KR101091638B1 - Disaster alarm service system and method of in house type fortified with adaptability for changes - Google Patents

Abstract

PURPOSE: An in house type disaster alarm service providing system with strong adaptability against changes and a method thereof are provided to immediately reflect changes of environments around equipment, thereby optimally operating all equipment. CONSTITUTION: A support center server(100) is placed in a service provider side wherein a service provider provides an alarm broadcast service. The support center server transceives data with a user who the alarm broadcast service through a communication network under some limits. A user treating station(200) determines whether a disaster occurs based on weather information, generates an alarm broadcast message, and transmits the alarm broadcast message to the communication network. A control station group is made of controls stations which receives and transmits the alarm broadcast message.

Description

In-house disaster disaster alarm broadcasting service providing system with enhanced adaptability to changing usage environment and its providing method {DISASTER ALARM SERVICE SYSTEM AND METHOD OF IN HOUSE TYPE FORTIFIED WITH ADAPTABILITY FOR CHANGES}

The present invention relates to a system for providing a disaster alert broadcasting service and a method of providing the same, and more specifically, to a disaster alert broadcasting through an alarm station such as an automatic voice notification system scattered in various regions using a disaster alert broadcasting service. In-House is a user processing station that determines whether there is a disaster in a specific network such as an internal system such as a local government or a public corporation or an intranet that sends out data, and generates an alarm message. In addition to ensuring confidentiality, the service provider's support center server, which provides the disaster alert broadcasting service, transmits status information for a plurality of devices provided in the user processing station, and transmits and receives change information of each device. By restricting interworking on the communication network so that the Disaster alert broadcasting services in-house method was enhanced adaptability to changes in the environment for the equipment be provided relates to a system and method for providing.

In recent years, various disasters occur repeatedly every year due to extreme weather due to global warming phenomenon or environmental pollution, and accordingly, research on the fundamental methods to prevent such disasters, and alert in advance when disaster disasters are imminent In order to reduce the damage to human life or property, the Disaster Alert Broadcasting System is being operated to broadcast alarms to various areas.

The disaster warning broadcasting system is generally used mainly by local governments that integrate and manage a wider area than general individuals, or public corporations that operate business centers scattered in various areas.

As such, the disaster warning broadcasting system used in the prior art is composed of three components according to the functions to be performed. The alarm broadcasting message is generated by determining whether a disaster has occurred based on weather information or climate information. And a processing station that converts and transmits data in a form suitable for output through broadcasting means such as an automatic voice notification system scattered in various regions, and is distributed in various regions and connected through a communication network such as the Internet or a leased line. And a plurality of control stations that receive and propagate an alarm broadcast message transmitted from the processing station, and a plurality of control stations that substantially output alarm broadcasts about the occurrence of a disaster disaster transmitted through the processing station or the control station to inform local residents. It is usually composed of alarm stations.

In this case, the control station may be configured to function as a kind of medium for propagating the alarm broadcast transmitted from the processing station as well as with the propagation of the alarm broadcast so that a faster warning of the occurrence of a disaster or disaster can be made. It may be composed of a related organization equipped with an automatic voice notification system that can output the alarm broadcast itself.

In addition, the alarm station may be configured as a speaker or a monitor that outputs the alarm broadcast received from the processing station to perform the broadcast, as well as an administrator who is responsible for a disaster or disaster occurrence, or resides in a disaster frequent area. It consists of a mobile communication terminal, such as the residents, may be configured to enable more rapid response to the alarm broadcast is transmitted individually and directly.

As such, in an alarm broadcasting system composed of a plurality of control stations, a plurality of alarm stations, and a processing station, a plurality of weather information for determining whether a disaster has been received is received, and a disaster warning alarm broadcast is generated and transmitted based on such weather information. As a method for establishing a processing station for determining whether the ASP (Application Service Providing) method and the In-House method has been mainly used.

In this case, the ASP method grants access to the system of the service provider to a user who uses the disaster warning alarm broadcasting service while building and operating the processing station in a system owned by a service provider that provides the disaster warning alarm broadcasting service. It means a method configured to provide only the account and the interface for.

On the contrary, the in-house method refers to a system configured to establish a processing station in a system owned by a user using a disaster warning broadcast service or a specific network operated by the user.

In the case of the ASP method, since the processing station is built in a system owned and managed by the service provider, the processing station can always be kept in the latest version, and the state of a plurality of control stations or alarm stations transmitted to the processing station. Based on the information, it is possible to promptly take appropriate measures to maintain a good condition, and to immediately change the newly added or changed control station or alarm station to the processing station, and to easily build an alarm broadcasting system. There is this.

However, this ASP method has a problem that it is difficult to maintain the confidentiality of data because all data is exposed to the service provider operating the processing station, and the entire related data is built in the system owned by the service provider.

In addition, when such a processing station is installed in a remote area, the service provider system must be built in an open manner that can access the user's internal system on the Internet so that the reception of data and the addition or change of the control station or alarm station can be always checked. There was a problem that local governments or public corporations using disaster-disaster alarm broadcasting services were vulnerable to confidentiality. This ASP method was not suitable for users who require special confidentiality in data handling.

In addition, in the case of the in-house method, since a processing station that collects and processes data is built in a user's system or a specific network using an alarm broadcasting service, it is possible to block an external leak of data, which is advantageous in maintaining confidentiality of data. However, there was a problem that the service provider in the remote area could not be aware of the internal situation of the processing station, and therefore, was vulnerable to the reflection of the change information of the equipment.

In particular, service providers in remote areas were not aware of changes in the use environment, such as equipment failures such as failures, changes, or additions to multiple control and alarm stations spread across multiple regions. There was a problem in that the response to the extremely passive and passive was made so that the appropriate alarm broadcasting service could not be provided.

The problem to be solved by the present invention is to establish a processing station in-house within the system or a specific network within the user that can restrict the Internet access from outside to ensure data confidentiality, and alert broadcast service provider Only the support center server is built in, and only a part of data such as change information of equipment or status information of equipment and emergency command signal is transmitted between the support center server and the processing station, thereby ensuring data confidentiality. At the same time, it provides an in-house disaster disaster alarm broadcasting service providing system and its method of adapting to changes in the use environment that immediately reflects changes in the use environment of the devices so that all the devices can be operated in the best condition. .

Disaster alert broadcasting service providing system of the in-house-type disaster reinforcement for adaptation to changes in the use environment to achieve the above problems is provided on the service provider for providing the alarm broadcasting service and the user side using the alarm broadcasting service through the communication network. Support center server capable of limited data transmission and reception; Based on the weather information received from sensors distributed in various areas, it determines whether there is a disaster and generates an alarm broadcast message and transmits it through the communication network. A user processing station for limited data interworking; A control station group, which is distributed in various areas for alarm broadcasting, is connected to the user processing station through a communication network, and includes a control station group configured to receive and propagate the alarm broadcasting message transmitted from the user processing station; And an alarm station group composed of a plurality of alarm stations that substantially reproduce the alarm broadcast transmitted through the user processing station and notify local residents.

In this case, the user processing station is installed in-house on a specific internal network such as a user owned system or an intranet.

In addition, the support center server, the change information update server for transmitting the change information of the equipment to the user processing station; And a monitoring server that receives status information of equipment such as a control station and an alarm station transmitted from the user processing station, and transmits an emergency command signal when an unusual matter occurs.

In addition, the user processing station, the weather information receiving unit for receiving and storing the detection signal transmitted from the USN detection unit distributed in various areas in order to ensure accurate weather information for determining whether a disaster disaster; A disaster disaster determination unit that determines whether a disaster has occurred based on various detection signals received through the weather information receiver; A message processing unit which reads the format of the disaster warning message reproducible from the alarm station of the region determined to be the occurrence of the disaster disaster in the message type library and converts the message to the output means of each alarm station; A support center access limiting unit configured to set access rights of a support center server connected on a communication network to allow limited data communication with the support center server; A change information receiving module for receiving update information of devices transmitted from the change information updating server through a communication network and updating storage information such as a message format library; And a status report module for generating status information of the plurality of control stations or alarm stations at regular intervals and transmitting the status information to the support center server through a communication network.

In addition, the method for providing an in-house disaster alert broadcast service with enhanced adaptability to changes in the use environment according to the present invention, the disaster disaster warning to the user processing station that receives the weather information to determine whether to send out a disaster warning broadcast An in-house building step of a user processing station installed in a system of a user using a broadcasting service in an in-house manner; A support center server access limiting step of restricting external access authority of data transmission and reception with the user processing station on a communication network such as the Internet by an external support center server operated and managed by a service provider providing the disaster warning alert broadcasting service; A status report step of transmitting status information of external control stations and alarm stations connected to the user processing station to a monitoring server of the support center server; When the change of the equipment according to the status information is recognized, the change information such as the identification number and the reproducible message format, such as the location of the changed equipment transmitted from the change information update server of the support center server through the communication network interlocked within the limited range, is received. Fluctuation information receiving step; A user processing station updating step of updating and storing a message format library according to the received variation information; And a disaster warning broadcasting step for determining whether a disaster has occurred based on weather information obtained from USN detectors distributed in various regions, generating an alarm broadcasting message, and sending it to a control station and an alarm station distributed in remote areas. It is characterized in that the configuration.

At this time, the support center server access restriction step, the monitoring to form a limited gateway for transmitting the status information of the equipment installed in a plurality of control stations and alarm stations and user processing stations distributed in a separate location to the support center server Server interworking process; And a change information update server interworking process for forming a limited gateway with the support center server to receive change information such as an identification number or a message format of equipment constituting the control station and the alarm station.

In addition, when the status information transmitted in the status reporting step relates to an unusual condition such as a failure of an alarm station or a system down, such as a system restart of equipment in which an unusual condition such as a corresponding alarm station occurs in the support center server. It is preferable to further include an emergency action step of transmitting a limited emergency command signal, or a signal for requesting immediate action to the manager in charge of the equipment management of the area.

In addition, the disaster warning broadcasting step, the weather information receiving process of receiving and storing the weather information of the various regions transmitted from the plurality of USN detection units distributed in a plurality of areas on the communication network through the M2M platform; Disaster disaster determination process of comparing the received weather information with past weather information stored in the database to determine and predict the occurrence of a disaster disaster; An alarm broadcast message processing step of generating an alarm broadcast message suitable for each region when a disaster disaster occurs or is expected, and converting the generated alarm broadcast message into a message format reproducible by an alarm station installed in each region; It is characterized in that it comprises an alarm broadcast message transmission process for propagating the alarm broadcast message that is reproduced at each alarm station to the control station and the alarm station installed in each region through the communication network.

The present invention establishes a user processing station which determines whether a disaster has occurred and generates an alarm broadcast and transmits it to a plurality of control stations or alarm stations in a house-owned system in a user-owned system, thereby ensuring the confidentiality of data acquired by the user. In addition, through the change information receiving module, the identification number and message format of the added or changed alarm station are updated to realize the latest broadcasting environment, and the state of the control station and the alarm station continuously transmitted from the user processing station. Enables limited data interworking between the status reporting module of the user processing station and the monitoring server of the help desk server to generate appropriate emergency command signals based on the information, providing immediate action on the peculiarities generated by the remote control station or alarm station. Enables you to maintain uninterrupted operation and stay up-to-date There is an advantage to keep the environment.

1 is a block diagram of an in-house disaster disaster alert broadcasting service providing system with enhanced adaptability to changing usage environment according to the present invention.
2 is a system configuration diagram of an in-house disaster disaster alert broadcasting service providing system with enhanced adaptability to changing usage environment according to the present invention.
3 is a system configuration showing collecting weather information according to the present invention.
4 is a block diagram showing an example of the USN detection unit according to the present invention.
5 is a block diagram of a method for providing an emergency disaster alarm broadcasting service of an in-house method with enhanced adaptability to changes in usage environment according to the present invention;

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

FIG. 1 is a block diagram of an in-house disaster warning broadcasting service providing system having enhanced adaptability to changes in use environment according to the present invention, and FIG. 2 is a diagram showing enhanced adaptability to use environment changes according to the present invention. This is a system block diagram of the house-type disaster disaster alarm broadcasting service providing system.

1 and 2, an in-house disaster disaster alert broadcasting service providing system with enhanced adaptability to changing usage environment according to the present invention belongs to a service provider providing an alarm broadcasting service and uses a communication network such as the Internet. Through the support center server 100 capable of limited data transmission and reception with the user who uses the alarm broadcasting service and weather information received from sensors installed in various regions, an emergency broadcast message is generated by determining whether a disaster has occurred. After transmitting through the communication network and the user processing station 200 for limited data interworking with the support center server for the transmission of change information, etc. for the use environment, and distributed in various areas for the alarm broadcast Connected through a communication network such as a dedicated line and transmitted from the user processing station. Control station group 300 consisting of a plurality of control stations for receiving and propagating a broadcast message, and an alarm station group consisting of a plurality of alarm stations to substantially reproduce the alarm broadcast transmitted through the user processing station to inform the local residents And 400.

As such, the in-house disaster alarm broadcasting service providing system is provided on a specific internal network such as a user-owned system or an intranet in order to ensure confidentiality of data of a user such as a local government or a public company using the alarm broadcasting service. Construct a user processing station in an in-house manner, but form a limited data communication path between the support center server and the user processing station so that the user processing station is always in the best state without compromising data confidentiality. Therefore, the advantages of the ASP method can be realized.

In FIG. 2, the support center server constituting the disaster disaster alert service providing system and the user processing station are collectively referred to as an integrated center. The web server and database server (Web / DB server) and the M2M collection server shown in FIG. It is only to separately indicate that data is transmitted and received through a 3G network or various M2M platforms depending on the type of communication network. In addition, the user processing station constituting the integrated center receives weather information from various USN detection units to determine whether there is a disaster, and then collects collected weather information and judgment information of the disaster as a national living weather information service or a related agency. By increasing the usability of the information.

The support center server 100 is installed in the system of the service provider spaced apart from the system of the user side using the alarm broadcasting service, the change information update server 110 to transmit only the change information of the equipment to the user processing station And a monitoring server 120 for receiving status information of each device transmitted from the user processing station and transmitting an emergency command signal.

In this case, the change information update server 110 transmits the change information on the equipment provided in the user processing station on the communication network to update the equipment information of the user processing station 200, thereby always updating the user processing station. It can be kept in a state. In addition, the change information update server 110 transmits information about a message format that can be reproduced by the changed alarm station 300 even when a change or replacement of the alarm station equipment is performed, thereby providing a message format provided to the user processing station. The storage information of the library 240 can be updated to enable integrated management at the user processing station.

Accordingly, when the alarm station is changed from a speaker that reproduces and outputs simple audio information to a monitor that outputs video and audio together, the alarm information transmitted to the corresponding alarm station is changed to a form of audio and video suitable for playback at the changed alarm station. By updating the message format library 240 to be stored, the output of the alarm broadcast can be made smoothly.

The monitoring server 120 receives the status information transmitted at regular intervals or whenever there is a state change due to a failure, etc., via the status reporting module 280 provided in the user processing station. In (100), the user processing station, and the control station group and the alarm station group of the equipment forming the group can be configured to determine whether or not.

As a result, service providers can quickly identify and take immediate action on the failures of equipment distributed across multiple locations, enabling them to maintain optimal conditions, thus helping to prevent unexpected disasters. The alarm broadcast can be transmitted smoothly.

In addition, the monitoring server 120, when a specificity is generated by the status check signal, the emergency command signal associated with the restart of the equipment or the performance of the preset check function through the user processing station 200 corresponding equipment Or a request for action to the manager in charge so that immediate action can be taken.

The user processing station 200 receives a detection signal transmitted from the USN detection unit distributed in various regions in order to secure accurate weather information for determining whether a disaster disaster occurs in the database information receiving unit ( 210 and a disaster disaster determination unit 220 that determines whether a disaster has occurred based on various detection signals received through the weather information receiver, and the disaster disaster determination unit determines that the occurrence of a disaster disaster is expected. And a message processing unit 230 which reads the format of the disaster warning message that can be reproduced by the local alarm station and converts it into a message format library to be suitable for the output means of each alarm station. Access on the communication network to allow limited data communication with the support center server 100 The support center connection limiting unit 260 for setting access rights of the support center server, and the change information for receiving the update information of the equipment transmitted from the change information update server through the communication network to update the storage information, such as message format library Receiving module 270, and a status reporting module 280 for generating the status information of the plurality of control stations or alarm stations at regular intervals and transmits to the support center server through a communication network.

In addition, the user processing station 200 is a message format library 240 for storing a message format that can be reproduced in a plurality of alarm stations with the identification number of each alarm station, and various detection signals received from the weather information receiver and the past It is configured to include a database 250 provided to interlock with the disaster determination unit to store the weather information at the time of disaster disaster to be used as data for determining whether or not the disaster occurred.

The weather information receiver 210 forms a sensor network with the USN detector 500 installed in a plurality of areas so as to obtain accurate weather information in a wide area under the jurisdiction of a user using the disaster warning broadcast service. Each time it is configured to receive the detection signal of the region.

At this time, the weather information receiving unit 210 obtains weather information from the USN detecting unit 500, and the weather observed from the Meteorological Agency, the disaster prevention department, or the local government, which is an infrastructure already established in each region unit. It is preferably configured to be connected on a communication network to receive information to obtain more diverse and accurate weather information.

3 is a system configuration diagram showing collecting weather information according to the present invention, Figure 4 is a configuration diagram showing an example of the USN detection unit according to the present invention.

Referring to FIG. 3, the user processing station equipped with the weather information receiver constructs a Ubiquitous Sensor Network (USN) detector 210 distributed in a region managed by a user based on a ubiquitous sensor network as a new infrastructure. And the weather information receiving unit 210 and the USN detecting unit 500 interoperate with each other through a communication network, and receive weather information from an existing infrastructure such as a meteorological office having a means for obtaining weather information. The weather information receiver and the server such as the Meteorological Agency are configured to interwork on a communication network such as the Internet.

At this time, the USN detection unit 500 is composed of a plurality of sensors installed in the ground based on the ubiquitous sensor network, and communicates with the weather information receiver on the communication network to transmit the detection information obtained from the sensor to the weather information receiver It is desirable to be built with an M2M platform that forms a furnace.

Accordingly, the MN platform constituting the USN sensor 500 includes communication means for transmitting the weather information obtained from the sensor to the weather information receiver through a 2G network or a 3G network. ) And network.

As shown in FIG. 3 showing that the USN detecting unit 500 is constructed by using Jeju Island, which has a high risk of a natural disaster such as a typhoon as an example, a plurality of golf courses, a plurality of bus stops, a plurality of public buses, It can be composed of a number of automatic weather systems (AWS) that interoperate with the Meteorological Agency observation equipment and communication modules. In this case, the golf course is configured to obtain weather information through a 3G network, and in the case of the bus stop, public bus, or automatic weather system, the USN sensing unit is configured to acquire weather information through an M2M platform. According to the location and location to be used may be configured to transmit and receive data using a variety of communication networks.

3 is configured to measure the temperature and humidity and the concentration of Volatile Organic Compounds (VOCs) at the bus station, and to measure the temperature and humidity, CO ₂ and VOCs in the public bus, the temperature at the golf course or tourist attractions And it is shown to be configured to measure the humidity, rainfall, wind direction and wind speed, etc., but is not limited to this is preferably configured to obtain a variety of weather information by installing a variety of sensors to each USN sensor.

In addition, it is connected to the Jeju Special Self-Governing Province or Jeju City, a local government that already has an infrastructure for acquiring meteorological information, and connected to the World Natural Heritage Management Headquarters, Jeju Autonomous Police Corps (ITS), or Meteorological Agency through an infrastructure built by the infrastructure. The acquired weather information is also preferably configured to be used as a basis for determining whether or not a disaster has occurred.

In this way, the user processing station 200 determines whether a disaster has occurred based on weather information received from a plurality of detection units and an already built infrastructure, and uses the communication network such as the Internet to provide information on the domestic living weather information service. It can be provided in the form of, and it can be sent to related agencies such as the Meteorological Agency or local governments to help reflect it in policy decisions, or to various academic institutions that conduct research on climate change. The information obtained through this can be utilized in various ways.

In FIG. 3, the support center server constituting the disaster disaster alarm service providing system and the user processing station are collectively referred to as an integrated center. The web server and database server (Web / DB server) and the platform server shown in FIG. 3 are connected to a communication network. It is only to separately indicate that data transmission and reception are performed through the 3G network or the M2M platform according to the type of. In addition, the user processing station constituting the integrated center receives weather information from various USN detection units to determine whether there is a disaster, and then collects collected weather information and judgment information of the disaster as a national living weather information service or a related agency. By increasing the usability of the information.

In addition, referring to FIG. 4, the USN sensor 500 communicates with a sensor for acquiring weather information, and communicates with the weather information receiver by performing a thing communication with the weather information receiver. The M2M modem is connected to the M2M platform through a CDMA communication network, and forms a gateway for data transmission with a meteorological information collection unit provided at a user processing station in a remote location through the M2M platform. The corresponding detection information, which is obtained weather information, is transmitted.

The disaster disaster determination unit 220 is configured to determine whether a disaster has occurred while comparing the various weather information of various regions obtained through the weather information collection unit with past weather information stored in the database 250. .

The message processor 230 checks an alarm station provided in a region to which an alarm broadcast is to be transmitted if it is determined that a disaster disaster such as a typhoon or a flood is expected over a specific region or several regions, and at the corresponding alarm station. And read the format of the reproducible alarm broadcast from the message format library and convert the format of the message into a form suitable for each alarm station.

Accordingly, the message processing unit may be configured to generate the form of a simple text message or an alarm sound, and of course, converts an alarm broadcast message in a text form into a voice form so as to inform more accurate disaster disaster information in the form of a voice. It comprises a TTS (Text To Speech) module 231, and an EWS (emergency warning system) module 232 for producing an emergency alert broadcast through a broadcasting means such as DMB based on a text message alert broadcast message It is preferable.

In addition, the support center access limiting unit 260 is configured to restrict the access authority of the external support center server 100 to access a user processing station installed in a specific network such as a user owned system or an intranet by an in-house method. do.

The change information receiving module 270 is transmitted from the change information update server 110 by generation of change information about a plurality of control stations or alarm stations distributed in various regions of various equipments or locations installed in the user processing station. It is configured to always maintain the latest state by updating the corresponding equipment and the like by receiving the change information.

At this time, when the change information received through the change information receiving module 110 relates to the addition or change of the alarm station, the alarm which can be reproduced by the corresponding alarm station 400 together with identification information regarding the changed position of the alarm station and the like. It includes the message format of the broadcast, and by updating the information of the alarm station stored in the message format library 240 by this message format, when converting the alarm broadcast message appropriately in a form suitable for playback on the corresponding alarm station 400 Can be converted.

In addition, the status report module 280 is connected to the monitoring server 120 through a communication network to transmit the status information of each device transmitted from a plurality of control stations or alarm stations to quickly respond to a specific situation such as a failure It is configured to be made.

At this time, the status reporting module 280 may be configured to transmit the status information of the equipments at regular intervals to the monitoring server 120 of the separation through the communication network, as well as the unusual operation signal is not received from the equipment Only when this occurs, it may be configured to transmit the status information indicating the state to the monitoring server 120.

As such, while the data transmission from the status reporting module 280 to the monitoring server 120 may be freely performed, the data is transmitted from the monitoring server 120 to the user processing station 200 based on the status information. The signal or the processing thereof is limited only within the range set by the support center access limiting unit 260, so that the confidentiality of the data can be ensured and the quick response to the peculiarity of the equipment can be performed.

According to the present invention, a user processing station that determines whether a disaster has occurred and generates an alarm broadcast and transmits it to a plurality of control stations or alarm stations is built in a user-owned system or inside a network such as a specific intranet. By maintaining the confidentiality of the data acquired by the user, and by updating the identification number and message format of the added or changed alarm station through the change information receiving module, it always implements the latest broadcasting environment and continuously transmits it from the user processing station. It generates a limited data link between the status reporting module of the user processing station and the monitoring server of the support center server to generate an appropriate emergency action command based on the status information of the control station and the alarm station. Interruption by enabling immediate action on specific features Is able to maintain the operating conditions and maintain state-of-the-art broadcast environment.

In addition, by updating and monitoring the control station and the alarm station installed in the separation by the change information receiving module and the status reporting module in the support center server, a plurality of alarm stations having various message formats are mixed or broadcast alarm service Even if some or all of the equipment is replaced during the operation of the provisioning system, it is possible to reflect the changes to the replaced equipment with a simple procedure to improve the adaptability to changes in the usage environment and to manage the integrated broadcasting system for alert broadcasting services while maintaining data confidentiality. Will be.

Next, a method of providing an in-house disaster warning alarm broadcasting service with enhanced adaptability to changes in the use environment according to the present invention configured as described above will be described.

5 is a block diagram of a method for providing an emergency disaster alarm broadcasting service of an in-house method with enhanced adaptability to changes in usage environment according to the present invention.

Referring to FIG. 5, the method for providing an in-house disaster warning broadcast service with enhanced adaptability to changes in the use environment according to the present invention includes a user processing station that receives weather information and determines whether to send a disaster warning broadcast. In-house building step (S10) of the user processing station to install the system in the user's system using the disaster warning alert service, and an external support center operated and managed by the service provider that provides the disaster alert broadcast service A support center server access limiting step (S20) for restricting external access authority of a server to transmit and receive data with the user processing station on a communication network such as the Internet, and an external control station and alarm stations connected to the user processing station on a communication network. Status report step of transmitting the status information to the monitoring server of the support center server (S30) and the status When the change of equipment according to the information is recognized, the change to receive the change information such as the identification number and the reproducible message format such as the location of the changed equipment transmitted from the change information update server of the support center server through a communication network interworked within a limited range. The information receiving step (S40), the user processing station updating step (S50) for updating and storing the message format library according to the received change information, and the disaster disaster based on the weather information obtained from the USN detection unit distributed in various regions It is configured to include a disaster warning alarm broadcasting step (S60) for determining whether or not to generate and send an alarm broadcast message distributed to the control station and the alarm station installed in the separation.

The in-house building step (S10) of the user processing station includes a processing station capable of predicting the occurrence of a disaster by comparing weather information collected through a communication network and collected weather information with past weather information stored in a database. It can be installed in user's system which user can maintain or internal network to block external access through communication network such as internet.

The support center server access restriction step (S20) is data stored in the user system by blocking access to the user processing station, except for a limited communication network spaced apart from the user processing station and opened according to granting access authority from the user processing station. It is configured to ensure confidentiality.

Accordingly, the support center server access restriction step (S20) is to form a gateway for transmitting to the support center server the status information of the equipment installed in a plurality of control stations and alarm stations and user processing stations distributed in separate locations Monitoring server interworking process (S21), and fluctuation information update server interworking process to form a gateway with the support center server for receiving the fluctuation information, such as the identification number or message format of the equipment constituting the control station and the alarm station (S22) It is configured to include).

As described above, the support center server access limiting step (S20) prevents free access of the support center server through a communication network while maintaining confidentiality of data, while communicating for transmitting and receiving fluctuation information of equipment for performing a disaster warning broadcast. By limiting the establishment of a limited number, it is possible to maintain a state-of-the-art state and an optimal system for providing a disaster warning service.

The status reporting step (S30) is a state of the control station and the alarm station obtained from the user processing station through a limited gateway formed by the monitoring server interworking process every time or according to the occurrence of unusual matters such as failure It is configured to transmit to the monitoring server every time status information is changed.

At this time, if the status information transmitted in the status reporting step (S30) is related to an unusual condition such as a failure of an alarm station or a system down, the system of the equipment in which an unusual condition such as a corresponding alarm station is generated in the support center server It is preferable to further include an urgent action step (S35) for transmitting a limited emergency command signal, such as a restart, or a signal for requesting immediate action to the administrator in charge of the equipment management of the area.

As a result, the support center server can continuously manage the failure of a specific device and take immediate action in case of failure. This will keep your equipment in top condition.

The change information receiving step (S40) is a case where the status information transmitted to the monitoring server is change information such as replacement of an existing control station or alarm station or addition of a new device, the location, identification number and message of the corresponding device. And change information, such as a form, from the change information update server through a limited gateway formed by the change information update server interworking process.

The user processing station updating step (S50) is configured to update the equipment information of the user processing station according to the change information received from the change information updating server, to maintain the latest state, and the change information is a message broadcasted from an alarm station or the like In the case of including the format, the message format of the corresponding alarm station is added to the message format library and updated to convert the alarm broadcast message transmitted to the corresponding alarm station into a suitable form.

The disaster warning broadcasting step (S60) is a weather information receiving process (S61) for receiving and storing the weather information of various regions transmitted from a plurality of USN detection units distributed in a plurality of areas on a communication network through the M2M platform, and Disaster disaster determination process (S64), which compares a weather information with past weather information stored in the database 2 to determine and predict the occurrence of a disaster, and, if a disaster has occurred or is expected to occur, Alarm broadcast message processing (S66) for converting the generated alarm broadcast message to a message format that can be reproduced by an alarm station installed in each region after generating a suitable alarm broadcast message, and an alarm broadcast message that is converted to be reproduced at each alarm station. Including an alarm broadcasting message transmission process (S68) that propagates to control stations and alarm stations installed in each region through a communication network. It is.

At this time, the weather information receiving process (S62) may be configured to receive not only the weather information directly obtained from the USN detection unit, but also through a communication network from the Meteorological Administration, the disaster prevention department, or a local government, etc., which already has a meteorological infrastructure. Of course.

In addition, the alarm broadcasting message processing process (S66) may be configured to convert the alarm broadcasting message in the text form from the TTS module to the voice message for voice output through a speaker or the like as well as the alarm broadcasting message in the simple text format. Of course, the EWS module may be configured to generate voice and video messages in order to output emergency alarm broadcasts of video and audio through a broadcasting means such as DMB.

In this way, while establishing a processing station in the user's system, a limited number of gateways capable of transmitting and receiving fluctuation information such as failure, replacement, or addition of the alarm station through a communication network is provided. Monitoring can be integrated and quickly performed at the help desk server, so that even if several alarm stations with various message formats are mixed or some or all of the equipment is replaced during operation of the broadcasting alarm service providing system, By reflecting the changes, it is possible to improve the adaptability to changes in the use environment and to manage the alarm broadcasting service providing system while maintaining data confidentiality.

In the above description, the technical idea of the present invention has been described with the accompanying drawings. 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 scope of the present invention.

100-Support Center Server 110-Change Information Update Server
120-Monitoring Server 200-User Processing Station
210-Weather Information Receiving Unit 220-Disaster Accident Determination Unit
230-Message Processing Unit 240-Message Format Library
250-Database 260-Support Center Access Restriction
270-Change information receiving module 280-Status reporting module
300-control station 400-alarm station
500-USN detector

Claims (15)

A support center server provided at a service provider for providing an alarm broadcasting service and capable of limited data transmission and reception with a user side using an alarm broadcasting service through a communication network;
Based on the weather information received from sensors distributed in various areas, it determines whether there is a disaster, generates an alarm broadcast message, and transmits it through the communication network. A user processing station in which limited data interworking is performed;
A control station group, which is distributed in various areas for alarm broadcasting, is connected to the user processing station through a communication network, and includes a control station group configured to receive and propagate the alarm broadcasting message transmitted from the user processing station; And
In-house type of adaptive adaptation to changes in the use environment characterized in that it comprises a group of alarm stations consisting of a plurality of alarm stations to substantially reproduce the alarm broadcast transmitted through the user processing station to the local people Disaster alert broadcasting service providing system. The method of claim 1,
And the user processing station is installed in a user-owned system or on a specific internal network such as an intranet in an in-house manner. The method of claim 2,
The support center server,
A change information update server for transmitting change information of equipment to the user processing station; And
It is configured to include the monitoring server for receiving the status information of the equipment, such as the control station, alarm station, etc. transmitted from the user processing station, and sends an emergency command signal when an unusual occurrence occurs, the adaptability to changes in the use environment is enhanced In-house disaster disaster alarm broadcasting service providing system. The method of claim 3,
When the change information update server receives change information such as replacement or addition of alarm station equipment, the change information update server transmits change information about the location and identification number of the corresponding alarm station and the message format that can be reproduced, and is provided to the user processing station. An in-house disaster disaster alert broadcasting service providing system that is configured to update the stored information of the message format library. The method of claim 3,
When the status information received from the user processing station is related to an unusual condition such as a failure of an alarm station or a system down, the monitoring server restarts a system of equipment in which an unusual condition such as a corresponding alarm station occurs in the support center server. It is configured to transmit an emergency command signal such as, or to send an emergency command signal for immediate action to the administrator in charge of the equipment management of the local area of the in-house method that is more adaptive to changes in the use environment Disaster alert broadcasting service providing system. The method of claim 3,
The user processing station,
Weather information receiving unit for receiving the detection signal transmitted from the USN detection unit distributed in various areas in order to secure accurate weather information for determining the occurrence of a disaster disaster in the database;
A disaster disaster determination unit that determines whether a disaster has occurred based on various detection signals received through the weather information receiver;
A message processing unit which reads the format of the disaster warning message reproducible from the alarm station of the region determined to be the occurrence of the disaster disaster in the message type library and converts the message to the output means of each alarm station;
A support center access limiting unit configured to set access rights of a support center server connected on a communication network to allow limited data communication with the support center server;
A change information receiving module for receiving update information of devices transmitted from the change information updating server through a communication network and updating storage information such as a message format library; And
In-house that is more adaptive to changes in the use environment, characterized in that it comprises a status reporting module for generating the status information of the plurality of control stations or alarm stations at regular intervals and transmits the status information to the support center server through a communication network. Disaster alarm broadcasting service providing system. The method of claim 6,
The user processing station,
A message format library for storing a message format reproducible by a plurality of alarm stations together with an identification number of each alarm station; And
And a database installed in conjunction with the disaster determination unit so that various detection signals received by the weather information receiver and weather information at the time of a disaster occurrence can be stored together and used as data for determining whether a disaster has occurred. In-house disaster disaster alarm broadcasting service providing system that is more adaptable to changes in usage environment. The method of claim 6,
The weather information receiver forms a sensor network with USN sensors installed in a plurality of regions, and is configured to receive a detection signal of a corresponding region at a predetermined time, and is a meteorological office, a disaster prevention department, or an infrastructure already established for each region. In-house disaster disaster alert broadcasting service providing system that is adapted to change in the use environment, characterized in that the interconnected on the communication network to receive the observed weather information from the local government. The method of claim 8,
The USN sensing unit (M2M) forms a network that forms a communication path with a plurality of sensors installed in a remote area based on the ubiquitous sensor network and the weather information receiving unit for transmitting the sensing information obtained from the sensor. In-house disaster disaster alert broadcasting service providing system that is more adaptable to changes in the use environment, characterized in that the platform is configured. The method of claim 8,
The USN detection unit includes a plurality of golf courses, a plurality of bus stops, sensors installed in a plurality of public buses, and a plurality of automatic weather systems (AWS) interlocking with weather station observation equipment through a communication module. In-house disaster warning broadcasting service providing system that is more adaptable to changes in usage environment. 11. The method according to any one of claims 6 to 10,
The message processing unit includes a TTS module for converting an alarm broadcast message in a text form into an audio form, and an EWS module for producing an emergency alert broadcast through a broadcasting means such as a DMB based on the text broadcast alarm broadcast message. In-house disaster disaster alarm broadcasting service providing system with enhanced adaptability to changing usage environment. An in-house building step of the user processing station that receives weather information and installs a user processing station that determines whether to send a disaster warning alert broadcast to a system of a user using a disaster warning broadcast service in-house;
A support center server access limiting step of restricting external access authority of data transmission and reception with the user processing station on a communication network such as the Internet by an external support center server operated and managed by a service provider providing the disaster warning alert broadcasting service;
A status report step of transmitting status information of external control stations and alarm stations connected to the user processing station to a monitoring server of the support center server;
When the change of the equipment according to the status information is recognized, the change information such as the identification number and the reproducible message format, such as the location of the changed equipment transmitted from the change information update server of the support center server through the communication network interlocked within the limited range, is received. Fluctuation information receiving step;
A user processing station updating step of updating and storing a message format library according to the received variation information; And
Based on the weather information obtained from the USN detectors distributed in various regions, it is possible to determine whether a disaster has occurred and to generate an alarm broadcast message and to send it to the control stations and alarm stations distributed in remote areas. Method of providing an in-house disaster disaster alarm broadcast service that is more adaptable to changes in the use environment, characterized in that. The method of claim 12,
The support center server access restriction step,
A monitoring server interworking process for forming a limited gateway for transmitting status information of a plurality of control stations, alarm stations, and user processing stations installed in separate locations to a support center server; And
And a change information update server interworking process for forming a limited gateway with the support center server to receive change information such as an identification number or a message format of equipment constituting the control station and the alarm station. A method of providing an in-house disaster alert broadcasting service with enhanced adaptability to changing usage environment. The method of claim 13,
If the status information transmitted in the status reporting step relates to an unusual condition such as a failure of an alarm station or a system down, the support center server may restrict the system such as restarting the equipment in which an unusual condition such as a corresponding alarm station occurs. The in-house is more adaptable to changes in the use environment, characterized in that it further comprises an emergency action step of transmitting an emergency command signal or a signal for requesting immediate action to the manager in charge of managing the equipment of the region. How to provide disaster disaster alert broadcasting service The method according to any one of claims 12 to 14,
The disaster warning broadcasting step,
A weather information receiving process of receiving and storing weather information of various regions transmitted from a plurality of USN detectors distributed in a plurality of regions on a communication network through an M2M platform;
Disaster disaster determination process of comparing the received weather information with past weather information stored in the database to determine and predict the occurrence of a disaster disaster;
An alarm broadcast message processing step of generating an alarm broadcast message suitable for each region when a disaster disaster occurs or is expected, and converting the generated alarm broadcast message into a message format reproducible by an alarm station installed in each region;
Enhance adaptability to changes in the use environment, comprising the process of transmitting an alarm broadcast message that transmits an alarm broadcast message that is reproduced at each alarm station to a control station and an alarm station installed in each region through a communication network. In-house disaster disaster broadcasting service providing method.

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