KR101090360B1 - Block information system and data acquisition method of water distribution pipe network - Google Patents

Abstract

PURPOSE: A block information system and a data acquisition method of a water distribution pipe network are provided to improve the efficiency of performance and operation by synchronizing the configuration information of an information terminal and a control server at high speed. CONSTITUTION: An information terminal(100) generates/stores an object information by objectifying the configuration element information, the measuring information, the status information, and the control information of the water supply network block. The information terminal transmits the object information for synchronizing with a control server to the control server(200). If information which is stored in a database(120) of the information terminal is changed, the information terminal synchronizing the database(220) of the information terminal and the database of the control server by transmitting modified data to the control server. If modified data is received from the control server, the information terminal reflects modified data to database and performs synchronization.

Description

Block information system and data acquisition method of water distribution pipe network

The present invention relates to a block information computerized system of a water supply network, and more particularly, when data change occurs in any one of a physically independent information terminal and a control server, the data is changed to another device to provide a database of two devices. The present invention relates to a method for improving the performance and operation efficiency of a block computerized system by efficiently managing data by synchronizing information between an information terminal and a control server by synchronizing the data.

The present invention is to construct computerized information of each component of the block system of the water supply network, block all the configuration information, measurement information and control and status information of the block system of the water supply network, and block by synchronizing with the information data of the control server Each component of the system can automatically download its configuration information and control commands from the control server, and the control server can efficiently obtain reliable measurement information from each component of the block system. Information computerization system and information acquisition method.

The performance of the water supply and drainage pipeline is the nation's large asset (about 130,000 km in length, about 18 trillion won (2010)), and according to its maintenance performance, more than hundreds of billions of leakage of water annually, deterioration of water quality, construction of new water supply facilities It causes the burden on the back.

In order to maintain the water supply network, the information computer system of the network must accurately diagnose and measure the condition of the pipeline, and use the contents and database to interpret, analyze, and evaluate the network and take appropriate measures according to the results. do.

In order to efficiently manage the network, it is necessary to divide the entire network into blocks of a certain area and keep the entire network in an optimal state as well as the optimization of the block based on various information constituting the block.

Accurate measurement information such as flow rate, flow rate, water pressure, and water quality of each block is an important factor in evaluating the performance of the network.In case of loss of information at the time of need or reliability of collected data such as errors at the time of measurement, the status of the normal network is diagnosed. There is a problem that can not be evaluated. In addition, since the water flows through the channel, it is very important to match the point information of the block site with the control center information.

In order to acquire field information, each block system is equipped with an information terminal (for example, RTU: Remote Terminal Unit or RCS: Remote Control System) and a communication modem that install various instruments and receive measurement signals to the control center. The control server collects data by calling each information terminal in sequence or transmits the data to the control center at regular intervals by the information terminal itself.

In this case, the conventional information terminal mainly collects the measurement information of the instrument through a serial interface method such as RS233, RS485, or analog signal, and is connected to the control server through a dedicated line connected through a modem or a digital service unit (DSU). And use industrial communication protocols such as Modbus. In recent years, the transmission using a mobile communication network such as CDMA is increasing.

In addition, in order to maintain proper water pressure in each block, installation and control of isolation valve, directional control valve, control valve, pump, etc. are required.Information terminal receives the data of flow meter and pressure gauge and controls or controls the valve by preset calculation formula. The valve is controlled by the command or the changed calculation by the analysis decision of the server.

As described above, the information terminal must analyze and match protocols of each instrument and transmit them through the communication protocol promised with the control server. Therefore, the protocol must be applied to both the information terminal and the control server. There is a problem that comes with great inconvenience when changing or adding.

In addition, conventionally, since the information terminal must communicate with the server while storing the measurement data in an unstructured memory, there is a problem that data instability occurs due to a transaction, and data recovery when an abnormal termination such as a power supply is interrupted. Is very difficult, and in this process, data may be lost, and garbage data may be generated, which causes a fatal interpretation and judgment in the control server.

In addition, in the past, when an error occurs or stops operation in any one of the information matching between the information terminal and the data server, or when information matching fails due to a failure of a communication line or the like, an error or leak of water quality evaluation is caused. There is a problem that results in a significant decrease in the performance of the network due to measurement error of the point, failure of the pressure adjustment of the pipeline.

The present invention has been invented to solve the above problems, the present invention provides a database of the two devices at a high speed by providing to the other device when the data change occurs in any one device of a physically independent information terminal, control server It aims to provide a block information computerization system and information acquisition method of water supply network that can improve the performance and operation efficiency of the block computer system by efficiently matching data between the information terminal and the control server by synchronizing. .

In addition, the present invention, the information terminal objectized and stored each component of the block system, and by using the objectized data to perform synchronization with the control server even if each device uses a different O / S or DBMS data structure It is an object of the present invention to provide a block information computerization system and information acquisition method of a water supply network that can maintain independence between a program and a program and to easily synchronize a database.

In order to achieve the above object, a block information computerization system of a water supply network according to the present invention receives measurement information from a plurality of measuring devices installed in a water supply network block, and includes an information terminal and an information terminal for transmitting the measurement information to a control server. It includes a control server for diagnosing the water supply network status by using the received measurement information.

At this time, the information terminal objectizes all the component information, measurement information, state and control information of the water supply network block in an embedded database, and stores all object information of the water supply network block to the control server for synchronization with the control server. send.

When the control server receives all object information of the waterworks network block from the information terminal, the control server applies all object information to the database according to the configuration of the database in the control server, and processes the database of the control server to be synchronized with the database of the information terminal. do.

When the change information occurs because the component information or the measurement information or the state and control information stored in the database of the information terminal are changed, the information terminal extracts only the changed data and transmits the extracted data to the control server for information. The database of the terminal and the database of the control server are processed to be synchronized at high speed, and when the change data is received from the control server, the change data is reflected in the database so that the database of the information terminal and the database of the control server are synchronized.

In addition, the information terminal divides the measurement information by attributes, applies a plurality of data types to provide independence between a data structure and a program, and provides a multiple transaction function to enable data recovery due to abnormal termination. It is desirable to.

When the information terminal objectizes all the component information, measurement information, state, and control information of the waterworks network block, the interface port of the information terminal, the setting items for each type or model of the interface target device, the matching protocol, the driver, and the control operation. The program module and the library which created the formula and the driving process are composed of the respective objects, and an ID or a tag is given to the object so that the objects are distinguished.

On the other hand, the control server may register a new component in the waterworks network block, or modify the component information.

At this time, when the control server registers a new component in the waterworks network block, the new configuration ID or tag information is stored in the database of the control server, and the control server extracts the changed data and transmits it to the information terminal. The terminal stores the changed data in the embedded database of the information terminal and selects and loads the protocol, driver, control expression, and driving program corresponding to the new configuration ID or tag, and the configured device and the selected port are immediately interconnected. To be driven.

Meanwhile, a specific protocol or a plurality of communication drivers are transmitted by transmitting data through standard wireless communication networks such as CDMA, GSM / GPRS, WCDMA, Wibro (WIMAX), LTE, and Wifi in a manner of synchronizing only the changed data between the information terminal and the control server database. It would be desirable to be able to remotely integrate multiple heterogeneous devices without the need to.

In order to achieve the above object, a monitoring method of a block monitoring system according to the present invention includes: (A) storing all component information, measurement information, state, and control information of a waterworks network block in an information terminal in an embedded database; (B) the information terminal transmitting all object information of the waterworks network block of step (A) to the control server so that the database of the information terminal and the database of the control server are synchronized; (C) registering, by the control server, all object information of the waterworks network block received in step (B) to a database; And (D) processing the data to be synchronized by transmitting the changed data to a counterpart database when a change of data stored in the database of the information terminal or the database of the control server occurs.

In this case, in step (A), the object and the program module for which the information terminal has created the interface port of the information terminal, the setting item for each type or model of the interface target device, a matching protocol, a driver, a control expression, and a driving process And assign an ID or tag to the object to distinguish the object.

According to the present invention, the configuration information of the information terminal and the control server is objectized and processed so as to be synchronized with each other at high speed immediately upon registration or modification, thereby eliminating the complicated process of individual configuration by the site situation of each block and the configuration type of the device. And PnP (Plug and Play) can be realized.

In addition, the present invention objectizes the measurement and control-related data stored in the embedded database, by applying a variety of data types (eg, int, float, char, variable string, datetime type, etc.) provides independence between the data structure and the program It facilitates development, ensures data stability by providing transaction function, and enables automatic data recovery according to abnormal termination (for example, abnormal termination due to change of information terminal or surrounding environment), so that there is no data loss or bug. There is an advantage to implement a high performance information terminal.

On the other hand, the block system information of the water supply network requires real-time high reliability information in leak point measurement and night minimum flow measurement to improve the flow rate. When the data synchronization function of the present invention is applied, only the changed information is transmitted to provide high-speed data. Since the update is possible and the size of the data is reduced, there is an advantage of reducing the mobile communication cost of charging in units of packets.

In addition, in the present invention, when transmitting a changed data record for synchronization between the information terminal and the database of the control server or in the case of a text file transmission such as configuration information, a special reinterpretation is not required for the structure or attribute of the control server. Database has the advantage that it can be applied regardless of specific model. Accordingly, the utilization of the information terminal or control server is large, and the use of these technologies for integrating multiple systems enables the reuse of existing facilities, thereby reducing investment costs and providing an integrated system in a short time.

In addition, the present invention has no problem in use even if the platform of the information terminal is changed and the communication protocol with the control server is also TCP / IP radio of standard wireless communication networks such as CDMA, GSM / GPRS, WCDMA, Wibro (WIMAX), LTE, Wifi Using the Internet, synchronization between text databases and text files has the advantage of allowing multiple heterogeneous devices to be remotely integrated in an open, international standard without the need for specific device protocols or communication drivers. In addition, since the present invention uses a wired or wireless network, a hardware device for converting a separate interface protocol between the information terminal and the control server is unnecessary.

In addition, the block information system of the water supply network according to the present invention has the advantage of preventing the loss of measurement information, improve the reliability of data, and reduce the facility cost and data communication charges, as well as improve the performance of the system.

1 is a system diagram showing the overall configuration of a block information computerized system of a water supply network according to a preferred embodiment of the present invention.
2 is a block diagram showing the internal structure of a block information computerization system of a water supply network according to a preferred embodiment of the present invention.
3 is an explanatory diagram for explaining objectization data of the present invention;
4 is an explanatory diagram for explaining a method in which an information terminal manages data according to the present invention;
5 is a flowchart illustrating a process in which an information terminal remotely operates automatically by a control server according to a preferred embodiment of the present invention.
6 is a flowchart illustrating a process of synchronizing data between an information terminal and a control server according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the waterworks block monitoring system according to the present invention as described above will be described in detail.

1 is a system diagram showing the overall configuration of a block information computerization system of a water supply network according to a preferred embodiment of the present invention, Figure 2 is a block information computerization system of a water supply network according to a preferred embodiment of the present invention A block diagram showing the internal configuration is shown.

As shown in these figures, the present invention includes an information terminal 100, a control server 200.

First, the information terminal 100 collects measurement information of a wide area from a plurality of measuring instruments (for example, measuring instruments for measuring flow rate, flow rate, water pressure, and water quality) connected to the information terminal 100, and the collected measurement information. It is stored and managed in the embedded database 120, and transmits the measurement information to the control server. The information terminal 100 collects and manages measurement information such as flow rate, flow rate, water level, water quality, and weather data for pipe network block monitoring of waterworks, sewage pipe maintenance, and river hydrology management.

The information terminal 100 objectizes all configuration information, measurement information, status, and control information of the block system of the water supply network, and synchronizes all the object information with the management data of the control server 200. At this time, the structure or attribute is simplified to enable the transmission of text files such as configuration information. More specifically, the information terminal 100 may include a program module and a library that prepares setting items, matching protocols, drivers, control expressions, driving processes, etc. for each interface port of the information terminal and the type or model of the interface target device. Each object is given an ID or tag data in order to be composed and identified.

In addition, the information terminal 100 classifies each measurement information of the information terminal 100 by attributes, has an embedded database applying various data types, increases data stability by supporting multiple transaction functions, and provides automatic data according to abnormal termination. Recovery is possible to eliminate data loss or bugs.

In addition, the information terminal 100 does not coincide with each other so that the information terminal 100 has the protocol or communication driver of the specific equipment configured in the network to be synchronized with the information terminal 100 and the control server 200 mutually. It allows remote integration of multiple heterogeneous devices by transmitting the data so that the data does not match.

On the other hand, the present invention synchronizes the database of the information terminal and the control server, and if a change occurs in either database, only the changed data is extracted and processed to be synchronized with the other database. At this time, since each database is divided by objects, the changed data is also a small amount of small data. As such, the present invention transmits only a small amount of changed data (the present invention does not transmit non-changes) so that the database is synchronized with each other so that high-speed update is possible, and it is suitable for a packet of a wireless network, and communication cost can be saved There is an advantage.

The control server 200 may register a new component in the waterworks network block or modify the component information.

When the control server 200 registers a new component in the waterworks network block, the new configuration ID or tag information is stored in the database of the control server 200, and the control server extracts the changed data to the information terminal 200. ).

Then, the information terminal 100 stores the changed data in an embedded database of the information terminal, and selects and loads a protocol, driver, control expression, and driving program corresponding to the new configuration ID or tag and As the selected ports are immediately interconnected and interacted with each other, the system starts to operate and enables Plug and Play (PnP).

Meanwhile, the information terminal and the control server of the present invention transmit the changed data for synchronization with each other through the wireless Internet of standard wireless communication networks such as CDMA, GSM / GPRS, WCDMA, Wibro (WIMAX), LTE, Wifi, and the like. Multiple heterogeneous devices can be remotely integrated without device protocols or multiple communication drivers.

On the other hand, since embedded systems (eg, terminals) use file data by code, there is a problem in that openness is vulnerable and unstructured, so that interconnection is difficult. Therefore, the present invention can be easily exchanged between the heterogeneous O / S, H / W server database by applying the database to the information terminal as easily as the data exchange between the heterogeneous, CDMA, GSM / GPRS, WCDMA, Wibro (WIMAX ), LTE, Wifi communication networks all use the packet data transmission method, it is easy to synchronize only the data changed between the information terminal control server database.

In addition, the present invention applies a synchronization scheme of only changed data between the information terminal and the control server database. In this case, it is preferable that the present invention facilitates data exchange between databases using standard words and formats such as SQL statements.

As described above, the present invention synchronizes a database of two devices by providing them to another device when data change occurs in one device of a physically independent information terminal or control server. As an example, when the control item of the control device is changed in the control server 200 (for example, when changing an analog value such as an adjustment pressure value of a pressure reducing valve, or turning on / off a pump) In this case, since the corresponding object data is changed, the information terminal 100 adjusts the corresponding control device. Information on the status monitoring items is applied in the same way as the measurement information.

3 is an explanatory diagram for explaining the objectization data of the present invention.

As shown in FIG. 3, the present invention provides an interface port of the information terminal 100, which is a component of the water supply network block system, and various types of devices (eg, a user selectable measuring instrument, a pressure reducing valve, a communication modem, etc.). In addition, program modules and libraries that make up the setting items, matching protocols, drivers, control expressions, and driving processes for each model are composed of each object and classified by ID or tag data. Such object information is synchronized to the control server 200.

In the case of registering or modifying each block system in the control server 200, the inputted configuration ID or tag may be used. More specifically, when the control server 200 records data to register or modify the block system, the recorded data is stored in the control server database 220, which is also synchronized to the database 120 of the information terminal. .

Then, the information terminal 100 selects and loads the corresponding protocol, driver, control equation, driving program, etc. of the ID or tag, and processes the configured device and the selected port to immediately interact. In other words, if only the configuration registration in the control server 200 will be PnP (Plug and Play) of the site no setting operation.

On the other hand, the measurement information is the measurement information of the measuring instrument that is configured and operated in conjunction with the information terminal, the measurement information is composed of the object and stored in the database 120.

In addition, the state and control information are also stored in the database 120 by constructing the control items and the state monitoring information of the control device which is configured and operated together with the information terminal 100 in the same format as described above as objects.

4 is an explanatory diagram for explaining a method for managing data by the information terminal according to the present invention.

First, in order to help understand the description of the data management method, the data management method of the conventional information terminal and the data management method of the information terminal according to the present invention will be described.

The data management method of the conventional information terminal stores a measurement data in an unstructured memory and transmits the measurement data when a call to transmit the measurement data is received from the control server.

On the other hand, in the data management method of the information terminal 100 according to the present invention, the measurement data is defined as various data types (eg, int, float, char, variable string, datetime, etc.), and then applied to the embedded database 120 for data. Independence between structure and program is maintained, and data stability is improved by providing transaction function, and automatic data recovery is possible due to abnormal termination (for example, abnormal termination due to change of information terminal or surrounding environment), and data loss or bug can be eliminated. Make sure

Hereinafter will be described in detail with reference to the accompanying drawings the operation of the water supply block monitoring system according to the present invention as described above.

FIG. 5 is a flowchart illustrating a process of remotely and automatically operating an information terminal by a control server according to an exemplary embodiment of the present invention.

Hereinafter, the information terminal 100 of the present invention objectizes all configuration information, measurement information, state, and control information of the block system of the water supply network, and registers all the object information with the control server 200 to perform the synchronized process. The explanation will be made on the assumption.

First, when the information terminal 100 is connected to the control server 200, and transmits and receives data with each other (step S100).

In this case, the database 120 of the information terminal 100 or the database 220 of the control server 200 may be changed. In this embodiment, the data of the control server 200 is changed as an example.

The control server 200 may register or modify a separate device of the water supply network block system. In this case, when a new device is registered, the control server 200 stores the input new configuration ID or tag information in the database 220. If the modification is made, the control server finds the corresponding ID or tag information and stores the modified data in the database 220.

On the other hand, the control server 200 monitors whether the database 220 is changed (step S110), and if it is detected that the database has been changed, the control server 200 finds the changed data in the database 220 and the data. The changed data is transmitted to the information terminal 100 so that is synchronized to the database 120 of the information terminal 100 (step S120). That is, the control server 200 and the information terminal 100 is synchronized through this process.

Thereafter, the information terminal 100 analyzes the changed data (for example, a new ID or tag) received from the control server 200, sets a data port, and selects and loads a corresponding protocol, driver, control equation, driving program, and the like. In this case, the system is driven so as to immediately interact with the configured device (step S140).

In other words, simply register the configuration in the control server 200 will be remotely Plug and Play (PnP (Plug and Play) of the site no setting operation).

6 is a flowchart illustrating a process of synchronizing data between the information terminal and the control server according to the present invention.

Hereinafter, the information terminal 100 of the present invention objectizes all the configuration information, measurement information, state and control information of the block system of the water supply network, and the operation of synchronizing all the object information to the control server 200 has been preceded by It will be explained under the assumption. In the following description, the database 120 of the information terminal 100 is changed as an example.

First, when the power of the information terminal 100 is turned on (step S200), the information terminal 100 determines whether a synchronization signal for synchronizing from the control server 200 has been received. If no special synchronization signal is input from the control server 200, the information terminal 100 operates according to a preset mode.

When the information terminal 100 is in the measurement cycle mode, the information terminal 100 collects measurement data from the measuring instrument according to a period set by the user (step S210), and when the measurement data is collected, the collected data is stored in an embedded database ( 120) (step S220).

The information terminal 100 monitors whether the database 120 is changed, and if it is detected that the information has been changed, finds the changed data and updates the changed data so that the contents thereof are synchronized with the database 220 of the control server 200. It transmits to the control server 200 (step S250). That is, the control server 200 and the information terminal 100 is synchronized through this process.

Then, the information terminal 100 and the control server 200 determines whether the synchronization of the respective databases (120,220) is made (step S270), and the determination result of the information terminal 100 and the control server 200 is the respective database If the synchronization is made to coincide with 120 and 220, data flags are marked for each database (step S280).

On the other hand, the block system information of the water supply network requires high reliability information in real time in leak point measurement, night minimum flow rate measurement for improving the flow rate, and when the present invention as described above is applied to the block system of the water supply network, changed data By only sending data, high-speed data updates are possible, making it very easy to use.

In addition, in the present invention, the database and the program has the advantage that there is no problem in use even if the platform of the information terminal is changed. In addition, when using TCP / IP wireless Internet of international standard wireless communication network such as CDMA, GSM / GPRS, WCDMA, Wibro (WIMAX), LTE, Wifi as the communication protocol with the control server, the special driver is not required. have.

The present invention has been shown and described with respect to specific preferred embodiments thereof. However, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the technical spirit of the present invention by those skilled in the art. For example, the present invention is a sewer pipe monitoring system, water quality monitoring system, river monitoring system, marine and meteorological observation system, flood warning system, various environmental monitoring facilities, infrastructure monitoring management system, such as bridge tunnel road, sensor network (SN), It can be applied to various applications such as Telemetering / Telecontrol (TM / TC) system and Supervisory Control & Data Acquisition (SCADA) system. Accordingly, the scope of the present invention should be construed as being determined not by the specific embodiments but by the appended claims.

100: information terminal 110: synchronization unit
120: Database 125: File / Configuration
130: meter interface unit 140: control device interface unit
150: measuring instrument 160: controller
200: control server 210: synchronization unit
220: database 225: file / configuration

Claims (8)

A water supply network that includes measurement information received from a plurality of instruments installed in the water supply network block, an information terminal for transmitting the measurement information to the control server, and a control server for diagnosing the state of the water supply network using the measurement information received from the information terminal. In the block information computerization system of,
The information terminal objectizes the component information, the measurement information, the state information, and the control information of the water supply network block, generates object information, and stores the object information in an embedded database, and the object information of the water supply network block for synchronization with the control server. To the control server, and if the component information, measurement information or status information or control information stored in the database of the information terminal is changed and the change data occurs, only the changed data is extracted and the extracted data is transmitted to the control server. Process to synchronize the database of the information terminal and the database of the control server, and if the change data is received from the control server, reflect the change data in the database to process the database of the information terminal and the database of the control server to be synchronized,
When the control server receives the object information of the waterworks network block from the information terminal, the control server applies the object information according to the configuration of the database in the control server, and processes the database of the control server to be synchronized with the database of the information terminal. Characterized in that,
The component information may include an interface port of an information terminal, a type of a device connected to the interface port, a setting item for each model, a matching protocol, a driver, a control expression, a program module which creates a driving process, and library information. Block information computerization system of water supply network.
delete delete The method of claim 1,
The information terminal objectizes the component information of the water supply network block, the interface port of the information terminal and the type of device connected to the interface port, setting items for each model, matching protocols, drivers, control equations, and a driving process Comprising a program module, a library consisting of each object (object) to generate object information, and the block information computerized system of the water supply network, characterized in that to give the object an ID or tag (Tag) to distinguish the object.
The method of claim 4, wherein
The control server may register a new component or modify the component information in the waterworks network block,
When the control server registers a new component in the waterworks network block, the new configuration ID or tag information is stored in the database of the control server, and the control server extracts the changed data and transmits it to the information terminal.
The information terminal stores the changed data in the embedded database of the information terminal, and at the time when the changed data is stored in the embedded database, the protocol, driver, control expression, and driving program corresponding to the new configuration ID or tag. A computer system for block information of a water supply network, characterized in that for selecting and loading the device and the selected port to be interconnected and driven to enable remote automatic configuration management.
The method of claim 1,
In order to synchronize only the changed data between the information terminal and the control server database,
Data can be transmitted over CDMA or GSM / GPRS or WCDMA or Wibro (WIMAX) or LTE or Wifi networks to allow remote integration of multiple heterogeneous devices without specific protocols or multiple communication drivers. Block information computerized system of water supply network, characterized in that the.
(A) generating, by the information terminal, object information of the component information, measurement information, state information, and control information of the waterworks pipe network block, and storing the object information in an embedded database;
(B) transmitting, by the information terminal, object information of the waterworks network block of step (A) to the control server so that the database of the information terminal and the database of the control server are synchronized;
(C) the control server registering the object information of the waterworks network block received in the step (B) in a database; And
And (D) processing the data to be synchronized by transmitting the changed data to the counterpart database when a change of data stored in the database of the information terminal or the control server occurs.
Step (A) is
Each object consists of the interface port of the information terminal, the type of device connected to the interface port, the setting items for each model, the matching protocol, the driver, the control expression, and the program module and library that created the driving process. Generate object information, and give an ID or a tag to the object to distinguish the object,
The component information may include an interface port of an information terminal, a type of a device connected to the interface port, a setting item for each model, a matching protocol, a driver, a control expression, a program module which creates a driving process, and library information. Information acquisition method of block information computerization system of water supply network.
delete

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