KR101256944B1 - System and method for data recovery for automatic meter reading system - Google Patents

Abstract

The present invention provides a remote metering system suitable for the smart grid by establishing a two-way communication between the power supplier and the power consumer, to prevent the omission of the metering data, to increase the reliability of the metering data, and to check the power consumption of the customer in real time A system can be provided.
According to the present invention, a remote meter reading system capable of recovering data includes a meter reader for generating and storing meter reading data by metering power consumption of a customer at a predetermined cycle; A data concentrator for collecting the meter data from the meter; And a meter reading server that receives the meter reading data from the data concentrator, wherein the meter reading server transmits a recollection request signal for receiving missing data when the meter reading data is missing. The data concentrator transmits the recollection request signal to the meter to receive the missing data from the meter, and the meter reads the missing data to the data concentrator when receiving the recollection request signal. do.

Description

Remote meter reading system and data recovery method for remote meter reading system {SYSTEM AND METHOD FOR DATA RECOVERY FOR AUTOMATIC METER READING SYSTEM}

The present invention relates to a remote meter reading system capable of recovering data and a method for recovering data from a remote meter reading system. More specifically, when a meter reading data is missing from a meter reading server, the meter is requested to re-collect the missing data. The present invention relates to a remote meter reading system that detects missing data among stored meter reading data and transmits missing data according to a recollection request signal.

With each country's efforts to build a smart grid, in order to transform from a conventional power provider to a power consumer-centered power market, a power consumer checks his / her real-time power usage and efficiently supplies electricity according to his power usage. It is necessary to build a system that can consume.

In particular, in the future, when the electricity tariff is switched to a time-varying tariff, it may be more important to secure the energy consumption of the consumer in real time. When a power plan is switched to a time-varying plan, consumers need to use their energy usage in real time in order to curb expensive electricity consumption and inexpensive electricity consumption.

However, in the remote meter reading system according to the prior art, in order to check the meter reading data when the meter reading data is missing due to the influence of the shadow area or the communication environment, the operator must check the meter directly, There is a problem that reliability is not guaranteed. In addition, the conventional remote meter reading system has a problem that the meter reading data is transmitted in one direction, which is not suitable for a smart grid for establishing two-way communication.

An object of the present invention is to establish a two-way communication between the power supplier and the power consumer to provide a remote meter reading system suitable for the smart grid.

Another object of the present invention is to provide a system capable of preventing the omission of meter reading data, increasing the reliability of meter reading data, and checking power consumption of a consumer in real time.

It is another object of the present invention to provide a system capable of recollecting missing data after a fault condition is recovered, even in a fault situation where meter reading data cannot be collected.

According to an aspect of the present invention, there is provided a remote meter reading system capable of recovering data, comprising: a meter reading meter that generates and stores meter reading data by metering power usage of a customer at a predetermined cycle; A data concentrator for collecting the meter data from the meter; And a meter reading server that receives the meter reading data from the data concentrator, wherein the meter reading server transmits a recollection request signal for receiving missing data when the meter reading data is missing. The data concentrator transmits the recollection request signal to the meter to receive the missing data from the meter, and the meter reads the missing data to the data concentrator when receiving the recollection request signal. do.

The data recovery method of the remote meter reading system according to the present invention for achieving the above object comprises the steps of determining whether the meter reading data is missing; Generating, by the meter reading server, a recollection request signal and transmitting the recollection request signal to a meter through a data concentrator when missing data is generated; Detecting, by the meter, the missing data based on the recollection request signal; And transmitting, by the meter, the missing data to the meter reading server through the data concentrator.

The present invention can provide a remote meter reading system suitable for the smart grid by implementing a system capable of bidirectional communication between the power supplier and the power consumer.

In addition, by providing a remote meter reading system that can prevent the loss of meter reading data, it is possible to increase the reliability of the meter reading data, and to build a system that can check the power consumption of the customer in real time.

Even in failure situations where meter reading data cannot be collected, it is possible to provide a system that can recollect missing data after the failure situation is recovered, thereby minimizing power usage counting errors due to missing data.

1 is a remote meter reading system capable of recovering data according to an embodiment of the present invention,
2 is a flowchart of processing of missing data in the meter reading server when missing data is generated;
3 is a flowchart of missing data processing in the meter according to the recollection request signal, and
4 is a flowchart of a data recovery method of a remote meter reading system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 illustrates a remote meter reading system capable of recovering data according to an embodiment of the present invention. Referring to FIG. 1, the remote meter reading system includes a meter reader 100, a data concentrating unit (DCU) 200, and a meter reader server 300.

The meter reader 100 generates meter reading data by metering power consumption of a customer at a predetermined time interval, and stores meter reading data in a storage unit (not shown) in the meter reader 100. The meter reader 100 may store meter reading data for a certain period of time.

The meter 100 may bidirectionally communicate, receive a recollection request signal, and transmit missing data based on the received recollection request signal.

When the meter 100 receives the recollection request signal from the data concentrator 200, the missing data read and read the missing data from the storage unit (not shown) in response to the recollection request signal and the data concentrator ( 200).

The meter reading data includes time information, and the time information may be information about a generation time of the meter reading data or information about a power consumption collection time of the consumer. The recollection request signal includes time information on the missing data, and the meter reading data reads the meter data corresponding to the time information of the recollection request signal and transmits the read data to the data collecting device.

When the meter reading unit 100 stores the meter reading data in the storage unit, the meter reader 100 may give an index value to each meter reading data and store it. Index values may be assigned to the meter reading data in ascending or descending order, in the order of generation. For example, when 10,000 meter reading data can be stored in the meter reader 100, index values of 0 to 9,999 may be sequentially assigned, or conversely, index values of 9,999 to 0 may be assigned to each meter reading data. When all the index values are assigned to the meter reading data, the index values can be reused, but the metering data preferably has different index values.

When the meter reader 100 receives the recollection request signal, the meter reader checks the time information included in the meter reading data in the order of the index values, and determines that the meter data corresponding to the time information included in the recollection request signal is missing data. Send to the concentrator 200.

By assigning index values according to the generation order of meter reading data, when missing data occurs continuously, if the initial index value and the final index value of the continuously missing data are confirmed, all intermediate indexes are judged as missing data and resent. You can do it.

When a power failure occurs in the consumer, the meter reader 100 may transmit a power failure event to the data concentrator 200. When a power failure occurs in the consumer, since no meaningful meter reading data is generated, the meter reading server 300 that receives the power failure event does not generate a recollection request signal even if the meter reading data is missing.

The meter 100 is normally operated by inputting power through a power line, and when a power failure occurs, the meter 100 is supplied with power through an internal battery (not shown). When the power supply source of the meter 100 is switched from the power line to the battery, the meter 100 recognizes that a power failure has occurred, generates a power failure event, and transmits it to the data concentrator 200.

When the power is terminated and the power is input again to the meter reader 100 through the power line, the battery is discharged and a power failure event indicating that the power failure is completed is transmitted to the data concentrator 200.

The meter reader 100 may be given a unique identification value that can be identified from other meter readers 100.

The data concentrator 200 and the meter reader 100 may establish a wired network by using power line communication (PLC) or a wireless network by using a Zigbee, Bluetooth, and Binary-CDMA scheme. Can be. The meter reader 100 may include a communication modem for performing wired or wireless communication. The communication modem performs data transmission, such as collecting meter reading data and transmitting missing data.

That is, the communication modem may be connected to a meter of a consumer to collect meter reading data, receive a recollection request signal from the data collection device 200, and transmit missing data in response to the received signal.

The meter reader 100 should include a storage unit for storing meter reading data, and preferably, may be an electronic meter, a smart meter, or an E-type meter.

When the meter 100 is a smart meter or an electronic electricity meter, the communication modem may be selected by selecting a communication modem according to a communication method to be used, and the communication modem may be inserted into the enclosure of the smart meter or the electronic electricity meter. Is an E-Type power meter, it may be provided with a separate holder for the communication module, it can be connected to the E-Type power meter and the communication module.

The data concentrator 200 establishes a network with a plurality of meter readers 100 and collects meter data from a plurality of meter readers 100. In this case, the data concentrator 200 may distinguish the meter reader 100 through unique identification values assigned to the plurality of meter readers 100 connected to the data concentrator 200 or modem information of the meter reader 100.

Each meter reader 100 connected to the data concentrator 200 collects and stores meter reading data and transmits the collected meter reading data to the meter reading server 300.

The data concentrator 200 may transmit a synchronization packet to each meter 100 to synchronize the time of each meter data.

In addition, the data concentrator 200 receives a recollection request signal for the meter 100 from the meter reading server 300, transmits it to the meter 100, collects missing data from the meter 100, and collects the collected data. The transmitted data to the meter reading server 300.

The data concentrator 200 and the meter reader 100 may establish a wired network by using power line communication (PLC) or a wireless network by using a Zigbee, Bluetooth, and Binary-CDMA scheme. Can be.

The meter reading server 300 establishes a network with a plurality of data concentrators 200, receives meter reading data from the data concentrator 200, and stores a database of real-time power consumption for each customer. Each customer may be distinguished based on a unique identification value or modem information provided to the meter reader 100 stored in the data concentrator 200, and the power consumption of the customer may be confirmed through the meter data.

The meter reading server 300 and the data concentrator 200 may communicate by establishing a wired or wireless network. Preferably, it may be connected to a local area network (LAN) and may be an Ethernet-based TCP / IP protocol.

The meter reading server 300 determines whether missing data is generated for each meter reading unit 100, and when missing data is generated, generates the recollection request information in real time and transmits it to the data concentrator 200. Since the meter reading data is generated at a predetermined time interval, if the meter reading data is not received until the next time the meter reading data is generated, it is determined that the data is missing. For example, when the meter reading data is generated every 15 minutes, if the meter reading server 300 does not receive the metering data even after 15 minutes have elapsed after the metering data is generated, the metering data is determined to be missing and a recollection request signal is generated. Create

The meter reading server 300 may transmit a synchronization packet for synchronizing meter reading data collection time of a plurality of data concentrators 200 connected to the meter reading server 300. In addition, the data concentrator 200 receiving the synchronization packet may transmit the received synchronization packet to the meter reader 100 to synchronize the reading data generation time of each meter reader 100. Through the synchronization packet, the remote meter reading system may be synchronized so that the time when the next order reading data at the meter reading server 300 is generated and the time at which the next order reading data at the meter reading apparatus 100 is to be generated may be synchronized.

The recollection request signal may include visual information about the missing data. When the meter 100 receives the recollection request signal, since the next reading of the missing data is the recently stored reading data, the index value of the recently stored reading data is checked, and the time information of the reading data is read from the next order index value. Inquiry may determine whether it matches the time information included in the recollection request signal.

The meter reading server 300 receives a power failure event generated by the meter 100 even when missing data is generated, and generates a recollection request signal when the power failure event lasts for a time when the meter data collects power of the customer. I never do that. If there is a power outage during the time when the meter data collects the amount of power of the consumer, the meter data does not have a meaningful value, and even if the meter data is missing, there is no need to re-collect the meter data. May not be created.

Even though the recollection request signal is generated and transmitted to the data concentrator 200, if missing data is not received for a predetermined time, the recollection request signal is regenerated and transmitted again to the data concentrator 200. Regeneration of the recollection request signal may continue until the meter server 300 receives missing data.

In this case, when the missing data is not received even after transmitting the recollection request signal more than a predetermined number of times, the meter reading server 300 may stop regeneration of the recollection request signal. This generates a request signal for recollecting the meter data when an environment such as an error in the backbone network, a communication modem failure of the meter reader 100, or a temporary communication failure of the communication modem occurs, and thus cannot read the meter data. To prevent this. If the meter reading server 300 does not receive the missing data, the meter reading server 300 may display a message related to the missing data. The message may be displayed on the screen, or the message may be displayed by transmitting the message to the mobile communication terminal of the administrator registered in the meter reading server 300.

If the meter data cannot be collected due to an error in the backbone network, a communication modem failure of the meter reader 100, or a communication failure of a temporary communication modem, recovering the fault may create an environment in which missing data may be received again. Can be. In preparation for this, the meter reading server 300 may generate a recollection request signal for requesting collection of missing data through an external input.

That is, the administrator of the meter reading server 300 may input to generate a recollection request signal for requesting collection of missing data when the metering server 300 fails to collect missing data. If the missing data is a plurality of consecutive data, the recollection request signal may include the first time information and the last time information of the missing data. Upon reading the recollection request signal, the meter reader 100 determines the index value of the meter data corresponding to the first time information and the last time information in the order of the index value, when a plurality of consecutive data are missing. The reading data including the reading data corresponding to the index value of may be determined as the missing data to transmit the missing data to the data concentrator 200.

The meter reading server 300 may include a front end processor (FEP) 310. The potential processor 310 may process the metering data before transmitting the metering data to the metering server 300 to reduce the overload of the metering data.

The potential processor 310 may distribute traffic concentrated at the meter reading server 300 and manage related information of the data concentrator 200. The information of the data concentrator 200 includes an identification number of the data concentrator 200, a communication address, and information of the meter reader 100 managed by each data concentrator 200.

2 is a flow chart of missing data in the meter reading server when missing data is generated.

The meter reading server 300 collects meter reading data from the data concentrator 200 (S201), and when no meter reading data is received, it is determined whether missing data has occurred (S202).

If the missing data is generated, check whether the power failure event generated by the meter 100 is received (S203), and when receiving the power failure event, a recollection request signal for collecting the missing data of the meter data until the power failure is terminated. This stops the creation and terminates the processing flow. If the power failure event is not received, a recollection request signal for requesting transmission of missing data is generated and transmitted to the data concentrator 200 (S204).

When the metering server 300 receives the missing data corresponding to the recollection request signal (S205), when the metering server 300 receives the missing data, the processing flow is terminated, and the metering server 300 previously reads the missing data. If the missing data is not received for a specified time, the process returns to step S204 to regenerate the recollection request signal.

At this time, it is determined whether the recollection request signal is generated more than a predetermined number of times (S206), and when the recollection request signal is generated more than a predetermined number of times, the processing flow is terminated without generating a recollection request signal any more. do.

3 is a flowchart of missing data processing in the meter according to the recollection request signal.

The meter reader 100 generates meter data reflecting the real-time power consumption of the customer at a predetermined time interval and stores the meter data in a storage unit (S301). The meter data stored in the storage unit may be given an index value in ascending or descending order in the generation order.

When the recollection request signal generated by the meter reading server 300 is received from the data concentrator 200 (S302), the index value of the recently generated meter data is checked (S303), and the next index of the recently generated meter data is checked. It is determined whether the data is missing from the value (S304).

Whether the data is missing may be determined by comparing time information stored in the recollection request signal with time information stored in the meter reading data. In the case where a plurality of missing data occurs continuously, the first missing data and the last missing data are detected, and the reading data existing between the index values of the first missing data and the last missing data including the first missing data and the last missing data is missing. Judging by

When the missing data is detected, the meter reader 100 transmits the missing data to the data concentrator 200 (S305).

4 is a flowchart of a data recovery method of a remote meter reading system according to an embodiment of the present invention.

Missing data generation determination step (S401), the meter reading server 300 is a step of determining whether the meter reading data is missing. The meter reading data is generated at predetermined time intervals for each customer, and the meter reading server 300 may determine that missing data exists when the meter reading data is not received until the next meter reading data generation time.

In the recollection request signal transmission step (S402), when the meter reading server 300 determines that the missing data exists, the recollection request signal is generated and generated through the data concentrator 200. The step of transmitting to the meter 100.

The missing data detection step (S403) is a step in which the meter reader 100 receiving the recollection request signal detects missing data among the stored meter reading data. The meter reader 100 may detect missing data by comparing time information stored in the recollection request signal with time information included in the stored meter reading data.

In the missing data transmission step (S404), when the meter 100 detects missing data, the missing data transmission step transmits the missing data to the meter reading server 300 through the data concentrator 200.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

100: meter 200: data concentrator
300: meter reading server 310: potential handler

Claims (14)

A meter for generating and storing meter reading data by metering power consumption of a customer at a predetermined cycle;
A data concentrator for collecting the meter data from the meter;
A remote meter reading system comprising a metering server for receiving the meter reading data from the data concentrator and transmitting a recollection request signal for receiving the missing data when the meter reading data is missing.
The meter reading data includes first time information about a data generation time;
The recollection request signal includes second time information about a generation time of the missing data,
The data concentrator sends the recollection request signal to the meter to receive the missing data from the meter,
The meter reads the missing data from the meter reading data by comparing the first time information with the second time information when receiving the recollection request signal, and transmits the missing data to the data concentrator. Remote meter reading system.
The method of claim 1, wherein the meter reading server,
And if the reading data is not received until the next generation of reading data, determining that the missing data exists.
The method of claim 1, wherein the meter reading server,
And a potential processor (FEP) for distributing traffic concentrated on the metering server and storing related information of the data concentrator.
The method of claim 1, wherein the meter reading server,
And regenerating the recollection request signal if the missing data is not received within a predetermined time corresponding to the recollection request signal.
The method of claim 4, wherein the meter reading server,
And regenerating the recollection request signal if the recollection request signal is regenerated more than a predetermined number of times.
The method of claim 1, wherein the meter reading device,
In the event of a power failure situation, a power failure event is generated and transmitted to the data concentrator,
And the data concentrator is configured to transmit the power failure event to the meter reading server.
The method of claim 6, wherein the meter reading server,
And the recollection request signal is not generated when the power failure event is received.
The method of claim 6, wherein the meter reading device,
And detecting the change of the power supply source to the meter to generate the power failure event.
delete The method of claim 1,
The meter reading apparatus assigns an index value to the meter reading data, and checks the index value to determine whether the data is missing from an index value of a next order.
11. The method of claim 10,
If there is at least two missing data,
The meter reading unit detects the first missing data and the last missing data based on the first time information of the first missing data included in the recollection request signal and the last time information of the last missing data, and corresponds to the first missing data. And the meter reading data having an index value between the index value and the index value corresponding to the last missing data is also the missing data.
Determining, by the metering server, whether the metering data is missing;
Generating, by the meter reading server, a recollection request signal and transmitting the recollection request signal to a meter through a data concentrator when missing data is generated;
Detecting the missing data by comparing the first time information about the data generation time included in the meter reading data with the second time information about the generation time of the missing data included in the recollection request signal; ; And
The meter reading the missing data through the data concentrator to the meter reading server
Data recovery method of the remote meter reading system comprising a.
The method of claim 12, wherein the meter reading server,
If the reading data is not received until the next generation of reading data, it is determined that the missing data is present.
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