KR101663504B1 - Method and system for providing integrated managing service based smart water grid - Google Patents

Abstract

The present invention relates to a method for providing an integrated operating service based on a Smart Water Grid (SWG), comprising the steps of interworking with drainage management control servers located in drainage areas in the SWG- Managing the objects provided by the drainage management control server for each drainage area, collecting state information for each drainage management device from the drainage management control server for each drainage area when the integrated operation service mode is executed, Converting the information into data based on a predetermined standard platform policy using a standard protocol interface, and displaying and linking the status information obtained through the drainage management control server for each drainage area, Login requested by user input to operational service server A step of calling the registered login information at the time of initial access to the integrated operation service server based on the requested login information, and determining whether the login is approved according to whether the login information is matched, .

Description

METHOD AND SYSTEM FOR PROVIDING INTEGRATED MANAGING SERVICE BASED SMART WATER GRID BACKGROUND OF THE INVENTION [0001]

The present invention relates to an integrated framework-related integrated operation for economically operating a water supply in a Smart Water Grid (SWG).

Current water resource management system is very difficult to secure reliability due to lack of real-time water resources data, and it is very vulnerable to the establishment of integrated system and program through water information infrastructure and information communication technology such as lack of water disaster forecasting system.

In addition, the management system and development system of water information and communication are not standardized, and it is difficult to integrate programs and integrate data due to development in various companies, and efforts are not made for efficiency of water management system. In order to overcome these problems, Smart Water Grid in terms of water resources is able to efficiently manage water by utilizing multiple water resources through next generation water management system and infrastructure that can overcome the limit of existing water resource management system Water management technology that can cope with rapid change of water resources environment and rapid change of global water industry and water technology paradigm. Through the innovation and intelligence of water management technology through fusion technology of water and information technology, The need for reliable water supply and information management is becoming important.

In addition, recently, the paradigm of water resource management and change of information communication technology have been demanding efficient and intelligent water management using bi-directional communications. We have proposed a solution through a multidimensional approach using stable water resources, including communication technology, maintenance technology, and modeling technology.

 In particular, to improve the efficiency by using advanced information and communication technology and to collect the various element technologies to form a single system, it is necessary to integrate system development technology and standardize water information Technology is necessary. The technology related to integrated operation management system based on information and communication technology has been found to have the greatest gap with the advanced technology due to lack of domestic application performance or lack of element technology. However, It was investigated that there is almost equal or slight technological gap. The ability to do this is due to the lack of water related integrated platform and data standardization and management, which is important for advanced integrated management technology and water information and water efficiency enhancement. The integrated operating system used in the Smart Water Grid not only ends with the construction, but also provides ease of maintenance for continual verification and optimization, ensuring sustainability of operations, and adapting to global trends for system commercialization through consistent software. There is a problem that programs for various purposes must be maintained on a single platform.

Accordingly, the present invention proposes modules of various programs, which are developed in order to build an integrated intelligent water management integrated operating system applicable to a smart water grid, as a framework using a combination of components, Platform) to provide a system development environment and implementation plan.

According to an aspect of the present invention, there is provided a method for providing an integrated operating service based on a Smart Water Grid (SWG), comprising the steps of: managing a plurality of SWG- Managing the objects provided by the drainage management control server according to each drainage area and collecting state information for each drainage management device from the drainage management control server for each drainage area when the integrated operation service mode is executed; Converting the state information for each drainage management apparatus into data based on a predetermined standard platform policy using a standard protocol interface and displaying the state information obtained through the drainage management control server for each drainage region in association with each other; User input to an Integrated Operations Services server configured in a specific domain When a login request is made, the login information registered at the time of initial access to the integrated operation service server is called based on the requested login information, and the approval or disapproval of the corresponding login is determined according to the match, .

According to another aspect of the present invention, there is provided a Smart Water Grid (SWG) integrated operating service providing system, comprising: a plurality of drainage management control servers located according to drainage zones in the SWG-based network for managing energy used in the SWG; An integrated operation service server for managing objects provided by the drainage management control server for each drainage area in cooperation with the integrated operation service server, And an integrated operation database (DB) for storing the data in the separate table, and a drainage management device linked to the water management operation index for each drainage area included in the control list according to a control signal applied from the integrated operation service server And a drainage management control server.

The present invention can provide an integrated framework capable of integrally managing various types of protocols for each drain region converted to a standard protocol on a single platform, and can also provide a multi- In addition to reducing the cost of system construction for automation by controlling control devices effectively and automatically controlling volleyball management devices, it is possible to integrate data viewpoints and software-based linkage among multiple programs for efficient management of water resources It is effective.

FIG. 1 is an overall flowchart of a method for providing an integrated operating service based on an SWG according to an embodiment of the present invention.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method and apparatus for providing an integrated operating service based on an SWG, and more particularly,
3 is a schematic diagram illustrating a flow of operation in a system to which an integrated operation service providing method based on Smart Water Grid is applied according to an embodiment of the present invention.
4 is a diagram illustrating a core-platform configuration by a method for providing an integrated operating service based on a smart water grid according to an embodiment of the present invention;
FIG. 5 is a diagram illustrating a core-platform detail and a common component configuration according to an embodiment of a smart water grid-based integrated operation service providing method according to an embodiment of the present invention; FIG.
6 is a view illustrating a login screen for entering a main screen of an integrated operating system to which an integrated operating service providing method based on a smart water grid according to an embodiment of the present invention is applied;
7 a), b) and c) are diagrams illustrating screens provided in an integrated operating system to which an integrated operating service providing method based on Smart Water Grid according to an embodiment of the present invention is applied.
FIG. 8 is a detailed block diagram illustrating the configuration of an integrated operation service server in a smart water grid integrated operation service providing system according to an embodiment of the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be appreciated that those skilled in the art will readily observe that certain changes in form and detail may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims. To those of ordinary skill in the art.

The present invention relates to an integrated operating system related to an integrated framework for economically operating a water supply in a Smart Water Grid (SWG), and more particularly, to an intelligent water management integrated operating system applicable to an SWG The SWG-based network is designed to be used as a core platform by presenting a variety of program modules that are being developed for a single framework using a combination of components. Managing the objects provided by the drainage management control server for each drainage area in cooperation with the control servers, collecting status information for each drainage management device from the drainage management control server for each drainage zone, platform) policy to generate data It is possible to provide an integrated framework capable of integrally managing various types of protocols for each drain region converted to a standard protocol on one platform by displaying and displaying status information obtained through the drainage management control server for each drainage region, , It is possible to effectively control drainage management equipment per drainage area and to control the drainage management equipment automatically to reduce system construction cost for automation, We want to provide a technology that can support the integration of data perspective and software viewpoints between programs.

Hereinafter, a method for providing an integrated operating service based on an SWG according to an embodiment of the present invention will be described with reference to FIG.

1 is an overall flowchart of a method for providing an integrated operating service based on an SWG according to an embodiment of the present invention.

Referring to FIG. 1, in operation 110, a mode of an integrated operating service server is switched to an integrated operating service mode, and a corresponding mode is executed.

At this time, the integrated operation service server manages the objects provided by the drainage management control server for each drainage area in cooperation with the drainage management control servers positioned for each drainage area in the SWG-based network, for managing the energy used in the SWG And controls the overall operation of the present invention described below.

The integrated operation service server supports an adaptive platform for the object provided in the corresponding platform environment for each drainage management device to process the object.

Here, the object is state information corresponding to a predetermined monitoring item for each drain management device configured based on a standard or user-defined protocol serviced through an open API.

In step 112, status information for each drainage management device is collected from the drainage management control server for each drainage area under the integrated operation service mode.

The drainage management control server manages a plurality of drainage management devices grouped by drainage zones, which are at least one in the SWG-based network to which the present invention is applied, by paging one by one for each group. Therefore, the number of drainage management apparatuses managed by the drainage control server differs according to the drainage area size or the drainage facility installed in the area.

The status information is data processed through modules provided for each program operated in the integrated operation service server. The status information is related to each drain management device type (e.g., multiple water source measurement status, real-time water usage measurement status, State, water resource abundance estimation state, water resource abundance estimation state, multiple water source selection water intake, etc.), which includes data measured under a module basis provided for each sensor or program for each sensor network-based drainage management device.

In step 114, the collected status information of each drainage management device is converted into data based on a predetermined standard platform policy using a standard protocol interface.

In operation 114, the integrated service operating server processes state information for each drainage management apparatus, which is converted into data based on the predetermined standard platform policy, for each of a plurality of programs operated by the integrated operation service server, And transmits it to an integrated operation database (DB) interlocked with the operation service server, and stores the same in a table classified by programs in the integrated operation DB to facilitate monitoring. In addition, (columm) to search for nulls, and to identify the program that caused the error through the retrieved nulls.

The protocol that is implemented separately for each drainage area or drainage control server or drainage management device is converted into data according to the protocol stored in the protocol editor using the standard protocol interface and synchronized.

At this time, the protocol editor can perform functions such as data collection, storage, transmission, environment setting, remote command execution, and the like. That is, the monitored sensor or measurement data received from each drainage management device per drainage area can be converted into a standard protocol and collected in real time, and transmitted to a plurality of higher service servers in the network based on the collected data.

In step 116, status information obtained through the drainage management control server for each drainage area is linked and displayed on a screen page provided by the integrated operation service server.

Meanwhile, in the integrated operation service mode executed in the integrated operation service server to which the present invention is applied, the collected state information of each drainage management device is classified into corresponding programs, and a lookup table for the state information of each classified program is generated, Monitor status information.

At this time, the look-up table is a table matched by calculating a suitable drainage condition range according to the drainage status information and the weather information collected through a sensor installed at a predetermined location for each drainage area and at a predetermined location for each drainage area, , It is possible to provide an appropriate condition range for each drain area in a look-up table provided beforehand in the initial operation of the integrated operation service server, and various modifications may be made without departing from the scope of the present invention.

A method of providing an integrated operating service based on an SWG to which the present invention is applied will be described in detail with reference to FIGS. 2 to 4 on the basis of the flowchart of FIG.

FIG. 2 is a diagram illustrating an example of data processed in an integrated operation service server in a SWG-based integrated operating service providing method according to an embodiment of the present invention.

As shown in FIG. 2, the integrated operating program processed by the integrated operating service server 210 to which the present invention is applied is a program for integrally managing an execution state, a server state, and a user of a program constituting the SWG package. And the data corrected through the program is transmitted to the integrated operation service server 210.

Real-time water usage is measured in the water meter installed in the customer, and the measured data is stored in the integrated operation service server 210 after the quality of the measurement data is managed through the program. The water quality and the water pressure are measured in the main piping of the waterworks, and the measured values are transmitted to the integrated operation service server 210.

The eight programs 216 are executed by utilizing the data of the integrated operating service server 210 as input values and the result values of the programs are transmitted to the integrated operating service server 210 and the integrated operating service server 210 (Not shown) and stored in the corresponding table.

At this time, in the integrated service DB, all the data is transmitted to the integrated operation service server 210 on an hourly basis and stored in a column of the corresponding table.

The integrated operation program 212 monitors the integrated operation service server 210, and data is transmitted to the corresponding column in the time domain and data is not transmitted to the corresponding column. The corresponding column is set to a null value, It is possible to recognize whether or not a failure has occurred in the corresponding program (module).

Through this, the integrated operating program 212 can check the normal operating state of each program in real time, and when the failure occurs, the alarm is displayed to notify the operator. Accordingly, the operator can directly re-execute the remote and internal programs that have failed through the integrated operation program 212 or control the service behavior according to the analysis result after the cause analysis. The power of the remote terminal or the internal terminal is checked, and if the power is not supplied, the integrated operating system controls the system to be automatically re-executed.

3 is a block diagram schematically illustrating a flow of operation in a system to which a method for providing an integrated operating service based on a smart water grid according to an embodiment of the present invention is applied. Referring to FIG. 3, The grid integrated operation system includes a water treatment combination program 314 based on a Core-Platform 310 composed of GIS, Protocol, DB management, Chart, Excel, and Model as shown for building an intelligent water management package, SWG integration so that the program / selection intake program 316, the business support program 318, the water shortage evaluation program 320, the multiple water source available amount calculation program 322, and the AMI network program 324 can be integrated or linked with each other DB 312, and provides a component expressing the use of a DB or defining an interface standard for smooth data association with the SWG integration DB 312.

 It is possible to integrate all programs composed of these packages into the smart water grid integrated operating system in real time, monitoring and alarming the execution status of each program, the server status and the user status.

4 illustrates a core-platform configuration according to an embodiment of the present invention; FIG. 4 illustrates a core-platform configuration according to a method for providing an integrated operating service based on a smart water grid according to an exemplary embodiment of the present invention. And the program 414 developed on the basis of the integrated operation service server is developed on the basis of a platform including a framework as shown in FIG. 4. The configuration of the platform 416 SWG library (library 420) and SWG components (components 418), we used the component-based development method based on the Component-Base Development (CBD) method. The Marmi Ⅲ development methodology is a methodology developed in accordance with the project process. It implements component-based object-oriented technology, minimizes the maintenance cost of the system, and can implement a high-quality information system. The system is constructed by assembling method, and it is suitable for the development purpose of the program to which the present invention is applied by supporting component unit development, assembly, and maintenance. The Core-Platform is based on a modeling framework that provides a set of collaborative forms to reuse the design and implementation that correspond to specific parts of the software. This enables the core-platform to perform functions such as modularization, reusability, and extensibility It enhances the quality, performance, reliability and interoperability of software, eliminates the redundancy of each program development, adopts a software technique that can integrate operation management, and integrates a common reusable library in each program. And the framework was constructed. 5 illustrates a core-platform detailed and common component configuration table according to a smart water grid-based integrated service providing method according to an exemplary embodiment of the present invention. A GIS includes a map and a layer You can use Open Source to configure common components, and the database can manage the database by using Oracle 10g to develop data management and WaterML components. Communication is mainly used in AMI network management program, and we have developed a network management component such as TCP, WCDMA, and a component capable of protocol management such as Modbus and SWG protocol. Security has been developed to enable encryption and decryption components, and management components to manage programs and processes. UI developed Time Series, Spread Sheet, Chart & Graph component of tool type for all programs.

In order to operate all the programs developed on the core platform in the SWG to which the present invention is applied as one program, they are linked through the input and output data in the respective programs. This data will lead to an integrated operating system along the scenarios for efficient water management. The data production and storage in the Smart Water Grid will be built into the integrated data starting from the multiple water source water level measurement. Real time measurement of multiple water source and water usage of customer are measured in real time and stored in data. This data is used as input data of water shortage risk evaluation program and data is stored again by calculating the amount of multiple water sources. The available water quantity calculation program is used to determine the number of multiple water sources available at the present time by grasping the availability of multiple water sources, and makes it possible to select the optimum water intake for the water treatment combination process. Water treatment The water treatment through the combination process has been implemented to distribute and supply the water through the water loop.

-normally

The integrated operation program monitors the execution status of 8 programs and the integrated DB, and monitors the execution status of the program based on the DB. Thus, the operation status can be known by generating input values and result values of each program.

The results of the multi-source real-time measurement program and the AMI network program are used as input data of the water shortage risk evaluation program. The amount of water source is used as input data in the available quantity calculation program. With this flow, the water loop distribution / supply program provides the SWG optimum water supply.

One program and integrated DB have no direct effect on the production of data, and the input / output of SWG program is usually stored and operated as business support program.

- Emergency

The program of the SWG to which the present invention is applied exchanges data with each other, the program is driven, and the programs can be interconnected. When one of the programs stops, a situation occurs in which all the linked programs after the stopped program are stopped.

The execution of the program is determined based on the integrated DB.

If the corresponding time of the integrated database and corresponding data are not stored, it is judged that a problem in the program has occurred, and the integrated operation program causes a red warning to the program. The program after the problematic program stops execution because there is no input value of the program.

In case of a problematic program, quick recovery is also important, but there is a part of the operator's decision that needs to be decided.

When I clicked on the notification, I made two selections to cope with the situation. The integrated operation center is designed to allow a worker to redo the program directly or to inform the program manager so that the operator can re-run the program from a real-installed location to run a stable program. The scope of the replay is the program, computer and server power.

Referring to FIG. 7, in order to operate each program constructed in the SWG as one program, the data is input and output from the real-time measurement of the multiple water sources to the water loop distribution and supply as described above .

The integrated operating system main screen is configured as shown in FIG. 7 a for integrated management of such information, and the execution state, the server state, and the user status of each program constituting the SWG package are displayed in real time Surveillance and alarm.

7A, the screen display of the integrated operating system to which the present invention is applied has a plurality of divided areas, an item list in which corresponding items are formed in each of the divided areas, By executing a preset menu for the first position within the area or the position continuous from the first position.

At this time, the item includes multiple water source real-time measurement 70, AMI network 71, integrated operation 72, SWG integration DB 73, water shortage risk evaluation 74, 75), the oil water loop distribution / supply 76, the water loop distribution / supply 76, and the selection water 78 are displayed using a circle or a polygon.

When the item is activated through user interrupts, the monitoring status of each relevant SWG program, that is, the preset menu is displayed in the form of a pop-up window 80 or 82 or a predetermined window type 80 or 82, 72, 73, 74, 75, 76, 77, 78, and 79 are interlocked with each other through arrows to display SWG program monitoring status on the screen page marked on the start bar 85.

The screen shown in FIG. 7B is an example of program abnormality on the program execution screen, which is displayed in a program in which a problem has occurred, and when a situation occurs, the situation is transmitted to an operator in charge via SMS or E-mail.

The monitoring of the execution state of each program through the screen shown in FIG. 7B is performed by auditing the corresponding DB table based on the data base of the server, and the data measured in the multiple water source and the drainage and the program input / output data It is monitored every hour to determine whether the program is abnormal.

FIG. 7C shows a screen showing an error relating to communication and data. It is determined as a program error when the corresponding data is not produced by the hourly monitoring of the DB table. When the communication is not transmitted or received or the network is disconnected, The program operation manager can be re-executed or the integrated operation center situation room operator can re-execute and recover.

Meanwhile, FIG. 6 is an example of a login screen for entering a main screen of an integrated operating system to which an integrated operating service providing method based on Smart Water Grid according to an embodiment of the present invention is applied.

When a log-in by user input is requested to an integrated operation service server configured in a specific domain, the log-in information registered at the initial access to the integrated operation service server is called based on the requested log-in information, And provides status information for each drainage area.

When determining whether or not to approve the requested login information, the service usage right of the integrated operation service server is adaptively differently applied to the integrated operation service server system resources according to the predetermined permission level for each login information, .

Since the administrator of the system is a public authority in charge of Smart Water Grid, the person in charge of the system will use the newly registered function to provide the name and password. This is to allow only authenticated users access, and password search function can be used when password is lost.

Hereinabove, a method of providing a smart water grid integrated operation service according to an embodiment of the present invention has been described.

Hereinafter, a configuration of a smart water grid integrated operation service providing system according to an embodiment of the present invention will be described with reference to FIG.

Prior to description of FIG. 8, the system of the present invention includes an integrated operation service server, an integrated database (DB), a drainage management control server, and a drainage management device.

The integrated operating service server manages the objects provided by the drainage management control server for each drainage area in cooperation with the drainage management control servers located for each drainage area in the SWG-based network in order to manage the energy used in the SWG.

The integrated operating database (DB) stores a plurality of program-specific processing data linked to the integrated operating service server and operated under the control of the integrated operating service server, in a table for each program.

The drainage management control server operates a drainage management device linked to each drainage area management index according to a control signal applied from the integrated operation service server.

FIG. 8 is a detailed block diagram illustrating the configuration of an integrated operation service server in a smart water grid integrated operation service providing system according to an embodiment of the present invention.

8, the integrated operation service server to which the present invention is applied includes a mode execution unit 810, a collection unit 812, a data conversion unit 814, a control unit 816, a display unit 818, a monitoring unit 820, An approval unit 822, and an object processing unit 824. [

The control unit 816 controls the overall operation of the integrated operation service server. When the integrated operation service mode is executed through the mode execution unit 810, the control unit 816 collects state information for each drainage management device from each drainage management control server for each drainage area. (812), and converts the collected status information for each drainage management device into data based on a predetermined standard platform policy using a standard protocol interface through the data conversion unit 814, The state information obtained through the regional drainage management control server is linked and controlled to be displayed through the display unit 818 to serve the state information for each drainage area.

At this time, the state information of each drainage management device converted into data based on the predetermined standard platform policy is processed for each of a plurality of programs operated by the integrated operation service server, and the processed result data is processed by integrated operation Are transferred to a database (database, DB) and stored in a table classified by program.

Thereafter, the controller 816 monitors a column of a program-specific table in the integrated operation DB by a predetermined period to search for a null, and identifies a program in which an error has occurred through the null.

The approval unit 822 receives the login information registered at the time of initial access to the integrated operation service server 800 based on the login information requested from the login screen page provided through the display unit 818 under the control of the controller 816, And outputs whether or not the log-in is approved according to whether or not they match.

The object processing unit 824 supports an adaptive platform for the object provided in the corresponding platform environment for each drainage management device under the control of the control unit 820 to process the object.

The monitoring unit 820 classifies the state information of each drainage management device collected in the integrated operation service mode under the control of the controller 816 for each corresponding program, generates a lookup table for the classified state information of each program, Monitor status information.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And can be carried out without leaving. Accordingly, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by equivalents of the claims and the claims.

810: Mode execution unit 812:
814: Data conversion unit 816:
818: Display section 820: Monitoring section
822: approval section 824: object processing section

Claims (15)

A method for providing an integrated operational service based on a Smart Water Grid (SWG)
The integrated operation service server manages the objects provided by the drainage management control server for each drainage area in cooperation with the drainage management control servers located for each drainage area in the SWG-based network to manage the energy used in the SWG, Collecting status information for each drainage management device from the drainage management control server for each drainage zone when the service mode is executed;
The integrated operation service server converts the collected state information of each drainage management device into data based on a predetermined standard platform policy by using a standard protocol interface and transmits the state information obtained through the drainage management control server for each drainage area In association with each other,
When the integrated operation service server is requested to log in by the user input to the integrated operation service server configured in a specific domain, the integrated operation service server calls the registered login information at the initial access to the integrated operation service server based on the requested login information, Determining whether to approve the login, and providing status information for each drainage area.
The integrated operating service server,
And processing the object by supporting an adaptive platform for the object provided in the corresponding platform environment for each drainage management device,
The object may include:
The status information corresponding to a predetermined monitoring item for each drainage management device configured based on a standard or a user-defined protocol serviced through an open API,
The state information is data processed through modules provided for each program operated in the integrated operation service server, and includes a multi-water source measurement state, a real-time water usage measurement state, a water quality / water pressure monitoring state, a water resource availability estimation state, And the related status of each type of drainage management device. delete delete The method according to claim 1,
Further comprising the steps of: classifying the state information of each drainage management device collected in the integrated operation service mode for each corresponding program, generating a lookup table for the state information of each classified program, and monitoring the corresponding state information; A method for providing integrated operation service based on smart water grid. 2. The method according to claim 1, wherein the status information for each drainage management device converted into data based on the predetermined standard platform policy is processed for each of a plurality of programs operated by the integrated operation service server, Wherein the integrated operation service database is stored in a table classified by program and transmitted to an integrated operation database. 6. The system according to claim 5,
Wherein the monitoring unit monitors a column of a program-specific table in the integrated operating DB for each predetermined period to search for a null, and confirms a program in which an error occurred through the retrieved null. Service delivery method. 5. The apparatus of claim 4, wherein the look-
Wherein the predetermined drainage control condition range is calculated and matched according to drainage state information and weather information collected through a sensor installed at a predetermined site for each drainage area and at a predetermined location for each drainage area and sensing a drainage state, A Grid-based Integrated Operation Service Providing Method. The method according to claim 1, wherein when determining whether to approve the requested login information,
Wherein the access control rule for the integrated operation service server system resource is set by adaptively applying the service utilization right of the integrated operation service server according to the predetermined permission level for each login information, Delivery method. The method as claimed in claim 1,
Displaying a list of items in which a corresponding item is formed in each of the divided areas, and executing a predetermined menu for each position in succession from a first position in the divided area or from the first position A smart water grid, and an integrated service. 10. The method of claim 9,
It can be applied to various water resources such as real time measurement, AMI network, integrated operation, SWG integration DB, water shortage risk assessment, available water quantity distribution, water tank water loop distribution / supply, And displaying the integrated operation service based on the smart water grid. 11. The method of claim 10,
When activated by user interrupt, monitoring status of related SWG program is displayed in the form of pop-up window or pre-set window, and each item is linked with each position by arrow and SWG program monitoring status is displayed on the screen page marked on the start bar A method for providing integrated operation service based on smart water grid. A Smart Water Grid (SWG) integrated operating service providing system,
An integrated operation service server for managing objects provided by the drainage management control server for each drainage area in cooperation with drainage management control servers located in drainage zones in the SWG-based network to manage energy used in the SWG,
And an integrated operation database (DB) interlocked with the integrated operation service server and storing a plurality of program-specific process data operated under the control of the integrated operation service server in a table for each program,
The integrated operating service server collects state information for each drainage management device from the drainage management control server for each drainage area when the integrated operation service mode is executed,
The integrated operation service server converts the collected state information of each drainage management device into data based on a predetermined standard platform policy by using a standard protocol interface and transmits the state information obtained through the drainage management control server for each drainage area Respectively,
The integrated operating service server,
And processing the object by supporting an adaptive platform for the object provided in the corresponding platform environment for each drainage management device,
The object may include:
The status information corresponding to a predetermined monitoring item for each drainage management device configured based on a standard or a user-defined protocol serviced through an open API,
The state information is data processed through modules provided for each program operated in the integrated operation service server, and includes a multi-water source measurement state, a real-time water usage measurement state, a water quality / water pressure monitoring state, a water resource availability estimation state, A smart water grid-based integrated operation service providing system including a state related to each type of drainage management equipment. 13. The system of claim 12,
When the integrated operation service mode is executed, the state information of each drainage management apparatus is collected from the drainage management control server for each drainage region through the collection unit, and the collected state information of each drainage management apparatus is converted into a standard The data is converted into data based on a predetermined standard platform policy using a protocol interface, and the state information obtained through the drainage management control server for each drainage area is linked and controlled to be displayed through the display unit, A control unit for servicing the area-specific state information,
The control unit calls the registered login information at the time of initial access to the integrated operation service server based on the login information requested from the login screen page provided through the display unit and outputs whether or not the login is approved according to the match The approval section,
An object processing unit that supports an adaptive platform for an object provided in a corresponding platform environment for each drainage management device under the control of the control unit,
And a monitoring unit for classifying status information for each drainage management device collected in the integrated operation service mode under the control of the control unit, for each corresponding program, and for generating a lookup table for the status information for each program and monitoring the status information Which is a smart water grid based integrated operating service providing system. 14. The method according to claim 13, wherein the state information for each drainage management device, which is converted into data based on the predetermined standard platform policy,
And the resultant data processed and processed for each of a plurality of programs operated by the integrated operation service server is transmitted to an integrated operation database (DB) interlocked with the integrated operation service server and stored in a table classified according to the program. Grid - based integrated operation service delivery system. 13. The system of claim 12,
Wherein the monitoring unit monitors a column of a program-specific table in the integrated operating DB for each predetermined period to search for a null, and confirms a program in which an error occurred through the retrieved null. Service delivery system.

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