KR20210095844A - Load profile management system and method thereof - Google Patents

Abstract

Embodiments of the present invention provide a load profile management system and a method thereof, wherein the load profile management system includes: a meter which generates and stores load profile information that measures a consumer's power usage at a predetermined period; an omission information determination unit which includes a data intensive processing device for receiving the load profile information from the meter, and determines whether the load profile information is omitted by using an sort index calculated based on a generation time of the received load profile information by the data intensive processing device; and a storage unit which stores the load profile information. Accordingly, the embodiments of the present invention can determine whether the load profile information is omitted, generate a unique ID, and prevent the load profile information from being duplicated to be stored, thereby reducing a storage space and data transmission amount.

Description

LOAD PROFILE MANAGEMENT SYSTEM AND METHOD THEREOF

The present invention relates to a system and method for managing a load profile, and more particularly, a load profile that collects and efficiently manages load profile information in a data intensive processing device without omission and prevents duplicated storage of load profile information. It relates to a management system and method.

As the electric power market changes from the conventional power supplier-centered to power consumer-centered, real-time acquisition of the power consumption used by customers and efficient management of the acquired information are becoming important.

To this end, the meter (watt-hour meter) that can create and store load profile information indicating the amount of electricity consumed by the customer and (i) collect the load profile information of the meter without omission (ii) can efficiently manage A data central processing unit (DCU) is required.

In relation to (i), the prior art uses the index of the load profile information (hereinafter, LP Index). Specifically, when the load profile information is generated by the meter and stored in the memory, the index of the load profile information (hereinafter, the LP Index) is used. ) value is designated, and the data intensive processing unit receives the LP Index value from the meter and determines whether the load profile information is missing.

Here, the LP Index may correspond to the sequence number of the load profile information stored in the memory of the meter.

However, since the meter designates the LP Index value in the load profile information in various ways, and in some cases, the same LP Index value is assigned to different load profile information, the prior art omits the load profile information for some types of meters. may not be able to determine whether

In connection with (ii), the prior art stores and manages the load profile information in order based on the LP Index value in the data intensive processing device. It is inefficient to store and manage the load profile information based on .

For example, as an example of a method of specifying the LP Index value, when new load profile information is created in the meter and the LP Index value is specified, the previously specified LP Index value must be changed. In order to synchronize the index value, it is inefficient to store and manage the load profile information based on the LP Index value because it is necessary to change the LP Index value of the already received load profile information whenever new load profile information is received.

Also, in the prior art, since the data intensive processing apparatus determines whether the load profile information is duplicated based on the LP Index value, it cannot be determined as duplicate when the LP Index values are different but the contents of the corresponding load profile information are the same.

For example, when a plurality of load profile information is generated by resetting the meter, the LP Index values specified in the load profile information are different from each other, but the contents of the corresponding load profile information may be the same. It cannot determine whether information is duplicated.

The prior art related to (i) is as follows.

Korean Patent Laid-Open Patent No. 10-2014-0056595 relates to a method for reading LP data to prevent data duplication and omission. collecting, by the meter reading server, determining whether the first unique address corresponds to the next unique address of the second unique address, and storing the LP data collected by the meter reading server, wherein the second unique address is the most recently It is characterized in that it corresponds to the LP data pre-stored in the meter reading server.

In order to solve the above-described problem, embodiments of the present invention provide a meter for generating and storing load profile information that measures the consumer's power consumption at a predetermined period, and data intensive processing for receiving the load profile information from the meter an omission information determination unit for judging whether the load profile information is missing by using a sort index calculated based on the generation time of the received load profile information; and An object of the present invention is to provide a load profile management system and method comprising a storage unit for storing load profile information.

In addition, embodiments of the present invention are configured to include a meter for generating and storing load profile information that measures the consumer's power usage at a predetermined period, and a data intensive processing device for receiving the load profile information from the meter, and , the data intensive processing device is a unique ID generator for generating a unique ID for the load profile information based on the contents of the received load profile information, comparing the generated unique ID to determine whether the load profile information is duplicated An object of the present invention is to provide a load profile management system and method comprising a duplicate information determining unit and a storage unit for storing load profile information so as not to be duplicated.

In addition, in the embodiments of the present invention, the unique ID generator sets the hash value generated by combining the contents of the load profile information and the sort index as a unique ID, and the sort index is based on the generation time of the load profile information. An object of the present invention is to provide a load profile management system and method, characterized in that calculated.

In addition, embodiments of the present invention provide a load profile management system and method, characterized in that the sort index corresponds to a value obtained by adding the difference between the time of the data intensive processing device and the time of the meter to the generation time of the load profile information. but it has a purpose.

Another object of the present invention is to provide a load profile management system and method, wherein the storage unit stores the load profile information so that the load profile information is sorted based on the sort index.

An embodiment of the present invention for achieving the above object is a meter for generating and storing load profile information that measures the consumer's power usage at a predetermined period, and data intensive processing for receiving the load profile information from the meter an omission information determination unit for judging whether the load profile information is missing by using a sort index calculated based on the generation time of the received load profile information; and It provides a load profile management system comprising a storage unit for storing the load profile information.

In addition, another embodiment of the present invention for achieving the above object is a meter that generates and stores the load profile information that measures the consumer's power consumption at a predetermined period, and a meter that receives the load profile information from the meter and a data intensive processing device, wherein the data intensive processing device compares the unique ID generator for generating a unique ID for the load profile information based on the contents of the received load profile information, and the generated unique ID It provides a load profile management system comprising: a duplicate information determining unit for determining whether the load profile information is duplicated; and a storage unit for storing the load profile information so that the load profile information is not duplicated.

In one embodiment, the unique ID generating unit sets a hash value generated by combining the contents of the load profile information and a sort index as a unique ID, and the sort index is calculated based on the generation time of the load profile information can be

In an embodiment, the sort index may correspond to a value obtained by adding a difference value between the time of the data intensive processing device and the time of the meter to the generation time of the load profile information.

In an embodiment, the storage unit may store the load profile information so that the load profile information is sorted based on the sort index.

In addition, another embodiment of the present invention for achieving the above object is a load profile receiving step of receiving the load profile information from a meter that generates and stores the load profile information that measures the consumer's power usage, the receiving A unique ID generation step of generating a unique ID for the load profile information based on the contents of one load profile information, a duplicate information determination step of determining whether the load profile information is duplicated by comparing the generated unique IDs, and loading so as not to be duplicated It provides a load profile management method, characterized in that it comprises a load profile storage step of storing the profile information.

As described above, embodiments of the present invention include a meter for generating and storing load profile information that measures the power consumption of consumers at a predetermined period, and a data intensive processing device for receiving load profile information from the meter. and the data intensive processing device includes a omission information determining unit that determines whether the load profile information is missing by using a sort index calculated based on the generation time of the received load profile information, and the load profile information. By providing a load profile management system and method comprising a storage unit for storing, whether the load profile information is omitted in a consistent way for all types of meters regardless of the type of meter or the method of identifying the load profile in the meter can be determined, and since the sorted index is calculated by the data intensive processing unit, there is no need to replace the software of many meters to calculate the sorted index, which can be easily implemented.

In addition, the embodiments of the present invention provide a meter that generates and stores load profile information that measures the consumer's power usage at a predetermined period, and data intensive processing for receiving the load profile information from the meter and a device, wherein the data intensive processing device includes a unique ID generator for generating a unique ID for the load profile information based on the content of the received load profile information, and compares the generated unique ID to obtain load profile information By providing a load profile management system and method comprising: a redundant information determination unit for determining whether or not overlapping of the data A unique ID can be created in a consistent way for all types of meters regardless of the identification method, and (ii) it is possible to reduce the amount of storage space and data transmission by preventing redundant storage of load profile information with the same content; (iii) Comparison calculation time can be reduced by comparing unique IDs generated based on the contents of the load profile information without comparing the entire contents of the load profile information, and (iv) data-intensive processing of the unique IDs Since it is generated in the device, it is not necessary to replace the software of numerous meters in order to generate a unique ID, which can be easily implemented.

In addition, in the embodiments of the present invention, the unique ID generator sets the hash value generated by combining the contents of the load profile information and the sort index as a unique ID, and the sort index is based on the generation time of the load profile information. By providing a load profile management system and method characterized in that it is calculated, comparison and search of a plurality of load profile information can be performed easily and quickly, and a unique ID can be quickly generated with a small data size.

In addition, embodiments of the present invention provide a load profile management system and method, characterized in that the sort index corresponds to a value obtained by adding the difference between the time of the data intensive processing device and the time of the meter to the generation time of the load profile information. By doing so, it is possible to directly compare the hourly power consumption of several meters based on the time of the data central processing device without time synchronization between several meters, so that the load profile information can be efficiently stored and managed for each hour.

In addition, embodiments of the present invention provide a load profile management system and method characterized in that the storage unit stores the load profile information so that the load profile information is sorted based on the sort index, so that unlike the conventional data intensive processing apparatus, the LP Since there is no need to store and manage the index, it is not necessary to update the management information for the previously stored load profile information whenever new load profile information is received, so that the load profile information can be efficiently managed.

It is not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description.

1 is a view showing a road profile management system according to an embodiment of the present invention.
2 is a diagram illustrating a method in which an LP Index value is specified in a P-type meter, FIG. 3 is a diagram illustrating a method in which an LP Index value is specified in an E-type meter, and FIG. 4 is a G-type or AE-type meter in FIG. It is a diagram showing a method of designating an LP Index value.
5 is a diagram illustrating a state in which remote meter reading is performed in the data intensive processing apparatus.
6 is a flowchart illustrating a road profile management method according to an embodiment of the present invention.

Since the description of the present invention is merely embodiments for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the present embodiments are capable of various modifications and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects, it should not be understood that the scope of the present invention is limited thereby.

In addition, the accompanying drawings are provided to help the understanding of the present invention, and provide embodiments together with the detailed description. However, the technical features of the present invention are not limited to specific drawings, and features disclosed in each drawing may be combined with each other to form a new embodiment.

The road profile management system disclosed in the following embodiments will be described in more detail with reference to each drawing.

1 is a view showing a load profile management system according to an embodiment of the present invention.

Referring to FIG. 1 , a load profile management system 10 according to an exemplary embodiment includes a plurality of meters 100 and a data intensive processing device 200 .

The meter 100 may generate and store load profile information in which the consumer's power consumption is measured at a predetermined period.

In addition, the meter 100 may transmit the load profile information to the data intensive processing device 200 at every generation cycle of the load profile information or upon request. In this case, a wired network such as PLC (power line communication) or a wireless network such as Zigbee or Bluetooth may be used.

In addition, when the meter 100 generates the load profile information and stores it in a memory provided therein, an index (hereinafter, LP Index) value of the load profile information can be designated, and the load profile information is transmitted to the data intensive processing device 200 . When transmitting, a corresponding (ie, designated) LP Index value may be transmitted together.

Here, the LP Index value may correspond to a sequence number or an address for accessing the load profile information stored in the memory of the meter 100 .

A conventional method in which the LP Index value is specified in the meter 100 will be described.

2 is a diagram illustrating a method in which an LP Index value is specified in a P-type meter, FIG. 3 is a diagram illustrating a method in which an LP Index value is specified in an E-type meter, and FIG. 4 is a G-type or AE-type meter in FIG. It is a diagram showing a method of designating an LP Index value.

Referring to FIG. 2 , in the P-type meter 100 , an LP Index value that increases by 1 is designated every time new load profile information is generated and stored until the LP Index value reaches a maximum value.

Here, the designation of the LP Index value increasing by 1 may mean that the new load profile information is stored at a location immediately following the location (in memory) of the most recently stored load profile information.

* When the LP Index value specified in the load profile information reaches the maximum (Max) value, from then on, whenever new load profile information is created and saved, the maximum (Max) value is designated as the LP Index value, and the All LP Index values decrease by 1.

The reason why all the LP Index values for the already stored load profile information decrease by 1 is as follows.

For example, only the number of load profile information corresponding to the maximum (Max) value (hereinafter, the maximum number) may be stored in the memory of the P-type meter 100, and the load profile information is generated in excess of the maximum number. In order to be newly stored in the memory, the oldest stored load profile information must be overwritten. The LP Index value to access is automatically decreased by 1.

Referring to FIG. 3 , in the E-type meter 100 , whenever new load profile information is generated and stored, regardless of whether the LP Index value becomes the maximum value, 1 is designated as the LP Index value and already All LP Index values for the stored load profile information increase by 1.

The reason why all the LP Index values for the already stored load profile information increase by 1 is as follows.

For example, in the E-type meter 100, the new load profile information is stored at a location immediately following the location (in memory) of the most recently stored load profile information, and an LP Index value for accessing the newly stored memory area. If 1 is designated as 1, the LP Index value for accessing the previously stored load profile information automatically increases by 1.

Referring to FIG. 4 , in the G-type or AE-type meter 100, the LP Index value increases by 1 each time new load profile information is generated and stored until the LP Index value becomes the maximum value. is specified and the LP Index value specified in the load profile information reaches the maximum value, thereafter, an O_LP Index value that increases by 1 whenever new load profile information is created and saved is designated.

Here, the designation of the LP Index or the O_LP Index by increasing the value by 1 may mean that the new load profile information is stored at a location immediately following the location (in memory) of the most recently stored load profile information.

On the other hand, after the O_LP Index value specified in the load profile information reaches the maximum (Max) value, when new load profile information is created and saved, the O_LP Index value is initialized to 1 and designated. An O_LP Index value that increases by 1 each time it is saved is specified.

Again, look at FIG. 1 .

The data intensive processing apparatus 200 includes a missing information determination unit 210 , a unique ID generation unit 220 , a duplicate information determination unit 230 , a storage unit 240 , a transmission/reception unit 250 , and a control unit 260 . is composed by

The omission information determining unit 210 determines whether the load profile information is missing by using a sort index calculated based on the generation time of the load profile information received from the meter 100 through the transceiver 250 . can do.

Here, the generation time of the load profile information is the time of the meter 100 when the load profile information is generated by the meter 100 (that is, the generation time of the load profile information based on the time of the meter 100) may correspond to and may be included in the load profile information.

Also, here, the sort index is a concept in contrast to the above-described LP index, and is a value calculated by the data intensive processing device 200 rather than the meter 100, and for example, the generation time (meter) of the load profile information. It may correspond to a value obtained by adding a difference value between the current time of the data intensive processing apparatus 200 and the current time of the meter 100 to the generation time of the load profile information based on the time of 100 .

That is, the sort index may correspond to the generation time of the load profile information based on the time of the data intensive processing apparatus 200 .

In this case, the omission information determination unit 210 may transmit a message requesting to inform the meter 100 of the current time in order to find out the current time of the meter 100 .

However, the omission information determining unit 210 is not limited to this method to calculate the sort index, but may be calculated or determined in another method. For example, the missing information determining unit 210 may set the sort index as the generation time of the load profile information based on the time of the meter 100 . That is, the missing information determining unit 210 may determine the generation time of the load profile information included in the load profile information as a sort index.

A method of determining whether the load profile information is missing will be described with reference to FIG. 5 .

5 is a diagram illustrating a state in which remote meter reading is performed in the data intensive processing apparatus.

Referring to FIG. 5 , the data intensive processing apparatus 200 remotely performs meter reading by receiving new load profile information from the meter 100 every meter reading period (15 minutes, 30 minutes or 60 minutes). (200) received the newly created load profile information (p) in the n-2th meter reading cycle (successful meter reading), but the newly created load profile information (n-1) in the n-1th meter reading cycle due to a network error, etc. The load profile information (q) is not received (meter reading fails) and in the next cycle (the nth meter reading cycle), the newly created load profile information (r) is received in the corresponding cycle (n). (meter reading success)

At this time, the method for determining that q is missing by the data intensive processing apparatus 200 receiving r is as follows.

First, a conventional method using the above-described LP Index will be described.

In the G-type or AE-type meter 100, as described above, when new load profile information is generated and stored every meter reading cycle, an LP Index value or O_LP Index value that increases by 1 is assigned to the load profile information, so the G-type Alternatively, the AE-type meter 100 transmits the load profile information and the specified LP Index and O_LP Index values to the data intensive processing device 200 at every meter reading period, and the data intensive processing device 200 newly receiving this information has already Among the received and stored load profile information, the LP Index and O_LP Index values corresponding to the most recent load profile information (p) are compared with the newly received LP Index and O_LP Index values (values corresponding to r), and the difference is greater than 1. If it is large, it can be determined that the load profile information is missing (q is missing).

For example, the LP Index value corresponding to the most recent load profile information among the load profile information already received by the data intensive processing device 200 and stored in the data intensive processing device 200 is 6, and the data intensive processing device 200 . If the newly received LP Index value is 9, the missing information determining unit 210 may determine that the load profile information corresponding to the LP Index values of 7 and 8 is missing.

On the other hand, in the P-type meter 100, when the LP Index value specified in the load profile information reaches the maximum (Max) value, the maximum (Max) value is the LP when new load profile information is generated and stored from the next meter reading period. Since it is designated as an Index value, even if the data intensive processing device 200 receives the LP Index value from the P-type meter 100 every meter reading period, there is no difference in the LP Index value. It is not possible to determine whether the load profile information is missing.

Also, in the E-type meter 100 , when new load profile information is generated and stored every meter reading period, 1 is designated as the LP Index value. Even if the value is received, there is no difference in the LP Index value, so the missing information determining unit 210 cannot determine whether the load profile information is missing from the LP Index value.

As such, when the conventional LP Index is used, it may not be possible to determine whether the load profile information is omitted depending on the type of the meter 100 . A new method is needed to determine whether the load profile information is missing.

As a new method, the method of the present invention using a sort index will be looked at.

In the previous meter reading period, when the data intensive processing device 200 receives the load profile information p, the omission information determining unit 210 of the data intensive processing device 200 extracts or By separately requesting the meter 100, the generation time of the load profile information (p) can be recognized, and a sort index is calculated according to the above-described method based on the generation time of the load profile information (p) to calculate the load profile information ( p) and can be stored.

When the data intensive processing device 200 receives new load profile information r in a new meter reading cycle, the omission information determining unit 210 of the data intensive processing device 200 performs the sort index in the same manner as in the previous meter reading cycle. can be calculated, and compare the newly calculated sort index value (the value associated with r) with the most recent load profile information (p) among the received and stored load profile information, and the difference is If it is greater than the value, it can be determined that the load profile information is missing (q is missing).

For example, the sort index value associated with the most recent load profile information among the load profile information already received by the data intensive processing device 200 and stored in the storage unit 240 is 3:00 (03:00), and the data intensive processing device When the new sort index value calculated by the omission information determining unit 210 of 200 is 3:45 (03:45), the missing information determining unit 210 sets the difference to 45 and the meter reading period (eg, 15 min), so it can be judged that the load profile information is missing.

In this way, the missing information determining unit 210 determines whether the load profile information is missing by using a sort index calculated based on the generation time of the load profile information to determine whether the load profile information is missing, (i) the type of the meter 100 , whether the load profile information is omitted in a consistent way for all types of meters (including 100, P-type or E-type meters) regardless of the method (eg, LP Index) for identifying the load profile in the meter 100 (ii) Since the sorted index is calculated by the data intensive processing unit, there is no need to replace the software of many meters to calculate the sorted index, so it can be easily implemented.

If the missing information determining unit 210 determines that the load profile information is missing, it may request the meter 100 to transmit the missing load profile information.

Also, the missing information determining unit 210 may transmit the calculated sort index to the unique ID generating unit 220 or the storage unit 240 by associating it with the corresponding load profile information.

Unique ID generating unit 220 is a unique ID (unique ID) for the load profile information based on the content of the load profile information received from the meter 100 through the transceiver 250 or received from the omission information determining unit 210. ) can be generated, and the generated unique ID can be associated with the load profile information and transmitted to the duplicate information determining unit 230 or the storage unit 240 .

For example, the unique ID generator 220 may set a hash value generated by combining the contents of the load profile information and the sort index as the unique ID.

Here, the content of the load profile information is a part or all of data constituting the load profile information, and is a concept in contrast to the aforementioned index (LP Index) of the load profile information, and the sort index is as described above.

However, the unique ID generation unit 220 is not limited to this method to generate a unique ID, and may generate or determine a unique ID in another method. For example, the unique ID generation unit 220 may determine the generation time of the load profile information based on the time of the meter 100 as the unique ID. That is, the unique ID generating unit 220 may determine the generation time of the load profile information included in the load profile information as the unique ID.

On the other hand, the unique ID generating unit 220 may generate a unique ID in different ways by distinguishing between the load profile information received by the periodic meter reading and the load profile information received by the missing meter reading. For example, for the load profile information received by periodic meter reading, a unique ID can be created by combining the contents of the load profile information and the received time. A unique ID can be created by combining a sort index with a

Here, the load profile information received by the periodic meter reading means the load profile information received by the data intensive processing device 200 at every meter reading period, and the load profile information received by the missing meter reading is transmission of the missing load profile information. It may mean the load profile information received according to the request.

As such, the unique ID generating unit 220 generates a unique ID based on the content of the load profile information, so that (i) the unique ID identifies the type of the meter 100 and the load profile information in the meter 100. A unique ID of the load profile information can be generated in a consistent way for various meters 100 regardless of (eg, LP Index, index of the load profile), and (ii) the unique ID is generated by the data intensive processing device, so it is unique It can be easily implemented as there is no need to replace the software of many meters to generate the ID.

In addition, the unique ID generator 220 sets a hash value generated by combining the contents of the load profile information and the sort index as a unique ID, so that comparison and search of a plurality of load profile information can be performed easily and quickly. and unique IDs can be quickly generated with a small data size.

The duplicate information determining unit 230 may receive the unique ID associated with the load profile information from the unique ID generating unit 220 and compare the unique IDs to determine whether the load profile information is duplicated.

For example, in the meter 100, load profile information is newly created and stored once every meter reading cycle, and when the meter 100 is rebooted, the time of the meter 100 is initialized, or the time setting is changed, the load profile information may be newly generated and stored in the meter 100 . In particular, in the case of the meter 100 whose time is initialized upon rebooting, load profile information having the same content may be repeatedly generated and stored.

However, since the conventional meter 100 designates a new LP Index to the newly created and stored load profile information, even if a plurality of load profile information with the same content is generated, the time is initialized at the same time the meter 100 is rebooted. Different LP indexes are assigned to each load profile information, and the conventional data intensive processing device that has received the load profile information and the LP index determines whether there is a duplicate based on the LP index, so even if the contents of the load profile information are the same, the corresponding LP Because the index is different, it cannot be judged as a duplicate.

On the other hand, since the duplicate information determining unit 230 compares the unique IDs generated based on the contents of the load profile information to determine whether they are duplicates, in the above case, the contents of the load profile information are the same regardless of the LP Index value. can judge

If the duplicate information determining unit 230 determines that the contents of the plurality of load profile information are the same, only one of them may be stored in the storage unit 240 .

* In this way, the duplicate information determining unit 230 determines whether the load profile information is duplicated by comparing the unique IDs, (i) to prevent duplicate storage of the load profile information of the same content, thereby saving storage space and data transmission amount (ii) The comparison operation time can be reduced because the unique ID generated based on the contents of the load profile information is compared without comparing the entire contents of the load profile information.

The storage unit 240 may store and manage the load profile information and use the sort index or unique ID transmitted in association with the load profile information from the omission information determining unit 210 and the unique ID generating unit 220 as associated load profile information. can be saved with

In addition, the storage unit 240 receives the unique ID of the overlapping load profile information from the duplicate determination unit 230 and stores only one load profile information associated with the received unique ID, so that the load profile information is not duplicated. can

Also, the storage unit 240 may store the load profile information so that the load profile information is sorted based on the sort index. Here, the sort index is as described above.

As such, the storage unit 240 stores the load profile information so that the load profile information is sorted based on the sort index, thereby storing and managing the load profile information to correspond to the order of the load profile information stored in the memory of the meter 100 . Therefore, it is possible to efficiently manage the load profile information.

On the other hand, as described above, when the P-type and E-type meter 100 creates and stores new load profile information, the LP index value of the previously stored load profile information may be automatically decreased or increased by 1, In the conventional data intensive processing apparatus using the LP index, in order to prevent duplication and omission of load profile information, the meter 100 and the LP index value must be managed so that the same is maintained. The operation of reducing or increasing all LP Index values by 1 is frequently required.

However, since the storage unit 240 manages the load profile information based on the sort index, there is no need to store and manage the LP index unlike the conventional data intensive processing apparatus, so whenever new load profile information is received, the Since there is no need to update the management information for the stored load profile information, it is possible to efficiently manage the load profile information.

On the other hand, the sort index may correspond to the generation time of the load profile information based on the time of the data intensive processing device 200 as described above. In this case, the storage unit 240 may include several meters 100 . Even without time synchronization therebetween, it is possible to directly compare the hourly power consumption of several meters 100 based on the time of the data intensive processing device 200 , so that the load profile information can be efficiently stored and managed for each hour.

The transceiver 250 may receive the load profile information from the meter 100 and transmit it to the missing information determining unit 210 or the unique ID generating unit 220 , and the missing load profile information from the missing information determining unit 210 . The information requested to be transmitted may be received and transmitted to the meter 100 .

The control unit 260 controls the overall operation of the load profile management system 10 , the missing information determination unit 210 , the unique ID generation unit 220 , the duplicate information determination unit 230 , the storage unit 240 , and transmit/receive Control flow or data flow between units 250 may be controlled.

6 is a flowchart illustrating a road profile management method according to an embodiment of the present invention.

Referring to FIG. 6 , the load profile management method 300 according to an embodiment includes a load profile information receiving step (S310), a missing information determination step (S320), a unique ID generation step (S330), and a duplicate information determination step (S340). ) and a load profile information storage step (S350).

In the load profile information receiving step ( S310 ), the data intensive processing device 200 may receive the load profile information from the meter 100 .

In the missing information determination step ( S320 ), the data intensive processing device 200 uses a sort index calculated based on the generation time of the load profile information received in the load profile information receiving step ( S310 ) to profile the load profile. It can be determined whether information is missing.

Specifically, when the data intensive processing device 200 receives the load profile information in the previous meter reading period, the data intensive processing device 200 extracts the received load profile information from the received load profile information or separately requests the meter 100 to obtain the load profile information. The generation time of information can be recognized, and the sort index can be calculated according to the above-described method based on the generation time of the load profile information and stored in association with the load profile information.

When the data intensive processing device 200 receives new load profile information in a new meter reading cycle, the data intensive processing device 200 can calculate the sort index in the same way as in the previous meter reading cycle, and the load already received and stored It can be determined that the load profile information is missing if the difference between the newest sort index value and the newly calculated sort index value among the profile information is greater than the value of the meter reading period.

In the unique ID generation step (S330), the data intensive processing device 200 generates a unique ID (unique ID) for the load profile information based on the content of the load profile information received in the load profile information receiving step (S310). and the generated unique ID can be associated with the road profile information.

For example, the data intensive processing apparatus 200 may set a hash value generated by combining the contents of the load profile information and the sort index as a unique ID.

In the duplicate information determination step (S340), the data intensive processing apparatus 200 may determine whether the load profile information is duplicated by comparing the generated unique IDs.

In the load profile information storage step (S350), the data intensive processing device 200 can store and manage the load profile information, and the sort index calculated or generated in the missing information determination step (S320) and the unique ID generation step (S330) Alternatively, the unique ID may be stored together with the associated load profile information.

In addition, the data intensive processing apparatus 200 stores only one load profile information associated with the unique ID determined to be duplicated in the duplicate information determination step ( S340 ), so that the load profile information is not duplicated.

Also, the data intensive processing apparatus 200 may store the load profile information so that the load profile information is sorted based on the sort index.

As described above, although described with reference to preferred embodiments of the present application, those skilled in the art can variously modify the present application within the scope without departing from the spirit and scope of the present invention described in the claims below. and may be changed.

10: Road profile management system
100: meter
200: data intensive processing device
210: missing information determination unit 220: unique ID generation unit
230: duplicate information determination unit 240: storage unit
250: transceiver 260: control unit
300: Road profile management method

Claims (1)

a meter for generating and storing load profile information that measures the power consumption of consumers at a predetermined period; and
and a data intensive processing device for receiving the load profile information from the meter,
The data intensive processing apparatus includes: an omission information determination unit that calculates a sort index based on a generation time of the received load profile information and determines whether the load profile information is omitted; and
It is configured to include a storage unit for storing the sorted index and the load profile information matched with the sorted index,
When the omission information determining unit receives the load profile information from the meter, it calculates a corresponding sort index, and a newly calculated sort index value matched to the most recently received load profile information among the previously received load profile information. Calculate the difference between the index values to determine whether the load profile information is missing,
The load profile management system, characterized in that the sort index corresponds to a value obtained by adding the difference between the time of the data intensive processing device and the time of the meter to the generation time of the load profile information.

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