KR102384207B1 - System and method for disaster broadcasting - Google Patents

Abstract

A disaster warning system and method are provided. When receiving a message requesting delivery of a disaster or emergency warning message from an external organization, the emergency alert message management device of the disaster warning system generates an emergency alert message, interprets the received messages, and performs parsing to perform disaster or emergency Obtain information related to the situation. The automatic recognition management apparatus determines whether to activate the automatic recognition function for the generated emergency alert message, and includes an automatic recognition field including a value according to the determination result in the emergency alert message. Thereafter, the emergency alert service app processing device transmits the emergency alert message and link information on the alert content to the terrestrial transmission system so as to be transmitted to the receiving terminal.

Description

Disaster warning system and method {System and method for disaster broadcasting}

The present invention relates to disaster warning, and more particularly, to an ATSC 3.0 based disaster warning system and method therefor.

Natural disasters such as typhoons and earthquakes as well as social disasters such as fires and explosions continue to occur around the world, and the scale of damage caused by them is also on the rise. Accordingly, major countries, such as the United States, Japan, and Korea, manage disaster situations and disaster response information to reduce damage caused by disasters, and establish a disaster warning system that can deliver disaster situations and related information through broadcasting networks and communication networks. and is being operated, and the system is continuously being supplemented to deliver more prompt and accurate disaster information.

When a national disaster occurs or is expected, major national agencies (Ministry of Public Administration and Security, Meteorological Administration, National Police Agency, local government, etc.) may send a disaster alert to deliver information necessary for disaster prevention, evacuation, rescue, and recovery. Disaster alerts transmitted in this way are delivered to the public in the form of subtitles, text messages, and alarm sounds through the networks owned by the broadcasting and key telecommunication companies that have received the alert transmission request. In Korea, disaster messages can be received through CBS (Cell Broadcasting System) using mobile communication systems and DMB (Digital Multimedia Broadcasting, etc.) there is.

These disaster warning systems provide disaster information in a form according to the characteristics of the medium through which the alert is transmitted. For example, in the case of a communication network-based CBS, it has the advantage of providing disaster-related information the fastest in a disaster situation, but it is difficult to provide continuous disaster information due to data traffic problems, and images, videos, etc. It is difficult to provide rich media information of In addition, in a serious disaster situation, there is a high possibility of communication failure, so it may be difficult to perform its functions. On the other hand, disaster systems based on broadcasting networks, such as DMB and digital broadcasting, deliver disaster information relatively later than communication networks. There are advantages to being able to However, it is still difficult to provide rich media.

On the other hand, domestic terrestrial UHD (Ultra High Definition) broadcasting is based on the Advanced Television Systems Committee 3.0 standard (ATSC) in the United States. It has the ability to provide a disaster broadcasting service differentiated from the system of

Countries that introduce ATSC 3.0-based terrestrial wave systems, such as the United States and Korea, plan to introduce disaster broadcasting systems suitable for a new broadcasting system environment, and there is a need to develop a new system suitable for ATSC 3.0 standards.

As a related prior document, there is "an apparatus and method for providing an emergency alert service through a broadcasting system" described in Korean Patent Application Publication No. 2015-0113955.

An object of the present invention is to provide a system and method for performing a disaster alert suitable for an ATSC 3.0 standard-based terrestrial broadcasting system environment.

A system according to an embodiment of the present invention is a system for performing a disaster alert in connection with a terrestrial transmission system for terrestrial broadcasting, and generates an emergency alert message when receiving a message requesting delivery of a disaster or emergency warning message from an external organization and an emergency alert message management device configured to interpret the received messages and perform parsing to obtain information related to a disaster or emergency situation; an automatic recognition management device configured to determine whether to activate an automatic recognition function for the generated emergency alert message, and include an automatic recognition field including a value according to the determination result in the emergency alert message; and an emergency alert service app processing device configured to transmit the emergency alert message and link information on alert content to the terrestrial transmission system to be transmitted to a receiving terminal.

According to embodiments of the present invention, an emergency alert message can be efficiently transmitted to receiving terminals through a terrestrial broadcast transmission system based on the ATSC 3.0 standard.

In addition, it is possible to provide a system functioning as a disaster broadcasting master control system supporting functions such as emergency alert message management, automatic recognition management, emergency alert policy management, rich media management, and AEAT (Advanced Emergency Alerting Table) generation.

1 is a diagram showing the structure of an ATSC 3.0 based broadcasting system according to an embodiment of the present invention.
2 is a diagram illustrating a detailed structure of a terrestrial UHD disaster warning system according to an embodiment of the present invention.
3 is a flowchart of a disaster warning method of a terrestrial UHD disaster warning system according to an embodiment of the present invention.
4 is a diagram showing the structure of a terrestrial UHD disaster warning system according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be implemented in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

In this specification, expressions described in the singular may be construed in the singular or plural unless an explicit expression such as “a” or “single” is used.

In addition, terms including ordinal numbers such as first, second, etc. used in an embodiment of the present invention may be used to describe the constituent elements, but the constituent elements 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, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

Hereinafter, a disaster broadcasting apparatus and method according to an embodiment of the present invention will be described with reference to the drawings.

1 is a diagram showing the structure of an ATSC 3.0 based broadcasting system according to an embodiment of the present invention.

The ATSC 3.0-based broadcasting system 1 according to an embodiment of the present invention provides a terrestrial Ultra High Definition (UHD) TV broadcasting service based on the ATSC 3.0 standard, and as shown in FIG. 1 , a terrestrial wave that transmits a broadcasting signal It includes a UHD transmission system 10 and a terrestrial UHD disaster warning system 20 that provides a warning message and related content for notifying a disaster or emergency situation through the terrestrial UHD transmission system 10 . The ATSC 3.0-based broadcasting system 1 communicates with the reception terminal 2 including the ATSC 3.0-based reception device, and is connected to an external organization 3 requesting delivery of a disaster or emergency warning message. In addition, the broadcasting system 1 is connected to a content server 4 that provides various types of content. The content server 4 includes external content operated by a control system other than the broadcasting station and internal content, which is various multimedia content stored and managed through a content server operated by the broadcasting station itself.

The terrestrial UHD transmission system 10 includes an A/V (Audio/Video) encoder 11 that encodes information (auxiliary and additional information, etc.) transmitted from the terrestrial UHD disaster warning system 20, and a scrambler that scrambles the encoded information. (12), a signaling server 13 that receives and processes emergency alert and disaster-related information from the terrestrial UHD disaster warning system 20, a signal from the signaling server 13, and a signal from the scrambler 12 A multiplexer 14 that performs scheduling on the multiplexed signal, a scheduler 15 that performs scheduling on the multiplexed signal, an exciter 16 that modulates the scheduled signal, converts it into an RF signal and transmits it, and the encoder 11 and a content providing server 17 that provides information and various contents through the Internet. Since the operation of the terrestrial UHD transmission system 10 having such a structure is a known technique, a detailed description thereof will be omitted.

The broadcasting system 1 providing the UHD broadcasting service based on the ATSC 3.0 standard must support the functions and procedures for executing the EA (Emergency Alert) service standard defined in the ATSC 3.0 standard for delivering an emergency alert message. , including a terrestrial UHD disaster warning system 20 as in FIG. 1 . The terrestrial UHD disaster warning system 20 is a receiving terminal 30 equipped with an ATSC 3.0 receiver through the terrestrial UHD transmission system 10 that transmits UHD broadcast service according to the ATSC 3.0 standard, and is related to emergency alerts and disasters. Delivers messages and related content.

To this end, the terrestrial UHD disaster warning system 20 includes an emergency alert message management device 21 , an emergency alert policy management device 22 , and automatic wake-up management. ) includes a device 23 , an Emergency Alert Service APPlication processing device 24 , and a Rich Media Management device 25 .

The emergency alert message management apparatus 21 provides a connection interface with external organizations 3 that request delivery of a disaster or emergency alert message through the broadcast system 1 . In order to be able to deliver various types of messages collected from external organizations (3) in the event of a disaster to the receiving terminal (2) equipped with the ATSC 3.0 receiver by combining the components defined in the ATSC 3.0 EA service, the corresponding message interprets them and performs parsing.

The emergency alert policy management device 22 manages criteria to be applied when a broadcaster delivers disaster and emergency alert messages collected from outside or generated by itself to the receiving terminal 50 . Specifically, the emergency alert policy management device 22 stores a message propagation policy for enabling customized transmission by region or application range of a message for each type of emergency alert situation, and by target recipient, and based on this, the EA service It performs a function that allows it to be performed and managed.

The automatic recognition management device 23 performs a function of setting an automatic recognition function when sending a message. Receivers such as TVs and set-top boxes (STBs) that support the ATSC3.0 standard can automatically detect when an emergency message is received from a broadcasting station in Sleep or Stand-by mode (Wake-Up). ) function. The ATSC 3.0 physical layer signal has two bits of information allocated for the receiver to perform an automatic recognition function in sleep or standby mode. The automatic recognition management device 23 determines whether to activate the automatic recognition function and manages a state conversion process for the corresponding function. Specifically, when a disaster occurs, when the terrestrial UHD disaster warning system 20 receives an emergency alert message from the outside, the automatic recognition management device 23 determines whether or not the automatic recognition function should be activated when the corresponding message is transmitted. When the automatic recognition function needs to be activated, the values of two bits allocated for the automatic recognition function are set, and an emergency alert message including these two bits is transmitted through the terrestrial UHD disaster warning system 20 .

The emergency alert service app processing device 24 receives the emergency alert message information confirmed and verified by the emergency alert message management device 21 in order to provide an EA service to the ATSC 3.0 receiving terminal, and is defined in the ATSC3.0 standard. It creates an Advanced Emergency Alert table (AEAT) to fit the format, prepares all contents related to the corresponding message, and includes EA service logic.

The rich media management device 25 manages various multimedia contents to be transmitted together with the emergency alert message. Specifically, the rich media management apparatus 25 uses various multimedia contents stored and managed through a content server operated by a control system other than a broadcasting station or a content server operated by the broadcasting station itself, and auxiliary and additional information when delivering an alert message. support to be delivered together. In addition, it supports to allow users to selectively browse by requesting related information when necessary.

Next, a detailed structure of the terrestrial UHD disaster warning system 20 that provides an alert message for notifying an emergency and related content in the broadcast system 1 having this structure will be described.

2 is a diagram illustrating a detailed structure of a terrestrial UHD disaster warning system according to an embodiment of the present invention.

In the terrestrial UHD disaster alert system 20 according to an embodiment of the present invention, the emergency alert message management device 21 includes an emergency alert message receiving interface 211 , an emergency alert message generating and editing processing unit 212 , and decoding and syntax It includes an analysis processing unit 213 , and an embedded alert message and content management unit 214 .

The emergency alert message receiving interface 211 is configured to receive disaster and emergency alert messages in various forms. In general, when a disaster or emergency alert needs to be transmitted, the situation is notified to the central control center in the area where it occurs, and the central control center provides emergency warning and disaster information through a trusted information distribution agency. At this time, it is possible to define a standard for information transmitted between each institution and a broadcaster, to ensure the reliability of the transmitted information, and to deliver information even in an environment where each institution can use different transmission media. : Common Alerting Protocol) was established and used. However, when a disaster or emergency alert situation occurs, the disaster or emergency alert message must be delivered to the broadcaster without the system recognizing it using the recommended CAP protocol. Therefore, the emergency alert message management apparatus 21 according to an embodiment of the present invention includes not only a CAP, but also an audio frequency-shift keying (AFSK) signal, a file transfer protocol (FTP), an offline notification, and the like. In order to enable message reception through various data transmission means, various types of disaster and emergency alert messages are received through the emergency alert message receiving interface 211 .

The emergency alert message generating and editing processing unit 212 is configured to generate and edit an emergency alert message based on a message transmitted from the emergency alert message receiving interface 211 . Broadcasters should be able to process the received disaster or emergency alert information into a form suitable for display on ATSC 3.0 receiving devices or to reinforce additional multimedia information produced by themselves. In addition, the broadcaster should prepare for the case of offline delivery rather than online information delivery, and based on the transmitted information, the broadcaster should perform the function of creating a disaster and emergency alert message by itself. In consideration of this, the emergency alert message generation and editing processing unit 212 generates an emergency alert message in a form suitable for expression to the ATSC 3.0 receiving device based on the received message, and edits the emergency alert message to additionally include multimedia information. .

The decryption and parsing processing unit 213 is configured to perform decryption and parsing on the message to store related information. The decryption and parsing processing unit 213 decodes the message received through the emergency alert message receiving interface 211 and/or the information of the emergency alert message transmitted from the emergency alert message generation and editing processing unit 212, and performs a parsing process. It is then stored and managed by dividing it into units of information elements necessary to provide EA services. In the EA service defined in ATSC 3.0, the broadcaster performs signaling to deliver disaster and emergency alert messages based on AEAT. The decoding and syntax analysis processing unit 213 acquires information on fields constituting the AEAT by using information obtained through analysis of an input or generated disaster and emergency alert message, and stores and manages it. The stored information is referred to by other devices constituting the terrestrial UHD disaster warning system 20 as needed to perform a service processing procedure.

The embedded alert message and content management unit 214 transmits the alert message to the emergency alert service app processing device 24 when the emergency alert message and alert content are included in the broadcast program stream to be played, and the associated multimedia content is broadcast It is configured to make a request to the rich media management device 25 so that it can be encoded and transmitted together with the program in progress.

Meanwhile, the emergency alert policy management device 22 includes an emergency alert information management unit 221 , an automatic recognition policy management unit 222 , an alert message target management unit 223 , and an alert message time management unit 224 . ) is included.

The emergency alert information management unit 221 is configured to define and manage standards and exposure methods to be applied to transmit a disaster and emergency alert message through broadcast transmission. The emergency alert information management unit 221 is also configured to manage essential information and optional information necessary to provide the ATSC 3.0 EA service according to the type of emergency alert to be managed. The type of emergency alert may utilize a type coded according to the disaster safety classification system for each country. Each type of information includes an AEAT component that is delivered to an ATSC 3.0 receiving device through ATSC 3.0 EA service signaling. In addition, it further includes information on the contents and format of the emergency alert message that the broadcaster should send to notify the emergency alert situation, and the method of expressing the message to the receiving terminal. The expression method for the receiving terminal may have various expression methods such as a form included in an existing broadcast program, a separate overlapping banner form, and a fixed banner or a scroll-type banner in the case of a banner, and in the case of audio, the existing audio It can take various forms, such as replacing the program audio in the track or transmitting it using a separate secondary audio channel, and stores and manages the definition of the expression method for each type.

The automatic recognition policy management unit 222 is configured to activate the automatic recognition function and manage a policy on whether to apply it. ATSC 3.0 AEA service is an automatic recognition function that enables general users to recognize the alarm situation by forcibly activating the receiving terminal in sleep or standby state in case of an alarm for a situation that may have a serious and serious impact on the emergency alarm message. function is provided. To this end, the automatic recognition policy management unit 222 prepares and manages a strategy for whether to activate and apply the automatic recognition function when receiving an input from the outside or providing an alarm message by self-determination. In addition, a strategy for instructing the setting of the automatic recognition function operation field according to the type or grade of the alarm message is prepared and managed.

The alert message target management unit 223 is configured to set and manage a target to receive an alert message. In order to avoid psychological anxiety and social agitation of recipients by sending emergency alert messages indiscriminately, and to reduce the negative effects of receiving text messages as unnecessary, or to reduce the negative effects of receiving text messages as unnecessary services. You can set a target that is a service target in order to be able to transmit it to the area where it is given. Ensure that low-level disaster messages, such as cautions, not warnings, can be transmitted to areas other than those that directly affect and require attention. To this end, the alert message target management unit 223 designates and manages a target to which emergency alert messages are to be delivered, ie, the locations of receiving terminals, according to the type of emergency situation or the location of the occurrence center region.

The alert message time management unit 224 is configured to manage the time for which the alert message should be maintained and to manage information for periodic transmission of the alert message. The alert message is a message for providing disaster-related information that must be subsequently repeated in response to a change in a corresponding disaster situation after the emergency alert message is transmitted. The alarm message time management unit 224 specifically stores and manages, for the alarm message, the start time and end time for maintaining the corresponding alarm condition, information on the alarm message to be periodically sent within the effective time interval, and the like. .

Meanwhile, the automatic recognition management apparatus 23 includes a wakeup occurrence determining unit 231 and a wakeup state managing unit 232 .

The wakeup occurrence determining unit 231 is configured to verify the emergency alert message information received from the emergency alert message management device 21 to determine what value to set the automatic recognition function activation bit to when transmitting the emergency alert message. In this case, the wakeup occurrence determination unit 231 may refer to the automatic recognition policy managed by the emergency alert policy management apparatus 22 as a determination criterion. The wakeup occurrence determining unit 231 sets the automatic recognition function activation bit (eg, 2 bits) to an arbitrary value according to the determination result, and the automatic recognition function activation bit is included in the emergency alert message.

The auto-aware function enable bit can be set as follows.

The wakeup state management unit 232 is configured to manage state transition of the automatic recognition field. After the primary auto-acknowledgment field (including the auto-acknowledgment enable bit) is activated and communicated, whether the alarm state according to the auto-acknowledgment active indication that has already occurred continues or an alarm condition with a new auto-acknowledgment active state is generated It continuously manages the state transition of the automatic field, such as whether it has been activated or whether the automatic or active state has been released.

On the other hand, the emergency alert service app processing device 24 performs tasks for delivering the emergency alert message information received from the emergency alert message management device 21 to the actual receiving terminal. To this end, the emergency alert service app processing device 24 is a program message generator (Program message generator) 241, AEA (Advanced Emergency Alert) generator 242, media link resolver (Media Link Resolver) 243, the alert state It includes an Alert State Management unit 244 and an Alert Message Transmission Management unit 245 .

The program message generator 241 is a function of preparing a program, such as a local news report, which provides viewers with information about an ongoing emergency, and determines the data needed in the AEA table to include an emergency alert message to be transmitted with the program is configured to The program message generator 241 also passes to the media link resolver 243 a link of multimedia content that may be transmitted along with the emergency alert message. The multimedia content may include one or more images, videos, PDFs, and other content to support or augment an emergency alert message. For example, it may include a photo of a missing child, an evacuation route map, a plume map, a video about recovery or resources, alternative language audio, and many more.

The AEA generator 242 is configured to generate an AEA table according to a standardized format, based on data necessary for the AEA table determined by the program message generator 241 . The AEA table supports AEA signaling for EA service. The AEA generator 242 may generate an AEA table of a correct format according to a standardized format as follows.

The media link resolver 243 is configured to provide link information for content. The media link resolver 243 manages the connection with the broadcaster's own content server or external content server based on the link of the multimedia content delivered from the program message generator 241, and various media content is transmitted in conjunction with the emergency alert message. Link information to appropriate content is provided so that

The alert state management unit 244 is configured to manage the state of creation, change, deletion, etc. of an emergency alert message. When a specific disaster situation occurs, the first emergency alert message is sent, and the status is set to Alert. When information modification of an emergency warning message occurs, such as a simple modification of the text of a disaster message for an emergency warning message that has already occurred or modification of a video to be exposed during a meaningful period of maintaining the message, the previously generated message identifier is updated (updated). ), an additional message is sent. Changes in the description or application area of a previously generated emergency alert message are transmitted as a new message, and a warning message that has been changed to convey the advanced status of a previously generated message or provide new or additional information is an existing message. The message set to the changed state is transmitted with reference to the identifier of If a cause such as cancellation or expiration of the validity period for an emergency alert message that has already occurred occurs, a cancellation message for the corresponding message should be transmitted. For this transmission, the alert state management unit 244 manages the state of creation, change, deletion, etc. of the emergency alert message.

The alert message transmission management unit 245 is configured to control processing and transmission of an alert message that may be subsequently proceeded according to the progress of the corresponding situation after the emergency alert message is generated. For example, after the occurrence of an emergency alert message, an alert message that can be followed up according to the progress of the situation is continuously notified to respond to a disaster or information that is updated gradually after a disaster, such as the location of an evacuation shelter or power supply and demand information Includes long Term Alerts messages that must be delivered over a long period of time for the purpose of providing information that should be addressed. These messages include simple text information and various multimedia information that must be continuously and repeatedly delivered. The alarm message transmission management unit 245 manages continuous transmission by monitoring the issuance time and period of each alarm message in order to provide information according to the progress status periodically or aperiodically for the same event.

On the other hand, the rich media management device 25 manages multimedia content that can be provided together with or separately from the emergency alert message, and for this purpose, the multimedia content management unit 251 , the embedded alert content processing unit 252 , the non-real time data and an expiration management unit 253 .

The contents managed by the rich media management device 25 are, for example, contents prepared in advance to provide additional information related to an event that generates a specific alert in the form of various multimedia contents. These contents can be supplied through a content provider outside the broadcasting company, and can be produced by the broadcasting company itself or can be provided by editing information collected through informants.

The multimedia content management unit 251 is configured to check and connect related content that can be provided with an alert message and manage the corresponding content and link so that it can be transmitted together.

The embedded alert content processing unit 252 is configured to manage content so that, when some alert messages are exposed in an embedded form in a program currently being broadcast, the content can be encoded and transmitted together with the program in the alert message.

The non-real time data expiration management unit 253 is configured to set and manage an expiration time for each content. Rich media related to the alert message are transmitted according to the Non Real Time (NRT) data transmission method of the ATSC3.0 standard. For non-real-time data, expiration time management for non-real-time data is required so that a receiving device receiving it can efficiently manage memory or cache. Depending on the type of alert message containing specific media content, information that has meaning as relevant information for a short period of time (eg, photo information according to a missing child alert) and information that needs to be continuously transmitted over a long period of time (escape tips in case of a disaster) and photo or video content for an evacuation route, etc.), and the time should be set differently according to each alarm type and type of information. Accordingly, the non-real-time data expiration management unit 253 manages the expiration time for each content based on the expiration time for each content set in the Extended File Delivery Table (EFDT).

Terrestrial UHD disaster alert system 20 according to an embodiment of the present invention having the structure as described above, emergency alert message management, automatic recognition management, emergency alert policy management, rich media management, AEAT generation based on the ATSC 3.0 standard It can support functions such as

3 is a flowchart of a disaster warning method of a terrestrial UHD disaster warning system according to an embodiment of the present invention.

The emergency alert message management device 21 of the terrestrial UHD disaster warning system 20 (also called, for short, the disaster warning system) according to an embodiment of the present invention, as shown in FIG. 3, an external organization 3 When receiving a message requesting delivery of a disaster or emergency warning message from (S100), an emergency alert message is generated (S110). The emergency alert message management device 21 generates an emergency alert message based on the emergency information policy preset in the emergency alert policy management device 22 . The emergency information policy includes message application range or priority or message format for each type of emergency alert situation, customized transmission for each target recipient and region, message display method, and the time that the alert message should be maintained.

In addition, the emergency alert message management apparatus 21 interprets the received messages and performs syntax analysis to obtain information related to a disaster or emergency situation, and divides the obtained information into information element units, stores and manages (S120) .

The automatic recognition management device 23 determines whether to activate the automatic recognition function with respect to the generated emergency alert message. Based on the information obtained in step S120 above, it can be determined whether the automatic recognition function is activated. . The automatic recognition management device 23 sets the value of the automatic recognition function activation bit according to the determination result, and includes the automatic recognition field including the set value in the emergency alert message (S130).

Thereafter, the terrestrial UHD disaster warning system 20 performs a task for transmitting the emergency alert message to the receiving terminal 2 ( S140 ), and transmits the tasked emergency alert message through the terrestrial UHD transmission system 10 . (S150). Specifically, when an emergency alert message and alert content (which may be various multimedia content) are included in a broadcast program stream to be played, the emergency alert service app so that the associated multimedia content can be encoded and transmitted together with the broadcast program The processing unit 24 transmits link information on multimedia content managed by the rich media management unit 25 and an emergency alert message to the signaling server 13 of the terrestrial UHD transmission system 10 . Accordingly, the link information for the multimedia content and the emergency alert message are multiplexed with the program being broadcast by the terrestrial UHD transmission system 10 and transmitted to the receiving terminal 2 .

4 is a structural diagram of a terrestrial UHD disaster warning system according to another embodiment of the present invention.

4 , the terrestrial UHD disaster warning system 100 according to another embodiment of the present invention includes a processor 110 , a memory 120 , an input interface device 130 , and an output interface device 140 . , a network interface device 150 and a storage device 160 , which may communicate via a bus 170 .

The processor 110 may be configured to implement the methods described with reference to FIGS. 1 to 3 above. For example, the processor 110 may be configured to perform functions of an emergency alert message management device, an emergency alert policy management device, an automatic cognitive management device, an emergency alert service app processing device, and a rich media management device.

The processor 110 may be a central processing unit (CPU) or a semiconductor device that executes instructions stored in the memory 120 or the storage device 160 .

The memory 120 is connected to the processor 110 and stores various information related to the operation of the processor 110 . The memory 120 may store instructions to be executed by the processor 110 or may temporarily store instructions by loading the instructions from the storage device 160 . The processor 110 may execute instructions stored in or loaded from the memory 120 . The memory may include a ROM 121 and a RAM 122 .

In an embodiment of the present invention, the memory 120/storage device 160 may be located inside or outside the processor 110 , and may be connected to the processor 110 through various known means.

The embodiment of the present invention is not implemented only through the apparatus and/or method described above, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium in which the program is recorded, etc. Also, such an implementation can be easily implemented by an expert in the technical field to which the present invention pertains from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improved forms of the present invention are also provided by those skilled in the art using the basic concept of the present invention as defined in the following claims. is within the scope of the right.

Claims (10)

A disaster warning system for performing a disaster warning in connection with a terrestrial transmission system for terrestrial broadcasting,
When a message requesting delivery of a disaster or emergency warning message is received from an external organization, an emergency alert message is generated, the received message or the generated emergency alert message is interpreted and parsing is performed to provide information related to the disaster or emergency an emergency alert message management device configured to obtain;
An automatic recognition management apparatus configured to determine whether to activate an automatic recognition function for waking up a receiving terminal with respect to the generated emergency alert message, and include an automatic recognition field including a value according to the determination result in the emergency alert message ; and
Data to be included in an Advanced Emergency Alerting (AEA) table is generated based on information provided from the emergency alert message management device, a link to multimedia content is generated, an AEA table is generated based on the generated data, and the terrestrial transmission is performed. An emergency alert service app processing device configured to transmit the emergency alert message, the AEA table, and link information that provides multimedia content while being connected to the content server to the terrestrial transmission system so as to be transmitted to the receiving terminal through the system
Disaster warning system that includes. According to claim 1,
The automatic cognitive management device,
The auto-recognition field includes an auto-recognition function activation bit, wherein the auto-recognition function activation bit includes a first value indicating that an emergency situation is not currently signaled and a plurality of second values indicating different settings while indicating an emergency situation. Including, disaster warning system. According to claim 1,
The emergency alert message management device is configured to acquire information on fields constituting the AEA table based on the information obtained through the analysis and syntax analysis, and to divide the obtained information into information element units to store and manage it, ,
The emergency alert message management device is configured to receive a message transmitted according to at least one of a Common Alerting Protocol (CAP), an Audio Frequency-shift keying (AFSK) signal, and a File Transfer Protocol (FTP). According to claim 1,
Emergency information policy - The emergency information policy specifies the location of the receiving terminals to which the emergency alert message should be delivered according to the type of emergency or the location of the center of occurrence, and the application range or priority of the message for each type of emergency, or An emergency alert policy management device configured to additionally designate at least one of a format and a message display method, and to manage a policy on whether to activate and apply the automatic recognition function
further comprising,
The automatic recognition management device is configured to determine whether to activate the automatic recognition function of the receiving terminal according to a policy related to the automatic recognition function,
The emergency alert service app processing device is configured to transmit the emergency alert message and link information for the alert content according to the emergency information policy. 5. The method of claim 4,
The emergency alert policy management device
An alarm message time management unit configured to set and manage a start time and an end time for maintaining a corresponding alarm condition for the emergency alarm message, and to set and manage information on an emergency alarm message to be sent periodically within an effective time period
Including, disaster warning system. 4. The method of claim 3,
The emergency alert service app processing device,
a program message generator for generating data to be included in an AEA table to be transmitted together with the emergency alert message based on information element units provided from the emergency alert message management device and outputting a link to multimedia content;
an AEA generator for generating an AEA table based on the generated data;
A media link resolver that outputs the link information connected to the content server based on the link output by the program message generator
Including, disaster warning system. 7. The method of claim 6,
A rich media management device configured to create and manage auxiliary and additional information using multimedia content provided from a content server
further comprising,
The emergency alert message, the AEA table, and the link information are provided to a signaling server of the terrestrial transmission system, and are multiplexed with the auxiliary and additional information provided from the rich media management device through the terrestrial transmission system to the receiving terminal. Transmitted, Disaster Alert System. A disaster warning method for performing a disaster warning in connection with a terrestrial transmission system for terrestrial broadcasting,
generating, by the disaster warning system, an emergency warning message when receiving a message requesting delivery of a disaster or emergency warning message from an external organization;
The disaster warning system determines whether to activate an automatic recognition function for waking up the receiving terminal with respect to the generated emergency alert message, and sets an automatic recognition field including a value according to the determination result to the emergency alert message including;
obtaining, by the disaster warning system, information related to a disaster or emergency situation by interpreting the received message or the generated emergency alert message and performing syntax analysis;
generating, by the emergency alert system, an Advanced Emergency Alerting (AEA) table to be transmitted together with the emergency alert message based on the acquired information; and
transmitting the emergency alert message, the AEA table, and link information for providing multimedia content while being connected to a content server to the terrestrial transmission system so that the disaster warning system is transmitted to the receiving terminal through the terrestrial transmission system
Disaster alert method comprising. 9. The method of claim 8,
The auto-recognition field includes an auto-recognition function activation bit, wherein the auto-recognition function activation bit includes a first value indicating that an emergency situation is not currently signaled and a plurality of second values indicating different settings while indicating an emergency situation. includes,
The step of transmitting to the terrestrial transmission system comprises:
Emergency information policy - The emergency information policy specifies the location of the receiving terminals to which the emergency alert message should be delivered according to the type of emergency or the location of the center of occurrence, and the application range or priority of the message for each type of emergency, or Format, message expression method, and additionally designating at least one of an effective time interval including a start time and an end time for maintaining the corresponding alert status for the emergency alert message - based on A disaster warning method for transmitting link information for delete

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