CN114372626A - Agricultural machinery scheduling method, system, terminal equipment and storage medium - Google Patents

Abstract

The application relates to the field of agricultural machinery scheduling, in particular to an agricultural machinery scheduling method, an agricultural machinery scheduling system, terminal equipment and a storage medium, wherein the method comprises the following steps: acquiring agricultural operation requirements of an operation side; pushing the agricultural operation demand line to a first agricultural machine side, wherein at least one first agricultural machine side is provided; when a second agricultural machine side in the first agricultural machine side receives the agricultural operation requirement, acquiring agricultural machine information of the second agricultural machine side, wherein the number of the second agricultural machine side is at least one, and the number of the second agricultural machine side is smaller than that of the first agricultural machine side; determining a target agricultural machine side from the second agricultural machine side based on the agricultural work demand and the agricultural machine information; and obtaining an operation result of the target agricultural machine side after the agricultural operation requirement is completed by the target agricultural machine side. The agricultural machinery scheduling method, system, terminal equipment and storage medium have the effect of improving the agricultural operation process of farmers.

Description

Agricultural machinery scheduling method, system, terminal equipment and storage medium

Technical Field

The application relates to the field of agricultural machinery scheduling, in particular to an agricultural machinery scheduling method and system.

Background

Along with the development of modern agriculture, agricultural machinery plays a very important role in the development process of modern agriculture, the defect of low efficiency of traditional agriculture is overcome, the labor productivity is greatly improved through high-efficiency and high-quality operation of the agricultural machinery, and the agricultural productivity is effectively improved.

The current agricultural machinery scheduling is generally scheduling of agricultural machinery cooperative society, and the scheduling of the agricultural machinery cooperative society basically adopts a manual scheduling mode at present and is also in a telephone communication and intermediary introduction stage.

In view of the above-mentioned related technologies, the inventor believes that, when agricultural machinery is scheduled in an agricultural machinery cooperative scheduling manner, since the working condition of the agricultural machinery is unclear and the agricultural machinery workers need to be contacted one by one manually, the agricultural machinery workers meeting the operation requirements of farmers are not conveniently matched, so that the agricultural operation process is prolonged, and the agricultural operation efficiency is reduced.

Disclosure of Invention

In order to conveniently match a proper agricultural machinery driver and improve the agricultural operation efficiency, the agricultural machinery scheduling method is provided.

In a first aspect, the present application provides an agricultural machinery scheduling method, which adopts the following technical scheme:

an agricultural machinery scheduling method comprises the following steps:

acquiring agricultural operation requirements of an operation side;

pushing the agricultural operation demand line to a first agricultural machine side, wherein at least one first agricultural machine side is provided;

when a second agricultural machine side in the first agricultural machine side receives the agricultural operation requirement, acquiring agricultural machine information of the second agricultural machine side, wherein the number of the second agricultural machine side is at least one, and the number of the second agricultural machine side is smaller than that of the first agricultural machine side;

determining a target agricultural machine side from the second agricultural machine side based on the agricultural work demand and the agricultural machine information;

and obtaining an operation result of the target agricultural machine side after the agricultural operation requirement is completed by the target agricultural machine side.

By adopting the technical scheme, the agricultural operation requirement of the operation side and the first agricultural machine side are obtained, after the second agricultural machine side in the first agricultural machine side receives the agricultural operation requirement, the agricultural machine information of the second agricultural machine side is obtained, the agricultural operation requirement of the operation side is matched with the agricultural machine information of the second agricultural machine side, the target agricultural machine side meeting the agricultural operation requirement is determined from the second agricultural machine side, so that the appropriate target agricultural machine side can be matched according to the agricultural operation requirement of the operation side, and the agricultural operation progress of farmers is improved.

Optionally, the agricultural operation demand includes a location of an operation demand place, the agricultural machinery information includes a time length required to reach the operation place, the time length required to reach the operation place is a time length required for the second agricultural machinery side to reach the location of the operation demand place, and determining the target agricultural machinery side from the second agricultural machinery side based on the agricultural operation demand and the agricultural machinery information includes the following steps:

the second agricultural machine sides are obtained in a sequence from near to far based on the positions of the operation demand places, and the second agricultural machine side with the shortest distance to the operation demand places is obtained;

judging whether a plurality of second agricultural machinery sides with the shortest distance to the operation demand position are provided;

if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

and if the number of the second agricultural machines is multiple, comparing the time lengths required by the multiple second agricultural machines to reach the positions of the operation places, and determining that the second agricultural machine with the shortest time length required by the second agricultural machine to reach the positions of the operation places is the target agricultural machine.

By adopting the technical scheme, the second agricultural machine side with the shortest distance to the operation demand place is preferentially obtained, so that the situation that the agricultural operation process is delayed due to the fact that the distance of the target agricultural machine side is too far can be reduced; and further selecting the second agricultural machine side with the shortest time for reaching the operation demand place as the target agricultural machine side on the basis of the shortest distance from the operation demand place, so that the delay of the agricultural operation process caused by too much time spent on the path to the operation demand place can be reduced.

Optionally, the agricultural operation requirement further includes unit operation unit price, the agricultural machinery information further includes unit operation price, and the determining that the second agricultural machinery side with the shortest time length required for reaching the operation location is the target agricultural machinery side includes the following steps:

judging whether a plurality of second agricultural machinery sides with the shortest time length for reaching the operation place are provided;

if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

and if the number of the unit operation prices is multiple, acquiring unit operation prices in the second agricultural machine sides based on the unit operation unit prices, comparing the unit operation prices to obtain the lowest unit operation price, and determining the target agricultural machine side from the second agricultural machine sides based on the lowest unit operation price.

By adopting the technical scheme, when a plurality of second agricultural machines with the shortest time required for reaching the operation place positions are provided, the target agricultural machine side is determined from the plurality of second agricultural machines based on the lowest unit operation price, so that the most economic scheme is conveniently matched for the operation-side farmers.

Optionally, the agricultural work requirement further includes a work specification completion duration, the agricultural machine information further includes a work efficiency, and the determining the target agricultural machine side from the plurality of second agricultural machine sides based on the lowest unit work bid price includes the following steps:

judging whether the number of the second agricultural machinery sides in the lowest unit operation price is multiple or not;

if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

if the number of the operation efficiency is multiple, all the operation efficiencies in the second agricultural machine side are obtained based on the specified operation completion duration, all the operation efficiencies are compared to obtain the highest operation efficiency, and the target agricultural machine side in the second agricultural machine side is determined based on the highest operation efficiency.

By adopting the technical scheme, when the second agricultural machine sides with the lowest unit operation price are multiple, the target agricultural machine sides in the second agricultural machine sides are determined based on the highest operation efficiency, so that the target agricultural sides with high work efficiency can be matched for operation side farmers conveniently.

Optionally, the agricultural work demand further includes unit work unit price, the agricultural machinery information further includes unit work price, and determining the target agricultural machinery side from the second agricultural machinery side based on the agricultural work demand and the agricultural machinery information includes the following steps:

acquiring unit operation prices of all the unit operations in the second agricultural machine side based on the unit operation unit prices;

comparing all the unit operation prices to obtain the lowest unit operation price;

determining the target agricultural machine side based on the lowest unit job bid.

Optionally, the agricultural work requirement further includes a work area, the agricultural machine information further includes an agricultural machine size, and determining a target agricultural machine side from the second agricultural machine side based on the agricultural work requirement and the agricultural machine information includes the following steps:

obtaining all agricultural machine sizes in the second agricultural machine side based on the working area;

matching the size of the suitable agricultural machinery based on the size of the operation area to obtain the optimal size of the agricultural machinery;

determining the target agricultural machine side based on the optimal agricultural machine size.

Through adopting above-mentioned technical scheme, can match suitable agricultural machinery according to the working area of operation side.

Optionally, the determining the target agricultural machine side from the second agricultural machine side based on the agricultural work demand and the agricultural machine information further includes:

acquiring all the operation efficiencies in the second agricultural machine side based on the operation specified completion duration;

comparing all the operation efficiencies to obtain the highest operation efficiency;

determining the target agricultural machine side based on the highest work efficiency.

In a second aspect, the present application further provides a solid state disk power failure protection system, which adopts the following technical scheme:

an agricultural machine dispatch system comprising:

the acquisition module is used for acquiring the agricultural operation requirement of the operation side and the first agricultural machine side;

a processing module to determine a second one of the first agricultural machines side, match the agricultural work demand with agricultural information of the second agricultural machine side, and determine a target agricultural machine side from the second agricultural machine side;

and the output module is used for outputting the operation result of the target agricultural machine side after the agricultural operation requirement is finished on the target agricultural machine side.

By adopting the technical scheme, the acquisition module acquires the agricultural operation requirement of the operation side and the first agricultural machine side, after the second agricultural machine side in the first agricultural machine side receives the agricultural operation requirement, the processing module acquires the agricultural machine information of the second agricultural machine side, the processing module matches the agricultural operation requirement of the operation side with the agricultural machine information of the second agricultural machine side, and the target agricultural machine side meeting the agricultural operation requirement is determined from the second agricultural machine side, so that the appropriate target agricultural machine side can be matched according to the agricultural operation requirement of the operation side, and the agricultural operation process of farmers is promoted.

In a third aspect, the present application provides a terminal device, which adopts the following technical solution:

a terminal device comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, and when the processor loads and executes the computer program, the agricultural machinery scheduling method is adopted.

By adopting the technical scheme, the agricultural machinery scheduling method generates the computer program, and the computer program is stored in the memory to be loaded and executed by the processor, so that the terminal equipment is manufactured according to the memory and the processor, and the use is convenient.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, implements a method of agricultural dispatching as described above.

By adopting the technical scheme, the agricultural machinery scheduling method generates the computer program and stores the computer program in the computer readable storage medium so as to be loaded and executed by the processor, and the computer program can be conveniently read and stored through the computer readable storage medium.

Drawings

Fig. 1 is a schematic overall flow chart of an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 2 is a schematic overall flow chart of steps S41A-S44A in an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 3 is a schematic overall flowchart of steps S441 a-S443 a in an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 4 is a schematic overall flowchart of steps S443a 1-S443 a3 in an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 5 is a schematic overall flow chart of steps S41B-S43B in an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 6 is a schematic overall flow chart of steps S41C-S43C in an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 7 is a schematic overall flow chart of steps S41D-S43D in an agricultural machinery scheduling method according to an embodiment of the present application.

Fig. 8 is a schematic diagram of an overall module in an agricultural machinery scheduling system according to an embodiment of the present application.

Description of reference numerals:

1. an acquisition module; 2. a processing module; 3. and an output module.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses an agricultural machinery scheduling method, as shown in fig. 1, comprising the following steps:

s100, acquiring agricultural operation requirements of an operation side;

s200, pushing agricultural operation demand lines to a first agricultural machine side, wherein at least one first agricultural machine side is provided;

s300, after a second agricultural machine side in the first agricultural machine side receives agricultural operation requirements, acquiring agricultural machine information of the second agricultural machine side, wherein the number of the second agricultural machine side is at least one, and the number of the second agricultural machine side is smaller than that of the first agricultural machine side;

s400, determining a target agricultural machine side from the second agricultural machine side based on agricultural operation requirements and the agricultural machine information;

and S500, obtaining an operation result of the target agricultural machine side after the agricultural operation requirement is finished by the target agricultural machine side.

In the embodiment, the software is used as a carrier, and the agricultural machinery scheduling work is completed through the information interaction and matching between the operation side and the agricultural machinery side.

Specifically, in step S100, in this embodiment, the working side refers to a farmer who has an agricultural work demand, the agricultural work demand is generated according to a manner of inputting characters or voice by the farmer, and the agricultural work demand corresponding to the farmer is obtained through preset software, where the agricultural work demand includes a position of a work demand place, a unit work unit price, a specified completion time of the work, and a work area. The operation demand position refers to specific geographical position information of a demand place of an operation side; the unit operation unit price refers to the amount of money finished in unit area of the agricultural demand place; the specified completion duration of the operation refers to the time spent for completing all agricultural operations; the working area refers to the working area of agricultural work.

Specifically, in step S200, in this embodiment, the first agricultural machinery side refers to an agricultural machinery hand capable of receiving agricultural operation requirements within a certain range, and the agricultural operation requirements of the operation side are sent to the first agricultural machinery side through preset software.

Specifically, in step S300, in this embodiment, the second agricultural machine side refers to an agricultural machinery hand of the first agricultural machine side that receives the agricultural operation requirement, and the second agricultural machine side obtains and receives the agricultural operation requirement of the operation side by means of receiving information through preset software. The agricultural machinery information comprises the time length required for reaching the operation place, the unit operation price, the operation efficiency and the agricultural machinery size. The time length required for reaching the operation place is the time length for the second agricultural machine side to reach the position of the operation required place; the unit operation price is the amount of money required to be collected in a unit area of a place where the second agricultural machine side completes agricultural demand; the working efficiency refers to the workload finished in unit time at the side of the second agricultural machine; the size of the agricultural machine refers to the length, width and height of agricultural equipment used by the second agricultural machine side, and the unit of the size of the agricultural machine is meter.

Specifically, in step S400, the preset software performs matching analysis on the agricultural operation demand issued by the operation side and the agricultural machinery information of the second agricultural machinery side, and obtains a required target agricultural machinery side according to the agricultural operation demand. For example, the time length required for reaching the working place in all the second agricultural machine sides is compared and analyzed according to the positions of the working demand places, and the target agricultural machine side in the second agricultural machine sides is confirmed; comparing and analyzing unit operation prices in all second agricultural machine sides according to unit operation unit prices and confirming target agricultural machine sides in the second agricultural machine sides; comparing and analyzing the operation efficiency in all the second agricultural machine sides according to the operation specified completion duration and confirming the target agricultural machine side in the second agricultural machine sides; all agricultural machine sizes in the second agricultural machine side are analyzed from the working area comparison and the target agricultural machine side in the second agricultural machine side is confirmed.

Specifically, in step S500, after the target agricultural machine side is determined from the second agricultural machine side, the target agricultural machine side determines specific work content based on agricultural work requirements of the work side, and after the target agricultural machine side completes the specific work content, the work side performs rating evaluation according to results of the completion of the work content of the agricultural machine side. For example, the money eight-farm machinist is determined as the target agricultural machinery side, the operation content of the operation side is that the wheat harvesting of 10 mu is completed within 5 hours, the money eight-farm machinist does not complete the wheat harvesting within 5 hours, and the operation side can evaluate the difference for the money eight-farm machinist; the money-eight-farm machinist spends 5 hours to complete the wheat harvesting, and the working side can evaluate the money-eight-farm machinist as good; the Qianbingman finishes the wheat harvesting within 5 hours, and the operation side can evaluate the Qianbingman as excellent.

As shown in fig. 2, step S400 includes the following steps:

S41A, obtaining the second agricultural machine side from near to far based on the position of the operation demand place in a sequence, and obtaining the second agricultural machine side with the shortest distance to the operation demand place;

S42A, judging whether a plurality of second agricultural machinery sides with the shortest distance to the operation demand position are provided;

S43A, if the number of the second agricultural machine side is single, determining that the single second agricultural machine side is the target agricultural machine side;

S44A, if there are a plurality of second agricultural machines, comparing the time lengths required for reaching the working place positions of the plurality of second agricultural machines, and determining the second agricultural machine with the shortest time length required for reaching the working place position as the target agricultural machine.

Specifically, in step S41A, in this embodiment, the second agricultural machine side with the shortest distance to the work demand place is preferentially obtained in the order from near to far with the work demand place as the center of circle and the position from the work demand place to the second agricultural machine side as the radius. Taking a coordinate axis as an example, units of an X coordinate axis and a Y coordinate axis are kilometers, coordinates of positions of an operation demand place are (0, 0), the second agricultural machine side comprises a Zusangnong hand, a Liquangnong hand and a Wangwangnong hand, the position coordinates of the Zusangnong hand are (1, 0), the position coordinates of the Liquangnong hand are (2, 0), and the position coordinates of the Wangwangnong hand are (3, 0), so that the Zusangnong hand is preferentially obtained.

Specifically, in step S42A-step S44A, in the present embodiment, it is determined whether or not there are a plurality of second agricultural machines sides equidistant from the katsumadai agricultural machinery hand based on the job demand location. If the number of the agricultural robots is single, determining the Zhang Sannong manipulator as the side of the target agricultural machinery; if the number of the agricultural machinery hand is multiple, comparing the time length required by the Zhaosan agricultural machinery hand and the Zhao six agricultural machinery hand to reach the position of the operation place, wherein the time required by the Zhaosan agricultural machinery hand to reach the position of the operation place is 1 hour, the time required by the Zhaosan agricultural machinery hand to reach the position of the operation place is 1.5 hours, and determining the Zhaosan agricultural machinery hand as the side of the target agricultural machinery based on the shortest time length required by the Zhaosan agricultural machinery hand to reach the position of the operation place.

As shown in fig. 3, step S44A includes the following steps:

s441a, judging whether a plurality of second agricultural machinery sides with the shortest time length for reaching the operation place position are provided;

s442a, if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

s443a, if there are a plurality of second agricultural machines, obtaining unit operation prices on the second agricultural machines based on the unit operation prices, comparing the unit operation prices to obtain the lowest unit operation price, and determining the target agricultural machine side from the second agricultural machines based on the lowest unit operation price.

More specifically, in step S441 a-step S443a, in the present embodiment, it is determined whether there are a plurality of second agricultural machinery sides that are the same as the time that the six-Zhao agricultural machinery hand takes to reach the working location, based on the length of time required to reach the working location, and if there is a single second agricultural machinery side, it is determined that the six-Zhao agricultural machinery hand is the target agricultural machinery side; if the number of the agricultural machinery is multiple, unit operation unit prices of the Zhao six agricultural machinery and the Chenqi agricultural machinery are compared, the amount of money to be collected by the Zhao six agricultural machinery to finish the agricultural demand is 60 yuan, and the amount of money to be collected by the Chenqi agricultural machinery to finish the agricultural demand is 50 yuan, and the Chenqi agricultural machinery is determined to be the target agricultural machinery side.

As shown in fig. 4, step S443a includes the following steps:

s443a1, determining whether there are a plurality of second agricultural machinery sides in the lowest unit operation price;

s443a2, if the number of the second agricultural machine side is single, determining that the single second agricultural machine side is the target agricultural machine side;

s443a3, if there are a plurality of second agricultural machines, obtaining all the operation efficiencies in the second agricultural machine based on the operation specified completion time, comparing all the operation efficiencies to obtain the highest operation efficiency, and determining the target agricultural machine side in the second agricultural machine based on the highest operation efficiency.

Specifically, in step S443a 1-step S443a3, in the present embodiment, it is determined whether there are a plurality of second agricultural machines sides that are the same as the unit price of the cheng agricultural machinery unit job based on the unit job price; if the number of the agricultural machinery is single, determining that the Chenqi agricultural machinery is the side of the target agricultural machinery; and if the number of the agricultural machinery is multiple, comparing the operating efficiency of the eight-money agricultural machinery hand with that of the seven-money agricultural machinery hand, wherein the workload completed by the seven-money agricultural machinery hand in unit time is 1 mu in hour and 2 mu in unit time, and determining the eight-money agricultural machinery hand as the target agricultural machinery side based on the highest operating efficiency.

As shown in fig. 5, step S400 includes the following steps:

S41B, acquiring unit operation prices of all the second agricultural machinery side based on the unit operation unit prices;

S42B, comparing the unit operation price to obtain the lowest unit operation price;

and S43B, determining the target agricultural machine side based on the lowest unit operation price.

Specifically, in this embodiment, the second agricultural machine side includes a six-foot-member-of-the-zhao agricultural machine hand and a seven-foot-member-of-the-old agricultural machine hand, the unit operation prices of the six-foot-member-of-the-zhao agricultural machine hand and the seven-foot-member-of-the-old agricultural machine hand are obtained based on the unit operation unit price, the amount of money to be collected by the six-foot-member-of-the-zhao agricultural machine hand in a unit area where agricultural needs to be completed is 60 yuan, the amount of money to be collected by the seven-foot-member-of-the-old agricultural machine hand in a unit area where agricultural needs to be completed is 50 yuan, the unit operation unit prices of the six-foot-of the zhao agricultural machine hand and the seven-foot-machine hand are compared, and the seven-foot-member-of-the old agricultural machine hand is determined to be the target agricultural machine side based on the lowest unit operation price.

As shown in fig. 6, step S400 includes the following steps:

S41C, acquiring all sizes of the agricultural machinery in the second agricultural machinery side based on the operation area;

S42C, matching the size of the suitable agricultural machine based on the size of the operation area to obtain the optimal size of the agricultural machine;

and S43C, determining the target agricultural machine side based on the optimal agricultural machine size.

Specifically, in this embodiment, the second agricultural machine side includes a monday agricultural machine hand and a madman agricultural machine hand, the agricultural machine sizes of the monday agricultural machine hand and the madman agricultural machine hand are obtained based on the operation areas, the operation area of the operation side is 100 mu, the agricultural machine size of the monday agricultural machine hand is 5 m × 6 m × 7 m, the agricultural machine size of the madman agricultural machine hand is 1 m × 2 m × 3 m, the unit operation unit prices of the monday agricultural machine hand and the madman agricultural machine hand are compared, and the monday agricultural machine hand is determined to be the target agricultural machine side based on the operation area of 100 mu.

As shown in fig. 7, step S400 includes the following steps:

S41D, acquiring all the operation efficiency in the second agricultural machine side based on the operation specified completion duration;

S42D, comparing all the operation efficiencies to obtain the highest operation efficiency;

and S43D, determining the target agricultural machine side based on the highest working efficiency.

Specifically, in this embodiment, the second agricultural machine side includes a seven-old agricultural machine hand and a eight-money agricultural machine hand, and the operation efficiency of the seven-old agricultural machine hand and the eight-money agricultural machine hand is obtained based on the specified operation completion duration, the amount of work completed by the seven-old agricultural machine hand in a unit time is 1 hour and 1 mu, and the amount of work completed by the eight-money agricultural machine hand in a unit time is 1 hour and 2 mu, the operation efficiency of the eight-money agricultural machine hand and the seven-old agricultural machine hand is compared, and the eight-money agricultural machine hand is determined as the target agricultural machine side based on the highest operation efficiency.

The implementation principle of the agricultural machinery scheduling method in the embodiment of the application is as follows: the agricultural operation demand of the operation side is obtained, and the agricultural operation demand is sent to a first agricultural machine side within a certain range, wherein the agricultural operation demand comprises an operation demand place position, unit operation unit price, operation specified completion time length and operation area. And the side of the second agricultural machine with the shortest distance to the operation demand place is preferentially obtained by sequencing from near to far by taking the operation demand place as the center of a circle and the position from the operation demand place to the side of the second agricultural machine as the radius. Judging whether a plurality of second agricultural machine sides with the shortest distance to the operation demand place exist, and if the number of the second agricultural machine sides is single, determining that the single second agricultural machine side is the target agricultural machine side; and if the number of the second agricultural machines is more than two, comparing the time lengths required by all the second agricultural machines to reach the working place positions, and determining the target agricultural machine side from the second agricultural machines on the basis of the shortest time length required by reaching the working place positions. And judging whether a plurality of second agricultural machine sides with the shortest time length required for reaching the operation place position are provided, if so, determining that the single second agricultural machine side is the target agricultural machine side, if so, comparing unit operation prices of the plurality of second agricultural machine sides, and determining that the second agricultural machine side with the lowest unit operation price is the target agricultural machine side based on the unit operation prices. And judging whether the second agricultural machine side with the lowest unit operation price is multiple, if so, determining that the single second agricultural machine side is the target agricultural machine side, if so, comparing the operation efficiency of the multiple second agricultural machine sides, and determining that the second agricultural machine side with the highest operation efficiency is the target agricultural machine side based on the operation regulation completion duration. The agricultural machinery scheduling method provided by the application has the advantages that the agricultural machinery scheduling method is convenient to match to a proper agricultural machinery driver based on agricultural operation requirements, so that the agricultural operation efficiency is improved,

the embodiment of the application further discloses an agricultural machinery scheduling system, as shown in fig. 8, comprising an obtaining module 1, a processing module 2 and an output module 3. The acquisition module 1 is used for acquiring agricultural operation requirements of an operation side and a first agricultural machine side; the processing module 2 is used for determining a second agricultural machine side in the first agricultural machine side, matching agricultural operation requirements with agricultural machine information of the second agricultural machine side, and determining a target agricultural machine side from the second agricultural machine side; the output module 3 is used for outputting the operation result of the target agricultural machine side after the agricultural operation requirement is completed on the target agricultural machine side.

The system takes software as a carrier, and completes the dispatching work of the agricultural machinery through the information interaction and matching between the operation side and the agricultural machinery side.

Specifically, in the present embodiment, the agricultural work demand on the work side and the first agricultural machine side are acquired by the acquisition module 1. The processing module 2 determines the first agricultural machine side receiving the agricultural operation requirement as the second agricultural machine side, the processing module 2 takes the operation requirement position as the center of a circle, takes the position from the operation requirement place to the second agricultural machine side position as the radius, and the second agricultural machine side with the shortest distance to the operation requirement place is preferentially obtained through the obtaining module 1 in a sequence from near to far. Taking a coordinate axis as an example, units of an X coordinate axis and a Y coordinate axis are kilometers, coordinates of a position of an operation demand place are (0, 0), a second agricultural machine side includes a zhangsan agricultural machine hand, a zhangsi agricultural machine hand and a wang five agricultural machine hand, the position coordinates of the zhangsan agricultural machine hand are (1, 0), the position coordinates of the zhangsan agricultural machine hand are (2, 0), the position coordinates of the wang five agricultural machine hand are (3, 0), and the acquisition module 1 preferentially acquires the zhangsan agricultural machine hand.

More specifically, in the present embodiment, the processing module 2 determines whether there are a plurality of second agricultural machines equidistant from the zhangsan agricultural machine hand based on the job demand location. If the number of the agricultural robots is single, the processing module 2 determines that Zhang Sannong's robot is the side of the target agricultural machine; if the number of the agricultural machinery hand reaches a plurality of positions, the processing module 2 compares the time length required by the Zhaosan agricultural machinery hand and the Zhao hexa agricultural machinery hand to reach the position of the operation place, the time required by the Zhaosan agricultural machinery hand to reach the position of the operation place is 1 hour, the time required by the Zhaosan agricultural machinery hand to reach the position of the operation place is 1.5 hours, and the processing module 2 determines the Zhaosan agricultural machinery hand to be the target agricultural machinery side based on the shortest time length required by the Zhao hexa agricultural machinery hand to reach the position of the operation place.

More specifically, in the present embodiment, the processing module 2 determines whether there are a plurality of second agricultural machinery sides that are the same as the time taken for the six-o-zhao agricultural machinery to reach the working location based on the length of time required to reach the working location, and if there is a single one, the processing module 2 determines that the six-o-zhao agricultural machinery is the target agricultural machinery side; if the number of the agricultural machinery units is multiple, the processing module 2 compares unit operation unit prices of the six-foot-farm-machinery-Zhao and the seven-foot-farm-machinery-Chen, the amount of money to be collected by the six-foot-farm-machinery-Zhao to complete the agricultural demand is 60 yuan, the amount of money to be collected by the seven-foot-farm-machinery-Chen to complete the agricultural demand is 50 yuan, and the processing module 2 determines the seven-foot-farm-machinery-Chen to be the target agricultural machinery side.

More specifically, in the present embodiment, the processing module 2 determines whether there are a plurality of second agricultural machines sides having the same price as the chenqinong's aircraft unit job price based on the unit job price; if the number of the agricultural machinery is single, the processing module 2 determines that the Chenqi agricultural machinery is the target agricultural machinery side; if the number of the agricultural machinery is multiple, the processing module 2 compares the operation efficiency of the eight-money agricultural machinery with that of the seven-money agricultural machinery, the workload completed by the seven-money agricultural machinery in unit time is 1 mu in hour and 2 mu in unit time, and the processing module 2 determines the eight-money agricultural machinery as the target agricultural machinery side based on the highest operation efficiency.

Specifically, in this embodiment, the second agricultural machine side confirmed by the processing module 2 includes a six-foot-member-of-the-zhao agricultural machine hand and a seven-foot-member-of-the-old agricultural machine hand, the obtaining module 1 obtains unit operation prices of the six-foot-member-of-the-zhao agricultural machine hand and the seven-foot-member-of-the-old agricultural machine hand based on unit operation unit prices, the amount to be collected by the six-foot-member-of-the-zhao agricultural machine hand in a unit area where agricultural needs are completed is 60 yuan, the amount to be collected by the seven-foot-member-of-the-zhao agricultural machine hand in a unit area where agricultural needs are completed is 50 yuan, the processing module 2 compares the unit operation unit prices of the six-foot-member-of-the two-foot-member-of the seven-foot-machine hand, and determines the seven-foot-machine hand as the target agricultural machine side based on the lowest unit operation prices.

Specifically, in this embodiment, the second agricultural machinery side confirmed by the processing module 2 includes a monday agricultural machinery hand and a madman agricultural machinery hand, the obtaining module 1 obtains the sizes of the monday agricultural machinery hand and the madman agricultural machinery hand based on the operation areas, the operation area of the operation side is 100 mu, the size of the monday agricultural machinery hand is 5 m × 6 m × 7 m, the size of the madman agricultural machinery hand is 1 m × 2 m × 3 m, the processing module 2 compares the unit operation unit prices of the monday agricultural machinery hand and the madman agricultural machinery hand, and the monday agricultural machinery hand is determined to be the target agricultural machinery side based on the operation area of 100 mu.

Specifically, in this embodiment, the second agricultural machine side confirmed by the processing module 2 includes a seven-old agricultural machine hand and a eight-money agricultural machine hand, the obtaining module 1 obtains the operation efficiency of the seven-old agricultural machine hand and the eight-money agricultural machine hand based on the specified completion duration of the operation, the workload completed by the seven-old agricultural machine hand in unit time is 1 hour and 1 mu, the workload completed by the eight-money agricultural machine hand in unit time is 1 hour and 2 mu, the processing module 2 compares the operation efficiency of the eight-money agricultural machine hand and the seven-old agricultural machine hand, and the eight-money agricultural machine hand is determined as the target agricultural machine side based on the highest operation efficiency.

Specifically, in the present embodiment, after the processing module 2 determines the target agricultural machine side from the second agricultural machine side, the target agricultural machine side determines the specific work content based on the agricultural work requirement of the working side, and after the target agricultural machine side completes the specific work content, the working side performs scoring evaluation through the output module 3 according to the result of the agricultural machine side completing the work content. For example, the money eight-farm machinist is determined as the target agricultural machinery side, the operation content of the operation side is that the wheat harvesting of 10 mu is completed within 5 hours, the money eight-farm machinist does not complete the wheat harvesting within 5 hours, and the operation side can evaluate the difference for the money eight-farm machinist; the money-eight-farm machinist spends 5 hours to complete the wheat harvesting, and the working side can evaluate the money-eight-farm machinist as good; the Qianbingman finishes the wheat harvesting within 5 hours, and the operation side can evaluate the Qianbingman as excellent.

The implementation principle of an agricultural machinery scheduling system in the embodiment of the application is as follows: the agricultural operation requirement of the operation side is obtained through the obtaining module 1, and the agricultural operation requirement is sent to a first agricultural machine side within a certain range, wherein the agricultural operation requirement comprises an operation requirement place position, unit operation unit price, operation regulation completion time length and operation area. The processing module 2 takes the position of the operation demand place as the center of a circle, takes the position from the position of the operation demand place to the side position of the second agricultural machine as the radius, and preferentially obtains the side of the second agricultural machine with the shortest distance to the operation demand place in a sequence from near to far. The processing module 2 judges whether a plurality of second agricultural machine sides with the shortest distance to the operation demand place exist, if the number of the second agricultural machine sides is single, the processing module 2 determines that the single second agricultural machine side is the target agricultural machine side; if the number of the second agricultural machines is more than two, the processing module 2 compares the time lengths required by all the second agricultural machines to reach the positions of the operation places, and determines the target agricultural machine side from the second agricultural machines on the basis that the time length required by reaching the positions of the operation places is the shortest. The processing module 2 judges whether a plurality of second agricultural machine sides with the shortest time length required for reaching the operation place position are provided, if the number of the second agricultural machine sides is single, the processing module 2 determines that the single second agricultural machine side is the target agricultural machine side, if the number of the second agricultural machine sides is multiple, the processing module 2 compares unit operation prices of the plurality of second agricultural machine sides, and the second agricultural machine side with the lowest unit operation price is determined to be the target agricultural machine side based on the unit operation price. The processing module 2 judges whether the second agricultural machine side with the lowest unit operation price is multiple, if the second agricultural machine side is single, the processing module 2 determines that the single second agricultural machine side is the target agricultural machine side, if the second agricultural machine side is multiple, the processing module 2 compares the operation efficiency of the multiple second agricultural machine sides, and the second agricultural machine side with the highest operation efficiency is determined to be the target agricultural machine side based on the operation specified completion duration. After the processing module 2 determines the target agricultural machine side from the second agricultural machine side, the target agricultural machine side determines specific operation contents based on agricultural operation requirements of the operation side, and after the target agricultural machine side completes the specific operation contents, the operation side performs scoring evaluation through the output module 3 according to results of the operation contents completed by the agricultural machine side. The agricultural machinery scheduling system provided by the application is convenient for providing a proper target agricultural machinery rule for the operation side based on agricultural operation requirements, so that the agricultural work efficiency is improved.

The embodiment of the application further discloses a terminal device, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein when the processor executes the computer program, the agricultural machinery scheduling method in the embodiment is adopted.

The terminal device may adopt a computer device such as a desktop computer, a notebook computer, or a cloud server, and the terminal device includes but is not limited to a processor and a memory, for example, the terminal device may further include an input/output device, a network access device, a bus, and the like.

The processor may be a Central Processing Unit (CPU), and of course, according to an actual use situation, other general processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like may also be used, and the general processor may be a microprocessor or any conventional processor, and the present application does not limit the present invention.

The memory may be an internal storage unit of the terminal device, for example, a hard disk or a memory of the terminal device, or an external storage device of the terminal device, for example, a plug-in hard disk, a smart card memory (SMC), a secure digital card (SD) or a flash memory card (FC) equipped on the terminal device, and the memory may also be a combination of the internal storage unit of the terminal device and the external storage device, and the memory is used for storing a computer program and other programs and data required by the terminal device, and the memory may also be used for temporarily storing data that has been output or will be output, which is not limited in this application.

The agricultural machinery scheduling method in the embodiment is stored in a memory of the terminal device through the terminal device, and is loaded and executed on a processor of the terminal device, so that the agricultural machinery scheduling method is convenient to use.

The embodiment of the application also discloses a computer readable storage medium, and the computer readable storage medium stores a computer program, wherein when the computer program is executed by a processor, the agricultural machinery scheduling method in the above embodiment is adopted.

The computer program may be stored in a computer readable medium, the computer program includes computer program code, the computer program code may be in a source code form, an object code form, an executable file or some intermediate form, and the like, the computer readable medium includes any entity or device capable of carrying the computer program code, a recording medium, a usb disk, a removable hard disk, a magnetic disk, an optical disk, a computer memory, a Read Only Memory (ROM), a Random Access Memory (RAM), an electrical carrier signal, a telecommunication signal, a software distribution medium, and the like, and the computer readable medium includes but is not limited to the above components.

The agricultural machinery scheduling method in the embodiment is stored in the computer-readable storage medium through the computer-readable storage medium, and is loaded and executed on the processor, so that the storage and the application of the method are facilitated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An agricultural machinery scheduling method is characterized by comprising the following steps:

acquiring agricultural operation requirements of an operation side;

pushing the agricultural operation demand line to a first agricultural machine side, wherein at least one first agricultural machine side is provided;

when a second agricultural machine side in the first agricultural machine side receives the agricultural operation requirement, acquiring agricultural machine information of the second agricultural machine side, wherein the number of the second agricultural machine side is at least one, and the number of the second agricultural machine side is smaller than that of the first agricultural machine side;

determining a target agricultural machine side from the second agricultural machine side based on the agricultural work demand and the agricultural machine information;

and obtaining an operation result of the target agricultural machine side after the agricultural operation requirement is completed by the target agricultural machine side.

2. The agricultural machinery scheduling method of claim 1, wherein the agricultural work demand includes a place of work demand, the agricultural machinery information includes a time length required to reach the place of work, the time length required to reach the place of work is a time length required for the second agricultural machinery side to reach the place of work demand, and the determining the target agricultural machinery side from the second agricultural machinery side based on the agricultural work demand and the agricultural machinery information comprises the following steps:

the second agricultural machine sides are obtained in a sequence from near to far based on the positions of the operation demand places, and the second agricultural machine side with the shortest distance to the operation demand places is obtained;

judging whether a plurality of second agricultural machinery sides with the shortest distance to the operation demand position are provided;

if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

and if the number of the second agricultural machines is multiple, comparing the time lengths required by the multiple second agricultural machines to reach the positions of the operation places, and determining that the second agricultural machine with the shortest time length required by the second agricultural machine to reach the positions of the operation places is the target agricultural machine.

3. The agricultural machinery scheduling method according to claim 2, wherein the agricultural work demand further includes unit work unit price, the agricultural machinery information further includes unit work price, and the determining the second agricultural machinery side having the shortest time required to reach the work place location as the target agricultural machinery side includes the steps of:

judging whether a plurality of second agricultural machinery sides with the shortest time length for reaching the operation place are provided;

if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

if the number of the unit operation prices is more than one, acquiring unit operation prices in the second agricultural machine side based on the unit operation unit prices, comparing the unit operation prices to obtain the lowest unit operation price,

determining the target agricultural side from a plurality of the second agricultural sides based on the lowest unit job bid.

4. The agricultural work scheduling method of claim 3, wherein the agricultural work demand further comprises a work specification completion duration, the agricultural information further comprises a work efficiency, and the determining the target agricultural machine side from the plurality of second agricultural machine sides based on the minimum unit work bid price comprises the steps of:

judging whether the number of the second agricultural machinery sides in the lowest unit operation price is multiple or not;

if the number of the second agricultural machine is single, determining that the single second agricultural machine side is the target agricultural machine side;

if the number of the operation efficiency is multiple, all the operation efficiencies in the second agricultural machine side are obtained based on the specified operation completion duration, all the operation efficiencies are compared to obtain the highest operation efficiency, and the target agricultural machine side in the second agricultural machine side is determined based on the highest operation efficiency.

5. The agricultural work scheduling method of claim 1, wherein the agricultural work demand further comprises a unit work price, the agricultural information further comprises a unit work price, and the determining a target agricultural machine side from the second agricultural machine side based on the agricultural work demand and the agricultural information comprises the steps of:

acquiring unit operation prices of all the unit operations in the second agricultural machine side based on the unit operation unit prices;

comparing all the unit operation prices to obtain the lowest unit operation price;

determining the target agricultural machine side based on the lowest unit job bid.

6. The agricultural machine scheduling method of claim 1, wherein the agricultural work demand further comprises a work area, the agricultural machine information further comprises an agricultural machine size, and the determining a target agricultural machine side from the second agricultural machine side based on the agricultural work demand and the agricultural machine information comprises the steps of:

obtaining all agricultural machine sizes in the second agricultural machine side based on the working area;

matching the size of the suitable agricultural machinery based on the size of the operation area to obtain the optimal size of the agricultural machinery;

determining the target agricultural machine side based on the optimal agricultural machine size.

7. The agricultural implement scheduling method of claim 1, wherein the agricultural work demand further includes a work specification completion duration, the agricultural implement information further includes a work efficiency, and the determining a target agricultural implement side from the second agricultural implement side based on the agricultural work demand and the agricultural implement information comprises the steps of:

acquiring all the operation efficiencies in the second agricultural machine side based on the operation specified completion duration;

comparing all the operation efficiencies to obtain the highest operation efficiency;

determining the target agricultural machine side based on the highest work efficiency.

8. An agricultural machinery scheduling system, comprising;

an obtaining module 1, wherein the obtaining module 1 is used for obtaining agricultural operation requirements of the operation side and the first agricultural machine side;

a processing module 2, wherein the processing module 2 is configured to determine a second agricultural machine side of the first agricultural machine side, match the agricultural work demand with agricultural machine information of the second agricultural machine side, and determine a target agricultural machine side from the second agricultural machine side;

and the output module 3 is used for outputting the operation result of the target agricultural machine side after the agricultural operation requirement is completed by the target agricultural machine side.

9. A terminal device comprising a memory, a processor and a computer program stored in the memory and being executable on the processor, characterized in that the method of any of claims 1-7 is used when the computer program is loaded and executed by the processor.

10. A computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, carries out the method of any one of claims 1 to 7.

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