CN110119436B - Method and system for determining seedling planting progress, storage medium and electronic equipment - Google Patents

Abstract

The invention relates to a method and a system for determining the planting progress of seedlings, a storage medium and electronic equipment. The invention aims to provide a method and a system for determining the planting progress of seedlings, a storage medium and electronic equipment, which are used for visually and comprehensively representing the planting progress of the seedlings. The technical scheme of the invention is as follows: a method for determining the planting progress of seedlings is characterized by comprising the following steps: acquiring map information of a corresponding seedling planting area and displaying a map of the planting area; acquiring nursery stock information of planted nursery stocks in a nursery stock planting area; acquiring field measurement information corresponding to the nursery stock information, associating the field measurement information with the corresponding nursery stock information, and storing the field measurement information in a database, wherein the field measurement information comprises a planting position; and marking and displaying points with the color I at corresponding positions on the planting area map according to the planting positions. The method is suitable for the technical field of monitoring the seedling planting progress condition in the forest industry.

Description

Method and system for determining seedling planting progress, storage medium and electronic equipment

Technical Field

The invention relates to a method and a system for determining the planting progress of seedlings, a storage medium and electronic equipment. The method is suitable for the technical field of monitoring the seedling planting progress condition in the forest industry.

Background

At present, the seedling planting progress condition in the afforestation industry is generally represented by numbers, only the quantity information of planted and unplanted seedlings is recorded, the number description mode is not visual enough, the display information is incomplete, and a user cannot quickly, accurately and comprehensively know the seedling planting progress condition.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the existing problems, a method, a system, a storage medium and an electronic device for determining the planting progress condition of the seedlings are provided, so that the planting progress condition of the seedlings can be visually and comprehensively represented.

The technical scheme adopted by the invention is as follows: a method for determining the planting progress of seedlings is characterized by comprising the following steps:

acquiring map information of a corresponding seedling planting area and displaying a map of the planting area;

acquiring nursery stock information of planted nursery stocks in a nursery stock planting area;

acquiring field measurement information corresponding to the nursery stock information, associating the field measurement information with the corresponding nursery stock information, and storing the field measurement information in a database, wherein the field measurement information comprises a planting position;

and marking and displaying points with the color I at corresponding positions on the planting area map according to the planting positions.

The field measurement information comprises the planting position of the planted nursery stock, nursery stock measurement data and a nursery stock photo.

Further comprising:

judging according to the field measurement information of the planted nursery stock and generating a corresponding nursery stock spot check state instruction;

and marking and displaying points with different colors at corresponding positions on the map of the planting area according to different seedling spot check state instructions.

The judging and generating corresponding nursery stock spot check state instructions according to the field measurement information of the planted nursery stock comprises the following steps:

judging whether the field measurement information of the planted nursery stock is input wrongly;

if the field measurement information is input wrongly, determining the planted seedlings as the planted seedlings needing to be returned, and generating a return instruction;

if the field measurement information is correctly input, the next judgment is carried out;

acquiring nursery stock quality standard information, and judging whether nursery stock measurement data in field measurement information of planted nursery stocks is within a nursery stock quality standard range;

if any nursery stock measurement data in the field measurement information is not within the nursery stock quality standard range, generating a nursery stock withdrawal instruction;

if the nursery stock measurement data in the field measurement information are all within the nursery stock quality standard range, carrying out next judgment;

acquiring a judgment result for judging whether the planted nursery stock has nursery stock damage according to the nursery stock photo in the field measurement information;

if the broken result indicates that the planted nursery stock has nursery stock damage, generating the seedling retreating instruction;

and if the judgment result shows that the planted nursery stock has no nursery stock damage, generating the qualified instruction.

A seedling planting progress situation determination system is characterized by comprising:

the map acquisition module is used for acquiring map information of a corresponding seedling planting area and displaying a map of the planting area;

the nursery stock information acquisition module is used for acquiring nursery stock information of planted nursery stocks in the nursery stock planting area;

the field measurement information acquisition module is used for acquiring field measurement information corresponding to the nursery stock information, the field measurement information is associated with the corresponding nursery stock information and is stored in a database, and the field measurement information comprises a planting position;

and the map marking module is used for marking and displaying points with the color I at corresponding positions on the planting area map according to the planting positions.

The field measurement information comprises the planting position of the planted nursery stock, nursery stock measurement data and a nursery stock photo.

Still include selective examination nursery stock state judgement module and selective examination nursery stock state display module, wherein:

the spot check seedling state judgment module is used for judging according to the field measurement information of the planted seedlings and generating corresponding seedling spot check state instructions;

and the spot check seedling state display module is used for marking and displaying points with different colors at corresponding positions on the planting area map according to different seedling spot check state instructions.

The nursery stock spot check module comprises a first judgment module, a second judgment module and a third judgment module;

the first judging module is used for judging whether the field measurement information of the planted nursery stock is input wrongly;

if the field measurement information is input wrongly, determining the planted seedlings as the planted seedlings needing to be returned, and generating a return instruction;

if the field measurement information is correctly input, the next judgment is carried out;

the second judging module is used for acquiring the seedling quality standard information and judging whether the seedling measurement data in the field measurement information of the planted seedlings is within the seedling quality standard range;

if any nursery stock measurement data in the field measurement information is not within the nursery stock quality standard range, generating a nursery stock withdrawal instruction;

if the nursery stock measurement data in the field measurement information are all within the nursery stock quality standard range, carrying out next judgment;

the third judging module is used for acquiring a judging result of judging whether the planted nursery stock has nursery stock damage according to the nursery stock photo in the field measurement information;

if the broken result indicates that the planted nursery stock has nursery stock damage, generating the seedling retreating instruction;

and if the judgment result shows that the planted nursery stock has no nursery stock damage, generating the qualified instruction.

A storage medium having stored thereon a computer program executable by a processor, the computer program comprising: the computer program realizes the steps of the seedling planting progress condition determination method when being executed by a processor.

An electronic device having a processor and a storage medium storing a computer program executable by the processor, characterized by: the computer program realizes the steps of the seedling planting progress condition determination method when being executed by a processor.

The invention has the beneficial effects that: the invention acquires the nursery stock information and the field measurement information, marks and displays the nursery stock information and the field measurement information on the map in a point form according to the planting position in the field measurement information, and adopts points with different colors to represent different states, thereby realizing two-dimensional visual display of the nursery stock planting progress condition, being vivid, efficient, reasonable, abstract, simple and easy to understand, and being capable of rapidly knowing the overall positioning progress condition of the planting project in a macroscopic view.

Drawings

FIG. 1 is a flow chart of an embodiment.

Fig. 2 is a flowchart illustrating a determination according to field measurement information in the embodiment.

Fig. 3 is a system block diagram of an embodiment.

Detailed Description

As shown in fig. 1, this embodiment is a method for determining a seedling planting progress, which specifically includes the following steps:

and S01, acquiring the map information of the corresponding seedling planting area and displaying the map of the planting area.

And S02, acquiring the seedling information of the planted seedlings in the seedling planting area.

And scanning the two-dimensional code nameplate on a certain seedling to obtain the sequence code and the tree species of the planted seedling.

And S03, acquiring field measurement information corresponding to the nursery stock information, associating the field measurement information with corresponding nursery stock information, and storing the field measurement information into a database, wherein the field measurement information comprises sequence codes, tree species, planting positions, plots, areas, shifts, twickies, mark segments, nursery stock measurement data (height, ground diameter, crown breadth and breast diameter), and nursery stock photos (height photos, ground diameter photos, crown breadth photos and breast diameter photos) of the planted nursery stocks.

In this embodiment, the RTK handheld positioning device is used to perform positioning to obtain the specific coordinates of the seedling planting position, so as to obtain the planting position of the planted seedling.

The height, ground diameter, crown breadth, breast diameter and other nursery stock measurement data of the planted nursery stock, the height photo, the ground diameter photo, the crown breadth photo and the breast diameter photo corresponding to the nursery stock measurement data, and the land parcel, area, class and mark section where the planted nursery stock is located are all recorded after being measured on site by constructors.

And associating and storing the field measurement information of the planted seedlings and the two-dimensional codes of the planted seedlings in a database. Each seedling has a unique corresponding two-dimensional code, and all information of the planted seedling can be obtained by scanning the two-dimensional code of the planted seedling.

And S04, marking and displaying the corresponding positions on the planting area map by green dots according to the planting positions.

The green points on the map represent the planted seedlings which are not subjected to spot check, in this embodiment, the planted seedlings are called as planted seedlings which are not subjected to spot check, and after the planted seedlings which are not subjected to spot check are spot checked, the marking color of the planted seedlings can be updated according to the spot check state.

And S05, judging according to the field measurement information of the planted seedlings and generating corresponding seedling spot check state instructions, wherein the seedling spot check state instructions are return instructions, seedling withdrawal instructions or qualified instructions. And the supervisor randomly scans the two-dimensional code nameplate on the planted nursery stock according to a certain proportion to carry out spot check to determine the spot check state of each nursery stock, and a nursery stock spot check state instruction can be automatically generated according to the field measurement information of the planted nursery stock.

S051, the supervision personnel scan the two-dimensional codes on the planted seedlings to obtain the field measurement information of the planted seedlings, and if the construction personnel input wrong field measurement information due to hand errors and the like, the supervision personnel input a return instruction to require the construction personnel to input correct data again. The return instruction can also be automatically generated by the system, and the automatic generation method of the return instruction comprises the following steps:

judging whether the field measurement information of the planted nursery stock is input wrongly according to the nursery stock measurement information obtained by field spot check, and obtaining a first judgment result;

if the first judgment result is that the field measurement information is input wrongly, determining that the planted seedlings are planted seedlings needing to be returned, and generating a return instruction; the return instruction comprises field measurement information and input error information description of the planted nursery stock to be returned;

and if the first judgment result is that the field measurement information is correctly input, no return instruction is generated, and the next judgment is carried out.

The constructor can determine which measurement data in the field measurement information is wrong according to the input error information description, so that the wrong data can be corrected quickly and pertinently.

And S052, the supervision personnel obtains the field measurement information of the planted nursery stock by scanning the two-dimensional code on the planted nursery stock, compares the field measurement information with formulated nursery stock quality standard information to determine whether the quality of the planted nursery stock meets the standard or not, and if the quality of the planted nursery stock does not meet the standard, the supervision personnel inputs a seedling withdrawal instruction. The seedling return instruction can also be automatically generated by the system, and the automatic generation method of the seedling return instruction comprises the following steps:

acquiring quality standard information of the nursery stock; the nursery stock quality standard information comprises a height standard range, a ground diameter standard range, a crown breadth standard range and a breast diameter standard range; respectively judging whether the height, the ground diameter, the crown breadth and the breast diameter of the planted nursery stock are within the height standard range, the ground diameter standard range, the crown breadth standard range and the breast diameter standard range to obtain a second judgment result;

if the second judgment result is that any one of the height, the ground diameter, the crown breadth and the breast diameter is not within the standard height range, the standard ground diameter range, the standard crown breadth range and the standard breast diameter range, determining that the planted seedlings are planted seedlings needing seedling withdrawal, and generating the seedling withdrawal instruction; the seedling retreating instruction comprises field measurement information of the planted seedlings needing to be retreated and the reason description of the seedling retreating;

and if the second judgment result is that the height, the ground diameter, the crown breadth and the breast diameter are respectively in the height standard range, the ground diameter standard range, the crown breadth standard range and the breast diameter standard range, generating no seedling retreating instruction, and performing next judgment.

S053, acquiring field measurement information of the planted seedlings by scanning the two-dimensional codes on the planted seedlings by a supervisor, and determining whether seedling damage such as seedling trunk cutting, trunk skin damage, crown type deflection, plant diseases and insect pests exists according to the height picture, the ground diameter picture, the crown width picture and the breast diameter picture of the seedlings. If the quality of the planted seedlings does not meet the standard or the seedlings are damaged, a supervisor inputs a seedling returning instruction; if the nursery stock spot check has no problem, the supervisor inputs a qualified instruction. The seedling return instruction and the qualified instruction can also be automatically generated by a system, and the automatic generation method of the seedling return instruction and the qualified instruction comprises the following steps:

judging whether the planted seedlings have seedling damage or not according to the height picture, the ground diameter picture, the crown width picture and the breast diameter picture of the planted seedlings to obtain a third judgment result; the seedling damage comprises seedling trunk cutting, dry skin damage, crown deviation and plant diseases and insect pests;

if the third judgment result shows that the planted seedlings have seedling damages, determining the planted seedlings to be the planted seedlings needing seedling withdrawal, and generating the seedling withdrawal instruction; the seedling retreating instruction comprises field measurement information of the planted seedlings needing to be retreated and the reason description of the seedling retreating;

and if the third judgment result shows that the planted seedlings do not have seedling damage, determining that the planted seedlings are qualified by spot check, and generating the qualified instruction (see fig. 2).

And S06, marking and displaying points with different colors at corresponding positions on the planting area map according to different seedling spot check state instructions.

And marking and displaying the planted seedlings corresponding to the return instruction as planted seedlings to be returned on a GIS (Geographic Information System) map in a red dot mode. Marking and displaying planted seedlings needing to be retreated on a map in a gray point mode according to the seedling retreating instruction; and marking and displaying the planted seedlings qualified by spot check on a map in a red dot mode according to the qualified instruction.

In this embodiment, a user can check nursery measurement information, field measurement information and flow information associated with a planted seedling corresponding to a single point on a map by clicking the single point. The nursery measurement information is nursery measurement information of planted seedlings recorded by nursery personnel, and the field measurement information is field measurement information of the planted seedlings recorded by field constructors before planting the seedlings. The process information refers to the operation and audit information record of a seedling by staff.

On one hand, each planted seedling is abstracted into one point on a GIS map, and the planted seedlings in different spot check states are represented by points with different colors, so that the method is reasonable, abstract, concise and understandable, and is vivid and efficient; on the other hand, the detailed information of the seedling planting progress can be displayed, such as the specific number of the planted seedlings which are not subjected to the spot check, the number of the planted seedlings which are subjected to the spot check, the proportion of the seedlings which are subjected to the spot check or the proportion of the seedlings which are subjected to the spot check; on the other hand, the overall project positioning progress condition (the total number of green points and red points reflects the positioning progress), the inspection condition of the supervisor (the total number of red points and gray points reflects the inspection progress of the supervisor) and the planting quality condition (the comparison of the number of red points and gray points reflects the planting quality condition) can be macroscopically and rapidly known; furthermore, the distribution of the red points and the gray points can be used as the examination basis for the random spot examination of the supervisor. Therefore, according to the method provided by the embodiment, each seedling is simplified into a single point by means of a graphical means, the seedling spot check states are distinguished by the colors of the points, the progress information of the project can be clearly and effectively transmitted and communicated, and two-dimensional visual display of the seedling planting and spot check progress conditions is realized.

In the embodiment, BIM (Building Information Modeling ) + GIS technology can be used for giving engineering Information to the three-dimensional model of the seedling, so that the growth condition under four-season change is simulated, and the seedling planting condition is more visual and visual.

Fig. 3 is a system for determining a seedling planting progress in this embodiment, which includes a map obtaining module 1, a seedling information obtaining module 2, a field measurement information obtaining module 3, a map marking module 4, a selective seedling state determining module 5, and a selective seedling state displaying module 6.

In this embodiment, the map obtaining module 1 is configured to obtain map information of a corresponding seedling planting area and display a map of the planting area; the seedling information acquisition module 2 is used for acquiring the seedling information of the planted seedlings in the seedling planting area; the field measurement information acquisition module 3 is used for acquiring field measurement information corresponding to the nursery stock information, the field measurement information is associated with corresponding nursery stock information and is stored in a database, and the field measurement information comprises a planting position; the map marking module 4 is used for marking and displaying green points at corresponding positions on the planting area map according to planting positions; the spot check seedling state judgment module 5 is used for judging according to the field measurement information of the planted seedlings and generating corresponding seedling spot check state instructions; and the spot check seedling state display module 6 is used for marking and displaying points with different colors at corresponding positions on the planting area map according to different seedling spot check state instructions.

The module for judging the status of the spot-check nursery stock 5 in this example comprises a first judging module 501, a second judging module 502 and a third judging module 503.

In this example, the first judging module 501 is configured to judge whether the field measurement information of the planted nursery stock is input incorrectly; if the field measurement information is input wrongly, determining the planted seedlings as the planted seedlings needing to be returned, and generating a return instruction; and if the field measurement information is correctly input, performing the next judgment.

The second judging module 502 is configured to obtain the seedling quality standard information, and judge whether the seedling measurement data in the field measurement information of the planted seedlings is within the seedling quality standard range; if any nursery stock measurement data in the field measurement information is not within the nursery stock quality standard range, generating a nursery stock withdrawal instruction; and if the seedling measurement data in the field measurement information are all in the seedling quality standard range, performing the next judgment.

The third judging module 503 is configured to judge whether the planted nursery stock has nursery stock damage according to the nursery stock photo in the field measurement information; if the broken result indicates that the planted nursery stock has nursery stock damage, generating the seedling retreating instruction; and if the judgment result shows that the planted nursery stock has no nursery stock damage, generating the qualified instruction.

The present embodiment also provides a storage medium having stored thereon a computer program executable by a processor, the computer program, when being executed by the processor, implementing the steps of the seedling planting progress determination method of the present embodiment.

The present embodiment also provides an electronic device (e.g., a mobile phone) having a processor and a storage medium, where the storage medium stores a computer program executable by the processor, and the computer program, when executed by the processor, implements the steps of the seedling planting progress determining method according to the present embodiment.

Claims (4)

1. A method for determining the planting progress of seedlings is characterized by comprising the following steps:

acquiring map information of a corresponding seedling planting area and displaying a map of the planting area;

acquiring nursery stock information of planted nursery stocks in a nursery stock planting area;

acquiring field measurement information corresponding to the nursery stock information, associating the field measurement information with the corresponding nursery stock information, and storing the field measurement information in a database, wherein the field measurement information comprises a planting position;

marking and displaying points with a color I at corresponding positions on the planting area map according to the planting positions;

further comprising:

judging according to the field measurement information of the planted nursery stock and generating a corresponding nursery stock spot check state instruction;

marking and displaying points with different colors at corresponding positions on the map of the planting area according to different nursery stock spot check state instructions;

the field measurement information comprises the planting position of the planted nursery stock, nursery stock measurement data and a nursery stock photo;

the judging and generating corresponding nursery stock spot check state instructions according to the field measurement information of the planted nursery stock comprises the following steps:

judging whether the field measurement information of the planted nursery stock is input wrongly;

if the field measurement information is input wrongly, determining the planted seedlings as the planted seedlings needing to be returned, and generating a return instruction;

if the field measurement information is correctly input, the next judgment is carried out;

acquiring nursery stock quality standard information, and judging whether nursery stock measurement data in field measurement information of planted nursery stocks is within a nursery stock quality standard range;

if any nursery stock measurement data in the field measurement information is not within the nursery stock quality standard range, generating a nursery stock withdrawal instruction;

if the nursery stock measurement data in the field measurement information are all within the nursery stock quality standard range, carrying out next judgment;

acquiring a judgment result for judging whether the planted nursery stock has nursery stock damage according to the nursery stock photo in the field measurement information;

if the judgment result shows that the planted seedlings have seedling damages, generating the seedling retreating instruction;

and if the judgment result shows that the planted nursery stock has no nursery stock damage, generating a qualified instruction.

2. A seedling planting progress situation determination system is characterized by comprising:

the map acquisition module (1) is used for acquiring map information of a corresponding nursery stock planting area and displaying a map of the planting area;

the nursery stock information acquisition module (2) is used for acquiring nursery stock information of planted nursery stocks in a nursery stock planting area;

the field measurement information acquisition module (3) is used for acquiring field measurement information corresponding to the nursery stock information, the field measurement information is associated with corresponding nursery stock information and is stored in a database, and the field measurement information comprises a planting position;

the map marking module (4) is used for marking and displaying points with a color I at corresponding positions on the planting area map according to planting positions;

still include spot check nursery stock state judgement module (5) and spot check nursery stock state display module (6), wherein:

the spot check seedling state judgment module (5) is used for judging according to the field measurement information of the planted seedlings and generating corresponding seedling spot check state instructions;

the spot check seedling state display module (6) is used for marking and displaying points with different colors at corresponding positions on the planting area map according to different seedling spot check state instructions;

the field measurement information comprises the planting position of the planted nursery stock, nursery stock measurement data and a nursery stock photo;

the spot check seedling state judgment module (5) comprises a first judgment module (501), a second judgment module (502) and a third judgment module (503);

the first judging module (501) is used for judging whether the field measurement information of the planted nursery stock is input wrongly;

if the field measurement information is input wrongly, determining the planted seedlings as the planted seedlings needing to be returned, and generating a return instruction;

if the field measurement information is correctly input, the next judgment is carried out;

the second judging module (502) is used for acquiring the seedling quality standard information and judging whether the seedling measurement data in the field measurement information of the planted seedlings is within the seedling quality standard range;

if any nursery stock measurement data in the field measurement information is not within the nursery stock quality standard range, generating a nursery stock withdrawal instruction;

if the nursery stock measurement data in the field measurement information are all within the nursery stock quality standard range, carrying out next judgment;

the third judging module (503) is configured to obtain a judgment result for judging whether the planted nursery stock has nursery stock damage according to the nursery stock photo in the field measurement information, and judge whether the planted nursery stock has nursery stock damage according to the nursery stock photo in the field measurement information;

if the broken result indicates that the planted nursery stock has nursery stock damage, generating the seedling retreating instruction;

and if the judgment result shows that the planted nursery stock has no nursery stock damage, generating a qualified instruction.

3. A storage medium having stored thereon a computer program executable by a processor, the computer program comprising: the computer program when executed by a processor implements the steps of the method for determining a progress of planting a seedling of claim 1.

4. An electronic device having a processor and a storage medium storing a computer program executable by the processor, characterized by: the computer program when executed by a processor implements the steps of the method for determining a progress of planting a seedling of claim 1.

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