CN109741139B - Prawn product real-time information active pushing system based on big data analysis and mining - Google Patents

Abstract

The invention discloses a prawn product real-time information active pushing system based on big data analysis and mining, which comprises a transaction controller, wherein a prawn farm user and a prawn purchasing user are connected to the transaction controller; the transaction controller is provided with a transaction module and a prawn product real-time information pushing module, and is connected with prawn farm units which correspond to prawn farmers one by one; the transaction module is used for receiving a sale request and a purchase request; and is used for carrying out transaction operations; the prawn product real-time information pushing module is used for acquiring net cage prawn selling information and case sealing prawn selling information; pushing corresponding prawn selling information to the prawn purchasing user according to a predetermined request and a purchasing request sent by the prawn purchasing user; the transaction controller is connected with a transaction database. Has the advantages that: sell and purchase the two-way intelligent propelling movement of message, the enhancement shrimp is bred and is experienced.

Description

Prawn product real-time information active pushing system based on big data analysis and mining

Technical Field

The invention relates to the technical field of big data for prawn product sales, in particular to a real-time information active push system for prawn products based on big data analysis and mining.

Background

The prawns belong to fresh products, have high risk in the process of sale, have a plurality of indefinite factors, and have unstable sale amount due to higher price. Due to the above factors, many merchants are not generally sold for prawns because of their safety. Due to the problem of unstable sales, the prices of prawns in different periods are greatly different in the same city and different positions, so that the prawn sales are unstable, the commercial tenant is unfixed in the goods feeding process, and the risk is high for the raising party in the transaction and sales process.

After long-distance transportation to a designated city, the situation of lost sales is likely to occur, and the prawns are sensitive to environmental factors and easy to suffer short-time group death, so that buyers are subjected to great risks, the sales environment of the prawns is disturbed, and the sales route is deteriorated step by step.

Disclosure of Invention

Aiming at the problems, the invention provides a prawn product real-time information active pushing system based on big data analysis and mining,

in order to achieve the purpose, the invention adopts the following specific technical scheme:

the utility model provides a shrimp product real-time information initiative push system based on big data analysis and excavation which characterized in that: the system comprises a transaction controller, wherein K prawn farming users and L prawn purchasing users are connected to the transaction controller;

the transaction controller is provided with a transaction module and a prawn product real-time information pushing module, and is connected with K prawn farm units which correspond to the K prawn farm households one by one;

the transaction module is used for providing a prawn selling shop account and a selling fund account for the prawn farm user and receiving a selling request sent by the prawn farm user; the transaction module is used for providing a prawn purchasing account and a purchasing fund account for the prawn purchasing user and receiving a purchasing request sent by the prawn purchasing user; the transaction module is used for performing transaction operation between all shrimp farmers and shrimp purchasing users;

the real-time information pushing module of the prawn product is used for acquiring net cage prawn selling information and case sealing prawn selling information which are pushed by a prawn farm user and correspond to the prawn culture pond of the prawn farm unit; the prawn product real-time information pushing module is used for pushing corresponding prawn selling information to a prawn purchasing user according to a predetermined request and a purchasing request sent by the prawn purchasing user;

the transaction controller is connected with a transaction database for storing data generated by all transaction operations and user data.

Through the design, the online sale of the prawn products is realized based on the real-time information pushing. Wherein, the prawn product is the prawn which is still in the net cage of the prawn culture pond and does not grow up, or the prawn which is fished out from the net cage and is packaged in the box body. Through realizing the request information of the online prawn purchasing user, the prawn farm user combines the request to realize stock sale. In the design, a half-cost reservation mode of the shrimp culture pond is provided, and a user is bought, so that the user can order in advance and the shrimp farming user can sell the shrimp farming user in advance.

In the design, the user data comprises an account number of a shrimp farm user, and an account number of a corresponding shrimp selling shop, an account number of a selling fund and an account number of a corresponding shrimp farm unit; the system also comprises a prawn purchasing user account, a prawn purchasing account and a purchasing fund account;

the data generated by the transaction operation includes all sales requests, purchase requests, transaction amounts of the buyer and seller, transaction types, and transaction prices.

The prawn farm unit is used for managing the prawn culture pond and collecting prawn culture data of all net cages in the prawn culture pond. The pressure sensor is arranged in the net cage, and detects collision acting force generated in the swimming process of the prawns in the swimming process. K. L are each an integer greater than 0.

Further, the cage prawn selling information at least comprises the shrimp pond operation information, the cage prawns to be sold, the current growth cycle of the prawns in each cage, historical culture data of the prawns in each cage, the expected total amount of the prawns in the mature period of each cage, the preset price of the prawns in each cage, and the mature selling unit price of the prawns in each cage.

By adopting the scheme, the prawn and shrimp farm household is used for pushing information of the prawn and all mature prawns which can be sold and prawns which are to be matured and cultured, so that the marketing information of the prawn culture pond is promoted, and the marketing approach is expanded.

Further describing, after a prawn purchasing user presets a net cage prawn, corresponding to the prawn farming user, sending preset net cage label information of all net cage prawns to the prawn purchasing user;

and the net cage label information is used for calling prawn culture data in the prawn farm unit.

After the shrimp that does not mature or salvage in the pond of raising shrimps is bought, because not encapsulating, need real time monitoring, combine shrimp farm unit through obtaining box with a net tag information, realize carrying out real time monitoring to the shrimp in the pond of raising shrimps to shrimp farm unit sets up the camera and carries out the breed picture and monitor, through setting up the pressure sensor on the box with a net, realizes the detection of shrimp activity and number. Historical and future breeding data are obtained through the net cage label information, authenticity of prawn selling information provided by prawn farmers during purchasing is checked, and if the prawn selling information is inconsistent, purchasing invalidity can be provided.

Further describing, the prawn purchasing user needs to provide the prawn farm user with the cultivation cost and the distribution cost of the rest cultivation period; wherein, the breeding purchase unit price is priced according to the current growth period; estimating the aquaculture purchase weight according to the purchased historical aquaculture data of the prawns in the net cage and all the aquaculture data in the shrimp culture pond;

the method is characterized in that the method comprises the steps of reserving cultivation, purchasing all the prawns and prawns immediately, providing a free shrimp pond and a net cage with a rest period for the prawns and prawns farmers, and paying the labor cost and the actual distribution cost generated by the cultivation within the rest cultivation time to the prawns and prawns farmers if the prawns and prawns are required to be cultivated instead. If the shrimp pond is used for self-breeding, the breeding environment of the shrimp pond can be utilized for continuing breeding, and other expenses do not need to be paid.

And after the prawn purchasing users reach the culture maturity period, the prawn purchasing users pay according to the prawn unit price and the actual total weight of the prawns in the market, and the prawns are packaged by a packaging box and then delivered to a delivery address in the management information of the prawn culture pond.

The net cage prawn purchasing is that after the prawn is mature and grows up, the prawn purchasing user pays a fixed-price predetermined purchase in advance, and after the prawn is mature and grows up, the prawn purchasing user directly prepares the prawn.

Further, the sale information of the packaged prawns at least comprises weight data, body type data, historical culture data and current activity of the prawns in the packaging boxes.

Adopt above-mentioned scheme, in order to avoid unpacking again at the in-process of selling, influence shrimp living environment, when the encapsulation box, need confirm shrimp weight data, shrimp size data, the historical breed data of shrimp, the current activity of shrimp in the encapsulation box, guarantee to sell the reliability of information.

Still further, the packaging box is provided with an outer box body, an inner box body and a cover, wherein the inner box body is arranged in a box cavity of the outer box body, a pressure film covers the inner wall of the box cavity of the inner box body, a pressure signal of the pressure film is transmitted to the logistics box microprocessor through a line, the logistics box microprocessor is embedded on the inner wall of the box cavity of the outer box body, and a register is arranged in the logistics box microprocessor and used for storing prawn impact pressure-time data detected by the pressure film.

Adopt above-mentioned scheme, outer box plays the guard action, and interior box is used for holding aquaculture water and shrimp, is provided with the round recess along being provided with on the box inner wall of outer box at interior box lateral wall top, and the turn-ups cooperation is installed in the recess, realizes seamless embedding. The installation is firm. The oxygen supply pipe passes through the cover and extends into the culture water to realize oxygen supply. The inner wall of the box cavity of the inner box body is covered with a pressure film, and the pressure film is used for detecting the impact force to the pressure film when the prawns move, so that the prawn activity detection is realized. In the activity detection process, the prawn logistics box is kept static, and the culture water is detected in a static state.

In the actual transportation process, ice blocks can be added between the outer box body and the inner box body to reduce the temperature, so that the oxygen consumption of the prawns is reduced. In order to keep the prawn culture environment, a soil and sand groove is arranged at the bottom of the inner box body and used for burying soil and sand used in culture.

And further comparing the acquired impact pressure-time data of the prawns with impact pressure-time data of healthy prawns corresponding to the same prawn body type data stored in the prawn farm unit when the current activity of the prawns in the packaging box is detected.

By adopting the design, the times and the force of collision in the same period are obtained through the obtained curve of the collision pressure and the time of the prawns, and the living quantity and the current activity state of the prawns are reflected through the force and the times, so that the activity measurement is realized. And comparing the impact pressure-time data with the impact pressure-time data of healthy prawns with the same prawn shape data to obtain the prawn activity grade.

Further, after the prawn purchasing user purchases the packaged prawns, the corresponding prawn farmer user sends the packaged label information of all the packaged prawns purchased to the prawn purchasing user.

Through the information of the box sealing label, historical breeding data can be obtained in the prawn farm units, and activity detection data in the transportation process, prawn weight data, prawn physical examination data, prawn logistics data and the like during box sealing can be obtained through the label.

Furthermore, the labels corresponding to the net cage label information and the box sealing label information are RFID labels; in the culture process, the RFID tag is arranged on the net cage, and in the packaging and distribution process, the same RFID tag is arranged on the packaging box.

By adopting the scheme, in the transportation process, the RFID tag is used for packaging the outer box body and the cover, and if the RFID tag is separated from the outer box body, or separated from the cover, or damaged, box sealing operation needs to be carried out again. When the box is sealed, the box is sealed through the RFID tag, and once the tag is damaged, the box is sealed again, data are updated, a new RFID tag is arranged, and the authenticity of the data is guaranteed. When the distributor receives the prawns, historical logistics data can be inquired in the system by checking the integrity of the tags and the RFID tag information.

The invention has the beneficial effects that: the intelligence is sold and is bought two-way propelling movement of message, realizes that the shrimp trades the online and joins in marriage goods down to can sell by semi-manufactured goods, the shrimp purchases the user and can experience self and breed, when the reinforcing is experienced, realizes that the shrimp breeds healthy management, breeds the transparence, and it is more relieved to eat.

Drawings

FIG. 1 is a block diagram of the system architecture of the present invention;

fig. 2 is an exploded view of the enclosure.

Detailed Description

The following provides a more detailed description of the embodiments and the operation of the present invention with reference to the accompanying drawings.

In this embodiment, three prawns on a-m-p-m user, G1-G10, are selected as 10 prawns purchasing users. As can be seen from fig. 1, the active push system for real-time information of prawn products based on big data analysis and mining comprises a transaction controller 1, wherein 3 prawn farm users 2 and 10 prawn purchasing users 3 are connected to the transaction controller 1;

the transaction controller 1 is provided with a transaction module 1a and a prawn product real-time information pushing module 1b, the transaction controller 1 is connected with 3 prawn farm units 4, and the 3 prawn farm units 4 correspond to the 3 prawn farm households 2 one by one;

wherein, the first prawn and the second prawn correspond to the prawn farm unit a;

the second prawn farmer user corresponds to the b prawn farm unit;

the third-generation prawn farmer user corresponds to the c prawn farm unit;

the transaction module 1a is used for providing a prawn selling shop account and a selling fund account for the prawn farmer 2 and receiving a selling request sent by the prawn farmer 2; the transaction module 1a is used for providing a prawn purchasing account and a purchasing fund account for the prawn purchasing user 3 and receiving a purchasing request sent by the prawn purchasing user 3; the transaction module 1a is used for performing transaction operation between all the shrimp farmers 2 and the shrimp purchasing users 3;

the prawn product real-time information pushing module 1b is used for acquiring net cage prawn selling information and case sealing prawn selling information, which are pushed by the prawn farm households 2 and correspond to the prawn farm units 4 prawn culture pools; the prawn product real-time information pushing module 1b is used for pushing corresponding prawn selling information to the prawn purchasing user 3 according to a predetermined request and a purchasing request sent by the prawn purchasing user 3;

the transaction controller 1 is connected with a transaction database 6 for storing data generated by all transaction operations and user data.

The net cage prawn selling information at least comprises the operation information of a prawn culture pond, net cage prawns to be sold, the current growth period of the prawns in each net cage, historical culture data of the prawns in each net cage, the estimated total amount of the prawns in the mature period of each net cage, the preset price of the prawns in each net cage and the mature selling price of the prawns in each net cage.

In this embodiment, the net cage prawn selling information pushed by the prawn larva farmer is as follows: the first shrimp pool operation information comprises a shrimp pool address, shrimp selling operation approval data of the shrimp pool and an operation city; and (4) the net cage prawns to be sold: the number of the net cages prawns to be sold is 5; historical culture data of the prawns in each net cage, the estimated total quantity of the prawns in each net cage in the maturation period of each net cage is 200kg, the preset price of the prawns in each net cage is 5000 yuan, and the mature selling unit price of the prawns in each net cage is priced according to the market price at maturity.

The net cage prawn selling information pushed by the prawn B farmer is as follows: the first shrimp pond operation information comprises a shrimp pond address, shrimp pond prawn operation selling permission data and an operation city; and (4) the net cage prawns to be sold: the number of the net cages prawns to be sold is 2; historical culture data of the prawns in each net cage, estimated total amount of the prawns in each net cage in the mature period of each net cage of 180kg, preset price of the prawns in each net cage of 4000 yuan and mature selling unit price of the prawns in each net cage, wherein the mature selling unit price is priced according to market price at the mature time.

The net cage prawn selling information pushed by the third prawn farm households is as follows: the third-hand shrimp pool operation information comprises a shrimp pool address, shrimp selling operation approval data of the shrimp pool and an operation city; and (4) the net cage prawns to be sold: the number of the net cages for sale is 8; historical culture data of prawns in each net cage, the expected total amount of the prawns in each net cage in the mature period of each net cage, 5500 yuan of the preset price of the prawns in each net cage and the mature selling unit price of the prawns in each net cage, wherein the mature selling unit price is priced according to the market price at the mature time.

Wherein, a G1 prawn purchasing user 3 purchases 2 net cage prawns to be sold from a prawn farmer, wherein the remaining culture time of the net cage prawns to be sold is 2 months.

In this embodiment, after a prawn purchasing user 3 presets a net cage prawn, the corresponding prawn farmer user 2 sends preset net cage tag information of all net cage prawns to the prawn purchasing user 3;

the net cage tag information is used for calling prawn culture data in the prawn farm unit 4.

Wherein, the prawn B farmer user provides the net cage label information of the net cage prawn bought by the prawn B farmer user to the prawn G1 buying user 3.

Wherein, the prawn purchasing user 3 is in a predetermined mode or is scheduled for cultivation, and the prawn purchasing user 3 needs to provide the cultivation cost and the distribution cost of the rest cultivation period for the prawn farmer 2; wherein, the breeding purchase unit price is priced according to the current growth period; estimating the aquaculture purchase weight according to the purchased historical aquaculture data of the prawns in the net cage and all the aquaculture data in the shrimp culture pond;

and after the prawn purchasing users 3 reach the culture maturity period, the prawn purchasing users 3 pay according to the market prawn unit price and the actual total weight of the prawns, and deliver the prawn purchasing users to the delivery addresses in the management information of the prawn culture pond after being packaged by the packaging box H.

Wherein, the G1 prawn purchasing user 3 selects the cultivation reservation, and the G1 prawn purchasing user 3 can select self cultivation or prawn farming cultivation at the later stage. Wherein, the G1 prawn purchasing user 3 selects self-breeding, and the breeding cost paid to prawn farmers is 0; if the system is self-distributed, the distribution cost is 0 yuan.

The distribution cost and the breeding cost are calculated according to the cost actually generated.

Further, the sale information of the packaged prawns at least comprises weight data, body type data, historical culture data and current activity of the prawns in the packaging box H.

In the sale information of the enclosed-box prawns pushed by the third-generation prawns farm households: the weight data of prawns in each packaging box H is 30kg, and the weight range of the prawns is 22-28 g; historical prawn breeding data and current activity of prawns in the packaging box H are stored in a prawn farm unit c, and inquiry is carried out through a label arranged on a box body of the packaging box H.

The G2 prawn purchasing user 3 is set to purchase two packaging boxes H of the prawn purchasing farmer 2.

As can be seen from fig. 2, the packaging box H is provided with an outer box H1, an inner box H2 and a cover H3, wherein the inner box H2 is configured to be disposed in a box cavity of the outer box H1, a pressure film H2a covers an inner wall of the box cavity of the inner box H2, a pressure signal of the pressure film H2a is transmitted to the logistics box microprocessor H4 through a line, the logistics box microprocessor H4 is embedded in an inner wall of the box cavity of the outer box H1, a register H4a is disposed in the logistics box microprocessor H4, and the register H4a is configured to store the prawn impact pressure-time data detected by the pressure film H2 a.

In this embodiment, outer box plays the guard action, and interior box is used for holding aquaculture water and shrimp, is provided with the round recess along being provided with on the box inner wall of outer box at interior box lateral wall top, and the turn-ups cooperation is installed in the recess, realizes seamless embedding. The installation is firm. The oxygen supply pipe passes through the cover and extends into the culture water to realize oxygen supply. The inner wall of the box cavity of the inner box body is covered with a pressure film, and the pressure film is used for detecting the impact force to the pressure film when the prawns move, so that the activity detection of the prawns is realized. In the activity detection process, the prawn logistics box is kept static, and the culture water is detected in a static state.

In the actual transportation process, ice blocks can be added between the outer box body and the inner box body to reduce the temperature, so that the oxygen consumption of the prawns is reduced. In order to keep the prawn culture environment, a soil and sand groove is arranged at the bottom of the inner box body and used for burying soil and sand used in culture.

In this embodiment, when detecting the current activity of the prawns in the enclosure H, the acquired impact pressure-time data of the prawns is compared with the impact pressure-time data of healthy prawns corresponding to the same prawn body type data stored in the prawn farm unit 4.

In this embodiment, after the prawn purchasing user 3 purchases the packaged prawns, the corresponding prawn farming user 2 sends the packaged label information of all the packaged prawns purchased to the prawn purchasing user 3.

Preferably, the labels corresponding to the net cage label information and the box sealing label information are RFID labels; in the culture process, the RFID tags are arranged on the net cage, and in the packaging and distribution process, the same RFID tag is arranged on the packaging box H.

In the specific implementation process, the tag number is set on the tag, and after the prawn purchasing user receives the packaging box H, the label content of the RFID tag can be read by the RFID reader of the transaction controller 1, so that the corresponding historical breeding data and prawn activity data can be obtained in the transaction database. Or the label content can be inquired on the transaction controller 1 by logging in a prawn purchasing user account through the label number arranged on the label, so that corresponding historical breeding data and prawn activity data can be obtained. During the data retrieval and inquiry process, the transaction controller 1 needs to inquire the account identity.

It should be noted that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make variations, modifications, additions or substitutions within the spirit and scope of the present invention.

Claims (3)

1. The utility model provides a shrimp product real-time information initiative push system based on big data analysis and excavation which characterized in that: comprises a transaction controller (1), wherein K prawn farming users (2) and L prawn purchasing users (3) are connected to the transaction controller (1);

the transaction controller (1) is provided with a transaction module (1 a) and a prawn product real-time information pushing module (1 b), the transaction controller (1) is connected with K prawn farm units (4), and the K prawn farm units (4) correspond to the K prawn farm users (2) one by one;

the transaction module (1 a) is used for providing a prawn selling shop account and a selling fund account for the prawn farmer user (2) and receiving a selling request sent by the prawn farmer user (2); the transaction module (1 a) is used for providing a prawn purchasing account and a purchasing fund account for the prawn purchasing user (3) and receiving a purchasing request sent by the prawn purchasing user (3); the transaction module (1 a) is used for performing transaction operation between all prawn farm users (2) and prawn purchasing users (3);

the prawn product real-time information pushing module (1 b) is used for acquiring net cage prawn selling information and case sealing prawn selling information, which are pushed by a prawn farm user (2) and correspond to a prawn culture pond of a prawn farm unit (4); the prawn product real-time information pushing module (1 b) is used for pushing corresponding prawn selling information to the prawn purchasing user (3) according to a predetermined request and a purchasing request sent by the prawn purchasing user (3);

the transaction controller (1) is connected with a transaction database (6) for storing data generated by all transaction operations and user data;

the net cage prawn selling information at least comprises the operation information of a prawn culture pond, net cage prawns to be sold, the current growth period of the prawns in each net cage, historical culture data of the prawns in each net cage, the estimated total amount of the prawns in the mature period of each net cage, the preset price of the prawns in each net cage and the mature selling unit price of the prawns in each net cage;

after a prawn purchasing user (3) presets a net cage prawn, corresponding to the prawn farmer user (2), sending preset net cage label information of all net cage prawns to the prawn purchasing user (3);

the net cage label information is used for calling prawn culture data in the prawn farm unit (4);

when the pre-determined mode of the prawn purchasing user (3) is for pre-determining the cultivation, the prawn purchasing user (3) needs to provide the cultivation cost and the distribution cost of the rest cultivation period for the prawn farming user (2); wherein, the breeding purchase unit price is priced according to the current growth period; estimating the aquaculture purchase weight according to the purchased historical aquaculture data of the prawns in the net cage and all the aquaculture data in the shrimp culture pond;

when the predetermined mode of the prawn purchasing user (3) is the predetermined purchasing of net cage prawns and the culture maturity period is reached, the prawn purchasing user (3) pays according to the market prawn unit price and the actual total weight of prawns, and distributes the prawns to the distribution address in the shrimp culture pond operation information after being packaged by the packaging box (H);

the sale information of the sealed prawns at least comprises weight data, body type data, historical culture data and current activity of the prawns in the sealed box (H);

the packaging box (H) is provided with an outer box body (H1), an inner box body (H2) and a cover (H3), wherein the inner box body (H2) is arranged in a box cavity of the outer box body (H1), the inner wall of the box cavity of the inner box body (H2) is covered with a pressure film (H2 a), a pressure signal of the pressure film (H2 a) is transmitted to a logistics box microprocessor (H4) through a line, the logistics box microprocessor (H4) is embedded in the inner wall of the box cavity of the outer box body (H1), a register (H4 a) is arranged in the logistics box microprocessor (H4), and the register (H4 a) is used for storing prawn impact pressure-time data detected by the pressure film (H2 a);

when the current activity of the prawns in the packaging box (H) is detected, comparing the acquired impact pressure-time data of the prawns with impact pressure-time data of healthy prawns corresponding to the same prawn body type data stored in the prawn farm unit (4);

obtaining the times and the force of collision in the same period through the obtained curve of the collision pressure and the time of the prawns, and reflecting the survival quantity and the current activity state of the prawns through the force and the times so as to realize the measurement of the activity;

and comparing the impact pressure-time data with the impact pressure-time data of healthy prawns with the same prawn shape data to obtain the prawn activity grade.

2. The active prawn product real-time information pushing system based on big data analysis and mining of claim 1, which is characterized in that: and after the prawn purchasing user (3) purchases the packaged prawns, the corresponding prawn farmer user (2) sends the packaged label information of all the purchased packaged prawns to the prawn purchasing user (3).

3. The active prawn product real-time information pushing system based on big data analysis and mining of claim 2, which is characterized in that: the labels corresponding to the net cage label information and the box sealing label information are RFID labels;

in the culture process, the RFID tags are arranged on the net cage, and in the packaging and distribution process, the same RFID tag is arranged on the packaging box (H).

Images