CN202663959U - Cattle networking - Google Patents

Abstract

The utility model discloses a cattle networking which comprises a cattle information collection terminal, an application server, a data base, a WEB server and a client, wherein the cattle information collection terminal comprises a cattle vital sign information collector and identity identification equipment. The cattle vital sign information collector is used for collecting the vital sign information of the cattle and sending the information to the application server through a wireless network. The identity identification equipment is used for achieving effective recognition and identify of identity of the cattle. The application server and the database are in communication connection, and the application server is used for processing the received vital sign information of the cattle together with other information of the cattle and then sending the information to the data base to achieve information storage. The WEB server and the application server are in communication connection. The cattle networking collects the vital sign information of the cattle and then sends the information to servers, and the information is stored after being processed by servers. Therefore, clients can log in the servers to inquire and browse relative information of the cattle according to needs.

Description

Cattle networking

Technical Field

The utility model relates to a technical field of the thing networking, especially relate to a ox only comprehensive service system based on thing networking.

Background

China is always a big country in animal husbandry, cattle breeding industry occupies a great proportion in animal husbandry, particularly people have high pursuit of food nutrition and quality over twenty-first century, governments and enterprises have increased attention and investment on cattle breeding industry, cattle breeding achieves great development, and the yield and the quality of cattle products are greatly improved. However, the cattle breeding in China is mainly operated by individuals, and a plurality of problems exist.

1) Small culture scale and low fund shortage: the cattle feeding scale of individual farmers is small, the cost is high, the production efficiency is low, and the situation of capital shortage is frequently faced due to the fluctuation of the price of forage grass in the market because the cattle breeding period is long.

2) And low informatization level: the informationization level of the cattle breeding is low, the information and the state of the cattle are not accurately mastered in the breeding process, and the refined, accurate and scientific breeding cannot be realized. Farmers cannot obtain information such as market forecast, product demand and market dynamics in time and cannot adjust the information in time according to the market, so that excess capacity and product lost are easily caused.

3) Cattle management and production lack scientific management methods and techniques: the individual farmers culture by virtue of personal experience without scientific method and technical guidance, the product has uneven yield and quality, the uniform guarantee cannot be achieved, the production cost is high, and the market competitiveness of the product is poor.

4) The population structure of the cattle is unreasonable: the introduction of improved breeds requires large investment and a matched breeding management method with high technical content, and due to fund shortage or laggard operation management concept of farmers, the enthusiasm of the introduction of improved breeds is low, the yield and the quality of cattle products are low, and the economic benefit is poor.

5) Cattle only scatter breeding is difficult to supervise: the food safety problem is always the focus of public and all-level government concerns, and for scattered farmers, the traceability management of cattle products is also a difficult matter how to carry out quarantine supervision on the cattle.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cattle networking, which collects the physical sign information of cattle and sends the information to a server for processing and then storing, and a customer can log in the server as required to inquire and browse the relevant cattle information; so as to solve a plurality of problems in the cattle breeding industry in the prior art.

The purpose of the utility model is realized through the following technical scheme:

the cattle networking comprises cattle information acquisition terminals, application servers, databases, WEB servers and clients; wherein,

the cattle sign information acquisition terminal is in communication connection with the application server and comprises a cattle sign information acquisition device and identity recognition equipment, wherein the cattle sign information acquisition device is used for acquiring the cattle sign information and sending the information to the application server through a wireless network; the identity recognition equipment is used for effectively recognizing and confirming the identity of the cow;

the application server is in communication connection with the database and is used for processing the received vital sign information of the cattle in combination with other information of the cattle and then sending the processed vital sign information to the database for storage;

the WEB server is in communication connection with the application server, and the application server accesses the cattle information stored in the database.

Specifically, the identification device comprises an RFID card carrying information containing a cow tag and preset instructions and an RFID card reader, wherein the RFID card reader reads the information of the cow RFID card.

In particular, the RFID card is an RFID tag arranged on a cattle ear.

In particular, the wireless network employs either GPRS or ZIGBEE radio transmission technology.

Particularly, the bovine sign information collector is used for collecting the body temperature, pulse, heartbeat, blood pressure and exercise amount information of a bovine.

Particularly, the application server at least comprises an automatic optimization feeding unit, a remote gene determination unit and an optimization breeding unit, wherein the automatic optimization feeding unit establishes a physical sign analysis mathematical model of the cattle by extracting historical information, the current state and variety information of a gene library, provides feeding scheme planning and feed formula optimization, the remote gene determination unit realizes remote gene determination operation through the Internet and a mobile communication network, and the optimization breeding unit automatically provides the used frozen semen types, the used usage and supply and service mechanisms according to the life cycle information of the cows or the gene determination results of the cows.

The utility model has the advantages that: compared with the prior art, the cattle networking has the following advantages:

1. the system publishes the distributed cattle and product production information to form a nationwide cattle network, and by combining the platform cattle farmers with the aquaculture leading enterprises or the product production enterprises, a mode of the farmers, the aquaculture leading enterprises and the product production enterprises is formed, a large-scale aquaculture industry chain is formed, the capital and technical problems of individual aquaculture are solved, and the production efficiency and the economic benefit are improved.

2. The technology is used for acquiring vital sign data of the cattle in real time and transmitting the data. The platform can effectively identify and confirm the identity of the cattle through the RFID ear tag worn on the cattle, and the cattle can be managed in the whole life cycle. The ear tag is worn from the birth of the cattle until the life of the cattle is finished, and the information and the data of the whole life cycle of the cattle are sensed and collected through the sensor, so that the informationization of the cattle management is realized.

3. The system provides scientific breeding and management methods to improve the yield and quality of the bred products. The platform can remotely detect the real-time information of the cattle, establish a physical sign analysis mathematical model of the cattle by extracting the historical information, the current state and the variety data of a gene library of the cattle, optimize a feeding scheme and realize the automation of the feeding and production management of the cattle.

4. The breeding structure of the cattle directly influences the slaughtering rate, the growth period, the product yield and the product quality of the cattle. The platform can remotely determine the genes of the cattle, and the system automatically optimizes the selectable breeding frozen semen so as to achieve the aim of optimizing breeding, realize continuous optimization and improvement on the cattle population and improve the yield and physical sign quality of the cattle production.

5. A unified data center and an information query platform. The system provides a safe and reliable individual database of the cattle, collects and stores data of each stage of the cattle, establishes a physical sign mathematical model, provides various optimization schemes of the cattle through simulation and optimization, and realizes quick, convenient and safe data access by adopting a cloud computing technology, a data mining technology and the like in a data center. The quarantine information and the data of the growth and production stages of the cattle can be traced back through the platform, the life cycle process of the cattle can be traced back quickly and visually, and users, enterprises and food safety departments can conveniently carry out quality monitoring and safety tracing.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is a block diagram of the system of the present invention.

In the figure:

1. the cattle only have information acquisition terminals; 10. a cow sign information collector; 11. an RFID tag; 2. an RFID card reader; 3. an application server; 30. an automatic optimization feeding unit; 31. a remote gene assaying unit; 32. optimizing a mating unit; 4. a database; 5. a WEB server; 6. and (4) a client.

Detailed Description

Referring to fig. 1, fig. 1 is a block diagram of the system of the present invention for cattle networking.

In this embodiment, the cattle networking includes a cattle information acquisition terminal 1, an application server 3, a database 4, a WEB server 5, and a client 6; the system comprises a cattle information acquisition terminal 1, an application server 3 and an RFID (radio frequency identification) tag 11, wherein the cattle information acquisition terminal 1 is in communication connection with the application server 3 and comprises a cattle sign information acquirer 10 and the RFID tag 11 arranged on a cattle ear, the cattle sign information acquirer 10 is used for acquiring cattle vital sign information including the body temperature, the pulse, the heartbeat, the blood pressure, the amount of exercise and the like of a cattle, the RFID tag 11 carries an RFID card containing a cattle tag and preset instruction information, the system also comprises an RFID card reader 2 corresponding to the RFID card, and the RFID card reader 2 reads the information of the cattle RFID card and sends the information to the application server 3 through a wireless network; the application server 3 is in communication connection with the database 4 and is used for processing the received vital sign information of the cattle and then sending the processed vital sign information to the database 4 for storage; the WEB server 5 is in communication connection with the application server 3, and the client 6 accesses the cattle information stored in the database 4 through the WEB server 5 and the application server 3.

The wireless network adopts any one of GPRS or ZIGBEE wireless transmission technology.

The cattle networking carries out effective identification and confirmation on the identity of the cattle through the RFID ear tag 11 worn on the cattle ear, and the management of the whole life cycle of the cattle is carried out. The ear tag is worn from the birth of the cattle until the life of the cattle is finished, and the information and the data of the whole life cycle of the cattle are acquired through the RFID ear tag 11, such as: genetic information, mating information, feeding information, product information, epidemic prevention information, and the like. The RFID full life cycle management system of the cattle can greatly improve the management efficiency and the improved breeding efficiency of the cattle.

The cattle sign information collector 10 can obtain the body temperature, pulse, heartbeat, blood pressure, exercise amount and other information of the cattle in real time, and then through an information analysis system developed by people, a cattle raiser can actually master the body state of the cattle, analyze whether the cattle is abnormal in body and early warn, and take measures to prevent and treat in time. The system can effectively improve the remote monitoring, real-time epidemic prevention and real-time management of the cattle, discover abnormality as soon as possible, shorten the growth cycle of the cattle and improve the slaughtering rate and yield of the cattle.

The application server 3 at least comprises an automatic optimization feeding unit 30, a remote gene determination unit 31 and an optimization breeding unit 32, wherein the automatic optimization feeding unit 30 establishes a physical sign analysis mathematical model of the cattle by extracting historical information, the current state and variety information of a gene library of the cattle, provides feeding scheme planning and feed formula optimization, the remote gene determination unit 31 realizes remote gene determination operation through the Internet and a mobile communication network, and the optimization breeding unit 32 automatically provides the types and usage of used frozen semen and supply and service mechanisms according to life cycle information of the cows or gene determination results of the cows.

The WEB server 5 adopts TCP/IP as a transmission protocol, the front end adopts a universal Browser (IE, Netscape, Navigator, etc.) -WEB client software, and the client 6 can access the WEB through a Browser. Specifically, it connects to a Web server through a Browser, interprets and executes a document written by HTML, and displays the execution result on the screen of the user. The back end adopts Web Server to access the database, and returns the result to the browser, and the operation of the multi-level user can be performed by the browser. The front-end and back-end connection depends on HTTP protocol, and all development is carried out on Server. The HTTP protocol is a stateless protocol, i.e. the server does not retain any state information when transacting with the client, which greatly reduces the storage burden on the server, thereby maintaining a faster response speed. This feature enables the Web to serve a large number of customers. A relatively small server can support a large number of clients, and the limiting factor of the server load is not the number of users but the number of requests, but the frequency of requests. The HTTP protocol is again an object-oriented protocol allowing the transfer of any type of data object and allowing the compressed transfer of data.

Claims (5)

1. The cattle networking comprises cattle information acquisition terminals, application servers, databases, WEB servers and clients; the method is characterized in that:

the cattle sign information acquisition terminal is in communication connection with the application server and comprises a cattle sign information acquisition device and identity recognition equipment, wherein the cattle sign information acquisition device is used for acquiring the cattle sign information and sending the information to the application server through a wireless network; the identity recognition equipment is used for effectively recognizing and confirming the identity of the cow;

the application server is in communication connection with the database and is used for processing the received vital sign information of the cattle in combination with other information of the cattle and then sending the processed vital sign information to the database for storage;

the WEB server is in communication connection with the application server, and the application server accesses the cattle information stored in the database.

2. The cattle networking system of claim 1, wherein: the identification device comprises an RFID card and an RFID card reader, wherein the RFID card reader carries information containing a bovine tag and preset instructions, and the RFID card reader reads the information of the bovine RFID card.

3. The cattle networking of claim 2, wherein: the RFID card is an RFID ear tag arranged on the cattle ear.

4. The cattle networking system of claim 1, wherein: the wireless network adopts any one of GPRS or ZIGBEE wireless transmission technology.

5. The cattle networking system of claim 1, wherein: the bovine sign information collector is used for collecting the body temperature, pulse, heartbeat, blood pressure and exercise amount information of a bovine.