KR20190053433A - Waterworks smart metering system and method thereof - Google Patents

Abstract

The present invention relates to a smart water metering system and a method thereof and, more specifically, to a smart water metering system and a method thereof which can secure reliability, convenience, and economic efficiency of water meter reading. The smart water metering system comprises: a water meter installed on a customer; an internet-of-things (IoT) terminal digitally connected to the water meter; a relay which is connected to the internet-of-things terminal via a LoRa communication network (LoRaWAN), and collects meter reading data for water usage of the water meter transmitted from the internet-of-things terminal; an internet-of-things platform which is connected to the relay via an internet communication network, and receives the meter reading data transmitted from the internet-of-things terminal via the relay; a control server which is connected to the internet-of-things platform via a virtual private network (VPN), and extracts and stores the meter reading data received in the internet-of-things platform; and a charge management server which is connected to the control server, and receive the meter reading data from the control server to calculate a water charge of the water meter.

Description

[0001] WATERWORKS SMART METERING SYSTEM AND METHOD THEREOF [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water service smart metering system and method thereof, and more particularly, to a water service smart metering system and method capable of securing the reliability, convenience, and economy of water metering.

Generally, a water meter is installed in each home or building for measuring water usage. Such a water meter is installed in a pipe of a water pipe buried in the ground. At this time, for the protection and easy inspection of the water meter, a meter protection box with a cover is embedded in the floor, and the water meter is installed so as to be located inside such a meter protection box. Accordingly, a metering probe that measures the usage amount of the water can open the cover and check the meter of the water meter by checking the scale of the water meter installed inside the meter protecting box.

Here, when the water meter is installed outdoors, there is no problem in that the water meter reads the water meter regardless of whether there is a person in the customer or not. However, the water meter is usually installed indoors of the customer in most cases. Therefore, it is impossible to meter the water meter if there is no person in the customer. For this reason, in order to meter the water meter, it is often necessary for the water meter to revisit the customer to be inspected many times, so that it takes much time to meter. In addition, when there are many customers to be surveyed, a large number of surveyors are needed in proportion to the number of surveyors.

In order to solve this problem, a water meter automatic meter reading system has been proposed, in which a camera is installed in a water meter and a meter reading device can meter water usage outdoors. However, such a meter reading system has a problem that maintenance and management of the camera is difficult, and since all the visitors are not visited by the clerks, it is not very effective in terms of meter reading time, labor cost, maintenance cost, to be.

Korean Registered Patent No. 10-0829350 (2008.05.06.)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water metering smart metering system and method capable of ensuring reliability, convenience, and economy of water metering.

To this end, the present invention provides a water meter comprising: a water meter installed in a customer; An Internet (IoT) terminal digitally connected to the water meter; A repeater which is connected to the object internet terminal through a LoRaWAN and collects meter reading data on the water usage amount of the water meter sent from the object internet terminal; An object Internet platform connected to the relay device through an internet communication network and receiving the meter reading data transmitted from the object internet terminal via the relay device; A control server connected to the object internet platform through a virtual private network (VPN), for extracting and storing the inspection object data received at the object internet platform; And a charge management server connected to the control server and receiving the meter reading data from the control server and calculating a water rate of the water meter.

The control server includes a data extracting unit for extracting the metering data from the object Internet platform, a data converting unit for decoding the metering data extracted by the data extracting unit and encrypted and transmitted by the virtual private network, And a data transfer unit for transferring the metering data stored in the data storage unit to the charge management server.

The system may further include a customer terminal on the customer side connected to the control server.

The control server may further include a first display unit periodically displaying the meter reading data stored in the data storage unit to the customer terminal.

The control server may further include a data receiving unit for receiving data on the water rate from the charge management server, an electronic bill producing unit for generating an electronic bill for the water charge received by the data receiving unit, And a second display unit for displaying the generated electronic bill to the customer terminal.

At this time, the electronic bill notification unit may link the web address for using the web payment service to the electronic bill when the electronic bill is created, or may link the mobile billing app for using the mobile billing service with the electronic bill.

And the control server can instruct the object Internet terminal to check the water meter through the object internet platform.

Also, the water meter and the Internet terminal of the object are installed in the customer in a single set of Internet apparatuses of the objects, the set of Internet apparatuses of the objects are installed in a plurality of receptacles, and the control server is received in the Internet platform And can extract and store the metering data for each object Internet appliance set and the unique ID value assigned to each object Internet appliance set.

The charge management server includes a receiver for receiving the meter reading data for each object internet appliance set transmitted from the control server and the unique ID value assigned to each object internet appliance set, A first database storing accumulated meter reading data and unique ID values for each object Internet appliance set, comparing the unique ID value received in the receiver with a unique ID value previously stored in the first database, A rate calculating unit for calculating a water rate of the water meter for the object Internet appliance set based on the cumulative meter reading data in which the unique ID values coincide with each other and the rate of change of the meter reading data received in the receiver, And stores the data on the water rate calculated by the unit It is possible to include a second database.

On the other hand, according to the present invention, there is provided a method of controlling a water meter, comprising the steps of: (a) storing, by the control server, the usage amount of the water meter received from the object Internet platform via a relay connected through a Laura communication network, Extracting meter reading data; Decrypting and storing the meter reading data encrypted and transmitted after the control server extracts the data; Transmitting, by the control server, the metering data stored to the charge management server; And the charge management server calculating the water rate of the water meter based on the water meter reading data received from the control server.

Here, the control server may further include periodically displaying the stored metering data to a customer terminal on the customer side.

In this case, the control server may further include receiving the water charge from the charge management server, generating an electronic bill for the water rate, and displaying the electronic bill to the customer terminal.

At this time, the control server may link the web address for using the web payment service to the electronic bill when the electronic bill is created, or may link the mobile billing app for using the mobile billing service with the electronic bill.

The control server may further include a step of instructing the object Internet terminal to perform the inspection of the water meter through the object Internet platform.

At this time, the control server can display the meter reading schedule for the water meter on the customer side of the customer side.

According to the present invention, the control server communicates bidirectionally with an internet of things (IoT) terminal that is digital-connected to the water meter using a LoRa (Long Range) communication network and an Internet communication network, It is possible to improve the dead-rate of the meter and ultimately to ensure the reliability, convenience, and economy of water meter inspection.

Further, according to the present invention, the control server periodically provides the meter reading information to the water meter by a customer terminal on the customer side, for example, a smart phone or a PC connected thereto, thereby realizing customer satisfaction.

According to the present invention, the control server automatically sends an electronic bill about the usage amount of the water to the customer terminal on the customer side connected thereto, and links the web address for payment to the electronic bill at this time, By connecting the electronic settlement service such as linking mobile payment app, convenience of both the manager side and the customer side can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing a water service smart metering system according to a first embodiment of the present invention; Fig.
2 is a block diagram illustrating a water smart metering system in accordance with a first embodiment of the present invention.
3 is a block diagram illustrating a control server of a water service smart metering system according to a first embodiment of the present invention.
FIG. 4 is a block diagram showing a charge management server of the water service smart metering system according to the first embodiment of the present invention.
5 is a configuration diagram showing a waterworks smart metering system according to a second embodiment of the present invention.
6 and 7 are flowcharts illustrating a water smart metering method according to an embodiment of the present invention.
FIG. 8 is a flowchart illustrating a charge calculation process of the charge management server in the capital smart metering method according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a smart water metering system and method according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

As shown in FIGS. 1 and 2, the waterworks smart metering system 100 according to the first embodiment of the present invention remotely measures a water meter 110 installed in a customer and displays meter reading information, for example, The system automatically provides the customer on the side of the customer with the information on the water usage of the meter 110 or the meter reading schedule and the water rate according to the water usage amount.

The smart metering system 100 according to the first embodiment of the present invention includes a water meter 110, an Internet of Things (IoT) terminal 120, a repeater 130, a matter Internet platform 140, A control server 150 and a charge management server 160. [

The water meter 110 is installed in a house such as a house or a building. At this time, it is preferable that the water meter 110 is provided as a digital water meter for connection with the object Internet terminal 120. In addition, the water supply smart metering system 100 according to the first embodiment of the present invention communicates with the object internet terminal 120 through a long range wide area network (LoRaWAN) 10, The water meter 110 can be remotely inspected even if the water meter 110 is installed indoors of the customer and the water meter 110 can be remotely inspected even if there is no person on the customer side. . That is, the water metering smart metering system 100 according to the first embodiment of the present invention can meter the water meter 110 in real time regardless of the installed position of the water meter 110 and without regard to time.

The object Internet terminal 120 is digital-connected to the water meter 110. At this time, the object Internet terminal 120 may be directly connected to the water meter 110, or may be formed as an integral unit. The object Internet terminal 120 transmits meter reading data on the water usage amount of the water meter 110 through the Laura communication network 10 connected thereto. Here, Laura communication refers to a large-scale low-power long-distance wireless communication technology, and is a technology mainly used in a smart city or outdoor because of low standby power and low module price. In particular, unlike existing smart device connection environments that require a high-speed, broadband network, it is possible to send and receive small amounts of data at low power by placing a chip set on a device without a separate base station or relay device. In addition, the Laura communication method enables a communication distance of up to 21 km, and is a communication method capable of maintaining the battery life of the terminal for a long period of time with low power consumption. The water service smart metering system 100 according to the first embodiment of the present invention can reduce the cost of the remote water meter reading by using the Laura communication and the object internet terminal 120. [

The repeater 130 is disposed between the object Internet terminal 120 and the object Internet platform 140. At this time, the relay 130 is connected to the object Internet terminal 120 through the Laura communication network 10, and is connected to the object Internet platform 140 through the Internet communication network 20. The repeater 130 collects meter reading data on the usage amount of the water meter 110 sent from the object internet terminal 120. In addition, the repeater 130 transmits the meter reading data on the water usage amount of the collected water meter 110 to the object Internet platform 140.

The object Internet platform 140 is disposed between the relay 130 and the control server 150. At this time, the object Internet platform 140 is connected to the relay server 130 through the Internet communication network 20 and is connected to the control server 150 through a virtual private network (VPN) for security. The object Internet platform 140 is an open platform and serves as a medium for connecting the object Internet terminal 120 and the control server 150 and provides the object Internet service to the control server 150. That is, the object Internet terminal 120 and the control server 150 communicate with each other through the object Internet platform 140.

The object Internet platform 140 provides the inspection server 150 with the inspection data acquired from the object Internet terminal 120 and transmits the inspection meter data to the control server 150 such as a meter reading method, And provides the control method to the object Internet terminal 120.

The control server 150 is connected to the object Internet platform 140 through the virtual private network 30. The control server 150 extracts the meter reading data of the water usage amount of the water meter 110 received from the object internet terminal 120 and received by the object Internet platform 140 via the relay 130, .

3, the control server 150 according to the first embodiment of the present invention includes a data extraction unit 151, a data conversion unit 152, a data storage unit 153, (Not shown).

The data extracting unit 151 extracts the meter reading data received from the object Internet platform 140. At this time, since the object Internet platform 140 and the control server 150 are connected through the virtual private network 30, the inspection data extracted by the data extraction unit 151 is received in an encrypted state. The data converting unit 152 decodes the metering data extracted by the data extracting unit 151 and encrypted and transmitted by the virtual private network 30. Also, the data storage unit 153 stores the meter reading data decoded by the data conversion unit 152. The data transfer unit 154 transfers the metering data stored in the data storage unit 153 to the charge management server 160.

Meanwhile, the water service smart metering system 100 according to the first embodiment of the present invention may further include a customer terminal 170 on the customer side. The customer terminal 170 on the customer side is connected to the control server 150. When the customer terminal 170 on the customer side is connected to the control server 150 in this manner, the control server 150 can control the water meter 110 using the customer terminal 170 on the customer side, for example, The meter reading time, the state of the water meter 110, and the like, so that customer satisfaction can be realized.

To this end, the control server 150 according to the first embodiment of the present invention may further include a first display unit 155. The first display unit 155 periodically displays the meter reading data on the usage amount of the water meter 110 stored in the data storage unit 153 to the customer terminal 170 on the customer side. In addition, the first display unit 155 can periodically display the meter reading time, the number of meter readings, and the state information of the water meter 110 to the customer terminal 170 on the customer side.

In addition, the control server 150 according to the embodiment of the present invention may further include a data receiving unit 156, an electronic billing report generating unit 157, and a second displaying unit 158. The data receiving unit 156 receives data on the water rate from the charge management server 160. In addition, the electronic bill producing unit 157 generates an electronic bill for the water rate received by the data receiving unit 156. [ At this time, the electronic bill creating unit 157 links the web address for using the web settlement service to the electronic bill at the time of creating the electronic bill, thereby providing the convenience of the customer. In addition, when generating the electronic meat, the electronic bill producing unit 157 can cooperate with the mobile billing app for use of the mobile billing service with the electronic bills and help the customer to pay the bill easily. The second exposing unit 158 exposes the electronic bill generated by the electronic bill producing unit 157 to the customer terminal 170 on the customer side as described above.

The control server 150 according to the first embodiment of the present invention automatically sends an electronic bill about the usage amount of the water to the customer terminal 170 on the customer side connected thereto and links the web address to the electronic bill at this time Or by linking an electronic payment service such as linking a mobile payment application, the convenience of both the administrator side and the customer side can be improved.

Meanwhile, the control server 150 according to the first embodiment of the present invention can control the object Internet terminal 120 through the object Internet platform 140. That is, the control server 150 instructs the object internet terminal 120 through the object Internet platform 140 to meter the water meter 110. Accordingly, the object Internet terminal 120 measures and sends the meter reading data on the water usage amount of the water meter 110, and the meter reading data thus transmitted is transmitted via the repeater 130 and the object internet platform 140 And is received by the control server 150.

The control server 150 according to the first embodiment of the present invention instructs the object internet terminal 120 to meter the water meter 110 through the object internet platform 140 and the customer terminal 170 on the customer side, It is possible to provide a service for displaying the meter reading schedule for the water meter 110.

The charge management server 160 is connected to the control server 150. The charge management server 160 receives meter reading data from the data transfer unit 154 of the control server 150 and calculates the water rate of the water meter 110.

4, the charge management server 160 according to the first embodiment of the present invention includes a receiving unit 161, a first database 162, a charge calculating unit 163, and a second database 164).

Here, the receiving unit 161 receives the meter reading data transmitted from the data transmitting unit 154 of the control server 150. [ The first database 162 stores the accumulated meter reading data of the water meter 110 transmitted in the previous meter reading. The charge calculating unit 163 calculates the water rate of the water meter 110 based on the change rate of the meter reading data received in the receiving unit 161 and the meter reading data previously stored in the first database 162. [ The second database 164 stores data on the water rate calculated by the water fare calculator 163. At this time, the control server 150 receives the water rate data stored in the second database 164, generates an electronic bill for the water rate transmitted, and displays the electronic bill to the customer terminal 170 on the customer side.

As described above, the water supply smart metering system 100 according to the first embodiment of the present invention can use the Laura communication network 10, the Internet communication network 20, and the virtual private network 30 to connect the water meter 110 and the digital A control server 150 for bidirectionally communicating with the object internet terminal 120 and the object Internet platform 140 connected to the object server 120 and the control server 150 to calculate a water rate for the water usage of the water meter 110 And a customer terminal 170 connected to the charge management server 160 and the control server 150 for receiving meter reading information from the control server 150 to the water meter 110. Accordingly, the waterworks smart metering system 100 according to the first embodiment of the present invention can improve the water leakage rate of the waterworks and the dead-rate of the water meter 110, and ultimately ensure the reliability, convenience, and economy of water meter inspection can do.

Hereinafter, a water metering smart metering system according to a second embodiment of the present invention will be described with reference to FIG.

5 is a configuration diagram showing a waterworks smart metering system according to a second embodiment of the present invention.

5, the water meter smart metering system 200 according to the second embodiment of the present invention includes a set of object Internet devices 210, a relay 130, a objects Internet platform 140, a control server 150, A charge management server 160, and a plurality of customer terminals 170.

Since the second embodiment of the present invention differs from the first embodiment of the present invention only in that the concept of a set of object Internet devices is introduced, the same constituent elements are given the same reference numerals, A detailed description thereof will be omitted.

One object Internet appliance set 210 includes one water meter 110 and one object Internet terminal 120 that is connected to the water meter 110 in a digital manner. The water service smart metering system 200 according to the second embodiment of the present invention is a water metering system for a case where such a set of object internet apparatuses 210 is installed in a plurality of customers respectively. The object Internet appliance set 210 installed in each of a plurality of customers transmits the respective meter reading data, and the repeater 130 collects the meter reading data and transmits the collected meter reading data to the object internet platform 140. At this time, in order to identify the meter reading data, each object Internet appliance set 210 is given a unique ID value. Therefore, when transmitting the meter reading data, the object Internet appliance set 210 also transmits its unique ID value. Accordingly, the control server 150 extracts and stores the meter reading data and the unique ID values assigned to the respective object Internet appliance sets 210 received in the object Internet platform 140.

4, the reception unit 161 of the charge management server 160 receives the inspection data for each of the object internet appliance sets 210 transmitted from the control server 150 and the inspection data for each object internet appliance set 210, And receives a unique ID value assigned to the user. The fee calculating unit 163 compares the unique ID value received by the receiving unit 161 with the unique ID value of the corresponding object internet appliance set 210 stored in the first database 162, And calculates the water rate for the water meter 110 of the object object appliance set 210 based on the change rate of the accumulated water meter reading data stored in the reception unit 161 and the accumulated water meter reading data.

Meanwhile, the control server 150 provides a service for displaying information on the water meter 110 to a plurality of customer terminals 170 on the customer side.

As described above, the water service smart metering system 200 according to the second embodiment of the present invention can secure reliability, convenience, and economy of water meter inspection even when a large number of customers are targeted, and can provide customer convenience.

Hereinafter, a method of smart metering in accordance with an embodiment of the present invention will be described with reference to FIGS. 6 to 8. FIG. Reference numerals for the respective components refer to FIG.

FIG. 6 and FIG. 7 are flowcharts showing a smart smart metering method according to an embodiment of the present invention, and FIG. 8 is a flowchart illustrating a smart smart smart metering method according to an embodiment of the present invention.

As shown in FIG. 6, the smart water metering method according to an embodiment of the present invention includes a meter reading data extracting step S110, a meter reading data decoding and storing step S120, a meter reading data transmitting step S130, (S140).

First, in the meter reading data extracting step (S110), the control server (150) receives data from the object internet terminal (120) which is digital-connected to the water meter (110) installed in the customer, And extracts the meter reading data for the usage amount of the manual meter 110 received in the object Internet platform 140 via the controller 130.

In the waterfall smart metering method according to the embodiment of the present invention, the control server 150 instructs the object internet terminal 120 to meter the water meter 110 through the object internet platform 140. [ At this time, the control server 150 can provide a service for displaying the meter reading schedule to the water meter 110 to the customer terminal 170 on the customer side.

Next, in the meter reading data decoding and storage step S120, the control server 150 decodes the meter reading data that is extracted from the object Internet platform 140 and then transmitted through the virtual private network 30 and encrypted and stored . At this time, as shown in Fig. 7, in the capital smart metering method, the control server 150 further includes a metering data exposing step (S121) for periodically displaying the stored metering data to the customer terminal 170 on the customer side .

Next, in the meter reading data transmission step (S130), the control server 150 transmits the stored meter reading data to the charge management server 160. [

Next, in the water rate calculation step S140, the fare management server 160 calculates the water rate of the water meter 110 based on the meter reading data received from the control server 150. [ 7, in the water service smart metering method, the control server 150 receives the water rate calculated from the water management server 160, generates an electronic bill for the water rate, and transmits the generated electronic bill (S122) of displaying an electronic bill to the customer terminal (170). At this time, in the electronic bill display step S122, the control server 150 links the web address for using the web payment service to the electronic bill at the time of creating the electronic bill or transmits the mobile billing app for using the mobile billing service to the electronic bill Can be interlocked.

8, in the water rate calculation step S140, the fare management server 160 first reads the inspection data from the control server 150 and the object Internet terminal 120 or the object internet appliance set (210 in FIG. 5). (S211),

Then, the charge management server 160 compares the received unique ID value with the unique ID value of the object Internet terminal 120 or the object Internet appliance set 210 that is stored in advance. (S212)

Then, when these unique ID values coincide with each other, the charge management server 160 searches the corresponding object Internet terminal 120 or the set of object internet devices 210 (210) based on the accumulated cumulative metering data stored and the rate of change of the received metering data The water rate of the water meter 110 is calculated and then the water rate calculated is stored. (S213, S214)

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of the appended claims as well as the appended claims.

100, 200; A water metering system 110; Water meter
120; Object Internet terminal 130; Repeater
140; Things Internet platform 150; Control server
151; A data extracting unit 152; The data conversion unit
153; Data storage 154; The data transfer unit
155; A first display unit 156; Data receiving section
157; An electronic bill producing unit 158; The second display unit
160; A fee management server 161; Receiver
162; A first database 163; Fee calculation part
164; A second database 210; Set of things Internet devices
10; Laura communication network 20; Internet communication network
30; Virtual private network

Claims (15)

Water meter installed in the customer;
An Internet (IoT) terminal digitally connected to the water meter;
A repeater which is connected to the object internet terminal through a LoRaWAN and collects meter reading data on the water usage amount of the water meter sent from the object internet terminal;
An object Internet platform connected to the relay device through an internet communication network and receiving the meter reading data transmitted from the object internet terminal via the relay device;
A control server connected to the object internet platform through a virtual private network (VPN), for extracting and storing the inspection object data received at the object internet platform; And
A charge management server, connected to the control server, for receiving the meter reading data from the control server and calculating a water rate of the water meter;
A smart smart metering system that includes.
The method according to claim 1,
The control server,
A data extracting unit for extracting the inspection data from the object Internet platform,
A data conversion unit for decoding the metering data extracted by the data extraction unit and encrypted and transmitted by the virtual private network,
A data storage unit for storing the decoded metering data, and
And a data transmission unit for transmitting the metering data stored in the data storage unit to the charge management server.
3. The method of claim 2,
And a customer terminal on the customer side connected to the control server.
The method of claim 3,
Wherein the control server further includes a first display unit for periodically displaying the meter reading data stored in the data storage unit to the customer terminal.
The method of claim 3,
The control server,
A data receiving unit for receiving data on the water rate from the charge management server,
An electronic bill report generation unit for generating an electronic bill for the water charge received by the data reception unit;
And a second exposing unit for displaying the electronic bill generated in the electronic bill to the customer terminal.
6. The method of claim 5,
Wherein the electronic bill producing unit links the web address for using the web settlement service to the electronic bill when the electronic bill is created or the mobile billing app for using the mobile billing service is linked with the electronic bill.
The method according to claim 1,
Wherein the control server instructs the matter Internet terminal to read the water meter by the object Internet platform.
The method according to claim 1,
The water meter and the Internet terminal are installed in the customer in a single set of Internet devices, the set of Internet devices is installed in a plurality of customers,
Wherein the control server extracts and stores the metering data and the unique ID value assigned to each object Internet appliance set for each object Internet appliance set received on the object Internet platform.
9. The method of claim 8,
The fee management server,
A receiving unit for receiving the metering data for each object internet appliance set transmitted from the control server and the unique ID value assigned to each object internet appliance set,
A first database storing accumulated meter reading data and unique ID values for each of the set of object Internet devices transmitted in previous meter reading,
And comparing the unique ID value received by the receiving unit with a unique ID value previously stored in the first database and comparing the cumulative counting data stored in the storage unit with the unique ID value and the change rate of the counting data received by the receiving unit A rate calculating unit for calculating a water rate of the water meter for the object Internet appliance set, and
And a second database for storing data on the water rate calculated by the water price calculation unit.
The control server extracts the meter reading data on the usage amount of the water meter received from the object Internet platform via the repeater connected through the Laura communication network from the object internet terminal that is digitally connected to the water meter installed in the customer step;
Decrypting and storing the meter reading data encrypted and transmitted after the control server extracts the data;
Transmitting, by the control server, the metering data stored to the charge management server; And
Calculating a water rate of the water meter based on the meter reading data received from the control server;
Gt; smart metering < / RTI >
11. The method of claim 10,
Further comprising the step of the control server periodically displaying the stored metering data to a customer terminal on the customer side.
12. The method of claim 11,
Wherein the control server further comprises receiving the water rate from the fare management server, generating an electronic bill for the water rate, and displaying the electronic bill to the customer terminal.
13. The method of claim 12,
Wherein the control server links the web address for using the web settlement service to the electronic bill when the electronic bill is created or the mobile billing app for using the mobile settlement service is linked with the electronic bill.
11. The method of claim 10,
Further comprising the step of the control server instructing the matter Internet terminal to read the water meter by the object Internet platform.
15. The method of claim 14,
Wherein the control server displays a meter reading schedule for the water meter to a customer terminal on the customer side.

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