KR101911863B1 - Smart meter and remote metering system - Google Patents

Abstract

According to an embodiment of the present invention, there is provided an information processing apparatus including a communication unit for transmitting meter reading data and a meter reading data block to a data collecting device and receiving meter reading data of another smart meter in the group from the data collecting device; A block generator for generating a meter data block using the meter reading data received from the data collecting device; A block verifying unit for verifying a metric data block generated by another smart meter in the group; And a block chain generation unit for generating a metric data block chain by linking the verified probe data block to the previous probe data block.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart meter and a remote meter reading system,

An embodiment of the present invention relates to a smart meter and a remote meter reading system, and more particularly, to a smart meter and a remote meter reading system that can be applied to a remote meter reading infrastructure of a smart grid.

The meter reading data is the basic data to charge. In order to drive efficient energy use for low-carbon green growth in the smart grid environment, real-time electricity usage meter data must be collected. The collected meter reading data can be used as basic data of consulting that can induce various energy saving to consumers and it can be utilized as basic information for constructing economical energy source by reducing peak load to suppliers. Do.

In the past, the number of households in the automatic remote meter reading was small and most of the surveyors visited the site to collect the monthly usage data. Therefore, it was not necessary to verify the reliability of the meter reading data. However, when the number of remote meter reading households increases and the price policy of Critical Peak Pricing (CPP) or Real Time Pricing (RTP) based on Time of Usage (TOU) is implemented, Since the meter reading data must be collected, it is expected that the number and amount of meter reading data will explosively increase. As a result, there is a limit to verifying meter reading data by manpower. Therefore, it is required to secure technology for securing the reliability of automated meter reading data.

SUMMARY OF THE INVENTION The present invention provides a smart meter and a remote meter reading system capable of improving reliability of meter reading data.

According to an embodiment of the present invention, there is provided an information processing apparatus including a communication unit for transmitting meter reading data and a meter reading data block to a data collecting device and receiving meter reading data of another smart meter in the group from the data collecting device; A block generator for generating a meter data block using the meter reading data received from the data collecting device; A block verifying unit for verifying a metric data block generated by another smart meter in the group; And a block chain generation unit for generating a metric data block chain by linking the verified probe data block to the previous probe data block.

The block generator may generate the inspection data block by collecting the reference inspection data at a specific time point into one block data.

The block chain generation unit may sequentially collect the inspection data blocks according to the inspection time point to generate the inspection data block chain.

The block generator may adjust the generation difficulty of the inspection data block by applying the hashcash problem.

The block verification unit may compare the meter reading data of another smart meter in the group received from the data collection device with the meter reading data block generated by another smart meter in the group to generate a comparison result.

The block verifying unit may transmit the comparison result to the data collecting device, and may collect the comparison result of the in-group smart meter to verify the inspection data block.

And a block chain management unit for deleting the meta data block that has elapsed a predetermined time in the meta data block.

According to another embodiment of the present invention, there is provided a data collection device for performing data communication with a smart meter in a group; A communication unit for transmitting the meter reading data and the generated meter reading data block to the data collecting device and receiving meter reading data of another smart meter in the group from the data collecting device; A block generator for generating a meter data block using the meter reading data received from the data collecting device; A block verifying unit for verifying a metric data block generated by another smart meter in the group; And a smart chain generator for generating a probe data block chain by linking the verified probe data block with the previous probe data block.

The block generator may generate the inspection data block by collecting the reference inspection data at a specific time point into one block data.

The block chain generation unit may sequentially collect the inspection data blocks according to the inspection time point to generate the inspection data block chain.

The block generator may adjust the generation difficulty of the inspection data block by applying the hashcash problem.

The block verification unit may compare the meter reading data of another smart meter in the group received from the data collection device with the meter reading data block generated by another smart meter in the group to generate a comparison result.

The block verifying unit may transmit the comparison result to the data collecting device, and may collect the comparison result of the in-group smart meter to verify the inspection data block.

And a block chain management unit for deleting the meta data block that has elapsed a predetermined time in the meta data block.

The smart meter and the remote meter reading system of the present invention can prevent malicious forgery and tampering of meter reading data and improve reliability.

In addition, the hardware usability of the smart meter can be improved.

In addition, it is possible to prevent a loss caused through prevention of forgery and falsification of malicious reading data.

1 is a conceptual diagram of an automatic meter reading system according to an embodiment of the present invention.
2 is a configuration block diagram of a smart meter according to an embodiment of the present invention.
3 is a conceptual diagram of a meter reading data block according to an embodiment of the present invention.
4 is a conceptual diagram for explaining generation of a metering data block chain according to an embodiment of the present invention.
FIG. 5 is an operation flowchart of a smart meter according to an embodiment of the present invention.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated and described in the drawings. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms including ordinal, such as second, first, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the second component may be referred to as a first component, and similarly, the first component may also be referred to as a second component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

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

FIG. 1 is a conceptual diagram of an automatic meter reading system according to an embodiment of the present invention, and FIG. 2 is a block diagram of a smart meter according to an embodiment of the present invention. 1 and 2, the remote meter reading system according to an embodiment of the present invention may include a meter reading server, a data collection device, and a smart meter.

A data concentrator unit (DCU) 20 can perform data communication with the smart meter 30 in the group. The data collection device 20 can collect meter reading data of the watt hour meter from the smart meter 30 together with meter reading data of the domestic gas meter and the water meter.

The meter reading data includes meter number, meter reading year, minutes at the time of inspection, data collecting device ID, active power amount, phase reactive power amount, ground reactive power amount, apparent power amount, cumulative effective power amount, accumulated lead amount reactive power amount, accumulated ground reactive power amount, . ≪ / RTI >

The data collection device 20 may be installed on the front of the main body and may collect meter reading data of electricity, water, and gas collected by the smart meter 10 through power line communication or wireless communication.

The data collecting apparatus 20 may transmit the object identification system code corresponding to the meter reading data to be collected to the smart meter 30 to request the transmission of the corresponding meter reading data. The object identification system code transmitted by the data collecting apparatus 20 includes at least one of a type of a meter or a channel number of a meter or a watt-hour meter, a physical quantity of the meter reading data, a method of processing the meter reading data, And a temporal classification of < RTI ID = 0.0 > a < / RTI >

The data collecting apparatus 20 can collect the meter reading data from the plurality of smart meters 30. In one embodiment of the present invention, one data collection device 20 and a plurality of smart meters 30 are grouped into one group for convenience.

The data collecting device 20 that collects the meter reading data transmits information via a wide area network such as the Internet in response to a periodic request of the meter reading scheduler of the meter reading server 10

The smart meter 30 may include a communication unit 31, a block generation unit 32, a block verification unit 33, a block chain generation unit 34, and a block chain management unit 35.

The communication unit 31 can transmit the meter reading data and the generated meter reading data block to the data collecting apparatus 20 and collect the meter reading data of other smart meters in the group from the data collecting apparatus 20. [ The communication unit 31 can transmit the meter reading data to the data collecting apparatus 20 or transmit the meter reading data when there is a meter reading data request from the data collecting apparatus 20 in accordance with the meter reading period.

The communication unit 31 can transmit the inspection data block generated by the block generation unit 32 to the data collection device 20 and can receive the verification result of the inspection data block from the data collection device 20. [

In addition, the communication unit 31 can collect the meter reading data of the other smart meter from the data collection device 21. [

The communication unit 31 can transmit data by, for example, broadcasting.

The block generation unit 32 can generate the inspection data block using the inspection data received from the data collection device 20. [ The block generator 32 can generate the inspection data block by collecting the inspection data per group at a specific time point into one block data.

The block generator 32 can generate a meta data block according to a preset hashcash problem. That is, the block generator 32 applies the hashcash problem after collecting the meter reading data of the smart meter in the group, and can generate the meter reading data block when the hashcash problem is solved. The meter reading data block generation timing of the smart meter 30 is independent depending on the degree of difficulty of the hashcash problem, and may be different according to the meter reading data block. In other words, if the difficulty of the hashcash problem is high, the time for generating the meter reading data block may be delayed. In such a case, a meter reading data block may be generated first by another smart meter. Alternatively, if the degree of difficulty of the hashcash problem is low, it is possible to first generate the data block of the meter in the smart meter, and to transmit the generated data block of the meter data to the other smart meter.

When the block generator 32 receives the inspection data block from another smart meter while generating the inspection data block, it stops generating the inspection data block and waits for the verification result of the inspection data block of the other smart meter. The block generation unit 32 discards the data block of the inspection data that is being generated when the data block of the other smart meter is verified, and advances the process by using the data block of the verification of the other smart meter.

The block verification unit 33 can verify the meta data block generated by another smart meter in the group.

The block verification unit 33 can compare the inspection data of the other smart meters in the group received from the data collection device 20 with the inspection data blocks generated by other smart meters in the group to generate the comparison result. At this time, the block verification unit 33 compares the meter reading data of the other smart meters in the group received from the data collecting apparatus 20 with the meter reading data blocks generated by other smart meters in the group and outputs the meter reading data and the meter reading data block The comparison result can be generated according to whether or not the metering data included in the metering data match.

The block verification unit 33 can transmit the comparison result to the data collection device 20 and can collect the comparison result of the in-group smart meter to verify the inspection data block. That is, the block verification unit 33 determines the number of the comparison results of the in-group smart meters determined to be consistent, determines whether the number exceeds the at least 50% of the total number of smart meters in the group, Can be verified.

The block chain generation unit 34 may generate the inspection data block by linking the verified inspection data block to the previous inspection data block chain. At this time, the block-chain generating unit 34 can collect the metering data blocks sequentially according to the time of metering to generate a metering data block chain.

The block chain management unit 35 can delete the data block of the metering data that has elapsed a predetermined time in the metering data block chain. The block chain management unit 35 can secure the storage capacity on the system by deleting, for example, a data block of the inspection data that has passed one week in the inspection data block chain.

3 is a conceptual diagram of a meter reading data block according to an embodiment of the present invention. Referring to FIG. 3, the metering data block may be divided into a header and a body. The header includes a hash value of the previous block, a metering data type, a block creation time, a difficulty level, a hash value of the current block, . ≪ / RTI >

The data types of the meter reading data are divided into the LP meter reading, the regular reading, and the current reading. LP meter reading is data that is read every 15 minutes, periodic reading is data that is read once a month, and current reading is acyclic data.

In the metering data block, the time interval at which the metering data block is generated according to the metering data type and the degree of difficulty can be determined.

4 is a conceptual diagram for explaining generation of a metering data block chain according to an embodiment of the present invention.

Referring to FIG. 4, the meter reading data of the in-group smart meters are classified into smart meters in the body of the meter reading data block. The smart meter creates a probe data block chain by sequentially linking validated probe data blocks at the time of probe.

FIG. 5 is an operation flowchart of a smart meter according to an embodiment of the present invention.

Referring to FIG. 5, the smart meter first transmits the meter reading data to the data concentrator (S501).

Next, the smart meter collects meter reading data from other smart meters in the group from the data concentrator. At this time, the meter reading data of the transmitted meter reading data and the meter reading data of the other smart meters are the same (S502).

The smart meter collects the meter reading data and its own meter reading data to generate a meter reading data block. At this time, the smart meter applies the hashcash problem to generate the inspection data block (S503).

When the smart meter receives the meter reading data block of the other smart meter during the meter reading data block generation, it stops generating the meter reading data block (S504 to S505).

The smart meter compares the meter reading data block of the other smart meter with the collected meter reading data, generates a comparison result, and transmits the comparison result to the data collection device (S506).

The smart meter receives the verification result of the inspection data block from the data collection device and confirms whether it is verified (S507).

When the meter reading data block is verified, the smart meter generates a reading data block chain in association with the previous reading data block chain. At this time. The smart meter discards the meta data block that it is generating (S508).

If the meter reading data block is not verified, the smart meter discards the reading data block and continues the generation of the reading data block (S509).

As used in this embodiment, the term " portion " refers to a hardware component such as software or an FPGA (field-programmable gate array) or ASIC, and 'part' performs certain roles. However, 'part' is not meant to be limited to software or hardware. &Quot; to " may be configured to reside on an addressable storage medium and may be configured to play one or more processors. Thus, by way of example, 'parts' may refer to components such as software components, object-oriented software components, class components and task components, and processes, functions, , Subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays, and variables. The functions provided in the components and components may be further combined with a smaller number of components and components or further components and components. In addition, the components and components may be implemented to play back one or more CPUs in a device or a secure multimedia card.

10: meter reading server
20: Data collecting device
30: Smart meter
31:
32:
33: block verification unit
34: Block Chain Generator
35: Block Chain Management Section

Claims (14)

A communication unit for transmitting the meter reading data and the generated meter reading data blocks to the data collecting device and receiving the meter reading data of the other smart meters in the group from the data collecting device;
A block generator for generating a meter data block using the meter reading data received from the data collecting device;
A block verifying unit for verifying a metric data block generated by another smart meter in the group; And
And a block chain generation unit for generating a probe data block chain by linking the verified probe data block to the previous probe data block chain,
The metering data block includes a header and a body,
The header includes a hash value of the previous block, a kind of metering data, a block generation time, a difficulty level, a hash value of the current block, and nonce information,
Wherein the body is configured such that the meter reading data of the smart meters in the group at a specific point in time are grouped by smart meters,
Wherein the block generator adjusts a time interval for generating the metering data block according to the metering data type and the degree of difficulty.
The method according to claim 1,
The kind of the metering data is divided into LP meter reading, periodic meter reading and current reading.
The method according to claim 1,
Wherein the block chain generation unit sequentially collects the inspection data blocks according to the inspection time point to generate the inspection data block chain.
The method according to claim 1,
Wherein the block generating unit applies the hashcash problem to adjust the generation difficulty of the meter data blocks.
The method according to claim 1,
Wherein the block verification unit compares the meter reading data of another smart meter in the group received from the data collection device with the meter reading data block generated by another smart meter in the group to generate a comparison result.
6. The method of claim 5,
Wherein the block verifying unit transmits the comparison result to the data collecting device and collects the comparison result of the in-group smart meter to verify the data check block.
The method according to claim 1,
Further comprising a block chain management unit for deleting a metering data block that has elapsed a predetermined time in the metering data block chain.
A data collection device for performing data communication with the smart meter in the group; And
A communication unit for transmitting the meter reading data and the generated meter reading data block to the data collecting apparatus and receiving the meter reading data of another smart meter in the group from the data collecting apparatus; A block generator for generating a meter data block using the meter reading data received from the data collecting device; A block verifying unit for verifying a metric data block generated by another smart meter in the group; And a smart chain generator for generating a probe data block chain by linking the verified probe data block to the previous probe data block,
The metering data block includes a header and a body,
The header includes a hash value of the previous block, a kind of metering data, a block generation time, a difficulty level, a hash value of the current block, and nonce information,
Wherein the body is configured such that the meter reading data of the smart meters in the group at a specific point in time are grouped by smart meters,
Wherein the block generator adjusts a time interval for generating the inspection data block in accordance with the kind of the measurement data and the degree of difficulty.
9. The method of claim 8,
The kind of the metering data is divided into an LP meter reading, a regular meter reading, and a current meter reading.
9. The method of claim 8,
Wherein the block chain generation unit sequentially collects the inspection data blocks according to the inspection time point to generate the inspection data block chain.
9. The method of claim 8,
Wherein the block generating unit applies the hashcash problem to adjust the difficulty of generating the data block for the meter reading.
9. The method of claim 8,
Wherein the block verification unit compares the meter reading data of another smart meter in the group received from the data collection device with the meter reading data block generated by another smart meter in the group to generate a comparison result.
13. The method of claim 12,
Wherein the block verification unit transmits the comparison result to a data collection device and compares the comparison result of the in-group smart meter and verifies the inspection data block.
9. The method of claim 8,
Further comprising a block chain management unit for deleting a data block for which a predetermined time has elapsed in the data block for inspection.

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