CN117558118A

CN117558118A - Ammeter data acquisition method and device, storage medium and electronic equipment

Info

Publication number: CN117558118A
Application number: CN202311322258.9A
Authority: CN
Inventors: 彭吉生; 王本川; 高旺; 黄强
Original assignee: Beijing Thinking Semiconductor Technology Co ltd
Current assignee: Beijing Thinking Semiconductor Technology Co ltd
Priority date: 2023-10-12
Filing date: 2023-10-12
Publication date: 2024-02-13

Abstract

The disclosure relates to the technical field of information acquisition, in particular to an ammeter data acquisition method, an ammeter data acquisition device, a storage medium and electronic equipment, which improve meter reading efficiency. The ammeter data acquisition method comprises the following steps: determining meter reading time consumption corresponding to all the electric meters to be read aiming at each meter reading; determining a target to-be-meter-read ammeter corresponding to the to-be-meter-read ammeter according to the meter-read consuming time of the to-be-meter-read ammeter, marking the target to-be-read ammeter as the to-be-read ammeter until the meter reading of all to-be-read ammeter is completed, and outputting a meter-read result, wherein the meter-read consuming time of the target to-be-read ammeter is less than the meter-read consuming time of any to-be-read ammeter.

Description

Ammeter data acquisition method and device, storage medium and electronic equipment

Technical Field

The disclosure relates to the technical field of information acquisition, in particular to an ammeter data acquisition method, an ammeter data acquisition device, a storage medium and electronic equipment.

Background

The ammeter data acquisition is to interact with the ammeter according to a message formed by an ammeter file and an acquired data item, but the time consumption of interaction with the ammeter in the acquisition process cannot be determined. In the related art, the electric meter files are collected sequentially, skip caused by collection failure is encountered, no processing strategy exists for the electric meter with slow recovery, and the overall collection efficiency is low. And the data acquisition is carried out according to different days, hours and minutes, the acquired data volume is also different, the time consumption condition of acquisition fluctuates, and the acquisition speed of each hour and each minute is required to be respectively analyzed and processed every day.

The traditional manual meter reading method is based on a certain sequence, and workers meter the electric meter one by one, so that the manual meter reading efficiency is low. For the remote automatic meter reading mode in the related technology, because the meter reading time of each electric meter is not fixed, the remote automatic meter reading is also performed according to a certain sequence, the meter reading efficiency is improved to a certain extent compared with the manual meter reading efficiency, but the meter reading efficiency is still not high, and the data acquisition of the most electric meters can not be performed in the shortest time possible.

Disclosure of Invention

The purpose of the present disclosure is to provide a method, a device, a storage medium and an electronic device for collecting ammeter data, which improve meter reading efficiency.

To achieve the above object, in a first aspect, the present disclosure provides an electricity meter data collection method, including:

determining meter reading time consumption corresponding to all the electric meters to be read aiming at each meter reading;

determining a target to-be-meter-read ammeter corresponding to the to-be-meter-read ammeter according to the meter-read consuming time of the to-be-meter-read ammeter, marking the target to-be-read ammeter as the to-be-read ammeter until the meter reading of all to-be-read ammeter is completed, and outputting a meter-read result, wherein the meter-read consuming time of the target to-be-read ammeter is less than the meter-read consuming time of any to-be-read ammeter.

Optionally, the determining the target to-be-meter-copied electric meter corresponding to the present meter-copy according to the meter-copy time consumption of the to-be-meter-copied electric meter includes:

determining an initial ammeter which is the first ammeter to be read in the ammeter sequence in the ammeter read corresponding to the last meter reading or prestored ammeter file;

determining a second electric meter from all electric meters to be meter-read according to an electric meter sequence in a pre-stored electric meter file, wherein the second electric meter is the electric meter to be meter-read adjacent to the initial electric meter in the electric meter sequence;

taking the second electric meter as an initial electric meter to be judged next time under the condition that the meter reading time of the second electric meter is less than the meter reading time of the initial electric meter, and determining whether the second electric meter is the last electric meter to be read;

and under the condition that the second ammeter is the last ammeter to be read, taking the second ammeter as the target ammeter to be read corresponding to the meter reading.

Optionally, the determining the target to-be-meter-copied electric meter corresponding to the present meter-copy according to the meter-copy time consumption of the to-be-meter-copied electric meter further includes:

and under the condition that the second electric meter is not the last electric meter to be read, determining the second electric meter from all the electric meters to be read according to the electric meter sequence in the pre-stored electric meter file, taking the second electric meter as the initial electric meter to be judged next time under the condition that the meter reading time consumption corresponding to the second electric meter is smaller than the meter reading time consumption corresponding to the initial electric meter, determining whether the second electric meter is the last electric meter to be read or not until all the electric meters to be read are traversed to obtain a target second electric meter, wherein the meter reading time consumption of the target second electric meter is smaller than the meter reading time consumption of any electric meter to be read, and taking the target second electric meter as the target electric meter to be read corresponding to the meter reading.

Optionally, determining the meter reading time consumption corresponding to all the to-be-read meters includes:

determining initial time consumption parameters of each electric meter to be read, wherein the initial time consumption parameters comprise average time consumption of a first day, average time consumption of a first hour and time consumption of a first minute;

and obtaining the meter reading time of the to-be-meter-read electric meter according to the average time consumption of the first day, the average time consumption of the first hour and the time consumption of the first minute.

Optionally, the method for collecting ammeter data further includes:

after the target ammeter to be read is subjected to meter reading, obtaining a second component Zhong Haoshi corresponding to the current meter reading of the target ammeter to be read;

and updating the average time consumption of the first hour and the average time consumption of the first day corresponding to the target ammeter to be read according to the second branch Zhong Haoshi.

Optionally, the method for collecting ammeter data further includes:

under the condition that the meter reading of the target to-be-measured ammeter is successful, updating the first minute time consumption corresponding to the target to-be-measured ammeter into a second minute Zhong Haoshi;

under the condition that the meter reading of the target to-be-measured ammeter fails, updating the first minute time consumption corresponding to the target to-be-measured ammeter into a preset timeout time, wherein the first minute time consumption is the initial minute time consumption of the target to-be-measured ammeter, and the second minute time consumption is the minute time consumption of the actual meter reading of the target to-be-measured ammeter.

Optionally, the determining the initial time-consuming parameter of the electric meter to be read includes:

acquiring a historical time-consuming parameter corresponding to the electric meter to be read, and taking the historical time-consuming parameter as an initial time-consuming parameter corresponding to the electric meter to be read;

or,

and predicting the time consumption parameters of the electric meter to be read through a prediction model to obtain test time consumption parameters, and taking the test time consumption parameters as initial time consumption parameters of the electric meter to be read.

In a second aspect, the present disclosure provides an electricity meter data acquisition device comprising:

the determining module is used for determining meter reading time consumption corresponding to all the electric meters to be read for each meter reading;

the execution module is used for determining a target to-be-read ammeter corresponding to the to-be-read ammeter according to the time consumption of the to-be-read ammeter, reading the target to-be-read ammeter, marking the target to-be-read ammeter as the to-be-read ammeter until the meter reading of all to-be-read ammeter is completed, and outputting a meter reading result, wherein the meter reading time consumption of the target to-be-read ammeter is less than the meter reading time consumption of any to-be-read ammeter.

In a third aspect, the present disclosure provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the electricity meter data collection method described above.

In a fourth aspect, the present disclosure provides an electronic device comprising:

a memory having a computer program stored thereon;

and the processor is used for executing the computer program in the memory to realize the steps of the ammeter data acquisition method.

According to the technical scheme, the target to-be-meter-read ammeter with the minimum meter reading time consumption is determined according to the meter reading time consumption of all to-be-meter-read ammeter, the target to-be-meter-read ammeter is subjected to meter reading, the target to-be-meter-read ammeter is marked as the meter to be-read ammeter until the meter reading of all to-be-read ammeter is completed, and a meter reading result is output. According to the method and the device, each meter reading is performed only on the to-be-read meter with the least time consumption, and the most meter data is acquired in the shortest time, so that the meter reading efficiency is improved.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

fig. 1 is a flowchart illustrating a method of collecting electricity meter data according to an exemplary embodiment of the present disclosure.

Fig. 2 is a flowchart illustrating step S12 according to an exemplary embodiment of the present disclosure.

Fig. 3 is another flowchart illustrating a method of collecting electricity meter data according to an exemplary embodiment of the present disclosure.

Fig. 4 is a block diagram of an electricity meter data collection device according to an exemplary embodiment of the present disclosure.

Fig. 5 is a block diagram of an electronic device, shown in accordance with an exemplary embodiment of the present disclosure.

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

It should be noted that, all actions for acquiring signals, information or data in the present disclosure are performed under the condition of conforming to the corresponding data protection rule policy of the country of the location and obtaining the authorization given by the owner of the corresponding device.

As the background technology is known, the traditional manual meter reading method is based on a certain sequence, and the workers meter the electric meter one by one, so that the manual meter reading efficiency is low. For the remote automatic meter reading mode in the related technology, because the meter reading time of each ammeter is not fixed, the remote automatic meter reading is also performed according to a certain sequence, the meter reading efficiency is improved to a certain extent compared with the manual meter reading efficiency, but the meter reading efficiency is still not high.

In the related art, the chinese patent application No. CN109948756a discloses a meter reading method and a meter reading system, where the meter reading system includes a server and at least one meter reading terminal that are connected in a communication manner, and calibration data of each epitope is stored in a calibration database of the server. The method comprises the following steps: the meter reading terminal obtains a target position identifier corresponding to a target epitope and meter reading data, and searches a target user identifier corresponding to the target position identifier in a received meter reading task, wherein the meter reading task is generated according to a calibration database and comprises the position identifier, the user identifier and epitope information of each epitope to be meter-read; after finding the target user identification, the meter reading terminal sends the target user identification and meter reading data to the server for storage. Therefore, based on the epitope information, the staff can find the corresponding epitope, and meanwhile, the meter reading data can be ensured to accurately correspond to the user identifier in an epitope management mode, so that the probability of meter reading errors is greatly reduced.

The inventor finds that the Chinese patent is based on automatic meter reading and provides a corresponding meter reading system, so that the meter reading efficiency can be improved to a certain extent, but the technical scheme protected by the patent focuses on improving the meter reading accuracy, and the meter reading efficiency is still to be improved.

In view of this, the present disclosure provides a method, an apparatus, a storage medium, and an electronic device for collecting data of an electric meter, where each meter reading only performs meter reading on an electric meter to be read with minimum time consumption, and collects the most data of the electric meter in the shortest time, thereby improving meter reading efficiency.

Fig. 1 is a flowchart illustrating an ammeter data acquisition method according to an exemplary embodiment of the present disclosure, which may be applied to a terminal device, such as a computer, a mobile phone terminal, or the like. Referring to fig. 1, the electricity meter data collection method may include the steps of:

in step S11, for each meter reading, the meter reading time consumption corresponding to all the meters to be read is determined.

It should be noted that, the time consumed for meter reading corresponding to each meter to be read is different, and new meter to be read may be newly added in the meter reading process, so that the time consumed for meter reading corresponding to all the meter to be read needs to be determined again for each meter reading.

In step S12, determining a target to-be-meter-read electric meter corresponding to the current to-be-meter-read electric meter according to the time consumption of the to-be-meter-read electric meter, marking the target to-be-read electric meter as the to-be-read electric meter until the meter reading of all to-be-read electric meters is completed, and outputting a meter reading result, wherein the time consumption of the target to-be-read electric meter is less than the time consumption of any to-be-read electric meter.

It is worth to say that, each time of meter reading, the meter to be read with the least meter reading time is determined as the target meter to be read according to the meter reading time of the meter to be read, so that the time consumption of each meter reading is shortened, and the meter reading efficiency is improved. After the meter reading is carried out on the target to-be-measured ammeter, the target to-be-measured ammeter is marked as the measured ammeter, then the target to-be-measured ammeter corresponding to the next meter reading is redetermined, repeated judgment on the meter reading time consumption of the measured ammeter in the next meter reading is avoided, the accuracy of determining the target to-be-measured ammeter in each meter reading is improved, and the fact that the target to-be-measured ammeter in each meter reading is the to-be-measured ammeter with the minimum meter reading time consumption is ensured.

For example, in the case that there are an ammeter a to be meter-read, an ammeter B to be meter-read, and an ammeter C to be meter-read, meter reading is performed for the first time: determining meter reading time consumption corresponding to the to-be-measured ammeter A, the to-be-measured ammeter B and the to-be-measured ammeter C respectively, determining the to-be-measured ammeter B with the minimum meter reading time consumption as a target to-be-measured ammeter for first meter reading, performing meter reading on the to-be-measured ammeter B, and marking the to-be-measured ammeter B as a measured ammeter. And (3) reading the meter for the second time: determining meter reading time consumption corresponding to the to-be-measured ammeter A and the to-be-measured ammeter C respectively, determining the to-be-measured ammeter A with the minimum meter reading time consumption as a target to-be-measured ammeter for secondary meter reading, performing meter reading on the to-be-measured ammeter A, and marking the to-be-measured ammeter A as a meter to be measured. And (3) reading the meter for the third time: taking the electric meter C to be read as a target electric meter to be read, reading the electric meter C to be read, marking the electric meter C to be read as the read electric meter, and completing the reading of the electric meter A, the electric meter B and the electric meter C in the minimum time.

According to the embodiment of the disclosure, each meter reading is performed, a target meter to be read with the least meter reading time is determined according to the meter reading time of all the meters to be read, and the target meter to be read is subjected to meter reading until the meter reading of all the meters to be read is completed. According to the method and the device, each meter reading is performed only on the to-be-measured meter with the least time consumption, so that the phenomenon that the meter stays on the meter with the long meter reading time consumption, and the most meter data is acquired in the shortest time is avoided, and the meter reading efficiency is improved.

In order to facilitate a better understanding of the method for collecting electric meter data provided by the present disclosure, the following details of the steps of the method for collecting electric meter data will be described.

In a possible embodiment, in step S11, determining meter reading time consumption corresponding to all the to-be-measured meters may include:

determining initial time consumption parameters of the electric meter to be read according to each electric meter to be read, wherein the initial time consumption parameters comprise average time consumption of the first day, average time consumption of the first hour and time consumption of the first minute;

and obtaining the meter reading time consumption of the electric meter to be read according to the average time consumption of the first day, the average time consumption of the first hour and the time consumption of the first minute.

It should be noted that the meter reading time of the electric meter to be read is the sum of all initial time consumption parameters of the electric meter to be read, that is, the meter reading time m=daily average time d+hour average time h+minute time M of the electric meter to be read.

The initial time consumption parameters of the electric meter i to be read include, for example, a first average time consumption D _i Average time H in first hour _i And time M for the first minute _i Meter reading time M of ammeter i to be read _i ＝D _i +H _i +M _i 。

In the embodiment of the disclosure, the sum of the initial time consumption parameters of the electric meter to be read is used as the time consumption of the electric meter to be read, namely the comprehensive time consumption of the electric meter to be read, so that the accuracy of determining the minimum time consumption of the subsequent electric meter to be read is improved.

In one possible embodiment, determining the initial time-consuming parameter of the meter to be meter-read may include:

acquiring a historical time consumption parameter corresponding to the electric meter to be read, and taking the historical time consumption parameter as an initial time consumption parameter corresponding to the electric meter to be read;

or,

and predicting the time-consuming parameters of the electric meter to be measured through the prediction model to obtain test time-consuming parameters, and taking the test time-consuming parameters as initial time-consuming parameters of the electric meter to be measured.

It is worth to say that, under the condition that the historical time consumption parameter exists in the electric meter to be read, the historical time consumption parameter is used as the initial time consumption parameter corresponding to the electric meter to be read; under the condition that the historical time consumption parameters do not exist in the electric meter to be read, obtaining the test time consumption parameters of the electric meter to be read through a prediction model, and taking the test time consumption parameters as the initial time consumption parameters of the electric meter to be read.

It is worth to say that, when all the electric meters to be read are read for the first time, all the electric meters to be read are networked. After the first networking, aiming at the to-be-measured ammeter with the historical time-consuming parameters, taking the historical time-consuming parameters corresponding to the to-be-measured ammeter as the initial time-consuming parameters of the to-be-measured ammeter; and determining the testing time-consuming parameters of the to-be-measured ammeter through a prediction model aiming at the to-be-measured ammeter with no historical time-consuming parameters, and taking the testing time-consuming parameters corresponding to the to-be-measured ammeter as the initial time-consuming parameters of the to-be-measured ammeter. When the electric meter to be read is newly added, determining the initial time-consuming parameter of the newly added electric meter to be read in a first networking mode.

In the embodiment of the disclosure, the initial time-consuming parameters of the existing ammeter to be read can be determined in two ways, and the time-consuming parameters of the newly added ammeter to be read can be determined in two ways, so that the accuracy of the time consumption of the meter reading determined according to the initial time-consuming parameters is improved.

In a possible embodiment, referring to fig. 2, in step S12, according to the time consumption of the meter to be read, determining the target meter to be read corresponding to the current meter reading may include the following steps:

in step S21, an initial electric meter is determined, where the initial electric meter is the first electric meter to be read in the electric meter sequence in the pre-stored electric meter file or the electric meter read corresponding to the last time.

It should be noted that, during the meter reading process, there may be a meter that has been read in the pre-stored meter file, so that the initial meter is determined according to the meter sequence in the pre-stored meter file.

For example, when the meter is read for the first time, the first meter to be read in the meter sequence in the pre-stored meter file is used as the initial meter corresponding to the meter reading. And when the meter reading is not performed for the first time, taking the meter which is read corresponding to the last meter reading as an initial meter corresponding to the meter reading.

In step S22, a second electric meter is determined from all the electric meters to be meter-copied according to the electric meter sequence in the pre-stored electric meter file, wherein the second electric meter is the electric meter to be meter-copied adjacent to the initial electric meter in the electric meter sequence.

It should be noted that the initial meter and the second meter may be two adjacent meters or two non-adjacent meters, but the second meter is a meter to be read adjacent to the initial meter. Therefore, after the initial ammeter is determined, the ammeter to be read adjacent to the rain initial ammeter can be used as the second ammeter according to the ammeter sequence in the prestored ammeter file.

In step S23, when the meter reading time of the second electric meter is less than the meter reading time of the initial electric meter, the second electric meter is used as the initial electric meter to be judged next time, and whether the second electric meter is the last electric meter to be read is determined.

In step S24, when the second electric meter is the last electric meter to be meter-copied, the second electric meter is used as the target electric meter to be meter-copied corresponding to the current meter reading.

It is worth to say that, under the condition that the time consumption of the second electric meter is less than that of the initial electric meter, further judging whether the second electric meter is the last electric meter to be read, thereby determining whether all electric meters to be read are traversed in the judgment, ensuring that all electric meters to be read are traversed in each time of meter reading, and determining the target electric meter to be read with the least time consumption of meter reading.

It should be noted that, when the time consumption of the second electric meter is less than the time consumption of the initial electric meter and the second electric meter is the last electric meter to be measured, the second electric meter is the electric meter to be measured with the least time consumption in all the electric meters to be measured in the present meter measurement. And directly reading the second electric meter under the condition that the time consumption of the second electric meter is greater than or equal to the time consumption of the first electric meter and the second electric meter is the last electric meter to be read. And under the condition that the meter reading time of the second electric meter is greater than or equal to the meter reading time of the initial electric meter and the second electric meter is not the last electric meter to be read, the second electric meter to be read needs to be re-determined until the re-determined meter reading time of the second electric meter is less than the initial meter reading time.

In a possible embodiment, in step S12, according to the time consumption of the meter reading of the meter to be read, the target meter to be read corresponding to the meter reading of the present time is determined, and the method further includes the following steps:

and under the condition that the second electric meter is not the last electric meter to be read, determining the second electric meter from all electric meters to be read according to the electric meter sequence in the pre-stored electric meter file, taking the second electric meter as the initial electric meter to be judged next time under the condition that the meter reading time consumption corresponding to the second electric meter is smaller than the meter reading time consumption corresponding to the initial electric meter, determining whether the second electric meter is the last electric meter to be read or not, until traversing all the electric meters to be read to obtain a target second electric meter, and taking the target second electric meter as the target electric meter to be read corresponding to the meter reading time consumption.

It is worth to say that, when the meter reading time of the second electric meter is less than the meter reading time of the initial electric meter and the second electric meter is not the last electric meter to be read, the second electric meter is re-determined, and the re-determined meter reading time of the second electric meter is compared with the meter reading time of the second electric meter judged last time, all the electric meters to be read are traversed, so that the target second electric meter with the minimum meter reading time is determined.

When the meter is read for the first time, the first meter to be read in the meter sequence in the pre-stored meter file is taken as a reference, the meter to be read adjacent to the first meter to be read is determined as a second meter according to the meter sequence, the meter reading time of the two meters is calculated, the meter reading time of the two meters is determined, and the meter reading time of the two meters is compared; if the meter reading time of the second electric meter is smaller than the meter reading time of the first electric meter to be read, determining the electric meter to be read adjacent to the second electric meter as a third electric meter according to the electric meter sequence, recalculating the meter reading time of the second electric meter, calculating the meter reading time of the third electric meter, comparing the meter reading time of the two electric meters, and if the meter reading time of the third electric meter is also smaller than the second electric meter, continuously determining the electric meter to be read adjacent to the third electric meter as a fourth electric meter according to the electric meter sequence until all the electric meters to be read are traversed, and determining the electric meter to be read with the minimum meter reading time in all the electric meters to be read as a target electric meter to be read.

According to the embodiment of the disclosure, the time consumption of the meter to be read in the last judgment is compared with the time consumption of the meter to be read of the second meter determined at this time until the judgment of all the meter to be read is completed, so that the meter to be read with the minimum time consumption in all the meter to be read is determined, the target meter to be read in each time is the meter to be read with the minimum time consumption in all the meter to be read corresponding to the meter to be read, and the most meter data is acquired in the shortest time, so that the meter reading efficiency is improved.

In one possible embodiment, the method for collecting ammeter data may further include:

after the meter reading is carried out on the target to-be-read electric meter, obtaining a second branch Zhong Haoshi corresponding to the meter reading of the target to-be-read electric meter;

according to the second component Zhong Haoshi, the average time consumption of the first hour and the average time consumption of the first day corresponding to the target ammeter to be read are updated.

It is worth to say that after the target ammeter to be read is read, the minute table look-up time consumption of the target ammeter is determined, and the average hour time consumption and the average daily time consumption of the target ammeter are updated according to the minute meter reading time consumption, so that the initial time consumption parameter of the target ammeter to be read is updated.

For example, after the meter reading is carried out on the target ammeter to be read, taking the average value of all minute time consumption in each hour of the target ammeter to be read as the average time consumption of the target ammeter to be read; for each day of the target ammeter to be made, taking the average value of all minute time consumption in the day as the average daily time consumption of the target ammeter to be made.

In the embodiment of the disclosure, after each meter reading, the initial time-consuming parameter of the target to-be-read ammeter corresponding to the meter reading is updated, so that the meter reading time consumption for judging the meter reading time consumption each time is accurate and reliable.

under the condition that the meter reading of the target to-be-measured ammeter is successful, updating the first minute time consumption corresponding to the target to-be-measured ammeter into a second fraction Zhong Haoshi;

under the condition that the meter reading of the target to-be-measured ammeter fails, updating the first minute time consumption corresponding to the target to-be-measured ammeter into a preset timeout period, wherein the first minute time consumption is the initial minute time consumption of the target to-be-measured ammeter, and the second minute time consumption is the minute time consumption of the actual meter reading of the target to-be-measured ammeter.

It is worth to say that the meter reading process includes the meter reading of the message of the meter forming the current meter reading data item, the successful meter reading is determined when the message of the meter is received, and the meter reading failure is determined when the message of the meter is not received. When the meter reading is successful, the minute time consumption of the ammeter is updated to the minute time consumption of the meter reading; when the meter reading fails, the minute time consumption of the electric meter is updated to a preset timeout period, wherein the preset timeout period can be set according to the operation required time of the electric meter program, and the embodiment of the disclosure is not limited to this.

After the meter reading is finished, whether the meter reading is successful or not is determined according to the message of the electric meter, and the time consumption of the electric meter in minutes is updated when the meter reading is successful or fails, so that the accuracy and the reliability of the target electric meter to be read are ensured when the next meter reading is performed.

For example, referring to fig. 3, the flow of the method for collecting ammeter data provided in the embodiment of the present disclosure may further include the following steps:

in step S31, the first meter to be read is determined as the initial meter from all the meters to be read according to the meter sequence in the pre-stored meter file.

In step S32, a second electric meter to be read is determined from all electric meters to be read according to the electric meter sequence in the pre-stored electric meter file, wherein the second electric meter to be read is the electric meter to be read adjacent to the initial electric meter in the electric meter sequence.

In step S33, an initial time consumption parameter of the initial electricity meter is determined, and the meter reading time T of the initial electricity meter is determined according to the initial time consumption parameter of the initial electricity meter _i 。

In step S34, an initial time consumption parameter of the second electric meter is determined, and the meter reading time T of the second electric meter is determined according to the initial time consumption parameter of the second electric meter _n 。

In step S35, it is determined that T _n ＜T _i If so, steps S36 to S312 are executed. If not, step S313 is performed.

In step S36, n is updated to i, T _i ＝T _n 。

In step S37, it is determined whether the second electric meter is the last electric meter to be read, and if yes, steps S38 to S312 are performed. If not, step S32 is performed.

In step S38, the second electric meter is used as the target electric meter to be read, and the target electric meter to be read is read.

In step S39, it is determined whether the meter reading of the target meter to be read is successful, and if yes, steps S310 to S311 are performed. If not, step S312 is performed.

In step S310, the first minute time consumption of the target electric meter to be meter-copied is updated to the second minute time consumption of the current meter-copied.

In step S311, it is determined whether the meter reading of all the electric meters to be read is completed, if yes, the meter reading is ended. If not, the process returns to step S33.

In step S312, the first minute time of the target electricity meter to be meter-copied is updated to a preset timeout period, and step S311 is executed.

In step S313, it is determined whether the second electric meter is the last electric meter to be read, and if yes, steps S38 to S312 are performed. If not, the process returns to step S32.

In the embodiment of the disclosure, a target ammeter to be read with the least time consumption is determined during each meter reading, the target ammeter to be read is subjected to meter reading, and the target ammeter to be read is marked as the read ammeter; and when the meter reading is successful, updating the minute time consumption of the target to-be-measured ammeter into the minute time consumption of the meter reading, and when the meter reading is failed, updating the minute time consumption of the target to-be-measured ammeter into the preset timeout duration so as to determine the corresponding target to-be-measured ammeter by the next meter reading. Each meter reading time is selected for the meter reading of the to-be-read ammeter with the least time consumption, so that the residence on the to-be-read ammeter with the long time consumption is avoided, the data of the most ammeter is acquired in the shortest time, and the meter reading efficiency is effectively improved.

Based on the same inventive concept, the embodiments of the present disclosure also provide an ammeter data acquisition device, referring to fig. 4, including a determination module 401 and an execution module 402.

The determining module 401 is configured to determine, for each meter reading, meter reading time consuming time corresponding to all the meters to be read.

The execution module 402 is configured to determine, according to the meter reading time consumption of the to-be-measured electric meters, a target to-be-measured electric meter corresponding to the current meter reading, perform meter reading on the target to-be-measured electric meter, mark the target to-be-measured electric meter as a measured electric meter until the meter reading of all to-be-measured electric meters is completed, and output a meter reading result, where the meter reading time consumption of the target to-be-measured electric meter is less than the meter reading time consumption of any to-be-measured electric meter.

In a possible embodiment, the executing module 402 is configured to determine an initial electric meter, where the initial electric meter is a first electric meter to be read in an electric meter sequence in a pre-stored electric meter file or a read electric meter corresponding to a last time of reading;

determining a second electric meter from all electric meters to be meter-read according to the electric meter sequence in the pre-stored electric meter file, wherein the second electric meter is the electric meter to be meter-read adjacent to the initial electric meter in the electric meter sequence;

determining whether the second electric meter is the last electric meter to be read or not under the condition that the time consumption of the second electric meter is less than the time consumption of the initial electric meter;

and under the condition that the second electric meter is the last electric meter to be read, taking the second electric meter as the initial electric meter to be read for the next judgment, executing the steps of determining the second electric meter from all the electric meters to be read according to the electric meter sequence in the pre-stored electric meter file, determining whether the second electric meter is the last electric meter to be read or not under the condition that the meter reading time corresponding to the second electric meter is less than the meter reading time corresponding to the initial electric meter until the target second electric meter is obtained by traversing all the electric meters to be read, wherein the meter reading time of the target second electric meter is less than the meter reading time of any electric meter to be read, and taking the target second electric meter as the target electric meter to be read corresponding to the meter reading.

In a possible embodiment, in the case that the initial electric meter is the first electric meter to be meter-copied in the electric meter sequence in the pre-stored electric meter file, the executing module 402 is configured to determine whether the second electric meter is the last electric meter to be meter-copied if the meter-copy time consumption corresponding to the second electric meter is greater than or equal to the meter-copy time consumption corresponding to the initial electric meter;

and under the condition that the second ammeter is the last ammeter to be read, taking the initial ammeter as the target ammeter to be read corresponding to the meter reading.

In a possible embodiment, the determining module 401 is configured to determine, for each electric meter to be measured, an initial time consumption parameter of the electric meter to be measured, where the initial time consumption parameter includes a first average time consumption, a first average time consumption and a first minute time consumption;

In a possible embodiment, the electric meter data acquisition device further includes an update module, where the update module is configured to obtain, after the reading of the target electric meter to be read, a second component Zhong Haoshi corresponding to the reading of the target electric meter to be read;

In a possible embodiment, the updating module is configured to update the first minute time consumption corresponding to the target to-be-read electric meter to the second minute Zhong Haoshi when the meter reading of the target to-be-read electric meter is successful;

In a possible embodiment, the determining module 401 is configured to obtain a historical time-consuming parameter corresponding to the electric meter to be copied, and take the historical time-consuming parameter as an initial time-consuming parameter corresponding to the electric meter to be copied;

or,

The specific manner in which the respective modules perform the operations of the meter data collection device in the above-described embodiment has been described in detail in the embodiment regarding the method, and will not be described in detail herein.

Based on the same inventive concept, the embodiments of the present disclosure further provide an electronic device, including:

a processor having a computer program stored thereon;

and the processor is used for executing the computer program in the memory so as to realize the steps of the ammeter data acquisition method.

Fig. 5 is a block diagram of an electronic device 500, according to an example embodiment. As shown in fig. 5, the electronic device 500 may include: a processor 501, a memory 502. The electronic device 500 may also include one or more of a multimedia component 503, an input/output (I/O) interface 504, and a communication component 505.

The processor 501 is configured to control the overall operation of the electronic device 500 to perform all or part of the steps in the method for collecting electric meter data described above. The memory 502 is used to store various types of data to support operation on the electronic device 500, such as instructions for any application or method operating on the electronic device 500, as well as application-related data, such as meter reading time corresponding to the meter to be read, pre-stored meter files, initial time consumption parameters, and the like. The Memory 502 may be implemented by any type of volatile or non-volatile Memory device or combination thereof, such as static random access Memory (Static Random Access Memory, SRAM for short), electrically erasable programmable Read-Only Memory (Electrically Erasable Programmable Read-Only Memory, EEPROM for short), erasable programmable Read-Only Memory (Erasable Programmable Read-Only Memory, EPROM for short), programmable Read-Only Memory (Programmable Read-Only Memory, PROM for short), read-Only Memory (ROM for short), magnetic Memory, flash Memory, magnetic disk, or optical disk. The multimedia component 503 may include a screen and an audio component. Wherein the screen may be, for example, a touch screen, the audio component being for outputting and/or inputting audio signals. For example, the audio component may include a microphone for receiving external audio signals. The received audio signals may be further stored in the memory 502 or transmitted through the communication component 505. The audio assembly further comprises at least one speaker for outputting audio signals. The I/O interface 504 provides an interface between the processor 501 and other interface modules, which may be a keyboard, mouse, buttons, etc. These buttons may be virtual buttons or physical buttons. The communication component 505 is used for wired or wireless communication between the electronic device 500 and other devices. Wireless communication, such as Wi-Fi, bluetooth, near field communication (Near Field Communication, NFC for short), 2G, 3G, 4G, NB-IOT, eMTC, or other 5G, etc., or one or a combination of more of them, is not limited herein. The corresponding communication component 505 may thus comprise: wi-Fi module, bluetooth module, NFC module, etc.

In an exemplary embodiment, the electronic device 500 may be implemented by one or more application specific integrated circuits (Application Specific Integrated Circuit, abbreviated as ASIC), digital signal processors (Digital Signal Processor, abbreviated as DSP), digital signal processing devices (Digital Signal Processing Device, abbreviated as DSPD), programmable logic devices (Programmable Logic Device, abbreviated as PLD), field programmable gate arrays (Field Programmable Gate Array, abbreviated as FPGA), controllers, microcontrollers, microprocessors, or other electronic components for performing the above-described meter data collection method.

In another exemplary embodiment, a computer readable storage medium is also provided, comprising program instructions which, when executed by a processor, implement the steps of the electricity meter data collection method described above. For example, the computer readable storage medium may be the memory 502 including program instructions described above, which are executable by the processor 501 of the electronic device 500 to perform the meter data collection method described above.

In another exemplary embodiment, a computer program product is also provided, which computer program product comprises a computer program executable by a programmable apparatus, the computer program having code portions for performing the above-mentioned meter data acquisition method when being executed by the programmable apparatus.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations are not described further in this disclosure in order to avoid unnecessary repetition.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims

1. An ammeter data acquisition method is characterized by comprising the following steps:

2. The method for collecting data of electric meters according to claim 1, wherein said determining a target electric meter to be meter-copied corresponding to the current meter-copy according to the meter-copy time consumption of the electric meter to be meter-copied comprises:

3. The method for collecting data of electric meter according to claim 2, wherein determining a target electric meter to be meter-copied corresponding to the current meter-copied according to the meter-copied time consumption of the electric meter to be meter-copied, further comprises:

4. A method for collecting data of electric meters according to any one of claims 1 to 3, wherein determining the time consumption of meter reading corresponding to all electric meters to be meter-copied comprises:

5. A method of collecting electricity meter data according to any one of claims 1 to 3, further comprising:

6. A method of collecting electricity meter data according to any one of claims 1 to 3, further comprising:

7. The method of claim 4, wherein determining the initial time-consuming parameter of the meter to be meter-drawn comprises:

or,

8. An ammeter data acquisition device, comprising:

9. A non-transitory computer readable storage medium having stored thereon a computer program, characterized in that the computer program when executed by a processor implements the steps of the meter data collection method of any of claims 1-7.

10. An electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of the meter data collection method of any one of claims 1-7.