CN112114990B

CN112114990B - Method for detecting version abnormity of carrier module

Info

Publication number: CN112114990B
Application number: CN202010896430.1A
Authority: CN
Inventors: 王文豪; 刘绪胜; 范存全
Original assignee: Ningbo Sanxing Medical and Electric Co Ltd
Current assignee: Ningbo Sanxing Medical and Electric Co Ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2022-04-26
Anticipated expiration: 2040-08-31
Also published as: CN112114990A

Abstract

The invention discloses a method for detecting version abnormity of a carrier module, a utilized system comprises a main station and a terminal, a plurality of electric meters are connected under the terminal, and the terminal and the electric meters are provided with the carrier module, the method comprises the following steps: 1) the main station issues the current correct terminal and version information of each ammeter carrier module of each manufacturer to the terminal, and the terminal stores the first carrier module information of the terminal in a first structure of the terminal; the terminal stores the second carrier module information of each electric meter in a second structure body of the terminal; 2) the method comprises the steps that a terminal acquires first carrier module information, a terminal address and day freezing acquisition data of all electric meters under a terminal module every day; the terminal collects second carrier module information, electric meter addresses and daily freezing reading data of the modules of each electric meter every day; 3) and the terminal compares the stored information, reports the stored information to the master station in time when inconsistency is found, and the master station updates the version of the carrier module of the corresponding currently running ammeter on line according to the change information.

Description

Method for detecting version abnormity of carrier module

Technical Field

The invention relates to a power system, in particular to a method for detecting carrier module version abnormity.

Background

In recent years, the economy of China is rapidly developed, and the electricity consumption of China is rapidly increased. With the application and popularization of the power grid deepening function, the latest broadband platform area requires the interconnection and intercommunication of carrier modules of all manufacturers, so that in the newly added broadband platform area, a plurality of manufacturers' modules exist, and a plurality of software versions may exist in the same manufacturer. This just need carry out the management and control to the carrier module version of different producers, because producer, module version are different, can appear the matching nature problem, in case the matching problem appears, can lead to user's electric quantity not to gather. If the problem is not solved quickly, the complaints of users are increased, and the version of the module manufacturer with the problem needs to be accurately identified and quickly upgraded.

According to the traditional identification scheme, version information of modules of supply manufacturers is recorded through a system, the modules of the manufacturers are sent to a certain city, and the version information of the modules installed on the terminal and the ammeter is manually recorded during actual installation of the city. If the version information is artificially recorded to be wrong, whether the module version in the platform area has a problem or not can not be checked, and the module version information is low and needs to be upgraded until the electric quantity of the user can not be acquired for a plurality of days and the field module is checked. After the module of one manufacturer is upgraded, the matching performance of the module of one manufacturer with the modules of other manufacturers is unknown, and blind upgrade also influences the acquisition rate of the transformer area. The method cannot identify the module with the problem in real time, has the defects of low identification rate, low speed, unreliability and low efficiency in manual input and comparison of module version information, and cannot ensure whether the module version can be interconnected with other manufacturer modules or not after upgrading.

In the prior art, the version of the carrier module is manually recorded, and whether the carrier module with the abnormal version exists in the platform area is manually eliminated, so that the module with the problem version is upgraded. After the upgrade, whether the module is matched with other manufacturer modules or not can not be guaranteed, so that the situation that the electric quantity of a user cannot be copied on site frequently occurs, and customer complaints are increased. And the carrier version module information needs to be manually maintained every time, so that errors are easy to occur.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method for detecting carrier module version abnormality, which has high identification efficiency and high accuracy, aiming at the defects existing in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for detecting carrier module version abnormity, the utilized system comprises a main station and a terminal, a plurality of electric meters are connected under the terminal, and the terminal and the electric meters are provided with carrier modules, and the method is characterized in that: the method comprises the following steps:

1) the main station issues the current correct terminal and version information of each ammeter carrier module of each manufacturer to the terminal, and the terminal stores the first carrier module information of the terminal in a first structure of the terminal; the terminal stores the second carrier module information of each electric meter in a second structure body of the terminal;

2) the terminal acquires first carrier module information, a terminal address and data acquired by freezing all electric meters under the terminal module every day and stores the first carrier information in a third structure; the terminal collects second carrier module information, the electric meter address and the daily freezing reading data of each electric meter every day and stores the second carrier module information, the electric meter address and the daily freezing reading data in a fourth structure body of the terminal;

3) the terminal compares the current and last stored information in the third structure, if the current and last stored information is the first time, the current and last stored information is directly compared with the first structure data, if the current and last stored information is the second time or later, the first carrier module information and the terminal address of the terminal are compared with the last time, if the first carrier module information under the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated, the terminal carrier module version change event is reported to the master station, and the master station updates the carrier module version of the currently operating terminal on line according to the change information; the terminal compares the stored information of the current and last times in the fourth structure body, if the stored information is the first time, the stored information is directly compared with the data of the second structure body, if the stored information is the second time or later, the second carrier module information and the ammeter address of each ammeter are compared with the last time, if the second carrier module information under the same ammeter address is found to be inconsistent, an ammeter carrier module version change event is generated, and the master station updates the carrier module version of the corresponding ammeter in the current operation on line according to the change information.

Further, the first carrier module information and the second carrier module information both include a manufacturer code, a chip manufacturer, a software version number, and a software version date of the carrier module.

Further, in step 3), when the terminal compares the information stored in the third structure, if any one of the manufacturer code, the chip manufacturer, the software version number and the software version date in the first carrier module information at the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated; when the terminal compares the information stored in the fourth structure, if any one of the manufacturer code, the chip manufacturer, the software version number and the software version date in the first carrier module information under the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated.

Further, when the terminal generates a terminal carrier module version change event, reporting the abnormal occurrence time and the version information of the terminal module before and after occurrence to the master station; and when the terminal generates an ammeter carrier module version change event, reporting the abnormal occurrence time and the version information of the ammeter module before and after occurrence to the master station.

Further, the method comprises the steps of 4) comparing a third structure with version information in the first structure by the terminal, judging whether a terminal manufacturer code in the third structure exists in the first structure, if not, generating a terminal carrier module manufacturer code abnormal event, and reporting abnormal terminal carrier module information in the third structure to the master station through the master station; if the manufacturer code exists, comparing the chip manufacturer, the software version number and the software version date, if any one of the codes is inconsistent, generating a terminal carrier module version abnormal event, and reporting the abnormal occurrence time, the correct terminal module version and the current terminal module version information to the master station; the master station checks whether a correct carrier module manufacturer needs to be newly added or the module needs to be replaced by a correct carrier module manufacturer; the terminal compares the version information in the fourth structure body with the version information in the second structure body, judges whether the electric meter module manufacturer code in the fourth structure body exists in the second structure body, generates an abnormal event of the terminal electric meter carrier module manufacturer code if the electric meter module manufacturer code does not exist, and reports the abnormal electric meter carrier module information in the fourth structure body to the master station; if the manufacturer code exists, comparing the chip manufacturer, the software version number and the software version date, if any one of the chip manufacturer, the software version number and the software version date is inconsistent, generating an abnormal event of the version of the electric meter carrier module, reporting the abnormal occurrence time, the correct and current version information of the electric meter module to a master station, and checking by the master station whether a correct electric meter module manufacturer needs to be newly added or the module needs to be replaced by a correct electric meter module manufacturer.

Further, the method also comprises the step 5) that the terminal collects data of daily freezing and curve of the electricity meter connected with the electricity meter at regular time, and stores the collected data in the terminal; the collection rate is 100% if the day of all the electric meters installed under the terminal is frozen and the curve data is collected; and the terminal counts the acquisition rate every day and stores the acquisition rate under the version information of the corresponding terminal carrier module, and if the electric meter module of a certain manufacturer cannot acquire the information, the acquisition failure information is stored under the version of the corresponding electric meter carrier module.

Further, the method comprises the step 6) of reporting an abnormal event of the acquisition rate of the carrier module version of the terminal if the continuous n-day acquisition rate of the carrier module of the terminal is below a preset acquisition rate m, and reporting the version, the acquisition rate and the electric meter module version of the carrier module of the terminal to a master station; and if the carrier module of the terminal can not acquire data for n days continuously, reporting an abnormal event of the acquisition rate of the version of the carrier module of the ammeter, and reporting the version of the carrier module of the ammeter, acquisition failure information and the version of the carrier of the terminal to the master station.

Further, the method comprises the step 7) that the master station sends the version information of the abnormal module to a corresponding carrier module manufacturer, the carrier module manufacturer analyzes the problem and repairs the module matching problem, after the test is qualified, the version information is recorded to the power station, meanwhile, the master station sends correct version information to the terminal again, and the master station remotely upgrades the carrier module with the problem.

Further, the master station performs remote data interaction with the terminal through GPRS.

Furthermore, the terminal carries out data interaction with carrier modules of different manufacturers connected to the electricity meter in a downward mode through a carrier module of a certain manufacturer on the terminal.

Compared with the prior art, the invention has the advantages that: the correct version information of the terminal and the electric meter carrier module is issued by the master station, the terminal collects and compares the carrier module information, the version is considered to be abnormal when inconsistency is found, and the master station updates the version information, so that the terminal can update the latest and correct terminal and electric meter module information base in real time, and the identification efficiency and accuracy are high; the master station can find the problem and repair the problem according to the reported abnormal event of the acquisition rate; in addition, the master station can also rapidly solve the field problem according to an upgrading program provided by a module manufacturer.

Drawings

FIG. 1 is a flow chart of a detection method according to an embodiment of the present invention;

fig. 2 is a schematic block diagram of the distribution of carrier modules of the power system of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

Referring to fig. 2, the master station 1 performs remote data interaction with the terminal 2 through GPRS, the lower side of the terminal 2 is connected with a plurality of electric meter 3 devices, and different electric meters 3 are provided with carrier modules of different manufacturers. And the terminal 2 performs data interaction with carrier modules of different manufacturers connected to the electricity meter 3 through a carrier module of a certain manufacturer on the terminal 2.

Referring to fig. 1, a method for detecting carrier module version abnormality includes the following steps:

1) initially, the master station 1 issues the current correct terminal and version information of each meter carrier module of each manufacturer to the terminal 2, and the terminal 2 stores the manufacturer code, the chip manufacturer, the software version number, and the software version date of the carrier module of the terminal 2 in the first structure of the terminal 2. The manufacturer code, chip manufacturer, software version number and software version date of the carrier module of the terminal 2 are the first carrier module information of the terminal 2; the terminal 2 stores the manufacturer code, the chip manufacturer, the software version number and the software version date of the carrier module of each ammeter in a second structure body of the terminal 2, and the manufacturer code, the chip manufacturer, the software version number and the software version date of the carrier module of the ammeter 3 are second carrier module information of the ammeter 3;

2) the terminal 2 regularly acquires a manufacturer code, a chip manufacturer, a software version number, a software version date, a terminal address and daily freezing acquisition data of all electric meters under the terminal module of the terminal 2 every day, and stores the information in a third structure; the terminal 2 regularly collects manufacturer codes, chip manufacturers, software version numbers, software version dates, ammeter addresses and daily freezing reading data of carrier modules of the ammeters 3 every day and stores the manufacturer codes, the chip manufacturers, the software version numbers, the software version dates, the ammeter addresses and the daily freezing reading data in a fourth structure body of the terminal 2;

3) the terminal 2 compares the current and last stored information in the third structure, if the current and last stored information is the first time, the current and last stored information is directly compared with the first structure data, if the current and last stored information is the second or later time, the current and last stored information is compared with the manufacturer code, the chip manufacturer, the software version number, the software version date and the terminal address of the terminal 2, if any one of the manufacturer code, the chip manufacturer, the software version number and the software version date of the carrier module under the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated, the abnormal occurrence time, the terminal module version information before and after the occurrence is reported to the master station 1 through the GPRS remote module, and the master station 1 updates the currently running terminal carrier module version on line according to the change information; the terminal 2 compares the current and last stored information in the fourth structure body, if the current and last stored information is the first time, the current and last stored information is directly compared with the data of the second structure body, if the current and last stored information is the second time or later, the manufacturer code, the chip manufacturer, the software version number, the software version date and the ammeter address of the carrier module of each ammeter 3 are compared with the last time, if any one of the manufacturer code, the chip manufacturer, the software version number and the software version date of the ammeter under the same ammeter address is found to be inconsistent, an ammeter carrier module version change event is generated, the abnormal occurrence time, the information of the front ammeter module version and the information of the rear ammeter module version are reported to the master station 1 through the GPRS remote module, and the master station 1 updates the current running ammeter carrier module version on line according to the change information;

4) the terminal 2 compares the third structure body with the version information in the first structure body, judges whether a terminal manufacturer code in the third structure body exists in the first structure body, generates a terminal carrier module manufacturer code abnormal event if the terminal manufacturer code does not exist, and reports the abnormal terminal module information in the third structure body to the master station through the GPRS remote module; if the manufacturer code exists, comparing any one of the chip manufacturer, the software version number and the software version date with the same value, generating a terminal carrier module version abnormal event, and reporting the abnormal occurrence time, the correct terminal module version information and the current terminal module version information to the master station 1 through the GPRS remote module. The master station 1 checks whether a correct carrier module manufacturer needs to be newly added or replaced by a correct carrier module manufacturer; the terminal 2 compares the version information in the fourth structure body with the version information in the second structure body, judges whether the electric meter module manufacturer code in the fourth structure body exists in the second structure body, generates an abnormal event of the carrier module manufacturer code of the terminal electric meter if the manufacturer code does not exist, and reports the abnormal electric meter module information in the fourth structure body to the master station through the GPRS remote module; if the manufacturer code exists, comparing any one of the chip manufacturer, the software version number and the software version date with the same value, generating an abnormal event of the version of the electric meter carrier module, reporting the abnormal occurrence time, the correct version information and the current version information of the electric meter module to a master station 1 through a GPRS remote module, and checking by the master station 1 to see whether a correct electric meter module manufacturer needs to be newly added or the module needs to be replaced by a correct electric meter module manufacturer;

5) the terminal 2 regularly collects the daily freezing and curve data of the ammeter 3 and stores the collected data in the terminal 2; if the day of all the electric meters installed under the terminal 2 is frozen and the curve data is collected, the collection rate is 100%; the terminal 2 counts the acquisition rate every day and stores the acquisition rate under the version information of the corresponding terminal carrier module, and if the electric meter module of a certain manufacturer cannot be acquired, the acquisition failure information is stored under the version of the corresponding electric meter carrier module;

6) if the continuous n-day acquisition rate of a carrier module of a certain manufacturer of the terminal is below a preset acquisition rate m, if so, reporting an abnormal event of the acquisition rate of the version of the carrier module of the terminal, and reporting the version of the carrier module of the terminal, the acquisition rate and the version of an ammeter module to a master station through a GPRS remote module; if the data can not be acquired by a certain manufacturer module for n consecutive days, reporting an abnormal event of the acquisition rate of the version of the carrier module of the ammeter, reporting the version of the carrier module of the ammeter, acquisition failure information and the version of the carrier of the terminal to the master station 1 through a GPRS remote module;

7) and sending the version information of the abnormal module to a corresponding module manufacturer, analyzing the problem by the module manufacturer, repairing the module matching problem, recording the version information to the power station after the test is qualified, simultaneously, sending correct version information to the terminal 2 by the main station 1 again, and remotely upgrading the problematic carrier module by the main station.

Claims

1. A method for detecting carrier module version abnormity is provided, the utilized system comprises a main station (1) and a terminal (2), a plurality of electric meters (3) are connected under the terminal (2), the terminal (2) and the electric meters (3) are provided with carrier modules, and the method is characterized in that: the method comprises the following steps:

1) the method comprises the following steps that a main station (1) issues current correct terminal (2) and carrier module version information of each ammeter (3) of each manufacturer to a terminal (2), and the terminal (2) stores first carrier module information of the terminal (2) in a first structure of the terminal (2); the terminal (2) stores the second carrier module information of each electric meter (3) in a second structure body of the terminal (2);

2) the terminal (2) acquires first carrier module information, a terminal address and the daily freezing acquisition data of all electric meters under the terminal module of the terminal (2) every day, and stores the first carrier module information in a third structure body; the terminal (2) collects second carrier module information, electric meter addresses and daily freezing reading data of the modules of each electric meter (3) every day and stores the second carrier module information, the electric meter addresses and the daily freezing reading data in a fourth structure body of the terminal (2);

3) the terminal (2) compares the stored information of the current time and the last time in the third structure body, if the stored information is the first time, the stored information is directly compared with the data of the first structure body, if the stored information is the second time or later, the stored information is compared with the first carrier module information and the terminal address of the terminal (2) for the last time, if the first carrier module information under the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated and reported to the master station (1), and the master station (1) carries out online updating on the carrier module version of the currently operating terminal (2) according to the change information; the terminal (2) compares the current and last stored information in the fourth structure body, if the current and last stored information is the first stored information, the current and last stored information is directly compared with the data of the second structure body, if the current stored information is the second or later stored information, the current and last stored information is compared with the second structure body data, if the second stored information is the second or later stored information, the second carrier module information and the electric meter address of each electric meter (3) are compared with the last stored information, if the second carrier module information under the same electric meter address is found to be inconsistent, an electric meter carrier module version change event is generated, and the main station (1) updates the carrier module version of the corresponding electric meter (3) which is currently running on line according to the change information.

2. The method of claim 1, wherein the carrier module version is abnormal: the first carrier module information and the second carrier module information respectively comprise a manufacturer code, a chip manufacturer, a software version number and a software version date of the carrier module.

3. The method of claim 2, wherein the carrier module version is abnormal: in the step 3), when the terminal (2) compares the information stored in the third structure body, if any one of a manufacturer code, a chip manufacturer, a software version number and a software version date in the first carrier module information under the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated; when the terminal (2) compares the information stored in the fourth structure, if any one of the manufacturer code, the chip manufacturer, the software version number and the software version date in the first carrier module information under the same terminal address is found to be inconsistent, a terminal carrier module version change event is generated.

4. The method of claim 1, wherein the carrier module version is abnormal: when a terminal (2) generates a terminal carrier module version change event, reporting the abnormal occurrence time and the version information of the terminal module before and after occurrence to a master station (1); and after the terminal (2) generates an electric meter carrier module version change event, reporting the abnormal occurrence time and the version information of the electric meter module before and after occurrence to the master station (1).

5. The method of claim 2, wherein the carrier module version is abnormal: the method also comprises the steps that 4) the terminal (2) compares a third structure body with version information in the first structure body, judges whether a terminal manufacturer code in the third structure body exists in the first structure body or not, generates a terminal carrier module manufacturer code abnormal event if the terminal manufacturer code does not exist, and reports the abnormal terminal carrier module information in the third structure body to the master station (1); if the manufacturer code exists, comparing the chip manufacturer, the software version number and the software version date, if any one of the codes is inconsistent, generating a terminal carrier module version abnormal event, and reporting the abnormal occurrence time, the correct terminal module version and the current terminal module version information to the master station (1); the master station (1) checks whether a correct carrier module manufacturer needs to be newly added or the module needs to be replaced by a correct carrier module manufacturer; the terminal (2) compares the version information in the fourth structure body and the version information in the second structure body, judges whether the electric meter module manufacturer code in the fourth structure body exists in the second structure body, generates an abnormal event of the terminal electric meter carrier module manufacturer code if the manufacturer code does not exist, and reports the abnormal electric meter carrier module information in the fourth structure body to the master station; if the manufacturer code exists, comparing the chip manufacturer, the software version number and the software version date, if any one of the chip manufacturer, the software version number and the software version date is inconsistent, generating an abnormal event of the version of the electric meter carrier module, reporting the abnormal occurrence time, the correct and current version information of the electric meter module to the master station (1), and checking by the master station (1) whether a correct electric meter module manufacturer needs to be newly added or the module needs to be replaced by a correct electric meter module manufacturer.

6. The method of claim 5, wherein the carrier module version is abnormal: the method also comprises the steps that 5) the terminal (2) collects data of daily freezing and curve of the lower ammeter (3) at regular time, and the collected data are stored in the terminal (2); the collection rate is 100% if the day of all the electric meters installed under the terminal (2) is frozen and the curve data is collected; the terminal (2) counts the collection rate every day and stores the collection rate under the version information of the corresponding terminal carrier module, and if the electricity meter module of a certain manufacturer cannot collect the information, the collection failure information is stored under the version of the corresponding electricity meter carrier module.

7. The method of claim 6, wherein the carrier module version is abnormal: the method also comprises the step 6) that if the continuous n-day acquisition rate of the carrier module of the terminal (2) is below the preset acquisition rate m, the abnormal event of the acquisition rate of the version of the carrier module of the terminal is reported, and the version, the acquisition rate and the version of the electric meter module of the terminal are reported to the master station (1); and if the carrier module of the terminal (2) can not acquire data for n days continuously, reporting an abnormal event of the acquisition rate of the version of the carrier module of the ammeter, and reporting the version of the carrier module of the ammeter, acquisition failure information and the version of the carrier of the terminal to the master station (1).

8. The method of claim 7, wherein the carrier module version is abnormal: the method also comprises the step 7) that the master station (1) sends the version information of the abnormal module to a corresponding carrier module manufacturer, the carrier module manufacturer analyzes the problem and repairs the module matching problem, after the test is qualified, the version information is recorded to the power station, meanwhile, the master station (1) resends the correct version information to the terminal (2), and the master station (1) remotely upgrades the carrier module with the problem.

9. The method for detecting carrier module version abnormality according to any one of claims 1 to 8, characterized in that: the master station (1) performs remote data interaction with the terminal (2) through GPRS.

10. The method for detecting carrier module version abnormality according to any one of claims 1 to 8, characterized in that: and the terminal (2) performs data interaction with carrier modules of different manufacturers connected to the electricity meter (3) through a carrier module of a certain manufacturer on the terminal (2).