CN116700074B - Method and device for automatically removing control command interference and intelligent ammeter system - Google Patents

Abstract

The application provides a method, a device and a smart meter system for automatically removing control command interference, which are characterized in that the working mode of a smart meter is analyzed through the residual electric quantity of each smart meter in the smart meter system, the connection interference mode is analyzed through analyzing the quantity of connection requests received by access equipment, the control command mode is analyzed through the quantity of control commands received by the smart meter, the allocation mode is determined according to the working mode, the connection interference mode and the control command mode, and the execution condition of control commands is adjusted by matching set parameters in the allocation mode. According to the application, the use degree and the interfered degree of the electric equipment are measured through the working mode, the connection interference mode and the control command mode, so that different interference elimination schemes are determined, the purpose of automatically shielding the control command interference is finally achieved, the unnecessary energy loss of the intelligent electric meter is reduced, and the supervision level of electric power data is also improved.

Description

Method and device for automatically removing control command interference and intelligent ammeter system

Technical Field

The application belongs to the technical field of intelligent Internet of things, and particularly relates to a method and device for automatically removing control command interference and an intelligent ammeter system.

Background

In the past, the electric meter for measuring the electric quantity is generally mechanical, has only a simple function of analog display, has no digital display and two-way communication function, and cannot meet the requirement of multifunctional use, so that people develop the electric meter with intelligent function and put the electric meter into the market. In intelligent micro-grid, intelligent power grid and intelligent city, intelligent ammeter with communication function is put into use so that power grid data can be optimally controlled.

The intelligent ammeter is a digital ammeter which is provided with a bidirectional communication function between an electric company and a user and is used for managing various electric equipment. The wireless communication or optical fiber network is used, and the wireless communication or optical fiber network has the functions of remotely measuring the electric quantity, switching on and off the electric energy, remotely operating the household appliances and the like, and realizes automatic management and adjustment of the household electric quantity, so that the household electric quantity is optimal. The electricity meter can optimally manage the electricity consumption of families, buildings and factories, and can also manage and regulate the electricity consumption conditions of natural energy sources such as solar photovoltaic power generation and the like which are easily affected by weather.

Along with the ingestion of the internet of things into various fields, the development of a smart meter system is more and more rapid, and the smart meter often encounters the problem that a control command is interfered when performing power data management and adjustment. For example, the interference of the control command cannot be automatically adjusted according to the residual electric quantity of the intelligent electric meter system, so that the power supply and the interference of the intelligent electric meter system are higher, the service life of the intelligent electric meter is influenced, and the problem that the power data management is out of control due to the fact that the interference of the normal operation control command is too high is also caused.

Therefore, a method and a device are urgently needed to solve the problem that the intelligent electric meter of the internet of things is easy to be interfered by control commands.

Disclosure of Invention

In view of the above, the application provides a method and a device for automatically removing control command interference and a smart meter system, which can automatically adjust a solution for coping with control command interference according to the residual electric quantity condition of the smart meter system, thereby improving the intelligent experience of users.

The specific technical scheme of the application is as follows:

The first aspect of the present application provides a method for automatically removing control command interference, comprising the steps of:

obtaining the residual electric quantity of each intelligent electric meter in the intelligent electric meter system, and analyzing the working mode of the intelligent electric meter according to the residual electric quantity;

acquiring access equipment of an intelligent ammeter, analyzing the quantity of connection requests received by the access equipment, and analyzing a connection interference mode according to the quantity of the connection requests;

Acquiring control commands received by an intelligent ammeter, calculating the number of the control commands according to the level of the control commands, and analyzing a control command mode according to the number of the control commands;

And determining a deployment mode according to the working mode, the connection interference mode and the control command mode, and matching the execution condition of the set parameter adjustment control command in the deployment mode.

Further, the working mode of the intelligent ammeter according to the residual electric quantity analysis is specifically as follows:

calculating a first electric quantity proportion according to the residual electric quantity of each intelligent electric meter in the intelligent electric meter system;

calculating a second electric quantity proportion according to the sum of the residual electric quantities of all intelligent electric meters in the intelligent electric meter system;

And analyzing the working mode of the intelligent electric meter according to the ratio of the first electric quantity proportion to the second electric quantity proportion.

Further, the analyzing the number of the connection requests received by the access device specifically includes:

analyzing the model of the access equipment;

searching external equipment and internal equipment of a connection request command in the model of the access equipment;

The number of connection requests of the external device and the internal device is identified.

Further, the analyzing the connection interference mode according to the number of connection requests specifically includes:

analyzing the uploading time of the access equipment;

determining a first interception time of the connection request quantity according to the uploading time;

And analyzing a connection interference mode according to the number of connection requests received by the access equipment in the first interception time.

Further, the calculating the number of the control commands according to the level of the control commands specifically includes:

dividing the level of the control command according to the data quantity of the control command;

Counting the number of control commands at different levels respectively;

and calculating the number of the control commands according to the number of the control commands at different levels.

Further, the analysis control command mode according to the control command number specifically includes:

determining a second interception time of the number of the control commands according to the sending time of the control commands;

And analyzing the control command mode according to the comparison relation between the control command quantity and the control command quantity threshold value in the second interception time.

Further, determining the allocation mode according to the working mode, the connection interference mode and the control command mode specifically includes:

Respectively calling weight values corresponding to the working mode, the connection interference mode and the control command mode, and performing addition operation to generate weight coefficients;

And determining the allocation mode according to the comparison relation between the weight coefficient and the weight threshold value.

Further, the execution status of the setting parameter adjustment control command in the matching mode is specifically:

Determining the offset time of a control command according to the allocation mode;

and acquiring flux data of a communication interface occupied by the control command according to the allocation mode, and determining the working time length of the communication interface according to the flux data and the allocation mode.

A second aspect of the present application provides an apparatus for automatically removing control command interference, the apparatus comprising:

the electric quantity detection module is used for acquiring the residual electric quantity of each intelligent electric meter in the intelligent electric meter system and analyzing the working mode of the intelligent electric meter according to the residual electric quantity;

The connection detection module is used for acquiring access equipment of the intelligent ammeter, analyzing the quantity of connection requests received by the access equipment and analyzing a connection interference mode according to the quantity of the connection requests;

The command detection module is used for acquiring control commands received by the intelligent ammeter, calculating the number of the control commands according to the level of the control commands, and analyzing a control command mode according to the number of the control commands;

And the interference elimination module is used for determining a deployment mode according to the working mode, the connection interference mode and the control command mode and matching the execution condition of the set parameter adjustment control command in the deployment mode.

A third aspect of the present application provides a smart meter system, where the smart meter system applies steps in the method for automatically removing control command interference, or includes modules in the device for automatically removing control command interference.

In summary, the application provides a method, a device and a smart meter system for automatically removing control command interference, which are characterized in that the working mode of a smart meter is analyzed by the residual electric quantity of each smart meter in the smart meter system, the connection interference mode is analyzed by analyzing the number of connection requests received by an access device, the control command mode is analyzed by the number of control commands received by the smart meter, the allocation mode is determined according to the working mode, the connection interference mode and the control command mode, and the execution condition of a set parameter adjustment control command in the allocation mode is matched. According to the application, the use degree and the interfered degree of the electric equipment are measured through the working mode, the connection interference mode and the control command mode, so that different interference elimination schemes are determined, the purpose of automatically shielding the control command interference is finally achieved, the unnecessary energy loss of the intelligent electric meter is reduced, and the supervision level of electric power data is also improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a flow chart of a method for automatically removing control command interference according to the present application;

FIG. 2 is a block diagram of an apparatus for automatically removing control command interference according to the present application.

Detailed Description

In order to make the objects, features and advantages of the present application more obvious and understandable, the technical solutions of the embodiments of the present application are clearly and completely described, and it is apparent that the embodiments described below are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, fig. 1 is a flowchart of a method for automatically removing control command interference according to the present application.

The embodiment of the application provides a method for automatically removing control command interference, which comprises the following steps:

s1: obtaining the residual electric quantity of each intelligent electric meter in the intelligent electric meter system, and analyzing the working mode of the intelligent electric meter according to the residual electric quantity;

S2: acquiring access equipment of an intelligent ammeter, analyzing the quantity of connection requests received by the access equipment, and analyzing a connection interference mode according to the quantity of the connection requests;

s3: acquiring control commands received by an intelligent ammeter, calculating the number of the control commands according to the level of the control commands, and analyzing a control command mode according to the number of the control commands;

s4: and determining a deployment mode according to the working mode, the connection interference mode and the control command mode, and matching the execution condition of the set parameter adjustment control command in the deployment mode.

As an embodiment, the smart meter system in S1 refers to a district electricity consumption status management network composed of smart meters, computers, databases, servers, and the like. The power consumption condition of the access equipment in the intelligent electric meter is obtained by monitoring the residual electric quantity of the intelligent electric meter, so that the work load degree of the intelligent electric meter, namely the work mode, is analyzed and is used as one of basic parameters of a matched interference elimination scheme.

The access device of the intelligent ammeter in the S2 refers to electric equipment which is accessed to the same wireless network with the intelligent ammeter, such as a television, a mobile phone and the like. The intelligent ammeter acquires information such as the model, the access time and the communication record of the access equipment, so that connection request information between the access equipment and the access equipment is acquired, and the intelligent ammeter is used for analyzing the connection request interference degree, namely the connection interference mode, between the electric equipment.

And S3, the control command received by the intelligent ammeter mainly comes from core intelligent equipment, and the core intelligent equipment can intelligently manage the power utilization conditions of other access equipment, such as a mobile phone and the like. The control command is divided into levels according to the data quantity and the like, and then the control command quantity can be accurately calculated by balancing the operation errors, so that the interference degree of the controlled command, namely the control command mode, is analyzed.

And S4, measuring the using degree and the interfered degree of the electric equipment according to the working mode, the connection interference mode and the control command mode so as to determine different interference removing schemes, namely the allocation mode. The interference of the control command to the intelligent ammeter is regulated through different setting parameters in the allocation mode, such as offset time of the control command, working time of a communication interface occupied by the control command and the like. Finally, the purpose of automatically shielding the control command interference is achieved, unnecessary energy loss of the intelligent electric meter is reduced, and meanwhile, the supervision level of the electric power data is improved.

According to the embodiment of the application, the working mode of the intelligent ammeter according to the residual electric quantity analysis is specifically as follows:

calculating a first electric quantity proportion according to the residual electric quantity of each intelligent electric meter in the intelligent electric meter system;

calculating a second electric quantity proportion according to the sum of the residual electric quantities of all intelligent electric meters in the intelligent electric meter system;

And analyzing the working mode of the intelligent electric meter according to the ratio of the first electric quantity proportion to the second electric quantity proportion.

As one example, the power source of the smart meter may include a dry cell and a battery, and the measurement of the amount of remaining power may be a summation of the two. The first electric quantity proportion is the electric quantity condition of a single intelligent electric meter, the second electric quantity proportion is the electric quantity sum of all intelligent electric meters in the whole intelligent electric meter system, and the work load level of the single intelligent electric meter in the current power consumption network can be reflected by utilizing the ratio of the first electric quantity proportion to the second electric quantity proportion. When the ratio is less than one fifth, judging that the power supply is in a low residual power mode, wherein the weight value is 1; when the ratio is smaller than three fifths and larger than one fifth, judging the mode of the medium residual electric quantity, wherein the weight value is 2; the ratio is less than five sixths and greater than three fifths, and the high residual electric quantity mode is judged, and the weight value is 3. The threshold setting of the ratio is determined by the total number of meters accessed in the smart meter system.

According to the embodiment of the application, the number of the connection requests received by the access equipment is analyzed specifically as follows:

analyzing the model of the access equipment;

searching external equipment and internal equipment of a connection request command in the model of the access equipment;

The number of connection requests of the external device and the internal device is identified.

As an embodiment, the connection between the access device and the smart meter is initiated in part by the access device itself and in part by an external device like a core smart device, both communication signals requesting commands may cause the smart meter to be disturbed when receiving control commands. Firstly analyzing the model number of the access equipment and marking, finding out the request commands with marked model numbers referenced in the communication records, finding out the internal equipment consistent with the equipment and the actual initiating terminal inconsistent with the equipment, namely the external equipment, in the request commands, and counting the total quantity of the connection requests initiated by the external equipment and the internal equipment in the intelligent ammeter, so that the problem that electric equipment is interfered by communication of other equipment can be solved.

According to the embodiment of the application, the analysis of the connection interference mode according to the number of the connection requests is specifically as follows:

analyzing the uploading time of the access equipment;

determining a first interception time of the connection request quantity according to the uploading time;

And analyzing a connection interference mode according to the number of connection requests received by the access equipment in the first interception time.

As an embodiment, the system may set the start time of 5min, and if there is an access device communication in 5min, obtain the number of connection requests in 5 min. When the number of the connection requests is smaller than 5 connection requests, determining that the connection is low-interference connection, wherein the weight value is 1; when the number of connection requests is equal to or greater than 5 connection requests, the high interference connection is determined, and the weight value is 2. For example, the external device in the access device is 3 mobile phone transmission sources, the number of requests in 5min is 10, the internal device is 2 television transmission sources, the number of requests in 5min is 5, and the number of connection requests received by the access device in the first interception time of 5min is 3×10+2×5=40.

According to the embodiment of the application, the calculation of the control command quantity according to the level of the control command is specifically as follows:

dividing the level of the control command according to the data quantity of the control command;

Counting the number of control commands at different levels respectively;

and calculating the number of the control commands according to the number of the control commands at different levels.

As an embodiment, the data volume unit of the control command is a byte, the control command is divided into a low control command and a high control command according to the size of the data volume, and the number of the low control command and the number of the high control command are counted respectively. Wherein, since the low control command bytes are low, the byte balancing needs to be performed in advance when counting the number of control commands, and the calculation formula of the number of control commands can be expressed as: low control command number/2 + high control command number.

According to the embodiment of the application, the analysis control command mode according to the control command quantity is specifically as follows:

determining a second interception time of the number of the control commands according to the sending time of the control commands;

And analyzing the control command mode according to the comparison relation between the control command quantity and the control command quantity threshold value in the second interception time.

As an embodiment, the sending time of the control command refers to the time when the core intelligent device sends out the control command, and the number of the second intercepting time statistics control commands is determined according to the concentration degree of the control command in time, so as to prepare for removing interference. For example, after detecting that a control command is sent for 1min, the system sets to start to acquire the control command sent by the mobile phone for 1min and count the number of the control commands. When the number of the control commands is smaller than 20, judging that the mobile phone is in a low control command mode, wherein the weight value is 1; when the number of the control commands is more than 20 and less than 50, judging that the control command mode in the mobile phone is a control command mode, wherein the weight value is 2; and when the number of the control commands is greater than 50, judging that the mobile phone is in a high control command mode, wherein the weight value is 3.

According to the embodiment of the application, the allocation mode is determined according to the working mode, the connection interference mode and the control command mode, and is specifically as follows:

Respectively calling weight values corresponding to the working mode, the connection interference mode and the control command mode, and performing addition operation to generate weight coefficients;

And determining the allocation mode according to the comparison relation between the weight coefficient and the weight threshold value.

As an embodiment, different workload degrees and interference degrees are divided according to a working mode, a connection interference mode and a control command mode, and the influence factors are subjected to accumulated calculation of weight coefficients so as to comprehensively evaluate the demand urgency of the smart meter for removing the control command interference. For example, the weight coefficient is greater than 4, and the heavy allocation mode is determined; the weight coefficient is smaller than 5 and larger than 2, and the moderate allocation mode is judged; and the weight coefficient is larger than 1, and the low degree allocation mode is judged.

According to the embodiment of the application, the execution status of the setting parameter adjustment control command in the matching mode is specifically:

Determining the offset time of a control command according to the allocation mode;

and acquiring flux data of a communication interface occupied by the control command according to the allocation mode, and determining the working time length of the communication interface according to the flux data and the allocation mode.

As an embodiment, the three deployment modes are respectively provided with fixed execution parameters for adjusting the interference of the control command to the smart meter. The offset time of the control command is set to be 3min, 2min and 1min in sequence in the heavy, medium and low allocation modes, the core intelligent equipment is left moved according to the offset time and then sent to the intelligent ammeter, and the intelligent ammeter right-moved analysis processing is completed when receiving the control command. Meanwhile, the flux condition of the RS485 communication interface can be set and acquired in the heavy and medium allocation modes, and the flux condition of the infrared communication interface can be set and acquired in the low allocation mode. If the flux data value is smaller than half of the maximum rated value, respectively setting the communication interfaces to stop running for 3min, 2min and 1min in a heavy, medium and low degree allocation mode; and if the flux data value is greater than or equal to one half of the maximum rated value, respectively setting and adjusting one half, one third and one fifth of the total number of the communication interfaces to be in a dormant mode in the heavy, medium and low allocation modes.

Referring to fig. 2, fig. 2 is a block diagram of a system for automatically removing control command interference according to the present application.

The embodiment of the application also provides a device for automatically removing the control command interference, which comprises:

the electric quantity detection module 1 is used for acquiring the residual electric quantity of each intelligent electric meter in the intelligent electric meter system and analyzing the working mode of the intelligent electric meter according to the residual electric quantity;

The connection detection module 2 is used for acquiring access equipment of the intelligent ammeter, analyzing the quantity of connection requests received by the access equipment and analyzing a connection interference mode according to the quantity of the connection requests;

The command detection module 3 is used for acquiring control commands received by the intelligent ammeter, calculating the number of the control commands according to the level of the control commands, and analyzing a control command mode according to the number of the control commands;

And the interference elimination module 4 is used for determining a deployment mode according to the working mode, the connection interference mode and the control command mode and matching the execution condition of the set parameter adjustment control command in the deployment mode.

According to the embodiment of the application, the electric quantity detection module is specifically used for:

calculating a first electric quantity proportion according to the residual electric quantity of each intelligent electric meter in the intelligent electric meter system;

calculating a second electric quantity proportion according to the sum of the residual electric quantities of all intelligent electric meters in the intelligent electric meter system;

And analyzing the working mode of the intelligent electric meter according to the ratio of the first electric quantity proportion to the second electric quantity proportion.

According to an embodiment of the present application, the connection detection module is specifically configured to:

analyzing the model of the access equipment;

searching external equipment and internal equipment of a connection request command in the model of the access equipment;

The number of connection requests of the external device and the internal device is identified.

According to an embodiment of the present application, the connection detection module is specifically configured to:

analyzing the uploading time of the access equipment;

determining a first interception time of the connection request quantity according to the uploading time;

And analyzing a connection interference mode according to the number of connection requests received by the access equipment in the first interception time.

According to an embodiment of the present application, the command detection module is specifically configured to:

dividing the level of the control command according to the data quantity of the control command;

Counting the number of control commands at different levels respectively;

and calculating the number of the control commands according to the number of the control commands at different levels.

According to an embodiment of the present application, the command detection module is specifically configured to:

determining a second interception time of the number of the control commands according to the sending time of the control commands;

And analyzing the control command mode according to the comparison relation between the control command quantity and the control command quantity threshold value in the second interception time.

According to the embodiment of the application, the interference elimination module is specifically used for:

Respectively calling weight values corresponding to the working mode, the connection interference mode and the control command mode, and performing addition operation to generate weight coefficients;

And determining the allocation mode according to the comparison relation between the weight coefficient and the weight threshold value.

According to the embodiment of the application, the interference elimination module is specifically used for:

Determining the offset time of a control command according to the allocation mode;

and acquiring flux data of a communication interface occupied by the control command according to the allocation mode, and determining the working time length of the communication interface according to the flux data and the allocation mode.

The embodiment of the application also provides a smart meter system, which applies each step in the method for automatically removing the control command interference or comprises each module in the device for automatically removing the control command interference.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (7)

1. A method for automatically removing control command interference, comprising the steps of:

obtaining the residual electric quantity of each intelligent electric meter in the intelligent electric meter system, and analyzing the working mode of the intelligent electric meter according to the residual electric quantity;

acquiring access equipment of an intelligent ammeter, analyzing the quantity of connection requests received by the access equipment, and analyzing a connection interference mode according to the quantity of the connection requests;

Acquiring control commands received by an intelligent ammeter, calculating the number of the control commands according to the level of the control commands, and analyzing a control command mode according to the number of the control commands;

determining a deployment mode according to the working mode, the connection interference mode and the control command mode, and matching the execution condition of a set parameter adjustment control command in the deployment mode;

the working mode of the intelligent ammeter according to the residual electric quantity analysis is specifically as follows:

calculating a first electric quantity proportion according to the residual electric quantity of each intelligent electric meter in the intelligent electric meter system;

calculating a second electric quantity proportion according to the sum of the residual electric quantities of all intelligent electric meters in the intelligent electric meter system;

Analyzing the working mode of the intelligent electric meter according to the ratio of the first electric quantity proportion to the second electric quantity proportion;

The calculation of the control command quantity according to the level of the control command is specifically as follows:

dividing the level of the control command according to the data quantity of the control command;

Counting the number of control commands at different levels respectively;

calculating the number of control commands according to the number of the control commands at different levels;

the control command mode analysis according to the control command quantity specifically comprises the following steps:

determining a second interception time of the number of the control commands according to the sending time of the control commands;

And analyzing the control command mode according to the comparison relation between the control command quantity and the control command quantity threshold value in the second interception time.

2. The method for automatically removing control command interference according to claim 1, wherein the parsing the number of connection requests received by the access device is specifically:

analyzing the model of the access equipment;

searching external equipment and internal equipment of a connection request command in the model of the access equipment;

The number of connection requests of the external device and the internal device is identified.

3. The method for automatically removing control command interference according to claim 1, wherein analyzing a connection interference pattern according to the number of connection requests is specifically:

analyzing the uploading time of the access equipment;

determining a first interception time of the connection request quantity according to the uploading time;

And analyzing a connection interference mode according to the number of connection requests received by the access equipment in the first interception time.

4. The method for automatically removing control command interference according to claim 1, wherein determining a deployment mode according to the operation mode, the connection interference mode and the control command mode is specifically:

Respectively calling weight values corresponding to the working mode, the connection interference mode and the control command mode, and performing addition operation to generate weight coefficients;

And determining the allocation mode according to the comparison relation between the weight coefficient and the weight threshold value.

5. The method for automatically removing control command interference according to claim 1, wherein the execution status of the setting parameter adjustment control command in the matching mode is specifically:

Determining the offset time of a control command according to the allocation mode;

and acquiring flux data of a communication interface occupied by the control command according to the allocation mode, and determining the working time length of the communication interface according to the flux data and the allocation mode.

6. An apparatus for automatically removing control command interference, the apparatus comprising:

the electric quantity detection module is used for acquiring the residual electric quantity of each intelligent electric meter in the intelligent electric meter system and analyzing the working mode of the intelligent electric meter according to the residual electric quantity;

The connection detection module is used for acquiring access equipment of the intelligent ammeter, analyzing the quantity of connection requests received by the access equipment and analyzing a connection interference mode according to the quantity of the connection requests;

The command detection module is used for acquiring control commands received by the intelligent ammeter, calculating the number of the control commands according to the level of the control commands, and analyzing a control command mode according to the number of the control commands;

And the interference elimination module is used for determining a deployment mode according to the working mode, the connection interference mode and the control command mode and matching the execution condition of the set parameter adjustment control command in the deployment mode.

7. A smart meter system, wherein the smart meter system employs the steps of the method for automatically removing control command interference as claimed in any one of claims 1 to 5, or

Comprising the modules of the apparatus for automatically removing control command disturbances according to claim 6.