CN110119435B - Supervision method and system for supervising number of spot check seedlings, storage medium and electronic equipment - Google Patents

Abstract

The invention relates to a supervision method, a supervision system, a storage medium and electronic equipment for supervising the number of selectively-inspected nursery stocks, which are used for ensuring that the number of selectively-inspected nursery stocks meets requirements. The method comprises the following steps: determining the number of the nursery stocks in a certain fine class and presetting a spot check proportion; acquiring the actual total number of the nursery stocks in a certain class; acquiring nursery stock information of nursery stocks by scanning two-dimensional codes of the nursery stocks to be spot-checked, wherein the nursery stock information comprises the varieties, the affiliated shifts, the numbers and other measurement information of the nursery stocks, and adding 1 to the actual spot-check number of the nursery stocks when the nursery stock information which is not spot-checked and scanned in a certain shift is acquired by scanning each time; determining the actual spot check proportion of the number of the seedlings according to the actual total number of the seedlings and the actual spot check number of the seedlings; judging whether the error of the actual spot check proportion of the number of the seedlings and the preset spot check proportion of the number of the seedlings is within the error threshold range or not; if so, determining that the proportion of the number of the nursery stocks for supervision and spot inspection is qualified; and if not, prompting to continue spot check on the nursery stock. The invention is suitable for the field of supervision and management.

Description

Supervision method and system for supervising number of spot check seedlings, storage medium and electronic equipment

Technical Field

The invention relates to a supervision method and a supervision system for supervising the number of spot check seedlings, a storage medium and electronic equipment. The method is suitable for the field of supervision and management.

Background

In order to ensure the quality of the seedlings, the quality of the planted seedlings needs to be checked at any time. And (4) issuing the spot check work after the seedlings are planted to a supervision, wherein the supervision must perform responsibility to control the quality of the seedlings. However, due to the rigor of the male security project, how to monitor and manage the supervision behavior, ensure the quantity of the spot checks and avoid the lacked work error is also a problem which needs to be considered and solved.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the existing problems, a supervision method, a supervision system, a storage medium and electronic equipment for supervising the number of the spot check seedlings are provided to ensure that the number of the spot check seedlings meets the requirements.

The technical scheme adopted by the invention is as follows: a supervision method for supervising the number of selectively-inspected seedlings is characterized by comprising the following steps:

determining the number of the nursery stocks in a certain fine class and presetting a spot check proportion;

acquiring the actual total number of the nursery stocks in a certain class;

acquiring nursery stock information of nursery stocks by scanning two-dimensional codes of the nursery stocks to be spot-checked, wherein the nursery stock information comprises the varieties, the affiliated shifts, the numbers and other measurement information of the nursery stocks, and adding 1 to the actual spot-check number of the nursery stocks when the nursery stock information which is not spot-checked and scanned in a certain shift is acquired by scanning each time;

determining the actual spot check proportion of the number of the seedlings according to the actual total number of the seedlings and the actual spot check number of the seedlings;

judging whether the error of the actual spot check proportion of the number of the seedlings and the preset spot check proportion of the number of the seedlings is within the error threshold range or not;

if so, determining that the proportion of the number of the nursery stocks for supervision and spot inspection is qualified;

and if not, prompting to continue spot check on the nursery stock.

Further comprising:

acquiring map information of the seedling planting area of a certain fine shift and displaying a map of the planting area;

acquiring the planting positions of all the nursery stocks in a certain class, and marking and displaying points with the color I at corresponding positions on the map of the planting area according to the planting positions;

acquiring the planting position of the seedling to be spot-checked in a certain class, and marking and displaying the corresponding position on the planting area map by using a point with the color II according to the planting position;

and determining the distribution range of the spot check according to the point distribution conditions of the colors I and II on the planting area map.

The utility model provides a supervisory systems of supervision spot check nursery stock quantity which characterized in that includes:

the system comprises a preset spot check proportion determining module, a spot check proportion determining module and a spot check proportion determining module, wherein the preset spot check proportion determining module is used for determining the number of nursery stocks in a certain fine shift to preset spot check proportion;

the actual total number of the nursery stocks obtaining module is used for obtaining the actual total number of the nursery stocks in a certain class;

the system comprises a nursery stock actual spot check quantity determining module, a nursery stock actual spot check quantity determining module and a nursery stock actual spot check quantity determining module, wherein the nursery stock information of nursery stocks is obtained by scanning two-dimensional codes of the nursery stocks to be spot checked, the nursery stock information comprises nursery stock varieties, affiliated shifts, numbers and other measurement information, and when the nursery stock information which is not spot checked and scanned in a certain shift is obtained by scanning each time, the nursery stock actual spot check quantity is increased by 1;

the actual seedling number spot check proportion determining module is used for determining the actual seedling number spot check proportion according to the actual total number of the seedlings and the actual spot check number of the seedlings;

the judging module is used for judging whether the error between the actual spot check proportion of the nursery stock quantity and the preset spot check proportion of the nursery stock quantity is within the error threshold value range or not;

if so, determining that the proportion of the number of the nursery stocks for supervision and spot inspection is qualified;

and if not, prompting to continue spot check on the nursery stock.

Further comprising:

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

the first map marking module is used for acquiring the planting positions of all the nursery stocks in a certain class, marking and displaying points with the color I at corresponding positions on the map of the planting area according to the planting positions;

the second map marking module is used for acquiring the planting position of the seedling to be spot-checked in a certain fine class, marking and displaying the corresponding position on the planting area map by a point with the color II according to the planting position;

and the spot check range determining module is used for determining the distribution range of spot check according to the point distribution condition of the colors I and II on the planting area map.

A storage medium having stored thereon a computer program executable by a processor, the computer program comprising: and when being executed by a processor, the computer program realizes the steps of the supervision method for supervising the number of the spot check seedlings.

An electronic device having a processor and a storage medium storing a computer program executable by the processor, characterized by: and when being executed by a processor, the computer program realizes the steps of the supervision method for supervising the number of the spot check seedlings.

The invention has the beneficial effects that: the invention displays the spot check condition of the nursery stock in the shifts by monitoring the ratio of the spot check quantity in the shifts to the actual total quantity of the shifts, and displays the distribution range of the spot check by monitoring the point-to-point comparison chart of colors I and II of the two-dimensional GIS, and the spot check duty can be ensured to be performed by the monitoring by the ratio and the map display.

Drawings

FIG. 1 is a flow chart of an embodiment.

Fig. 2 is a system block diagram of an embodiment.

Detailed Description

As shown in fig. 1, this embodiment is a method for supervising the number of seedlings for spot check, including the following steps:

determining the number of the nursery stocks in a certain fine class and presetting a spot check proportion;

acquiring map information of the seedling planting area of a certain fine shift and displaying a map of the planting area;

acquiring the actual total number of the nursery stocks in a certain fine shift and nursery stock information of all nursery stocks in the certain fine shift, wherein the nursery stock information comprises the variety, the planting position, the fine shift to which the nursery stock belongs, the serial number and other measurement information of the nursery stock;

marking and displaying green points at corresponding positions on the planting area map according to the planting positions of all the nursery stocks in a certain class;

acquiring nursery stock information associated with the nursery stock two-dimensional code by scanning the two-dimensional code of the nursery stock to be spot-checked, and adding 1 to the actual spot-check number of the nursery stock when the nursery stock information which is not spot-checked and scanned in a certain shift is acquired by scanning each time;

marking and displaying red points at corresponding positions of the planting positions on the planting area map according to the seedling information obtained by spot check;

determining the actual spot check proportion of the number of the seedlings according to the actual total number of the seedlings and the actual spot check number of the seedlings (the spot check proportion is the actual spot check number of the seedlings/the actual total number of the seedlings);

judging whether the error of the actual spot check proportion of the number of the seedlings and the preset spot check proportion of the number of the seedlings is within the error threshold range or not;

if so, determining that the proportion of the number of the nursery stocks for supervision and spot inspection is qualified;

if not, prompting to continue spot check on the nursery stock;

and determining the distribution range of spot check according to the distribution condition of red and green points on the planting area map.

The embodiment shows the spot check condition of the nursery stock in the class detail by the ratio of the actual spot check quantity and the actual total quantity of the supervision in the class detail, and simultaneously shows the spot check range of the supervision through a red-green comparison graph of a two-dimensional GIS, and can ensure that the supervision can be attentively used for performing spot check duty through the ratio and the map display.

Fig. 2 is a monitoring system for monitoring the number of selectively inspected seedlings in this embodiment, which includes: the system comprises a preset spot check ratio determining module 1, a nursery stock actual total number acquiring module 2, a nursery stock actual spot check number determining module 3, a nursery stock actual spot check ratio determining module 4 and a judging module 5.

In this example, the preset spot check proportion determining module 1 is used for determining a preset spot check proportion of the number of nursery stocks in a certain fine shift; the actual total number of seedlings acquiring module 2 is used for acquiring the actual total number of seedlings in a certain class; the actual seedling screening number determining module 3 is used for scanning the two-dimensional code of the screened seedling to obtain the seedling information of the seedling, wherein the seedling information comprises the variety, the affiliated shift and the serial number of the seedling, and when the seedling information which is not screened and scanned in a certain shift is obtained by scanning each time, the actual seedling screening number is added by 1; the actual seedling number spot check proportion determining module 4 is used for determining the actual seedling number spot check proportion according to the actual total number of the seedlings and the actual spot check number of the seedlings; the judging module 5 is configured to judge whether an error between the actual spot check proportion of the number of the nursery stocks and a preset spot check proportion of the number of the nursery stocks is within an error threshold range, determine that the proportion of the number of the nursery stocks under supervision is qualified if the error is within the error threshold range, and prompt to continue spot check on the nursery stocks if the error is not within the error threshold range.

The monitoring system in this embodiment further includes: the system comprises a map acquisition module 6, a first map marking module 7, a second map marking module 8 and a spot check range determination module 9, wherein the map acquisition module 6 is used for acquiring map information of a nursery stock planting area of a certain shift and displaying a map of the planting area; the first map marking module 7 is used for acquiring the planting positions of all the nursery stocks in a certain class, marking and displaying points with a color I at corresponding positions on the map of the planting area according to the planting positions; the second map marking module 8 is used for acquiring the planting position of the seedling to be spot-checked in a certain fine class, and marking and displaying the corresponding position on the planting area map by a point with the color II according to the planting position; and the spot check range determining module 9 is used for determining the distribution range of spot check according to the point distribution condition of the colors I and II on the planting area map.

The present embodiment also provides a storage medium having a computer program stored thereon, where the computer program is executable by a processor, and when the computer program is executed by the processor, the steps of the supervision method for supervising the number of spot check seedlings according to the present embodiment are implemented.

The present embodiment further 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 supervision method for supervising the number of spot check seedlings according to the present embodiment.

Claims (4)

1. A supervision method for supervising the number of selectively-inspected seedlings is characterized by comprising the following steps:

determining the number of the nursery stocks in a certain fine class and presetting a spot check proportion;

acquiring the actual total number of the nursery stocks in a certain class;

acquiring nursery stock information of nursery stocks by scanning two-dimensional codes of the nursery stocks to be spot-checked, wherein the nursery stock information comprises the varieties, the subordination classes and numbers of the nursery stocks, and adding 1 to the actual spot-check number of the nursery stocks when the nursery stock information which is not spot-checked and scanned in a certain subordination class is acquired by scanning each time;

determining the actual spot check proportion of the number of the seedlings according to the actual total number of the seedlings and the actual spot check number of the seedlings;

judging whether the error of the actual spot check proportion of the number of the seedlings and the preset spot check proportion of the number of the seedlings is within the error threshold range or not;

if so, determining that the proportion of the number of the nursery stocks for supervision and spot inspection is qualified;

if not, prompting to continue spot check on the nursery stock;

further comprising:

acquiring map information of the seedling planting area of a certain fine shift and displaying a map of the planting area;

acquiring the planting positions of all the nursery stocks in a certain class, and marking and displaying points with the color I at corresponding positions on the map of the planting area according to the planting positions;

acquiring the planting position of the seedling to be spot-checked in a certain class, and marking and displaying the corresponding position on the planting area map by using a point with the color II according to the planting position;

and determining the distribution range of the spot check according to the point distribution conditions of the colors I and II on the planting area map.

2. The utility model provides a supervisory systems of supervision spot check nursery stock quantity which characterized in that includes:

the system comprises a preset spot check proportion determining module (1) for determining a preset spot check proportion of the number of nursery stocks in a certain fine shift;

the actual total number of the nursery stocks obtaining module (2) is used for obtaining the actual total number of the nursery stocks in a certain fine class;

the actual seedling screening quantity determining module (3) is used for scanning the two-dimensional code of the screened seedling to obtain the seedling information of the seedling, wherein the seedling information comprises the variety, the affiliated shift and the serial number of the seedling, and when the seedling information which is not screened and scanned in a certain shift is obtained by scanning each time, the actual seedling screening quantity is added with 1;

the actual seedling number spot check proportion determining module (4) is used for determining the actual seedling number spot check proportion according to the actual total number of the seedlings and the actual spot check number of the seedlings;

the judging module (5) is used for judging whether the error between the actual spot check proportion of the nursery stock quantity and the preset spot check proportion of the nursery stock quantity is within the error threshold value range or not;

if so, determining that the proportion of the number of the nursery stocks for supervision and spot inspection is qualified;

if not, prompting to continue spot check on the nursery stock;

further comprising:

the map acquisition module (6) is used for acquiring map information of the seedling planting area of a certain fine shift and displaying a map of the planting area;

the first map marking module (7) is used for acquiring the planting positions of all the nursery stocks in a certain fine class, marking the corresponding positions on the map of the planting area according to the planting positions by using points with the color I and displaying the points;

the second map marking module (8) is used for acquiring the planting position of the nursery stock to be spot-checked in a certain fine class, marking the corresponding position on the planting area map by a point with the color II according to the planting position and displaying the point;

and the spot check range determining module (9) is used for determining the distribution range of spot check according to the point distribution conditions of the colors I and II on the planting area map.

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 supervising the quantity of spot check plantlets according to claim 1 or 2.

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 supervising the quantity of spot check plantlets according to claim 1 or 2.

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