WO2021117943A1 - Method for managing wireless reading gas meter based on lorawan location recognition - Google Patents

Abstract

The present invention relates to a smart metering (AMI) system architecture and a method for managing a wireless reading gas meter on the basis of a LoRaWan location recognition result in order to open communication and manage operations, the method comprising: a step in which a network server collects reading data from a gas meter; and a step in which a geo-location server estimates the location of the gas meter on the basis of the signal strength of the collected reading data. Accordingly, a gas company can easily manage inventory by registering, to a system, whether a smart gas meter has been installed by a customer, and a communication company can process the timing for billing by the gas company and can initiate actual gas service.

Description

LoRaWAN location awareness-based wireless meter reading gas meter management method

The present invention relates to a method for managing a wireless meter reading gas meter, and more particularly, to a method for managing a wireless meter reading gas meter based on LoRaWAN location recognition results for smart metering (AMI) system architecture and communication opening and operation management. it's about

In the gas AMI system that supports remote meter reading based on city gas wireless, the operation management is difficult due to the difference between the network opening time of wireless communication and the actual use time through the installation of consumers.

Specifically, a city gas company receives gas meters from a meter manufacturer in bulk and manages their inventory.

At this time, the meter delivered from the manufacturer has been pre-opened through network registration from the network operator that provides the communication network for wireless remote meter reading.

However, there is a difference in time period of several days to several months before installing about hundreds to thousands of opened gas meters at the consumer, and there is a difference of opinion between the network provider and the city gas company regarding the billing time after installation.

Therefore, it is required to find a way to automatically manage the actual installation time.

The present invention has been devised to solve the above problems, and an object of the present invention is to operate a smart gas meter with a two-way wireless communication function and to manage the inventory and installation of the gas meter based on location recognition through communication. It is to provide a LoRaWAN location awareness-based wireless meter reading gas meter management method that can automatically manage inventory and actual installation time.

According to an embodiment of the present invention for achieving the above object, there is provided a method for managing a wireless meter reading gas meter based on LoRaWAN location, the method comprising: collecting, by a network server, meter reading data of the gas meter; and estimating, by the location information server, the location of the gas meter based on the signal strength of the collected meter reading data.

In the estimating step, the position of the gas meter may be estimated based on the signal strength of the meter reading data having different signal strengths according to the distance between the terminal and the gateway.

In addition, the network server transmits the data received from the gateway to the location information server, and the location information server may estimate the distance according to the signal strength attenuated according to the distance.

In the estimating step, the location of the gas meter that has transmitted the collected meter reading data may be estimated by trilaterating or multivariating the distance estimation value based on the signal strength from three or more gateways.

In addition, in the LoRaWAN location recognition-based wireless meter reading gas meter management method according to an embodiment of the present invention, the location information server compares the pre-stored location information of a specific gas meter with the location estimation result to determine whether the location of the gas meter is updated. The step of determining; may further include.

In the determining step, whether or not the location of the gas meter is updated may be determined based on whether the radio fingerprint is changed.

In addition, in the determining step, it may be determined whether the corresponding gas meter is being stored through a radio map at a preset storage facility location.

And, in the LoRaWAN location-based wireless meter reading gas meter management method according to an embodiment of the present invention, when the location information server determines that the location of the gas meter has been updated, whether to update and the updated information to the gas company operation server The step of delivering; may further include.

In addition, the End-Node (terminal) transmits a connection attempt or meter reading data to a plurality of neighboring gateways at every preset period so that the meter reading data is periodically transmitted to the location information server through the neighboring gateway and network server. can

Meanwhile, according to another embodiment of the present invention, a LoRaWAN location recognition-based wireless meter reading gas meter management system includes: a network server for collecting gas meter reading data; and a location information server for estimating the location of the gas meter based on the signal strength of the collected meter reading data.

In addition, according to another embodiment of the present invention, a computer-readable recording medium containing a computer program for performing a LoRaWAN location recognition-based wireless meter reading gas meter management method includes: a network server collecting gas meter meter reading data; ; and estimating, by the location information server, the location of the gas meter based on the signal strength of the collected meter reading data;

And according to another embodiment of the present invention, a LoRaWAN location recognition-based wireless meter reading gas meter management method includes: collecting, by a network server, meter reading data of the gas meter through three or more gateways; and estimating, by the location information server, the location of the gas meter by trilateration or multilateration of a distance estimate value based on signal strength from three or more gateways.

As described above, according to the embodiments of the present invention, for the operation of a smart gas meter equipped with a two-way wireless communication function, and for the inventory and installation management of the gas meter, the inventory and actual installation time are automatically determined based on location recognition through communication. In the case of gas companies, it is easy to manage inventory through system registration of whether or not customers have installed smart gas meters, and from the standpoint of telecommunication companies, it is possible to enable gas company billing time and actual opening processing.

1 is a diagram provided for the description of the LoRaWAN topology structure;

2 is a view provided for the description of a LoRaWAN location recognition-based wireless meter reading gas meter management system according to an embodiment of the present invention;

3 is a view provided for a more detailed description of the structure of a LoRaWAN location awareness-based wireless meter reading gas meter management system according to an embodiment of the present invention, and

4 is a flowchart provided to explain a LoRaWAN location recognition-based wireless meter reading gas meter management method according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a diagram provided for the description of the LoRaWAN topology structure.

Referring to FIG. 1, the LoRaWAN topology structure will be described. Since the LoRaWAN topology supports long-distance (visible distance of 10 km or more) communication with low power, it can be used for the purpose of collecting metering data of facilities, such as gas meters, etc. .

In LoRaWAN, the End-Node 10 and the gateway 20 are connected in a many-to-many (M:N) connection, and the role of the gateway 20 is to transmit data sent by the surrounding End-Node devices to the network server 100 . It plays a role in simply transferring data.

In addition, in LoRaWAN, the packet received by the gateways 20 around the data (network join, data transmission, etc.) sent by the terminal is transmitted to the network server 100, and the network server 100 transmits the registered path (device- It is possible to leave only the packets received by the gateway) and filter out other duplicated packets.

2 is a diagram provided to explain the LoRaWAN location recognition-based wireless meter reading gas meter 10 management system according to an embodiment of the present invention.

Referring to FIG. 2 , the LoRaWAN location recognition-based wireless meter reading gas meter 10 management system according to this embodiment provides communication for the operation of the smart gas meter 10 with a two-way wireless communication function, and installation management of inventory. It is possible to automatically manage inventory and actual installation time based on location recognition.

To this end, the LoRaWAN location recognition-based wireless meter reading gas meter 10 management system is based on the network server 100 collecting the meter reading data of the gas meter 10 and the gas meter 10 based on the signal strength of the collected meter reading data. It may be composed of a location information server 200 for estimating the location of.

When the meter reading data periodically transmitted by the End-Node 10 is transmitted to the plurality of peripheral gateways 20-1, 20-2, and 20-3, the network server 100 transmits the plurality of peripheral gateways 20-1 , 20-2, 20-3), meter reading data can be collected.

For example, the End-Node 10 transmits a connection attempt or meter reading data to a plurality of peripheral gateways 20-1, 20-2, and 20-3 at every preset period to periodically transmit the meter reading data. , to be transmitted to the location information server 200 through the peripheral gateway 20 and the network server 100, and at this time, the data received from each gateway 20 is different depending on the distance between the terminal and the gateway 20 Since it has a signal strength, the location information server 200 may estimate the location of the gas meter 10 using the meter reading data transmitted from the network server 100 .

That is, the location information server 200 estimates the distance according to the signal strength attenuated according to the distance between the terminal and the gateway 20 .

Specifically, for example, the location information server 200, when estimating the location of the gas meter 10, the distance estimation value by the signal strength from three or more gateways (20-1, 20-2, 20-3) By performing trilateration or multilateration, the position of the gas meter 10 to which the collected meter reading data is transmitted can be estimated.

In addition, the location information server 200 determines whether to update the location of the gas meter 10 by comparing the pre-stored location information of the specific gas meter 10 with the location estimation result, and the location of the gas meter 10 is updated. If it is determined that it has been updated, it is possible to transmit whether or not the updated information is updated to the gas company operation server (30).

Specifically, in the case of LoRaWAN, the transmission distance ranges from several kilometers to several tens of kilometers, and thus the location error has an error of several tens to hundreds of meters. can be managed automatically.

For example, the location information server 200 may determine whether the location of the gas meter 10 is updated based on whether the radio fingerprint is changed.

In addition, the location information server 200 may determine whether the gas meter 10 is being stored through the Radio Map at the preset storage facility location, and when using the Radio Map at the preset storage facility location , more precise location estimation within the storage facility is possible.

Specifically, the smart gas meter 10 delivered from the meter manufacturer is opened by the communication network provider and stored by the gas company's logistics management system, and the gas meter 10 according to this embodiment is periodically (day 1) Attempts to connect to the communication network or transmit data, the radio signal strength of the data of the gas meter 10 may be collected through the location information server 200 .

Through this, the location information server 200 checks whether the device is stored in the warehouse through the Radio Map at the location of the gas company distribution warehouse, and when the gas meter 10 is installed by an installer, etc. , a change in radio fingerprinting and a change in location information are detected, and through this, the actual installation status and logistics management information can be transmitted to the gas company operation server 30 .

3 is a diagram provided for a more detailed description of the structure of the LoRaWAN location awareness-based wireless meter reading gas meter 10 management system according to an embodiment of the present invention.

Referring to FIG. 3 , the network server 100 may include a first communication unit 110 , a first storage unit 220 , and a first processor 130 to collect meter reading data of the gas meter 10 . can

The first communication unit 110 is a communication module used to be connected to a plurality of peripheral gateways 20 - 1 , 20 - 2 , and 20 - 3 and the location information server 200 .

The first storage unit 220 is a storage medium for storing programs and data necessary for the operation of the first processor 130 .

The first processor 130 may collect meter reading data through the End-Node 10 and the peripheral gateway 20 , and transmit the collected meter reading data to the location information server 200 .

The location information server 200 may include a second communication unit 210 , a second storage unit 220 , and a second processor 230 to estimate the position of the gas meter 10 based on the signal strength of the collected meter reading data. ) may be included.

The second communication unit 210 is a communication module used to be connected to the network server 100 and the gas company operation server 30 .

The second storage unit 220 is a storage medium for storing programs and data necessary for the operation of the second processor 230 .

The second processor 230 may estimate the distance based on different signal strengths according to the distance between the End-Node 10 and the gateway 20 , and through this, estimate the location of the gas meter 10 . .

In addition, the second processor 230 determines whether to update the position of the gas meter 10 by comparing the pre-stored position information of the specific gas meter 10 with the position estimation result, and the position of the gas meter 10 is updated. If it is determined that it has been updated, it is possible to transmit whether or not the updated information is updated to the gas company operation server (30).

4 is a flowchart provided to explain a method for managing a LoRaWAN location-based wireless meter reading gas meter 10 according to an embodiment of the present invention.

Referring to FIG. 4 , the LoRaWAN location recognition-based wireless meter reading gas meter 10 management method according to the present embodiment includes a collection step in which the network server 100 collects the meter reading data of the gas meter 10 ( S410 ); Estimation step (S420) of the location information server 200 estimating the location of the gas meter 10 based on the signal strength of the collected meter reading data, the location information server 200, By comparing the stored location information and the location estimation result (S430), a determination step (S440) of determining whether to update the location of the gas meter 10 and the location information server 200, the location of the gas meter 10 is updated If it is determined (S440-Y), it may be composed of a delivery step (S450) of whether to update and transmit the updated information to the gas company operation server (30).

Through this, for the operation of the smart gas meter 10 equipped with a two-way wireless communication function and the inventory and installation management of the gas meter 10, it is possible to automatically manage the inventory and actual installation time based on location recognition through communication. , from the gas company's point of view, inventory management through system registration of whether the consumer of the smart gas meter 10 is installed or not is facilitated, and from the telecommunication company's point of view, it is possible to enable the gas company's billing time and actual opening process.

On the other hand, it goes without saying that the technical idea of the present invention can also be applied to a computer-readable recording medium containing a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, the technical ideas according to various embodiments of the present invention may be implemented in the form of computer-readable codes recorded on a computer-readable recording medium. The computer-readable recording medium may be any data storage device readable by the computer and capable of storing data. For example, the computer-readable recording medium may be a ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, hard disk drive, or the like. In addition, the computer-readable code or program stored in the computer-readable recording medium may be transmitted through a network connected between computers.

In addition, although preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the claims Various modifications are possible by those of ordinary skill in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

Claims (12)

1. collecting, by the network server, the gas meter reading data; and

   LoRaWAN location recognition-based wireless meter reading gas meter management method comprising; estimating, by the location information server, the location of the gas meter based on the signal strength of the collected meter reading data.
2. The method according to claim 1,

   The estimation step is

   LoRaWAN location awareness-based wireless meter reading gas meter management method, characterized in that the location of the gas meter is estimated based on the signal strength of the meter reading data having different signal strength depending on the distance between the terminal and the gateway.
3. 3. The method according to claim 2,

   network server,

   Delivers the data received from the gateway to the location information server,

   location information server,

   LoRaWAN location awareness-based wireless meter reading gas meter management method, characterized in that the distance is estimated according to the signal strength attenuated according to the distance.
4. 3. The method according to claim 2,

   The estimation step is

   LoRaWAN location recognition-based wireless meter reading gas meter management method, characterized in that the location of the gas meter that has transmitted the collected meter reading data is estimated by trilaterating or multivariating the distance estimate value based on signal strength from three or more gateways.
5. The method according to claim 1,

   and determining, by the location information server, whether to update the location of the gas meter by comparing pre-stored location information of the specific gas meter with the location estimation result.
6. 6. The method of claim 5,

   The judging step is

   LoRaWAN location recognition-based wireless meter reading gas meter management method, characterized in that it is determined whether the location of the gas meter is updated based on whether the radio fingerprint is changed.
7. 7. The method of claim 6,

   The judging step is

   LoRaWAN location-based wireless meter reading gas meter management method, characterized in that it is determined whether the gas meter is being stored through a radio map at a preset storage facility location.
8. 8. The method of claim 7,

   LoRaWAN location-based wireless meter reading gas meter management method, characterized in that it further comprises; when the location information server determines that the location of the gas meter has been updated, transmitting the updated information and whether the updated information is to the gas company operation server .
9. The method according to claim 1,

   End-Node (terminal),

   LoRaWAN location awareness-based wireless meter reading, characterized in that the connection attempt or meter reading data is transmitted to a plurality of neighboring gateways at predetermined intervals so that the meter reading data is periodically transmitted to the location information server through the neighboring gateway and network server How to care for a gas meter.
10. a network server that collects gas meter reading data; and

    LoRaWAN location recognition-based wireless meter reading gas meter management system including; a location information server for estimating the location of the gas meter based on the signal strength of the collected meter reading data.
11. collecting, by the network server, the gas meter reading data; and

    LoRaWAN location recognition-based wireless meter reading gas meter management method including; by the location information server, estimating the location of the gas meter based on the signal strength of the collected meter reading data; a computer readable record containing a computer program for performing a wireless meter reading gas meter management method media.
12. collecting, by the network server, gas meter reading data through three or more gateways; and

    LoRaWAN location recognition-based wireless meter reading gas meter management method comprising, by the location information server, trilateration or multilateration of a distance estimate value based on signal strength from three or more gateways to estimate the location of the gas meter.

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