KR101186774B1 - Unified control system for ubiquitous city - Google Patents

Abstract

The present invention discloses a ubiquitous city integrated control system capable of integrally controlling a ubiquitous city.

The ubiquitous city integrated control system of the present invention comprises: an information collection and management unit for collectively collecting various information in the ubiquitous city and converting the collected information into a predefined standardized data format; A service interworking unit supporting mutual interworking between respective individual control service systems and receiving the information collected by the information collecting and managing unit and transmitting the received information to the corresponding individual control service system; A situation board output unit which receives the information collected by the information collection and management unit through the service interlocking unit and displays the information integrally on the screen; An external system interworking unit supporting information exchange between the external systems and the individual control service systems in cooperation with external systems; And a data transmission unit supporting data transmission between the service interworking unit, the status board output unit, and the external system interworking unit, to collectively use functions commonly used among various services (functions) necessary for city operation. Operational management allows for integrated city control by accommodating all the different types of systems previously used for city control.

Description

Unified control system for ubiquitous city}

1 is a block diagram showing the configuration of an integrated control system according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10: information collection and management unit 12: component DB

20: service linkage unit 21, 22, 23: individual control service system

30: External system interworking unit 40: Service / system generation unit

50: status board output 60: alarm / command

70: operation management system 80: GIS

90: integrated DB 100: data transmission unit

The present invention relates to an integrated control system for operating and managing a ubiquitous city (U-city), and more specifically, by integrating and managing functions commonly used among various services (functions) required for urban operation. The present invention relates to a ubiquitous urban integrated control system that can accommodate various different types of systems that have been used for city control as it is and can be more efficiently controlled and easily expand to new services.

Today, IT (Information Technologies) technology is used in both wired and wireless environments, and is becoming ubiquitous with digital convergence. Here, ubiquitous is Latin, meaning "whenever, wherever" and "exists at the same time," meaning a natural state everywhere, such as water or air, by Mark Weise of the Xerox Palo Altos Institute in 1988. First presented ('Ubiquitous computing is a paradigm shift where technology becomes virtually invisible in our lives.').

Ubiquitous computing is a human-centred, environmentally-aware computing model that provides humans with automated and optimized processing. It is to be effectively planted and fused in the environment so that it is not revealed.

The ubiquitous world aims at 5C Anytime (Anytime, Anywhere, Anynetwork, Anydevice, Anyservice) such as Computing, Communication, Connectivity, Contents, Calm.

The various devices that are components of ubiquitous computing include not only a series of personal support devices (eg PDAs) but also applications in home networks such as refrigerators, washing machines, gas ranges, stereos, and rice cookers with semiconductor chips. do.

U-City, which can apply the ubiquitous technology to the entire city, can further improve human living culture. For convenience of life, U-City is based on crime prevention / disaster prevention, U-GIS (Geographic Information System), public facilities management, Public services such as environmental monitoring, road / traffic management, and security / disaster prevention can be provided.

Some of these services are currently provided in existing cities, but each of them has a closed structure in which each system independently performs a single function, and even services of the same purpose cannot share or provide information with each other. Therefore, when services for various conveniences are installed in a city, devices that can be commonly used, such as sensors and data collectors, transmission devices, and various internal system modules, may be overlapped.

If each system of each service is applied to the ubiquitous city, the city will be filled with infrastructure such as sensors and relay systems of each service, and control centers for operation of each service should be installed in several places. In addition, even in the situation where each service should exchange information with each other and provide intelligent service, it is highly likely to cause confusion in urban operation by independent judgment and action of each service.

Therefore, in order to form a ubiquitous city, it is necessary to develop a new platform that can accommodate various services at the same time and share a common module in each service.

An object of the present invention for solving the above-mentioned problems is to integrate all the different types of systems that have been used for urban control in the past, integrated control is possible, and new forms of city integration that can be easily extended to new services. To provide a control service.

The ubiquitous city integrated control system of the present invention for achieving the above object is an information collection and management unit that collects various information in the ubiquitous city integrated and converts the collected information into a predefined standardized data format; A service interworking unit supporting mutual interworking between respective individual control service systems and receiving the information collected by the information collecting and managing unit and transmitting the received information to the corresponding individual control service system; A situation board output unit which receives the information collected by the information collection and management unit through the service interlocking unit and displays the information integrally on the screen; An external system interworking unit supporting information exchange between the external systems and the individual control service systems in cooperation with external systems; And a data transmission unit supporting data transmission between the service interworking unit, the status board output unit, and the external system interworking unit.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a ubiquitous urban integrated control system according to the present invention.

Ubiquitous urban integrated control system of the present invention information collection and management unit 10, service interlocking unit 20, external system interlocking unit 30, service / system generation unit 40, status board output unit 50, alarm / The command unit 60, an operation management system 70, a Geographic Information System (GIS) system 80, an integrated DB 90, and a data transmission unit 100 are provided.

The information collection and management unit 10 collects and stores / transmits various types of information generated in the ubiquitous city and maintains each external component for information collection to perform the original functions smoothly. Perform management functions. In other words, conventionally, each control service was provided with an external component independently and installed in a specific area, and specific information was collected only from the corresponding external components, and the information was used only in the control service. However, in the present invention, a single system 10 collects information from all external components installed in the ubiquitous city, distributes the information to each of the necessary control services, and manages each external component collectively. This eliminates the need to duplicate external components with the same functionality in the same region.

As the information collection function, the information collection and management unit 10 includes various external components installed in the ubiquitous city (components for collecting information such as various sensors, CCTV, RFID, traffic signal controllers) and specific external organizations (weather center, Receive real-time or periodic information on various information obtained from information collection agencies such as traffic control centers. The received information is stored in the component DB 12 and classified according to the type and importance of the information and selectively transmitted to the service interlocking unit 30. The information collection and management unit 10 sends the collected information to the service interlocking unit 30 by bypassing important information or image data as it is, but in the case of general information, the collected information is compared with a predetermined threshold level. Only the above information is transmitted to the service interlocking unit 30 to minimize the amount of data to be processed. In other words, the information is filtered. In this case, since the external components may be manufactured in different types in different manufacturers, the information collection and management unit 10 standardizes the information provided from each external component to interface with different types of external components. Convert to format to save and transfer. Each external component is assigned a unique identification code according to its type and installation location, and such code value is included in information provided from the corresponding external component. The information collecting and managing unit 10 classifies the collected information by using the code value according to the type of the related control service, stores it in the component DB 12, and transmits the information to the service interlocking unit 30.

As a management function, the information collection and management unit 10 checks whether the information provided from the external components is received without interruption and whether the output value is within the prescribed normal range, and so on, whether or not a failure occurs for the corresponding external components. Detect it. When a failure occurs, the information collection and management unit 10 stores the history information (date and time of occurrence, location, device name, control range / role of the device, details of the failure, etc.) in the component DB 12 and service-links a message informing of the failure. It is sent to the department 30 to inform the operator of the related services (21 to 23) and / or the integrated control system administrator. At this time, the notification of the occurrence of the disability is made at the same time as the occurrence of the disability according to the importance of the disability or at regular intervals, and the information collection and management unit 10 calculates the statistics on the occurrence of the service (21 ~ 23) This allows the operator and / or the integrated control system administrator to monitor this. In addition, the information collecting and managing unit 10 periodically detects in advance whether or not a failure occurs by transmitting a test message to each external component and receiving a response thereto. In addition, the information collection and management unit 10 supports the remote control function by the service operators 21 to 23 by controlling the operation of each external component according to a control signal received through the service interlocking unit 30. At this time, the information collection and management unit 10, if a control command is applied from different control systems for the same external component (for example, CCTV in a specific area), except for the emergency situation, the control system that first requests control first Give control to the operator.

The component DB 12 includes various information collected by the information collection and management unit 10 and information for maintenance of each external component (installation date, location, role, device name, setting value for normal operation of the device, control range / Role, history of failures, etc.).

The service interlocking unit 20 accommodates control services (eg, road / transportation, environmental monitoring, public facilities, security / disaster control services) systems 21 to 23 necessary for the operation of the city, and they interwork with each other. It is possible to exchange information and support these control service systems (21 to 23) to smoothly utilize the resources required for integrated control according to the present invention. That is, in the past, various services were provided for the operation of the city, but since each system for providing each of these control services has a closed structure, it is added in addition to the factors considered in the design stage or other existing control services. They do not work with each other. Therefore, the service interlocking unit 20 supports to smoothly share and exchange information between these control service systems 21 to 23 and with other systems outside. To this end, the service interlocking unit 20 converts the data received from each control service system 21 to 23 into a standardized data format to collect and manage the information 10 and the data transmission unit 90 and / or other control. The data is transmitted to the service systems 21 to 23, and the data to be transmitted to each of the control service systems 21 to 23 is converted into a data format corresponding to the corresponding control service systems 21 to 23 and transmitted to the corresponding service system.

The external system interlocking unit 30 interfaces with the systems (external systems) independently operated by major organizations (each administrative agency, police station, hospital, fire station, meteorological office, etc.) in the ubiquitous city and the integrated control system of the present invention. These external systems facilitate the exchange of information. To this end, the external system interworking unit 30 converts the data received from the external systems into a standardized data format and transmits the data to the data transmission unit 100, and in the case of the data received from the data transmission unit 100, Convert the data format back to the target external system and send it to the external system.

The service / system generation unit 40 supports addition of new services and deletion of existing services for the integrated control system of the present invention. That is, the service / system generation unit 40 supports a work tool for an easy work environment when a new service is added or deletes an existing service, thereby defining an association with an existing service or redefining changes of an existing service. Change the association between The service / system generation unit 40 generates new service generation information or existing service change information when the service addition or deletion occurs, and stores it in the integrated DB 90 to the operation management system 70 through the data transmission unit 100. Provide.

The situation board output unit 50 receives all the situation information occurring in the city and displays it collectively through a screen (situation board). That is, in the past, a separate situation board was provided for each control service to monitor whether or not the situation occurred and the occurrence of the situation, but the situation board output unit 50 of the present invention integrally provides information on all situations occurring in the city. By receiving and presenting it on the screen, the integrated control system operator of the present invention can recognize all the situations in the city at a glance. In particular, when the status plate output unit 50 is notified of the occurrence of an event (eg, a fire) through the data transmission unit 100, the GIS system 80 receives and provides map (MAP) information on an event occurrence area. Event occurrence area is displayed on the provided map and displayed on the screen. In addition, the status board output unit 50 displays the contents on the screen by giving different colors or effects (flashing, etc.) according to the importance of the data to be displayed.

When the alarm / command unit 60 is notified that an abnormality has occurred in the integrated control system according to the present invention from the operation management system 70, a designated alarm message is transmitted to a predetermined wired / wireless terminal of the control system operator and notified, and occurs. Command what to do next about the situation. To this end, the alarm / command unit 60 pre-defines all possible situations and stores the alarm messages for each situation and the matters to be corrected for the corresponding situations, and then, if a specific situation (event) occurs, Corresponding alarm messages and actions are sent to the terminal of the system operator using text messages, for example.

The operation management system 70 supports the integrated control system according to the present invention to operate normally. To this end, the operation management system 70 periodically transmits a test signal to each component or a specific component, and then periodically checks whether the component operates normally through a response signal. As a result of the check, when an abnormality occurs in a specific component, the operation management system 70 transmits the contents to the alarm / command unit 60.

The GIS system 80 manages map (MAP) information for ubiquitous cities and provides map information of a requested region when requesting map information.

The integrated DB 90 stores various data necessary for the integrated control according to the present invention and information on all situations occurring in the integrated control process. An integrated control system operator, an external system operator or each control service system operator can share information with each other by accessing the integrated DB 90 and searching and outputting desired information.

The data transmission unit 100 is connected to each of the internal systems 10 to 90 constituting the integrated control system of the present invention and serves as an intermediary to organically support data exchange therebetween. That is, the integrated control system of the present invention performs data exchange through the data transmission unit 100 without directly communicating with each of the internal systems 10 to 90. Thus, when a new service is added to the integrated control system of the present invention, the system for providing a new service only needs to be connected to the data transmission unit 100 so that service expansion is easy. For data transmission between these internal systems, the data transmission unit 100 analyzes the header information of the received data to find the destination and then transmits the data to the corresponding destination.

Referring to the control embodiment using the ubiquitous urban integrated control system of the present invention having the above-described configuration is as follows.

The information collection and management unit 10 receives and collects information from external components installed in various places of the city, for example, when a detection signal received from a fire detection sensor exceeds a threshold, it is recognized as a fire occurrence situation and the occurrence time and location ( It generates information such as the location (sensor), content, and stores the information in the component DB (12) and at the same time converts the information into a standardized data format and transmits it to the service interlocking unit (20). The information collection and management unit 10 determines the destination address of the data header according to the type of information to be transmitted. In this embodiment, since a fire has occurred, the destination is referred to as the disaster prevention service system 21. In this case, a plurality of destinations may be designated and transmitted according to the type of generated information.

After receiving the fire occurrence data, the service interlocking unit 20 analyzes the destination address of the data header to find out that the corresponding data should be transmitted to the disaster prevention service system 21, and then uses the corresponding data in the disaster prevention service system 21. The data is converted into a data format to be transmitted to the disaster prevention service system 21.

The disaster prevention service system 21 receiving the fire occurrence data through the service interlocking unit 20 informs the disaster prevention service system operator of the contents and shares the corresponding information such as the fire department and the status board output unit 50 (by information). The sharing target is set in advance or designated by the system operator), and transmits it back to the service interlocking unit 20 to provide related information.

The service interlocking unit 20 converts the data received from the disaster prevention service system 21 into a standardized data format, searches for the destination, and converts the received data if the destination is not the information collection and management unit 10. The transmission unit 100 transmits. Next, the data transmitter 100 also transmits the data to the status board output unit 50 and the external system interworking unit 30 that interfaces with the system of the fire station according to the destination information set in the header information of the received data. .

The external system interworking unit 30 converts the data received from the data transmission unit 100 back to the data format used in the fire station system and transmits the data to the fire station system.

In addition, the disaster prevention service system 21 collects and controls information through the service interlocking unit 20 to control the control direction to move the shooting direction of the CCTV closest to the fire occurrence area to the fire occurrence area to shoot the fire occurrence site in real time. Transmission to the management unit 10. The video data photographed by the CCTV is collected in the information collection and management unit 10 and then transmitted to the status plate output unit 50 via the service interlocking unit 20 and the data transmission unit 100. In this case, the information collecting and managing unit 10 bypasses the above-described threshold analysis in the case of the image data and converts to the standard data format and bypasses the service interworking unit 20 directly. The status plate output unit 50 receives the image data of the fire occurrence area in real time from the information collecting and managing unit 10 via the service interlocking unit 20 and the data transmitting unit 100 and displays it on the screen.

On the other hand, when the status board output unit 50 receives the fire occurrence information from the disaster prevention service system 21 through the data transmission unit 100, and transmits the location information of the fire occurrence area to the GIS system 80. Then, the GIS system 80 displays the location on the map and transmits the map information to the status board output unit 50 so that the fire occurrence location can be displayed on the status board. Such map information is also transmitted to the fire station system and the disaster prevention system 21.

The fire department system provided with the fire occurrence and map information issues a fire truck dispatch command and requests the disaster prevention service system 21 to provide a route guidance to the fire occurrence area.

Accordingly, the disaster prevention service system 21 uses the map information provided from the GIS system 80 and the stored traffic information of the integrated DB 90 to determine the shortest path or the best path from the fire station to the destination (fire occurrence location). Send the route information to the fire station system. At this time, the traffic information stored in the integrated DB (90) is the information collected and collected from the traffic control center in the information collection and management unit 10, the route information is the service linkage unit 20, data transmission unit 200 and external system It is transmitted to the fire station system through the linkage unit (30).

When the best route (or the shortest route) is determined, the disaster prevention service system 21 controls the traffic signal controller through the information collection and management unit 10 so that the fire truck dispatched from the fire station can arrive at the fire scene as soon as possible, so that the fire truck may It allows you to reach the scene of the fire without blocking the signal.

And, such a series of histories are all stored and stored in the integrated DB (90).

As described above, the ubiquitous urban integrated control system of the present invention integrates and manages functions commonly used among various services (functions) required for urban operation, thereby providing various types of different types of urban control. It accepts all of the systems as they are, enabling integrated city control.

Claims (10)

An information collection and management unit for collectively collecting various information through external components in the ubiquitous city and converting the collected information into a predefined standardized data format and providing the information; A service interlocking unit supporting mutual interworking between individual control service systems and transmitting the information collected through the information collection and management unit to corresponding individual control service systems; A situation board output unit which receives the information collected by the information collection and management unit through the service interlocking unit and displays the information integrally on the screen; An external system interworking unit interworking with external systems to support information exchange between the external systems and the individual control service systems; And And a data transmission unit for organically supporting data transmission between the service interworking unit, the status board output unit, and the external system interworking unit. The individual control service systems provide different types of control services, and external components having different functions are disposed in the same region for each region in the ubiquitous city, and the service interworking unit is connected to any one of the external components. Ubiquitous urban integrated control system, characterized in that for transmitting the collected information to the corresponding individual control service systems, respectively. The method of claim 1, An operation management system for monitoring whether or not an error occurs for each component of the integrated control system; And Ubiquitous urban integrated control system, characterized in that it further comprises an alarm / command unit for delivering an alarm message and instructions to a predetermined operator terminal when receiving the monitoring result from the operation management system. 3. The method of claim 2, Ubiquitous city integrated control system further comprises a GIS system for providing map information (map) of the ubiquitous city. The method of claim 3, The operation management system, the alarm / command unit and the GIS system is connected to the data transmission unit, respectively, characterized in that for performing data exchange through the data transmission unit ubiquitous urban integrated control system. According to claim 4, wherein the status plate output unit Ubiquitous city integrated control system characterized in that when receiving the event occurrence information for a specific area to transmit the location information of the specific area to the GIS system to receive the map information for the specific area and to display the map information on the screen . The method of claim 1, wherein the external system interworking unit The data received from the external system is converted into the standardized data format and transmitted to the data transmission unit, and the data received from the data transmission unit is converted into a data format suitable for the destination external system and transmitted to the corresponding external system. Ubiquitous urban integrated control system. According to claim 1, wherein the information collection and management unit Ubiquitous urban integrated control system, characterized in that for performing the threshold analysis on the collected information to filter and collect only the information beyond the threshold. The method of claim 1 or 7, wherein the information collection and management unit Ubiquitous urban integrated control system, characterized in that for controlling the operation of each external component for collecting information in accordance with the control signal provided from the individual control service systems through the service interlocking unit. The method of claim 8, wherein the information collection and management unit Ubiquitous urban integrated control system, characterized in that for determining the abnormality of the external component according to the continuity of the information provided from the external components and whether the output value is within a prescribed normal range. The method of claim 1, wherein the data transmission unit Ubiquitous city integrated control system is connected to each component of the integrated control system, and delivers the received data as it is to the components of the destination according to the destination information of the received data.

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