JP7099234B2 - Data management system - Google Patents

Description

The present invention relates to a data management system including one or more smart meters, a data collection communication device, and a meter data management device.

Conventionally, in order to grasp the amount of electric power used by electric power consumers, until smart meters became widespread, on-site visual meter reading was performed by meter readers, and the visual meter reading value was measured by a handy terminal or the like. It was stored in the host computer.

With the spread of smart meters, there is a gradual shift from visual meter reading to automatic meter reading, and the meter reading values handled are also changing from monthly to 30-minute meter reading. By eliminating the on-site visual meter reading, it is possible to significantly save labor, but the challenge is how to follow up on the parts that could be followed by human judgment. There is. In addition, since the amount of meter reading data to be handled becomes enormous, there is a need for a device for efficiently collecting meter reading data.

When a smart meter is installed at a demand destination, it usually starts to acquire the number of instructions at a predetermined time corresponding to the power consumption at the same time as the installation, but after installing the smart meter, the smart meter and the meter data management device (MDMS) Since there is a time lag until communication with the smart meter is established, it is not possible to automatically calculate the power consumption from the installation of the smart meter until the meter data management device first receives the indicated number from the smart meter. It has been difficult in the past. Further, it is conceivable to manually acquire the number of instructions at the time of installing the smart meter by seconding to the demand destination and using a handy terminal or the like, but the work is complicated.

In this regard, for example, in Patent Document 1, during the period when the communication between the measuring instrument and the server is not established, the meter reading data measured by the measuring instrument is collected by the concentrator connected to the measuring instrument, and the measuring instrument and the server It discloses a technique for transmitting meter reading data collected by a concentrator to a server after communication is established.

Japanese Unexamined Patent Publication No. 2014-154114

However, when the technique of Patent Document 1 is used to calculate the power consumption from the installation of the smart meter to the demand destination to the reception of the first meter data by the meter data management device, the smart meter is in demand. It is necessary not only to install it first, but also to install a concentrator connected to the smart meter and a network between the smart meter and the concentrator, which makes the procedure complicated. In particular, compared to the method of manually acquiring the number of instructions when installing a smart meter as described above using a handy terminal or the like, not only the procedure is more complicated, but also the economic cost and the time for installing the device are timely. The cost is also high.

The present invention provides a data management system capable of easily and automatically realizing fine-tuned management of meter reading values acquired by a smart meter during a period when communication between the smart meter and the meter data management device is not established. The purpose is to do.

(1) A data management system including one or more smart meters, a data collection communication device, and a meter data management device, wherein the smart meter acquires an instruction number corresponding to a power consumption amount at predetermined time intervals. The data includes a unit for acquiring the number of instructions to be specified, and a transmission unit for transmitting meter data including the number of instructions data indicating the number of instructions and the acquisition date and time data indicating the acquisition date and time of the number of instructions to the data collection communication device. The collection communication device transmits the receiving unit that receives the meter data from the one or more smart meters and the meter data that the receiving unit receives from the one or more smart meters to the meter data management device. The meter data management device receives the meter data from the storage unit that stores the number of instructions to be sent out, which is the number of instructions at the time when the smart meter is taken out, and the data acquisition communication device. As the instruction number data included in the meter data immediately before the meter data first received by the receiver after the receiver and the smart meter are attached to the demand destination, the warehousing indicating the number of warehousing instructions is shown. A data management system equipped with an interpolation unit that interpolates the indicated number of data.

According to (1), data useful for estimating the amount of power used between the time when the smart meter is attached to the demand destination and the time when the meter data management device first receives the meter data from the smart meter is automatically performed. It becomes possible to manage the data.

(2) The meter data management device was acquired by the smart meter between the time when the smart meter was attached to the demand destination and the time when communication between the smart meter and the meter data management device was established. After the communication between the smart meter and the meter data management device is established, the recollection instruction unit for instructing the data collection communication device to recollect the meter data is further provided, and the interpolation unit is the data collection communication. It is preferable to interpolate the warehousing instruction number data as the instruction number data included in the meter data immediately before the meter data recollected from the apparatus.

According to (2), the data management for estimating the power consumption from the time when the smart meter is installed at the demand destination until the meter data management device first receives the meter data from the smart meter. It will be possible to execute more finely.

(3) It is preferable that the interpolation unit registers the date and time data included in the meter data obtained by interpolating the warehousing instruction number data as the instruction number management start date and time corresponding to the installation date and time of the smart meter.

According to (3), for example, it is possible to automatically set the data of the installation date and time used for the inventory management of the smart meter.

(4) The storage unit further stores the number of storage instructions, which is the number of instructions at the time when the smart meter is stored, and the interpolation unit is used by the receiving unit before the smart meter is removed from the demand destination. It is preferable to interpolate the storage instruction number data indicating the storage instruction number as the instruction number data included in the meter data immediately after the meter data received last.

According to (4), data useful for estimating the amount of power used between the time when the meter data management device last receives the meter data from the smart meter and the time when the smart meter is removed from the demand destination is automatically performed. It becomes possible to manage the data.

(5) The receiving unit of the meter data management device receives the meter data acquired from the smart meter by the mobile terminal after the smart meter is removed from the demand destination, and the interpolating unit receives the meter data acquired from the smart meter. It is preferable to interpolate the storage instruction number data as the instruction number data included in the meter data immediately after the meter data acquired by.

According to (5), the data management for estimating the power consumption from the time when the meter data management device last receives the meter data from the smart meter to the time when the smart meter is removed from the demand destination. It will be possible to execute more finely.

(6) It is preferable that the interpolation unit registers the date and time data included in the meter data obtained by interpolating the storage instruction number data as the instruction number management end date and time corresponding to the removal date and time of the smart meter.

According to (6), for example, it is possible to automatically set the data of the removal date and time used for the inventory management of the smart meter.

According to the present invention, a data management system capable of easily and automatically realizing fine-tuned management of meter reading values acquired by a smart meter during a period when communication between the smart meter and the meter data management device is not established. Can be provided.

It is a figure which shows the whole structure of the data management system which concerns on embodiment of this invention, and the outline of invention. It is a functional block diagram of the smart meter provided in the data management system which concerns on embodiment of this invention. It is a functional block diagram of the data acquisition communication apparatus provided in the data management system which concerns on embodiment of this invention. It is a functional block diagram of the meter data management apparatus provided in the data management system which concerns on embodiment of this invention. It is explanatory drawing of the interpolation method of the warehousing instruction number in embodiment of this invention. It is explanatory drawing which shows the example of the exception data which is detected after interpolating the number of delivery instructions in embodiment of this invention. It is explanatory drawing which shows the example of the exception data which is detected after interpolating the number of delivery instructions in embodiment of this invention. It is a figure which shows the relationship between the data retention period of a smart meter in embodiment of this invention, and the indicated number data which a smart meter holds. It is a flowchart which shows the operation of the data management system which concerns on embodiment of this invention. It is explanatory drawing of the interpolation method of the warehousing instruction number in embodiment of this invention. It is explanatory drawing in the case that the number of storage instructions is exception data in the embodiment of this invention. It is a flowchart which shows the operation of the data management system which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[Construction of 1 invention]
[1.1 Overall configuration]
FIG. 1 is an overall configuration diagram of a data management system 1 according to an embodiment of the present invention.
The data management system 1 includes a smart meter 10, a data collection communication device 20, and a meter data management device (MDMS) 30. Although not shown, the smart meter 10 and the data acquisition communication device 20, and the data acquisition communication device 20 and the meter data management device (MDMS) 30 are connected to each other via a network.

The smart meter 10 is a device for digitally measuring the amount of electric power used by a consumer. Like a normal smart meter, the smart meter 10 has an automatic meter reading function, a function to detect an event that has occurred (not shown), and a remote connection / disconnection from the management location of the smart meter 10. It has a function to operate and a function to cooperate with home appliances.

Further, the smart meter 10 acquires the number of instructions corresponding to the amount of electric power used, and also obtains the meter data including the instruction number data indicating the acquired instruction number and the acquisition date / time data indicating the acquisition date / time of the instruction number. It is stored in the storage unit 140 of. The meter data is transmitted to the meter data management device 30 via the data acquisition communication device 20.

The data acquisition communication device 20 is also referred to as, for example, "HES (Head End System)", is connected to one or more smart meters 10, collects meter data from the one or more smart meters 10, and performs data communication. Control.

The meter data management device 30 receives meter data from the smart meter 10 via the data acquisition communication device 20 and stores it in the storage unit 360. Further, the meter data management device 30 manages and analyzes the meter data stored in the storage unit 360 and creates a database, for example, calculates the power consumption based on the database, and data with other systems. Cooperate.

Further, the control unit 310 of the meter data management device 30 instructs the data collection communication device 20 to recollect the indicated number data from each smart meter 10, and stores the collected series of meter data as the indicated number data. Interpolate the instruction number data and the storage instruction number data.

[1.2 Configuration of each part]
FIG. 2 shows a functional block of the smart meter 10. The smart meter 10 includes a control unit 110 and a storage unit 140. The control unit 110 includes an instruction number acquisition unit 120 and a transmission unit 130.

The control unit 110 includes a CPU, ROM, RAM, CMOS memory, and the like, which are known to those skilled in the art, which are configured to be communicable with each other via a bus.

The CPU is a processor that controls the smart meter 10 as a whole. The CPU reads out the system program stored in the ROM via the bus and controls the entire smart meter 10 according to the system program. It is configured to realize the function of the transmitter 130.

The instruction number acquisition unit 120 acquires an instruction number corresponding to the amount of electric power used in equipment such as a building in which the smart meter 10 is installed. For example, when the acquisition interval is every 30 minutes, the instruction number acquisition unit 120 acquires the instruction number for 30 minutes, which is the instruction number for every 30 minutes. In this case, the difference between the 30-minute instruction number acquired at a certain time and the 30-minute instruction number acquired 30 minutes after the time corresponds to the power consumption for 30 minutes during this period.

The transmission unit 130 collects data of meter data 150 including instruction number data indicating the number of instructions acquired by the instruction number acquisition unit 120 and acquisition date / time data indicating the date and time when the instruction number was acquired by the instruction number acquisition unit 120. It is transmitted to the communication device 20.

To repeat the above, the storage unit 140 stores the meter data 150.

FIG. 3 shows a functional block of the data acquisition communication device 20. The data acquisition communication device 20 includes a reception unit 210 and a transmission unit 220.

The receiving unit 210 receives the above-mentioned meter data 150 from one or more smart meters 10. Further, the transmission unit 220 collectively transmits the meter data 150 received from one or more smart meters 10 to the meter data management device 30.

FIG. 4 shows a functional block of the meter data management device 30. The meter data management device 30 includes a control unit 310 and a storage unit 360. The control unit 310 includes a reception unit 315, a recollection instruction unit 320, a determination unit 325, an interpolation unit 330, an exception data detection unit 335, and a storage unit 340. The storage unit 360 stores meter data 365, master data 370, warehousing instruction number data 375, and warehousing instruction number data 380.

The control unit 310 includes a CPU, ROM, RAM, CMOS memory, and the like, which are known to those skilled in the art and are configured to be able to communicate with each other via a bus.

The CPU is a processor that controls the meter data management device 30 as a whole. The CPU reads out the system program stored in the ROM via the bus and controls the entire smart meter 10 according to the system program, so that the control unit 110 is reunited with the reception unit 315 as shown in FIG. It is configured to realize the functions of the collection instruction unit 320, the determination unit 325, the interpolation unit 330, the exception data detection unit 335, and the storage unit 340.

The receiving unit 315 receives meter data for each smart meter 10 from the data acquisition communication device 20.

The recollection instruction unit 320 recollects the meter data acquired by the smart meter 10 between the time when the smart meter 10 is attached to the demand destination and the time when the communication between the smart meter 10 and the meter data management device 30 is established. After the communication between the smart meter 10 and the meter data management device 30 is established, an instruction is given to the data acquisition communication device 20.

The determination unit 325 is a period from the attachment of the smart meter 10 to the demand destination to the acquisition date and time of the meter data at the end of the series of meter data recollected by the recollection instruction unit 320 (acquisition date and time by the smart meter 10). However, it is determined whether or not the data retention period of the smart meter 10 has been exceeded.

The interpolation unit 330 interpolates the warehousing instruction number data 375 stored in the storage unit 360, which will be described later, in the frame immediately before the beginning of the series of meter data received by the reception unit 315. In particular, the interpolation unit 330 is subjected to the determination unit 325 from the attachment of the smart meter 10 to the demand destination to the acquisition date and time of the meter data at the end of the recollected series of meter data (acquisition date and time by the smart meter 10). When it is determined that the period is within the data retention period of the smart meter 10, it is preferable to interpolate the warehousing instruction number data 375 in the frame immediately before the beginning of the recollected series of meter data.
Further, the interpolation unit 330 interpolates the storage instruction number data 380 stored in the storage unit 360, which will be described later, in the frame immediately after the end of the series of meter data received by the reception unit 315. In particular, the interpolation unit 330 inputs a series of meter data after the smart meter 10 is removed from the demand destination and the communication between the smart meter 10 and the meter data management device 30 is interrupted by using, for example, a handy terminal. , It is preferable to manually obtain the data from the smart meter 10 and interpolate the storage instruction number data 380 into the frame immediately after the end of the acquired series of meter data.
The details of the interpolation method executed by the interpolation unit 330 are as follows [2. Interpolation method for the frame immediately before a series of meter data] and [3. Interpolation method immediately after a series of meter data] will be described in detail.

The exception data detection unit 335 detects the exception data in the meter data received by the reception unit 315. Specifically, the exception data detection unit 335 can detect that the indicated number data included in the meter data of the first frame of the series of meter data recollected by the recollection instruction unit 320 is the exception data. Is. Further, the exception data detection unit 335 can detect that the warehousing instruction number data to be interpolated in the frame immediately before the beginning of the series of meter data is the exception data. Further, the exception data detection unit 335 can detect that the storage instruction number data to be interpolated in the frame immediately after the end of the series of meter data is the exception data.

The storage unit 340 stores the meter data 365 and the like received by the reception unit 315 in the storage unit 360.

The meter data 365 is meter data received from the smart meter 10 via, for example, the data acquisition communication device 20.
The master data 370 is data that serves as a ledger for managing the smart meter 10.
The warehousing instruction number data 375 is data indicating the number of instructions at the time when the smart meter 10 is warehousing.
The warehousing instruction number data 380 is data indicating the number of instructions at the time when the smart meter 10 is warehousing.
The warehousing instruction number data 375 and the warehousing instruction number data 380 can be acquired, for example, by being received by the receiving unit 315 from a power distribution system or the like connected to the meter data management device 30.

[2. Interpolation method for the previous frame of a series of meter data]
Hereinafter, with reference to FIGS. 5A to 7, a method of interpolating the number of warehousing instructions to the frame immediately before the beginning of a series of meter data by the interpolation unit 330 will be described.

[2.1 Normal interpolation]
FIG. 5A is a data table showing a normal interpolation method. As shown in FIG. 5A, if the smart meter 10 enters the network with the meter data management device 30 between 21:00 on March 13 and 21:30 on March 13, March 13 The meter data management device 30 can sequentially receive the meter data after 21:30 on the day, but the meter data before 21:00 on March 13, more specifically, the smart meter 10. The meter data management device 30 cannot acquire the meter data as it is from the time when the smart meter 10 is installed at the demand destination until the communication between the smart meter 10 and the meter data management device 30 is established.

Therefore, the recollection instruction unit 320 instructs the data collection communication device 20 to recollect the meter data from the time when the smart meter 10 is stored until the time when the smart meter 10 enters the network. As a result, as shown in FIG. 5A, the meter data management device 30 can acquire meter data from 9:30 on March 13 to 21:00 on March 13.

However, with this alone, the meter data management device 30 cannot calculate the amount of electric power used between the time when the smart meter 10 is installed at the demand destination and the time when the smart meter 10 first acquires the indicated number.

Therefore, the interpolation unit 330 interpolates the warehousing instruction number data in the frame immediately before the meter data at 9:30 on March 13, which is the head of the recollected series of meter data. Further, the interpolation unit 330 registers 9:00 on March 13, which is the date and time of the frame in which the warehousing instruction number data is interpolated, as the instruction number management start date and time.

By using the meter data of the frame in which the warehousing instruction number data is interpolated, the meter data management device 30 is from the time when the smart meter 10 is installed at the demand destination until the smart meter 10 first acquires the indicated number. It is possible to calculate the amount of power used during that period. More specifically, to explain using the example shown in FIG. 5A, the number of instructions for unloading the frame at 9:00 on March 13 and the number of instructions for the frame at 9:30 on March 13 The difference corresponds to the amount of power used between the time when the smart meter 10 is installed at the demand destination and the time when the indicated number is first acquired.

[2.2 Detection of exception data]
5B and 5C show examples of exception data.

As shown in FIG. 5B, the recollection instruction unit 320 recollected the meter data from the time when the smart meter 10 was discharged until the time when the smart meter 10 entered the network, but for example, a series of recollected data. Among the meter data of, the number of indications included in the first meter data becomes larger than the number of instructions included in the next meter data, etc., within the series of recollected meter data, between frames. Inconsistency in the indicated number may occur.

In this case, the exception data detection unit 335 detects the indicated number data included in the head meter data as exception data. The interpolation unit 330 interpolates the warehousing instruction number data in the frame immediately before the first meter data including this exception data, and registers the time of the frame in which the warehousing instruction number data is interpolated as the instruction number management start date and time. do.
The meter data management device 30 does not use the instruction number data of 9:30 on March 14, which is the exception data, when calculating the power consumption.

As shown in FIG. 5C, after the meter data is recollected by the recollection instruction unit 320 from the time when the smart meter 10 is discharged until the smart meter 10 enters the network, a series of series is performed by the interpolation unit 330. Although the warehousing instruction number data was interpolated in the frame immediately before the beginning of the meter data, the interpolated warehousing instruction number becomes larger than the number of instructions in the first frame of the recollected series of meter data, etc. Inconsistencies in the number of instructions may occur between the number of warehousing instructions and the number of instructions contained in the recollected meter data.

In this case, the exception data detection unit 335 detects the warehousing instruction number data as exception data. Although the warehousing instruction number data is detected as exception data, the interpolation unit 330 registers the time of the frame in which the warehousing instruction number data is interpolated as the instruction number management start date and time.
The meter data management device 30 does not use this exception data, that is, the warehousing instruction number data, when calculating the power consumption.

The exception data detection unit 335 detects the exception data not only when an inconsistency occurs between the indicated number data itself but also when an inconsistency occurs between the data of the acquisition date and time of the indicated number data. May be good.

[2.3 When not interpolating]
FIG. 6 shows the relationship between the data retention period of the smart meter 10 and the indicated number data actually held in the smart meter 10.

The smart meter 10 includes a storage unit 14 as a storage device, but since the storage unit 14 has a limited capacity for storing the indicated number data, the storage unit 14 newly stores the indicated number data by the first-in first-out method. At this time, the instruction number data stored in the storage unit 14 at the oldest time is deleted. As a result, the storage unit 14 has a uniform data retention period for each indicated number of data.

As shown in FIG. 6A, the period from the installation of the smart meter 10 to the acquisition date and time of the last meter data in the recollected series of meter data falls within the data retention period of the storage unit 14. If so, since the smart meter 10 stores all the indicated number data after being attached to the demand destination, the smart meter 10 is attached to the demand destination by the recollection instruction of the recollection instruction unit 320. After that, it is possible to recollect all the indicated number data.

In this case, the interpolation unit 330 interpolates the warehousing instruction number data in the frame immediately before the beginning of the recollected series of meter data, so that the smart meter 10 is attached to the demand destination, and then the smart meter 10 is used. It is possible to calculate the amount of power used until the first acquisition of the indicated number. Further, by registering the date and time of the frame in which the warehousing instruction number data is interpolated as the instruction number management start date and time, it is possible to approximately regard this instruction number management start date and time as the installation date and time of the smart meter 10. ..

On the other hand, as shown in FIG. 6B, the period from the installation of the smart meter 10 to the acquisition date and time of the last meter data in the recollected series of meter data is the data retention period of the storage unit 14. If it exceeds, the indicated number data that exceeds the data retention period is deleted. In this case, the recollection instruction of the recollection instruction unit 320 makes it impossible to recollect all the indicated number data after the smart meter 10 is attached to the demand destination. In particular, it is not possible to recollect the indicated number data initially acquired by the smart meter 10.

In this case, even if the interpolation unit 330 interpolates the storage instruction number data in the frame immediately before the beginning of the recollected series of meter data, the smart meter 10 is installed after the smart meter 10 is attached to the demand destination. It becomes impossible to calculate the amount of power used until the first indicated number is acquired. Further, even if the time of the frame in which the number of warehousing instructions is interpolated is registered as the instruction number management start date and time, this instruction number management date and time cannot be regarded as the installation date and time of the smart meter 10.

Therefore, the determination unit 325 determines the acquisition date and time of the meter data at the end of the series of meter data recollected by the instruction of the recollection instruction unit 320 from the attachment of the smart meter 10 to the demand destination (acquisition date and time by the smart meter 10). ) Is compared with the data retention period of the smart meter 10 (storage unit 140), and only when the former period is within the latter period, the interpolation unit 330 is recollected in a series. You may interpolate the warehousing instruction number data in the frame immediately before the beginning of the meter data of.

On the other hand, even if the former period exceeds the latter period, the indicated number management start date and time cannot be approximated as the installation date and time of the smart meter 10, but it is retained in the warehousing instruction number data and the smart meter 10. By using the oldest indicated number data among the indicated number data, the power from the installation date and time of the smart meter 10 to the acquisition date and time of the oldest indicated number data among the indicated number data held in the smart meter 10. It is possible to calculate the usage amount. Therefore, even if the former period exceeds the latter period, the interpolation unit 330 may interpolate the warehousing instruction number data immediately before the beginning of the recollected series of meter data.

[2.4 Operation when interpolating immediately before a series of meter data]
FIG. 7 is a flowchart showing an operation example of the data management system 1 in the case of interpolating the storage instruction number data in the frame immediately before the beginning of a series of meter data.

In step S1, the recollection instruction unit 320 of the meter data management device 30 recollects the meter data from the storage of the smart meter 10 to the entry of the smart meter 10 into the network to the data collection communication device 20. To instruct. As a result, the receiving unit 315 of the meter data management device 30 receives the meter data from the smart meter 10 through the data acquisition communication device 20 from the time when the smart meter 10 is released to the time when the smart meter 10 enters the network. To receive.

In step S2, the acquisition date and time of the meter data at the end of the series of meter data recollected from the attachment of the smart meter 10 to the demand destination by the determination unit 325 of the meter data management device 30 (acquisition date and time by the smart meter 10). ) Is within the data retention period of the smart meter 10 (S2: YES), the process proceeds to step S3. The period from the installation of the smart meter 10 to the demand destination by the determination unit 325 of the meter data management device 30 to the acquisition date and time of the meter data at the end of the recollected series of meter data (acquisition date and time by the smart meter 10). However, when it is determined that the data retention period of the smart meter 10 has been exceeded (S2: NO), a series of processes is terminated.

In step S3, the interpolation unit 330 interpolates the warehousing instruction number data 375 stored in the storage unit 360 into the frame immediately before the beginning of the series of meter data received by the reception unit 315.

In step S4, the exception data detection unit 335 includes the indicated number data included in the first meter data of the series of meter data recollected by the instruction of the recollection instruction unit 320, and the series recollected by the interpolation unit 330. Exception data is detected from the interpolated delivery instruction number data, etc. immediately before the beginning of the meter data of.

[3. Interpolation method immediately after a series of meter data]
Hereinafter, by referring to FIGS. 8A to 9, a method of interpolating the storage instruction number data into the frame immediately after the end of the series of meter data by the interpolation unit 330 will be described.

[3.1 Normal interpolation]
FIG. 8A is a data table showing a normal interpolation method. As shown in FIG. 8A, when the smart meter 10 is removed from the demand destination between 9:30 on March 13 and 10:00 on March 13, the smart meter starts at 9:00 on March 13. The power consumption during the period until 9:30 on March 13th, which is the closest frame when 10 is removed, is "0276", which is the indicated number of frames at 9:00 on March 13th, and March. It can be calculated from "0278", which is the indicated number of frames at 9:30 on the 13th.

However, the power consumption during the period from 9:30 on March 13 to the time when the smart meter 10 is removed is calculated so far because there is no indicated number data at the time when the smart meter 10 is removed. I couldn't.

Therefore, the interpolation unit 330 puts the storage instruction number data in the frame immediately after the meter data at 9:30 on March 13, which is the end of the series of meter data received by the reception unit 315 of the meter data management device 30. Interpolate. Further, the interpolation unit 330 registers 10:00 on March 13, which is the date and time of the frame in which the storage instruction number data is interpolated, as the instruction number management end date and time, and sets the instruction number management end date and time as the smart meter 10. It can be regarded as the removal date and time of.

By using the meter data of the frame in which the number of warehousing instructions is interpolated, the meter data management device 30 has the meter data management device 30 from the time when the smart meter 10 finally acquires the number of instructions to the time when the smart meter 10 is removed from the demand destination. It is possible to calculate the amount of power used during that period.

The storage instruction number data may be interpolated in the frame immediately after the end of the series of meter data received by the receiving unit 315 of the meter data management device 30, but after the smart meter 10 is stored, for example, it is handy. By using a terminal or the like, the meter data after the last meter data is received by the meter data management device 30 from the smart meter 10 is manually acquired, and at the end of this manually acquired series of meter data, The storage instruction number data may be interpolated.

[3.2 Detection of exception data]
FIG. 8B shows an example of exception data.

As shown in FIG. 8B, the end of a series of meter data received by the receiving unit 315 of the meter data management device 30, or a series of manually acquired by a handy terminal or the like after removing the smart meter 10 from the demand destination. Although we tried to interpolate the number of warehousing instructions at the end of the meter data, the data acquisition date and time corresponding to this warehousing instruction number data is a date and time in the future than the warehousing date and time of the smart meter 10, so a series of meter data. In some cases, the warehousing instruction number data may be interpolated in a frame in the future than the warehousing date and time.

In this case, the exception data detection unit 335 detects the warehousing instruction number data included in the frames in the future than the warehousing as exception data. Further, in this case, the interpolation unit 330 registers the time of the frame immediately after the time of warehousing as the designated number management end date and time.
The meter data management device 30 does not use the storage instruction number data as exception data when calculating the power consumption.

[3.3 Operation when interpolating immediately after a series of meter data]
FIG. 9 is a flowchart showing an operation example of the data management system 1 in the case of interpolating the storage instruction number data in the frame immediately after the end of a series of meter data.

In step S11, after the meter data is finally received by the meter data management device 30, the meter data including the indicated number data acquired by the smart meter 10 can be manually obtained from the smart meter 10 by using, for example, a handy terminal or the like. Get it with. The meter data manually acquired using the handy terminal or the like is transmitted to the meter data management device 30 by, for example, directly or indirectly connecting the handy terminal or the like to the meter data management device 30.

In step S12, the interpolation unit 330 interpolates the storage instruction number data in the frame immediately after the end of the series of meter data. Further, the interpolation unit 330 registers the date and time of the frame in which the storage instruction number data is interpolated as the instruction number management end date and time.

In step S13, the exception data detection unit 335 detects the warehousing instruction number data as exception data when the warehousing instruction number data is included in the frame at the date and time after the warehousing.

[4 effects]
In the data management system 1 according to the present embodiment, the meter data management device 30 is smart as the indicated number data included in the meter data immediately before the meter data first received after the smart meter 10 is attached to the demand destination. Interpolate the warehousing instruction number data of the meter 10.
As a result, data useful for estimating the amount of power used between the time when the smart meter 10 is attached to the demand destination and the time when the meter data management device 30 first receives the meter data from the smart meter is automatically obtained. It becomes possible to manage.

Further, according to the present embodiment, the meter data management device 30 is used between the time when the smart meter 10 is attached to the demand destination and the time when the communication between the smart meter 10 and the meter data management device 30 is established. The meter data acquired by the smart meter 10 is recollected, and the warehousing instruction number data is interpolated as the instruction number data included in the meter data immediately before the recollected meter data.

As a result, the data management for estimating the power consumption from the installation of the smart meter to the demand destination until the meter data management device first receives the meter data from the smart meter is automatically managed in more detail. It will be possible to execute.

Further, according to the present embodiment, the meter data management device 30 uses the smart meter 10 as the indicated number data included in the meter data immediately after the meter data last received before the smart meter 10 is removed from the demand destination. Interpolate the warehousing instruction number data.
As a result, the meter data management device 30 automatically obtains useful data for estimating the power consumption from the last reception of the meter data from the smart meter 10 until the smart meter 10 is removed from the demand destination. It becomes possible to manage it.

Further, according to the present embodiment, the meter data management device 30 receives the meter data acquired from the smart meter 10 by the mobile terminal after the smart meter 10 is removed from the demand destination, and is acquired by the mobile terminal. Interpolate the storage instruction number data as the instruction number data included in the meter data immediately after the meter data.
As a result, the data management for estimating the power consumption from the time when the meter data management device 30 last receives the meter data from the smart meter 10 until the smart meter 10 is removed from the demand destination is further managed. It can be executed finely and automatically.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments. Moreover, the effects described in the present embodiment are merely a list of the most preferable effects resulting from the present invention, and the effects according to the present invention are not limited to those described in the present embodiment.

The control method by the data management system 1 is realized by software. If realized by software, the programs that make up this software are installed on the computer. In addition, these programs may be recorded on removable media and distributed to users, or may be distributed by being downloaded to a user's computer via a network. Further, these programs may be provided to the user's computer as a Web service via a network without being downloaded.

1 Data management system 10 Smart meter 20 Data collection and communication device 30 Meter data management device (MDMS)
315 Receiving unit 320 Recollection instruction unit 325 Judgment unit 330 Interpolation unit 335 Exception data detection unit 340 Storage unit

Claims (6)

A data management system including one or more smart meters, a data collection communication device, and a meter data management device.
The smart meter is
An instruction number acquisition unit that acquires the number of instructions corresponding to the amount of power used at predetermined time intervals,
A transmission unit for transmitting meter data including instruction number data indicating the indicated number and acquisition date / time data indicating the acquisition date / time of the indicated number to the data acquisition communication device is provided.
The data acquisition communication device is
A receiving unit that receives the meter data from the one or more smart meters, and
The receiving unit includes a transmitting unit that transmits the meter data received from the one or more smart meters to the meter data management device.
The meter data management device is
A storage unit that stores the number of warehousing instructions, which is the number of warehousing instructions at the time when the smart meter is warehousing.
A receiving unit that receives the meter data from the data acquisition communication device, and
After the smart meter is attached to the demand destination, the warehousing instruction number data indicating the warehousing instruction number is interpolated as the instruction number data included in the meter data immediately before the meter data first received by the receiving unit. A data management system equipped with an interpolating unit. The meter data management device is
The smart meter recollects the meter data acquired by the smart meter between the time when the smart meter is attached to the demand destination and the time when communication between the smart meter and the meter data management device is established. After the communication with the meter data management device is established, a recollection instruction unit for instructing the data collection communication device is further provided.
The data management system according to claim 1, wherein the interpolating unit interpolates the warehousing instruction number data as the instruction number data included in the meter data immediately before the meter data recollected from the data acquisition communication device. The data according to claim 1 or 2, wherein the interpolation unit registers the date and time data included in the meter data obtained by interpolating the warehousing instruction number data as the instruction number management start date and time corresponding to the installation date and time of the smart meter. Management system. The storage unit further stores the number of storage instructions, which is the number of instructions at the time when the smart meter is stored.
The interpolation unit indicates the number of storage instructions as the instruction number data included in the meter data immediately after the meter data last received by the reception unit before the smart meter is removed from the demand destination. The data management system according to any one of claims 1 to 3, which interpolates numerical data. The receiving unit of the meter data management device receives the meter data acquired from the smart meter by the mobile terminal after the smart meter is removed from the demand destination, and receives the meter data.
The data management system according to claim 4, wherein the interpolation unit interpolates the storage instruction number data as the instruction number data included in the meter data immediately after the meter data acquired by the mobile terminal. The interpolating unit according to claim 4 or 5, wherein the interpolating unit registers the date and time data included in the meter data obtained by interpolating the storage instruction number data as the instruction number management end date and time corresponding to the removal date and time of the smart meter. Data management system.

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