceability system of claim 1, wherein: the two-dimension code management module is used for generating and managing the two-dimension code by calling data in the agricultural product information database and the farmland information database by a client administrator, printing the generated two-dimension code in the production and sale stage and pasting the two-dimension code on the packaged agricultural product.

7. The intelligent agricultural full-process traceability system of claim 1, wherein: the logistics transaction tracking module can manage and display a logistics information database, a transaction information database and basic information of agricultural products on a client.

8. The intelligent agricultural full-process traceability system of claim 1, wherein: the source tracing query module can enable the client to call corresponding agricultural product data in the server database through scanning the two-dimensional code to query the whole process information query of the agricultural products from planting, production, logistics and transaction.