KR20140087117A - Remote monitoring system and method based on a smart collaboration - Google Patents

Abstract

A smart collaboration based remote monitoring system and method for interorganizational access to sensor data collected through a centralized integrated control system is disclosed. The smart collaboration based remote monitoring system includes an event collecting unit, an administrator calling unit, a collaboration unit, a collaboration performing unit, a decision making unit, a collaboration reporting unit, and a storage unit. The event collecting unit collects event information of each of the management systems. When the event information is generated, the manager call unit calls the manager corresponding to the generated event. The collaboration component configures a user interface (UI) screen of the generated event management system, groups the event manager and the participant manager, and activates the generated event and the shared event process. The collaborative execution department analyzes the occurrence event through the collected data, supports the chat viewer for discussing occurrence event processing and discussion, and activates the occurrence event and the shared event process. The decision-making department (i) operates the voting tool for decision support when an event processing decision is made, creates a decision item, votes the decision maker, decides the decision through voting, And (ii) processes and organizes events without decision-making unless an event-handling decision is made. The collaboration reporting unit reports the event processing result.

Description

[0001] REMOTE MONITORING SYSTEM AND METHOD BASED ON A SMART COLLABORATION [0002]

The present invention relates to a smart collaboration-based remote monitoring system and method thereof, and more particularly, to a smart collaboration-based remote monitoring system and method for inter-organizational approach to sensor data collected in heterogeneous management systems.

Generally, the remote monitoring system collects information such as sensors installed in each management area using technology such as Internet, wireless communication, USN, M2M / IoT, and controls the driving device. Data collected from each management area further implements functions such as statistics, event generation, manager notification, etc. according to management purpose to provide service functions according to the needs of the manager.

Monitoring systems, functional parameter production environments, design and engineering processes as well as energy production and consumption are crucial for the continuous business of monitoring of dispersed assets in each of these managed areas, It provides a foundation for important decision-making processes in

Assets for the execution of individual business models are not only geographically dispersed, and indeed these assets are also distributed to various organizations such as local, OEM, manufacturing sites, suppliers, and service organizations. Therefore, a business model needs to establish an organizational structure network of its own organization, which is often planned towards a common goal called a collaborative network organization.

In addition, individual partners are often involved in many different collaborations with other partners to take advantage of business opportunities. In such scenarios, it is important to support effective and efficient collaboration between individual organizations and members by providing secure access to assets.

Meanwhile, since 2000, many municipalities, government agencies, and propelling organizations have implemented IT-based remote control solution building projects as part of the ubiquitous-U-IT industry revitalization policy. The U-IT industry has been promoted in the form of government R & D projects and technology development. Through many pilot projects and projects, U-IT has achieved stability and technical success.

However, the continuity and compatibility of system operation is not yet fully guaranteed. It is difficult to ensure information sharing and effective collaboration between decision makers of each related organization as factors that interfere with the sustainability of system operation.

Also, there is a problem that data collection and sharing is not gentle, and the systems are not fully compatible with each other.

Korean Patent Laid-Open No. 10-2012-0117213 (Publication date: Oct. 24, 2012, title of the invention: cooperation support system) Korean Patent Laid-Open No. 10-2011-0006015 (published on Jan. 20, 2011, entitled " Collaborative Document Creation Technology Linking Instant Messenger with Wiki) Korean Patent Laid-Open No. 10-2011-0005946 (published on Jan. 20, 2011, entitled " Virtual Collaboration System Utilizing Wiki and Unified Communications) Korean Patent Laid-Open No. 10-2003-0096146 (published on Dec. 24, 2003, entitled " Mobile Collaboration System Using Wireless Internet and Portable Information < RTI ID = 0.0 &

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a system and a method for providing a centralized control system by rendering data such as a sensor signal and a CCTV surveillance image generated from equipment dispersed in heterogeneous management systems, And to provide a smart collaboration-based remote monitoring system and method for inter-organizational access to sensor data collected through the system.

In order to achieve the object of the present invention, a remote collaboration system based on smart collaboration includes an event collecting unit, an administrator calling unit, a collaboration unit, a collaboration performing unit, a decision making unit, a collaboration reporting unit, and a storing unit do. The event collecting unit collects event information of each of the management systems. When the event information is generated, the manager calling unit calls the manager corresponding to the generated event. The collaboration component configures a user interface (UI) screen of the generated event management system, groups the event manager and the participant manager, and activates the generated event and the shared event process. The collaborative execution unit analyzes an occurrence event through the collected data, supports a chat viewer for discussing occurrence event processing and discussion, and activates an occurrence event and a shared event process. (I) When the event processing decision is made, the decision unit generates a decision item by activating a voting tool for decision support, decides a decision through voting by conducting a voting right of the decision maker, Processing and organizing events, and (ii) processing and organizing event occurrences without decision unless an event processing decision is made. The collaboration reporting unit reports the event processing result.

In one embodiment of the present invention, the smart collaboration-based remote monitoring system may further include a storage unit for storing a decision process and data.

In an embodiment of the invention, the collaboration component may provide a collaboration portal. Here, the collaboration portal may include a collaboration data access viewer. The collaborative data access viewer may include a collaboration tool for searching, communicating, and viewing.

In one embodiment of the present invention, the collaboration performing unit may provide a remote monitoring control widget for the control system of the remote monitoring management site to access the actually collected data. Here, the remote monitoring control widget may load data and provide a viewer when the management range of the remote monitoring management site is set in the sensor.

In one embodiment of the invention, the voting tool may provide the ability to raise questions for decision making to collaborative managers who access the same collection data. Here, the question for decision making is made in the form of a multiple choice question within a limited time, and the result can be displayed in the login area of the voting tool.

In order to achieve the object of the present invention, a smart collaboration-based remote monitoring method according to an embodiment includes: collecting event information of each of management systems; When the event information is generated, calling an administrator corresponding to the generated event; Configuring a user interface (UI) screen of the generated event management system, grouping the event manager and the participant manager, and activating an occurrence event and a shared event process; Analyzing an occurrence event through the collected data, supporting a chat viewer for discussing occurrence event processing and discussion, and activating an occurrence event and a shared event process; When an event processing decision is made, a voting tool for decision support is created to create a decision agenda, a voting decision is made to decide a decision through voting, and a process of processing and arranging an occurrence event according to the decision ; If an event processing decision is not made, processing and clearing the event without a decision; And reporting the event processing result.

In one embodiment of the present invention, a smart collaboration based remote monitoring method may further include storing a decision process and data.

In one embodiment of the present invention, in accordance with the occurrence event and the activation of the shared event process, a collaboration portal is provided, and the collaboration portal may include a collaboration data access viewer.

In one embodiment of the present invention, a remote monitoring control widget for the control system of the remote monitoring management site may be provided to access the actual collected data.

In one embodiment of the present invention, the remote monitoring control widget can load data and provide a viewer when the management scope of the remote monitoring management site is set in the sensor.

In one embodiment of the invention, the voting tool may provide the ability to raise questions for decision making to collaborative managers who access the same collection data. Here, the question for decision making is made in the form of a multiple choice question within a limited time, and the result can be displayed in the login area of the voting tool.

According to the smart collaboration based remote monitoring system and the method thereof, sensor data accesses collected through the centralized integrated control system to render data such as sensor signals and CCTV monitoring images generated from devices dispersed in heterogeneous management systems To manage access rights to heterogeneous management systems, and to provide decision-making tools for collaboration.

1 is a block diagram schematically illustrating a smart collaboration based remote monitoring system according to an embodiment of the present invention.
2 is a block diagram schematically illustrating a remote collaboration system based on the smart collaboration shown in FIG.
3 is a flowchart illustrating a smart collaboration-based remote monitoring method according to an exemplary embodiment of the present invention.
4 is an image for schematically explaining a collaborative data access viewer provided according to the present invention.
5 is an image for schematically explaining each configuration example of a representative screen provided according to the present invention.
6 is an image for schematically explaining an example of each browser configuration according to collected data provided according to the present invention.
7 is an image for schematically explaining a CCTV surveillance image data collection screen and a chat support screen for a collaboration manager provided according to the present invention.
8 is an image for schematically explaining a UI screen for CCTV surveillance image control provided according to the present invention.
FIG. 9 is an image for schematically explaining a voting window for decision making and a collaborative management participant list provided according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a part or a combination thereof is described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

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

1 is a block diagram schematically illustrating a smart collaboration based remote monitoring system according to an embodiment of the present invention.

1, the cultural property management system 110, the disaster disaster management system 120, and other management systems 130 and the like are connected to a remote collaboration monitoring system 200 (or a centralized integration control system) Based on the collected data of the remote control system and the selection control system, remote collaboration data is accessed and supported for decision support.

A smart collaboration based remote monitoring system (200) operates a collaborative portal that can integrate each management system and decision making system. The collaboration portal displays remote monitoring information for each management system. In addition, a decision group of the cultural asset management system 110, a decision group of the disaster disaster management system 120, and other decision groups of the management system 130 are displayed in the collaboration portal. Each decision group includes policy managers and decision makers. As such, it is easy to create decision-maker groups for each management system by collaborative portal. Since decisions are made in one collaboration portal, the time required for final decision can be minimized.

According to the present invention, by developing a system for remote collaborative data access and decision making based on collected data of various remote control systems and selection control systems, not only can the effect of the U-IT activation policy be guaranteed, And support for availability.

2 is a block diagram schematically illustrating a remote collaboration system based on the smart collaboration shown in FIG.

2, the smart collaboration-based remote monitoring system 200 includes an event collecting unit 210, an administrator calling unit 220, a collaboration unit 230, a collaboration performing unit 240, a decision unit 250 A collaborative reporting unit 260, and a storage unit 270. The remote monitoring system 200 includes the event collecting unit 210, the manager calling unit 220, the collaboration unit 230, the collaboration performing unit 240, the decision unit 250, the collaboration reporting unit 260, and the storage unit 270. However, the description is logically divided for convenience of explanation, but is not limited to hardware.

The event collecting unit 210 collects event information of each of the management systems. The management systems may include a cultural property management system, a disaster emergency management system, a traffic control management system, and other control management systems. For example, the event information collected from the cultural property management system may be an alarm sound generated from various fire alarm devices disposed around the cultural property.

When the event information is generated, the manager calling unit 220 calls the manager corresponding to the generated event.

The collaboration component 230 configures a user interface (UI) screen of the generated event management system, groups the event manager and the participant manager, and operates the generated event and the shared event process.

The collaboration performing unit 240 analyzes an occurrence event through the collected data, supports a chat viewer for discussing occurrence event processing and discussion, and activates an occurrence event and a shared event process.

When an event processing decision is made, the decision unit 250 activates a voting tool for decision support, creates a decision item, decides a decision through voting, Handles and organizes events. If an event processing decision is not made, the decision unit 250 processes and organizes an event without a decision.

The collaboration reporting unit 260 reports the event processing result to the event manager and the participant manager.

The storage unit 270 stores a decision process and data. That is, the storage unit 270 stores and manages contents of decision-making for collaborative work, so that the storage unit 270 can be utilized as data on event event management.

3 is a flowchart illustrating a smart collaboration-based remote monitoring method according to an exemplary embodiment of the present invention.

2 and 3, the event collecting unit 210 collects event information of each of the management systems (step S100). The management systems may include a cultural property management system, a disaster emergency management system, a traffic control management system, and other control management systems.

The event collecting unit 210 checks whether or not event information has been generated (step S102).

If it is checked in step S102 that the event information is generated, the manager calling unit 220 calls the manager corresponding to the generated event (step S104). In addition, it invokes a collaborative participant corresponding to the event. The manager may include a policy manager and a decision maker. Collaborators can also include policy managers and decision makers.

For example, if the event is a river flood, the manager corresponding to the event includes not only the manager corresponding to the disaster prevention management system but also the manager corresponding to the traffic control management system. At this time, the manager corresponding to the traffic control management system can be called as a collaborative participant. This is because, as floods occur, various warning systems and contrast notices are generated, so that it is necessary to collaborate not only with the manager of a specific management system but also with the manager of the management system associated with the specific management system. The call of the administrator and the collaborating participant may be performed in the portal, or may be performed through the wired or wireless communication device of the registered administrator and the collaborating participant.

Next, the collaboration component 230 configures a UI screen of the event management system (step S106).

Then, the collaboration component 230 groups the event manager and the participant manager (or collaborator participant) (step S108).

Then, the collaboration execution unit 240 activates an occurrence event and a shared event process (step S110).

Then, the collaboration performing unit 240 analyzes an occurrence event through the collected data (step S112).

Then, the collaborative execution unit 240 performs a discussion of occurrence event processing and a discussion operation (step S114). At this time, the collaboration performing unit 240 supports the chat viewer for smoother and more clear decision making. The data on the decision process exchanged through the chat viewer and the result of the decision process can be stored in the storage unit 270 so as to be utilized as data on the event event management.

Then, the collaboration performing unit 240 activates the occurrence event and the shared event process (step S116).

Next, the decision unit 250 checks whether or not an event processing decision is made (step S118).

If it is checked that the event processing decision is made in step S118, the decision unit 250 activates the voting tool for decision support (step S120).

Next, the decision unit 250 creates a decision item (step S122). Decision items created can be displayed in the collaboration tool. The above-mentioned decision agenda may be displayed by extracting previously registered decision agendas according to the event, or may be displayed after the administrator modifies the previously registered decision agendas.

Then, the decision-making unit 250 performs voting for a predetermined period so that the decision-maker exercises the voting right (Step S124). For example, voting can be done on when flood warning will be issued according to the river flood crisis, when the traffic control will be carried out, and where the bypass road will be notified according to traffic control. Through these votes, policy administrators or decision makers of police stations that manage traffic signals, as well as policy administrators and decision makers of disaster management systems, will vote.

Then, the decision unit 250 determines a final decision based on the result of the vote made by the decision maker (step S126). For example, since the river floods after two hours, the local residents are alerted in one hour, the bridge is controlled from the flood after one hour and 30 minutes, and the detour route is notified one hour later. Decide on a doctor.

Then, the decision-making unit 250 processes and organizes the occurrence events according to the decision-making (step S128).

On the other hand, if it is determined that the event processing decision is not made in step S118, the event without decision is processed and arranged (step S130).

Then, the collaboration reporting unit 260 reports to the event manager and the participant manager the processing result of the occurrence event that is processed and sorted in step S128 or the processing result of the decisionless occurrence event processed and sorted in step S130 (Step S132).

Then, the storage unit 270 stores decision-making processes and data, that is, decision-making for collaborations, to be utilized as data on the event management of a future event (step S134).

The existing remote control monitoring system is composed of a UI for collecting and storing data on the management object of the management site and operating the control device of the management site. It also provides additional information services such as data statistics and data management for administrators. That is, the existing monitoring system only collects and controls the data of the management site and the management target, and supports only the event and event handling process expected when the event of the management object is occurred.

However, in the remote monitoring system based on smart collaboration according to the present invention, a user UI corresponding to functions such as a monitoring frame, a decision system frame, and a management system collaboration frame is configured as a frame to support compatibility with an existing monitoring system and additional functions Can be reconfigured as needed.

In addition, in the case of existing monitoring systems and current monitoring systems, many developments for interoperability and time and technical constraints are imposed due to the construction of separate systems.

However, the remote monitoring system based on the smart collaboration according to the present invention is composed of a platform having a frame structure that can be reconfigured on one screen for user and collaboration, and the user UI of the existing monitoring system is configured as one frame, By configuring the viewer, there is no need for many separate operations for compatibility with existing systems.

In addition, the smart collaboration-based remote monitoring system according to the present invention supports a grouping function for a collaboration manager according to a heterogeneous management system, enabling collaboration for each remote management system by group, and when an unexpected event occurs, Support is also available from.

The present invention provides a collaborative portal based on the networking metaphor in which interrelationships and vocabularies belong to the agreed scenarios between co-administrators and the needs of individual structural members among organizations.

Hereinafter, various user interface screens that may be provided according to the present invention will be described.

4 is an image for schematically explaining a collaborative data access viewer provided according to the present invention.

Referring to FIG. 4, manager information is displayed on one side of the screen while brief information on the subordinate devices of the management systems and the management systems, which are remotely monitored, are displayed. Here, the manager information may be manager information currently connected to the collaboration portal. In addition, information provided from a remotely monitored management system, for example, CCTV monitoring information, is displayed on one side of the screen, and a chat window is displayed at the bottom of the screen so that the managers can exchange opinions.

A particular use case covered in the present invention is the management of remote monitoring data for an organization. The user can search for directions to work with a collection of sensor data mapped to individual groups within the organization.

The viewer is composed of various mutual collaboration tools for searching, communication, and viewing. An example of this is shown in Fig.

5 is an image for schematically explaining each configuration example of a representative screen provided according to the present invention.

Referring to FIG. 5, the representative screen displays a region for data management and search, an area for displaying manager and collaborator participants, an area for collecting data and management display window, and a chat window for communication between collaborators. In FIG. 5, an image of the leg observed from afar and an image of the leg observed close to each other are displayed in the area for the collected data and the management display window.

In this way, based on the information displayed on the representative screen, the collaborating participants can exchange opinions with each other while viewing the same collected data and management display window for cooperation. Accordingly, expert groups or administrators can exchange opinions with one another while monitoring the collected data, thereby making more accurate diagnosis.

Depending on the content of the collaboration and the nature of the management monitoring system, configuration collaboration tools may be changed.

6 is an image for schematically explaining an example of each browser configuration according to collected data provided according to the present invention.

Referring to FIG. 6, the on / humidity data, the precipitation change data, the CCTV screen data, and the like can be implemented by a browser. The concept of collaborative tools is based on a data source-driven scoping mechanism for collaboration.

The collected data presentation browser is used to select the current scope, that is, the specific collection data (remote monitoring site) selected by the user. The scope signals all other widgets that have been updated according to the view among the collaborators

The collaborative data repository browser provides a viewer based on an analysis of the available data sources to be determined during the project period. The user can check the structure and contents of the data repository. The user's scope for the entire tool is set by selecting a management site, a smart collaboration-based remote monitoring system, or a sensor node in a viewer that represents either a structural element or an actual data source.

The collaborative components of the collaborative data repository browser are supported for collective data-centric co-awareness. In the browser's viewer, all sensors are annotated by a widget that represents other user activity related to the collected data. In this way, users know where their team members are working and can join them by using other widgets for collaboration.

7 is an image for schematically explaining a CCTV surveillance image data collection screen and a chat support screen for a collaboration manager provided according to the present invention.

Referring to FIG. 7, users can exchange opinions among collaborative managers through a text message in real time by observing collected data through collaborative and decision-making data browsers and supporting collected data-centric chat .

The scope of the collected data for chatting is similar to the concept of chat rooms and chat channels. The chat widget automatically provides a separate chat room for each folder and document.

8 is an image for schematically explaining a UI screen for CCTV surveillance image control provided according to the present invention.

Referring to FIG. 8, a viewer and a control environment for a control system of a remote monitoring management site are provided in order to access data actually collected.

The remote monitoring control widget provides a viewing environment. Once the management area of the management site is set on the sensor, the viewer loads the data collected by the sensor and creates a viewer.

As shown in FIG. 8, as an example of a CCTV voice notification control system, a control screen provided as a viewer includes a current viewer of a connected camera of a selected management site, a basic control UI (for zooming and panning) A text input UI for displaying information on the LED display board, and an audio control UI for transmitting audio information.

FIG. 9 is an image for schematically explaining a voting window for decision making and a collaborative management participant list provided according to the present invention.

Referring to FIG. 9, the voting tool provides the ability to raise a question for decision making to all collaboration managers who access the same collection data. The decision-making questions are made in the form of multiple-choice questions within the time limit, and the results appear in the tool's login area.

According to the present invention, assuming that the access to the sensor and the collected data read is part of the collaboration process within the collaborative network organization, the data collected by the participating organizations or management bodies is important for decision making. The actual decision-making process is a collaborative process involving participation from, and participation from, collaborative network organizations. Each management agency and manager can be distributed globally, and collaboration support can help make their processes more efficient.

In addition, according to the present invention, a collaborative browser for collected data can be implemented in combination with basic collaboration tools such as chat and decision-making tools that support identification of collaboration opportunities and provide common cognitive capabilities for users.

In addition, according to the present invention, it is possible to share not only the semantic (semantic) access authority control for functions to be supported but also other instances (instances) of the system in distributed places and organizations, Can be implemented.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. You will understand.

As described above, according to the present invention, a collaboration tool for accessing sensor data collected through a centralized integration control system to render data such as sensor signals and CCTV monitoring images generated from equipments distributed in heterogeneous management systems To manage access rights to heterogeneous management systems, and to provide decision-making tools for collaboration.

Further, according to the present invention, it is possible to support linkage and functions with various monitoring systems. For example, by linking cultural property management system and disaster management system operated by each municipality and public institution, it is possible to support quick decision making and search for countermeasures when event of management site occurs.

In other words, the present invention not only ensures the effectiveness of the U-IT activation policy by developing a system for remote collaboration data access and decision making based on collected data of various remote control systems and selection control systems, And support for availability.

110: Cultural Property Management System 120: Disaster Disaster Management System
130: Other management system 200: Remote monitoring system
210: Event collecting unit 220: Manager calling unit
230: Collaboration component 240: Collaboration component
250: Decision Making Department 260: Collaborative Reporting Section
270:

Claims (16)

An event collecting unit for collecting event information of each of the management systems;
An administrator calling unit for calling an administrator corresponding to the generated event when the event information is generated;
A collaborative component for configuring a user interface (UI) screen of the generated event management system, grouping the event manager and the participant manager and activating an occurrence event and a shared event process;
A collaborative execution unit for analyzing an occurrence event through the collected data, supporting a chat viewer for discussing occurrence event processing and discussion, and activating an occurrence event and a shared event process;
(i) When an event processing decision is made, a voting tool for decision support is run to create a decision item, a voting decision is made by a decision maker, and a decision is made through voting. (Ii) a decision-making unit for processing and organizing event occurrences without decision if an event-handling decision is not made; And
And a collaboration reporting unit reporting the event processing result. The smart collaboration based remote monitoring system according to claim 1, further comprising a storage unit for storing a decision process and data. The system of claim 1, wherein the collaboration component provides a collaboration portal. 4. The system of claim 3, wherein the collaboration portal includes a collaboration data access viewer. 5. The system of claim 4, wherein the collaborative data access viewer includes a collaboration tool for searching, communicating, and viewing. 2. The remote monitoring system of claim 1, wherein the collaboration performing unit provides a remote monitoring control widget for a control system of the remote monitoring management site to access the actually collected data. The remote monitoring system of claim 6, wherein the remote monitoring control widget loads data and provides a viewer when the management range of the remote monitoring management site is set in the sensor. The smart collaboration based remote monitoring system of claim 1, wherein the voting tool provides a function to raise a question for decision making to collaboration managers who access the same collection data. The remote monitoring system of claim 8, wherein the question for decision making is made in the form of a multiple choice question within a limited time, and the result is displayed in the login area of the voting tool. Collecting event information of each of the management systems;
When the event information is generated, calling an administrator corresponding to the generated event;
Configuring a user interface (UI) screen of the generated event management system, grouping the event manager and the participant manager, and activating an occurrence event and a shared event process;
Analyzing an occurrence event through the collected data, supporting a chat viewer for discussing occurrence event processing and discussion, and activating an occurrence event and a shared event process;
When an event processing decision is made, a voting tool for decision support is created to create a decision agenda, a voting decision is made to decide a decision through voting, and a process of processing and arranging an occurrence event according to the decision ;
If an event processing decision is not made, processing and clearing the event without a decision; And
And reporting the event processing result. 11. The method of claim 10, further comprising storing a decision process and data. 11. The method of claim 10, further comprising providing a collaboration portal according to the occurrence event and the operation of the shared event process, wherein the collaboration portal includes a collaboration data access viewer. 11. The method of claim 10, wherein a remote monitoring control widget is provided for the control system of the remote monitoring management site to access the actual collected data. 14. The method of claim 13, wherein the remote monitoring control widget loads data and provides a viewer when the management scope of the remote monitoring management site is set in the sensor. 11. The method of claim 10, wherein the voting tool provides a function to raise a question for decision making to collaboration managers who access the same collection data. 16. The method of claim 15, wherein the question for decision making is made in the form of a multiple choice question within a limited time, and the result is displayed in the login area of the voting tool.

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