CN111165430B - Peak shifting breeding method for pigs under big data based on wireless network - Google Patents

Abstract

A peak shifting breeding method of pigs under big data based on a wireless network relates to the field of livestock raising and aims to solve the problem that precise supply matching is difficult to carry out due to dynamic change of the demands of live pigs in the market. The method utilizes big data to count dynamic market demands and utilizes a wireless network to carry out market matching scheduling on the live pigs in a communication cell, and the method is accurate in supply matching.

Description

Peak shifting breeding method for pigs under big data based on wireless network

Technical Field

The present invention relates to the field of livestock husbandry.

Background

The pig is a vertebrate, mammal, domestic animal, or ancient omnivorous mammal. It is divided into domestic pig and wild pig. Pigs are now generally considered an acronym for porcine. The physical and physical characteristics of pigs are different according to different breeds. Usually, the big ears, long head, straight nose and narrow back are the main features of the body. The hair is thick and hard and is classified into white, pink, black, brown and flower color according to the variety.

The domestic pig is a subspecies formed by domestication of a wild pig by a human, a bucktooth is shorter than the wild pig and is one of human livestock, and generally, the domestic pig refers to a breed which is stocked by a human and is eaten by the human.

Pork is one of the most common and basic food materials in the current market of people; for pig feeding, the following modes exist in China at present:

firstly, a large-scale pig farm; hundreds of batches can be output; mainly docking pork derived product processing enterprises, such as: ham, pork can, etc.;

secondly, a medium and small scale cultivation base; one batch can be discharged for dozens of heads; the daily resident supply mainly supplying the corresponding market of a region (a city or an administrative region);

thirdly, scattered households generally breed one to two ends of the common people as livestock breeding and need to be killed for eating.

However, the current pig market nationwide has a problem which is difficult to solve:

namely: as the supply and demand of pork have no way to keep synchronous, the method is divided into the following steps: there are the following situations:

firstly, the method comprises the following steps: market demand is less than the daily average, and "delivery" to the market is equal to or greater than the daily average, with a high probability of "supply over demand";

secondly, the market demand is larger than the daily average value, and the 'release' amount to the market is more or less than the daily average value, so that 'supply is less than demand' is possibly caused; in summary, this is because of the difficulty in matching supplies precisely due to the dynamic change in the market demand of live pigs.

Disclosure of Invention

The invention aims to solve the problem that precise supply matching is difficult to carry out due to dynamic change of the demands of live pigs in the market, and provides a peak shifting breeding method for the pigs under big data based on a wireless network.

The peak shifting breeding method of the pigs under big data based on the wireless network is characterized by comprising the following steps: in a communication cell, comprising the steps of:

step one, all A large-scale live pig farm servers (1), all B medium-small scale live pig farm servers (2), all C scattered family live pig farm servers (2) in a community and the C scattered family live pig farm servers (2) are used for: c wireless access points AP (2) form a wireless sensor network through a 4G network; A. b and C are positive integers;

step two, adding the scheduling server (4) into the wireless sensor network in the step one through a 4G network;

step three, the dispatching server (4) enables C scattered family live pig farm servers (2) to be scattered family wireless sub-networks;

step four, the scheduling server (4) counts the live pig real-time marketing amount and marketing time of each large-scale live pig farm server (1) and each medium-small scale live pig farm server (2); and respectively tabulated;

step five, the dispatching server (4) acquires the live pig demand information of the current market through a 4G network,

step six, the scheduling server (4) judges whether the maximum sum value of the quantity list obtained in the step four is enough to meet the requirement of obtaining the live pig demand of the current market in the step five, and if the judgment result is yes, the scheduling server judges whether the maximum sum value of the quantity list obtained in the step four is enough; executing the step seven; if the judgment result is negative; executing the step eight;

seventhly, the scheduling server (4) carries out live pig breeding adjustment, business negotiation or goods supply according to the live pig demand information of the market obtained in the fifth step;

step eight, broadcasting the purchasing information of the live pigs in the scattered home sub-network by the scheduling server (4); and counting scattered household feedback data packets;

step nine, the scheduling server (4) judges whether the quantity list obtained in the step four and the maximum sum value of all received scattered feedback data are enough to meet the requirement of obtaining the live pig demand of the current market in the step five, and if the judgment result is yes, the scheduling server judges whether the quantity list is enough to meet the requirement of obtaining the live pig demand of the current market; returning to execute the step seven; if the judgment result is negative; the process is ended.

The specific method for adjusting the live pig breeding in the seventh step is as follows:

1) finely adjusting the marketing date of the live pigs according to the live pig demand information in the current market;

2) adjusting the feeding amount of the live pigs according to the live pig demand information in the current market;

step eight, broadcasting the purchasing information of the live pigs in the scattered home sub-network by the scheduling server (4); the specific method for counting the feedback result is as follows:

eighthly, broadcasting a live pig purchase information packet in a scattered home sub-network by the scheduling server (4); the live pig purchase information packet comprises a scheduling server (4) ID, a live pig purchase price, a live pig weight lower limit and remark information;

and eighthly, each scattered family live pig farm server (2) receives the live pig purchase information packet, judges whether the live pig purchase information packet is matched with the purchase condition of the scheduling server (4), and feeds back a feedback data packet to the scheduling server (4) if the live pig purchase information packet is matched with the purchase condition of the scheduling server (4), wherein the feedback data packet comprises the ID and remark response information of the scattered family live pig farm server (2).

The invention has the following beneficial effects and remarkable progress: the method utilizes big data to count dynamic market demands and utilizes a wireless network to carry out market matching scheduling on the live pigs in a communication cell, and the method is accurate in supply matching.

Drawings

FIG. 1 is a schematic view of the monitoring principle of the method of the present invention.

Detailed Description

The specific embodiment one is a peak staggering breeding method of pigs under big data based on a wireless network, which is characterized by comprising the following steps: in a communication cell, comprising the steps of:

step one, all A large-scale live pig farm servers (1), all B medium-small scale live pig farm servers (2), all C scattered family live pig farm servers (2) in a community and the C scattered family live pig farm servers (2) are used for: c wireless access points AP (2) form a wireless sensor network through a 4G network; A. b and C are positive integers;

step two, adding the scheduling server (4) into the wireless sensor network in the step one through a 4G network;

step three, the dispatching server (4) enables C scattered family live pig farm servers (2) to be scattered family wireless sub-networks;

step four, the scheduling server (4) counts the live pig real-time marketing amount and marketing time of each large-scale live pig farm server (1) and each medium-small scale live pig farm server (2); and respectively listing;

step five, the dispatching server (4) acquires the live pig demand information of the current market through a 4G network,

step six, the scheduling server (4) judges whether the maximum sum value of the quantity list obtained in the step four is enough to meet the requirement of obtaining the live pig demand of the current market in the step five, and if the judgment result is yes, the scheduling server judges whether the maximum sum value of the quantity list obtained in the step four is enough; executing the step seven; if the judgment result is negative; executing the step eight;

seventhly, the scheduling server (4) carries out live pig breeding adjustment, business negotiation or goods supply according to the live pig demand information of the market obtained in the fifth step;

step eight, broadcasting acquisition information of the live pigs in a scattered household sub-network by the scheduling server (4); and counting scattered household feedback data packets;

step nine, the scheduling server (4) judges whether the quantity list obtained in the step four and the maximum sum value of all received scattered household feedback data are enough to meet the requirement of obtaining the live pig demand of the current market in the step five, and if the judgment result is yes, the scheduling server judges whether the quantity list is enough to meet the requirement of obtaining the live pig demand of the current market in the step five; returning to execute the step seven; if the judgment result is negative; the process is ended.

The specific method for adjusting the live pig breeding in the seventh step is as follows:

1) finely adjusting the marketing time of the live pigs according to the live pig demand information in the current market;

2) adjusting the feeding amount of the live pigs according to the live pig demand information in the current market;

step eight, broadcasting the purchasing information of the live pigs in the scattered home sub-network by the scheduling server (4); the specific method for counting the feedback result is as follows:

eighthly, broadcasting a live pig purchase information packet in a scattered home sub-network by the scheduling server (4); the live pig purchase information packet comprises a scheduling server (4) ID, a live pig purchase price, a live pig weight lower limit and remark information;

and eighthly, each scattered family live pig farm server (2) receives the live pig purchase information packet, judges whether the live pig purchase information packet is matched with the purchase condition of the scheduling server (4), and feeds back a feedback data packet to the scheduling server (4) if the live pig purchase information packet is matched with the purchase condition of the scheduling server (4), wherein the feedback data packet comprises the ID and remark response information of the scattered family live pig farm server (2).

The invention has the following beneficial effects and remarkable progress: the method carries out reasonable big data analysis by utilizing big data statistics dynamic market demand and carries out market matching scheduling on the live pigs in a communication cell by utilizing a wireless network, and the method has accurate supply matching.

Claims (1)

1. The peak shifting breeding method of the pigs under big data based on the wireless network is characterized by comprising the following steps: in a communication cell, comprising the steps of:

step one, all A large-scale live pig farm servers (1), all B medium-small scale live pig farm servers (2), all C scattered family live pig farm servers (2) in a community and the C scattered family live pig farm servers (2) are used for: c wireless access points AP (2) form a wireless sensor network through a 4G network; A. b and C are positive integers;

step two, adding the scheduling server (4) into the wireless sensor network in the step one through a 4G network;

step three, the dispatching server (4) enables C scattered family live pig farm servers (2) to be scattered family wireless sub-networks;

step four, the scheduling server (4) counts the live pig real-time marketing amount and marketing time of each large-scale live pig farm server (1) and each medium-small scale live pig farm server (2); and respectively listing;

step five, the dispatching server (4) acquires the live pig demand information of the current market through a 4G network,

step six, the scheduling server (4) judges whether the maximum sum value of the quantity list obtained in the step four is enough to meet the requirement of obtaining the live pig demand of the current market in the step five, and if the judgment result is yes, the scheduling server judges whether the maximum sum value of the quantity list obtained in the step four is enough; executing the step seven; if the judgment result is negative; executing the step eight;

seventhly, the scheduling server (4) carries out live pig breeding adjustment, business negotiation or goods supply according to the live pig demand information of the market obtained in the fifth step;

step eight, broadcasting the purchasing information of the live pigs in the scattered home sub-network by the scheduling server (4); and counting scattered household feedback data packets;

step nine, the scheduling server (4) judges whether the quantity list obtained in the step four and the maximum sum value of all received scattered household feedback data are enough to meet the requirement of obtaining the live pig demand of the current market in the step five, and if the judgment result is yes, the scheduling server judges whether the quantity list is enough to meet the requirement of obtaining the live pig demand of the current market in the step five; returning to execute the step seven; if the judgment result is negative; then the process is ended;

the concrete method for adjusting the live pig breeding in the step seven comprises the following steps:

1) finely adjusting the marketing time of the live pigs according to the live pig demand information in the current market;

2) adjusting the feeding amount of the live pigs according to the live pig demand information in the current market;

step eight, the scheduling server (4) broadcasts the purchasing information of the live pigs in the scattered home sub-network; the method for counting the feedback result specifically comprises the following steps:

eighthly, broadcasting a live pig purchase information packet in a scattered home sub-network by the scheduling server (4); the live pig purchase information packet comprises a scheduling server (4) ID, a live pig purchase price, a live pig weight lower limit and remark information;

and eighthly, each scattered family live pig farm server (2) receives the live pig purchase information packet, judges whether the live pig purchase information packet matches the purchase condition of the scheduling server (4) or not, and feeds back a feedback data packet to the scheduling server (4) if the live pig purchase information packet meets the purchase condition, wherein the feedback data packet comprises the ID and remark response information of the scattered family live pig farm server (2).

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