KR101930932B1 - Method and apparatus for providing emergency alert broadcasting - Google Patents

Abstract

The disaster broadcast providing apparatus relays the DMB broadcast signal to the broadcast receiving apparatus within the predetermined signal range. In addition, the disaster-broadcast providing apparatus determines a disaster situation using data measured from a sensing means installed at a specific place, and generates a disaster-announcement signal when a disaster occurs and a wake-up signal to awaken a broadcast- And then stops relaying the DMB broadcast signal and transmits a disaster broadcast signal and a wake up signal to the broadcast receiving apparatus.

Description

METHOD AND APPARATUS FOR PROVIDING EMERGENCY ALERT BROADCASTING [0002]

The present invention relates to an apparatus and method for providing a disaster broadcast, and more particularly, to a method and apparatus for providing a disaster broadcast service through a terrestrial digital multimedia broadcasting transmission apparatus.

Conventional terrestrial digital multimedia broadcasting (T-DMB) relay apparatuses focus on relaying broadcast signals of various channels. Although such a broadcast relay apparatus performs a relay function of a broadcast signal for a specific area, there is no function to respond to an emergency situation.

In addition, the conventional DMB system provides the same broadcasting service to a plurality of areas, rather than providing a broadcasting service to only a specific area. Emergency broadcasting or disaster broadcasting service for a specific area is also provided in the entire area, not in a specific area. Therefore, when an emergency occurs in a specific area, it is difficult to automatically detect and determine a disaster situation and provide a disaster broadcasting service only in that area.

In addition, if a receiver user is not watching a T-DMB in a specific area such as a tunnel or a subway, there is a problem that the current disaster situation can not be known.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus and method for providing a disaster broadcasting service in a region where a disaster occurs.

Another object of the present invention is to provide a device and method for providing a disaster broadcasting service to a user who is not receiving a broadcast in the event of a disaster.

According to an embodiment of the present invention, a method of providing a disaster broadcast in a disaster broadcast providing apparatus is provided. A method of providing a disaster broadcast includes relaying a digital multimedia broadcasting (DMB) broadcast signal to a broadcast receiving apparatus in a signal reaching range, receiving at least one data measured from a sensing means installed at a specific place, Generating a wake-up signal for waking up a broadcast receiving apparatus in a disaster broadcasting signal and a broadcasting termination mode when a disaster occurs, stopping the relay of the DMB broadcasting signal, Signal and the wake-up signal.

According to the embodiment of the present invention, it is possible to automatically detect and determine a disaster situation occurring in a specific area, thereby providing a disaster broadcasting only to a corresponding area, and to provide a Wake-up ) Signal to transmit a disaster broadcast, a receiver that is not watching the T-DMB can receive the disaster broadcast.

1 is a diagram illustrating an apparatus for providing a disaster message according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a broadcast transmission unit shown in FIG. 1. Referring to FIG.
3 is a diagram showing an example of a wake-up channel.
4 is a diagram showing the disaster monitoring unit shown in FIG.
5 is a flowchart illustrating a method of providing a disaster broadcasting service in a monitoring unit according to an embodiment of the present invention.
6 is a flowchart illustrating a method of providing a disaster broadcast service in a broadcast transmitter according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification and claims, when a section is referred to as "including " an element, it is understood that it does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Now, an apparatus and method for providing a disaster broadcasting according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a diagram illustrating an apparatus for providing a disaster message according to an embodiment of the present invention.

Referring to FIG. 1, the apparatus for providing a disaster broadcast includes a disaster monitoring unit 100 and a broadcast transmitter 200.

The disaster monitoring unit 100 analyzes data from a sensing means capable of detecting a disaster situation such as a closed circuit television (TV), a smoke sensor, and a temperature sensor, and determines whether or not the disaster situation exists. Such sensing means may be installed in a location such as a tunnel or an underground space.

If the disaster monitoring unit 100 determines that a disaster has occurred, it transmits a disaster occurrence signal to the broadcast transmitter 200 to notify the disaster situation, and transmits at least one of the video, voice, and data related to the disaster situation to the broadcast transmitter 200 do.

In addition, the disaster monitoring unit 100 determines an emergency level of a disaster situation, and if the emergency disaster situation is determined, the broadcast transmission unit 200 transmits a wake-up request to the broadcast receiver, And transmits a wake-up request signal to the broadcast transmission unit 200. [

The broadcast transmission unit 200 receives and relays the DMB broadcast signal.

Also, when a disaster occurrence signal is received from the disaster monitoring unit 100, the broadcast transmission unit 200 generates a disaster broadcast signal using at least one of image, voice, and data of the disaster situation, and transmits the disaster broadcast signal.

The broadcast transmission unit 200 stops relaying the DMB broadcast signal and transmits a disaster broadcast signal. The broadcast transmitter 200 may combine the DMB broadcast signal and the disaster broadcast signal to transmit the combined signal.

Only the broadcast receiving apparatus in the signal arrival area of the broadcast transmitter 200 can receive the disaster broadcast signal.

Upon receiving the wake-up request signal from the disaster monitoring unit 100, the broadcast transmission unit 200 generates a wake-up signal and transmits a wake-up signal.

Generally, a broadcast receiving apparatus provides a broadcast service in a broadcast mode, and when a broadcast service is terminated by a user's request, the broadcast receiving apparatus is switched to a broadcast end mode. In the case of the broadcast receiving apparatus in the broadcast end mode, the broadcast transmitter 200 can not receive a disaster broadcast signal even if it is transmitted.

The wake up signal is a signal to awaken the broadcast receiving apparatus. When the broadcast receiving apparatus in the broadcast end mode receives the wake up signal, the wake up signal is awakened by the wake up signal and is switched to the broadcast mode. Accordingly, the broadcast receiving apparatus can receive the disaster broadcast service.

FIG. 2 is a diagram illustrating a broadcast transmission unit shown in FIG. 1, and FIG. 3 is a diagram illustrating an example of a wakeup channel.

2, the broadcast transmitter 200 includes a DMB broadcast repeater 210, a disaster broadcast generator 220, a switching unit 230, an up converter 240, an amplifying and filtering unit 250, 260).

The DMB broadcast repeater 210 receives the DMB broadcast signal through the receive antenna and relays the received DMB broadcast signal. The DMB broadcast repeater 210 may include a filter 212 and a down-converter 214. The filter 212 removes noise by filtering the DMB broadcasting signal, and the down-converter 214 converts the DMB broadcasting signal from which the noise is removed into an intermediate frequency (IF).

The disaster broadcast generating unit 220 includes a disaster broadcast encoder 221, a disaster broadcast multiplexer 222, a modulator 223, a wakeup generator 224, and a wakeup synthesizer 225.

The disaster broadcasting encoder 221 receives at least one service stream from the disaster monitoring unit 100, and encodes the received service stream.

The disaster broadcast multiplexer 222 receives a DMB broadcast signal through a receive antenna as an RF signal and analyzes a fast information group (FIG) of a DMB broadcast signal. The disaster broadcast multiplexer 222 multiplexes the at least one service stream received from the disaster broadcast encoder 221 into one ensemble and analyzes one FIGURE of the DMB broadcast signal to generate one ensemble as a DMB broadcast signal To an ensemble transport interface (ETI) signal of the same type as that of FIG. That is, the disaster broadcast multiplexer 222 generates an ETI signal corresponding to the disaster broadcast signal in the same manner as the standard of the DMB broadcast signal.

The modulator 223 modulates the ETI signal by CODDM (Coded Orthogonal Frequency Division Multiplexing) to generate an ETI modulated signal of the IF.

Upon receiving the wake up request signal from the disaster monitoring unit 100, the wake up generating unit 224 generates a wake up signal.

3, the wakeup channel is referred to as an EWASC (Emergency Wake-up Alert Service Channel), and the EWASC includes an EWC (Emergency Wake-up Channel) and an EMC (Emergency message channel). Therefore, the EWC is a channel for sending a wake-up signal, and the wake-up signal is used for waking up the broadcast receiving apparatus and can be transmitted through the EWC. EMC is a channel to transmit additional information such as voice or data about a disaster situation, and voice or data about a disaster situation may be transmitted through EMC.

On the other hand, the wake-up signal and the additional information can be applied to the DMB broadcast signal as noise. Therefore, the wake-up signal and additional information are transmitted with a smaller signal size than the DMB broadcast signal. For example, the wake-up signal may have a signal size of about -19 dB compared to the DMB broadcast signal, and the additional information may have a signal size of about -15 dB compared to the DMB broadcast signal. In this case, even if the wakeup signal or the additional information acts as noise on the DMB broadcast signal, it may not significantly affect the reception of the DMB broadcast signal.

Referring again to FIG. 2, the wakeup synthesizer 225 synthesizes the wake-up signal with the ETI modulation signal and outputs the resultant signal.

The switching unit 230 connects the output of the DMB broadcast repeater 210 or the output of the disaster broadcast generation unit 220 to the up converter 240 under the control of the system controller 260. The system control unit 260 determines switching according to whether or not a disaster occurrence signal is received. That is, when receiving the disaster occurrence signal, the system controller 260 connects the disaster broadcast generating unit 220 and the up converter 240, and if not, connects the DMB broadcast repeater 210 and the up converter 240.

The up converter 240 frequency up-converts the IF signal from the DMB broadcast repeater 210 or the disaster broadcast generating unit 220 into an RF signal and outputs the RF signal to the amplifying and filtering unit 250.

The amplification and filter unit 250 amplifies and filters the RF signal, and transmits the RF signal through a transmission antenna.

That is, if a disaster occurrence signal is not received from the monitoring unit 100, the broadcast transmission unit 100 transmits an RF signal corresponding to the DMB broadcast signal, and a disaster occurrence signal is received from the monitoring unit 100 It transmits an RF signal corresponding to the disaster broadcast signal.

Upon receiving the disaster occurrence signal from the monitoring unit 100, the system control unit 260 operates the disaster broadcast generating unit 220 and controls the switching unit 230 to increase the output of the disaster broadcast generating unit 220 Converter 240 as shown in FIG. In particular, when receiving a wake-up request signal from the monitoring unit 100, the system control unit 260 operates the wake-up generating unit 224 to generate a wake-up signal.

4 is a diagram showing the disaster monitoring unit shown in FIG.

4, the disaster monitoring unit 100 includes an input image processing unit 101, a fire image extracting unit 103, a fire situation determining unit 105, an input image comparing unit 107, an accident situation determining unit 109 A sensor data processing unit 111, a sensing data analysis unit 113, a sensing data determination unit 115, a disaster situation determination unit 117, an output unit 119, and a module control unit 121.

The input image processing unit 101 captures the image data input from the CCTV in accordance with the interface standard, decodes the captured image data, and outputs the decoded image data to the fire image extracting unit 103.

The fire image extracting unit 103 extracts fire and smoke image data from the image data input from the input image processing unit 101 and outputs the extracted fire and smoke image data to the fire situation determination unit 105.

The fire situation determination unit 105 analyzes the fire and smoke image data output from the fire image extraction unit 103 to determine the fire situation and outputs the fire situation information and the image data to the disaster situation determination unit 117. [

The input image comparison unit 107 compares the current image frame with the previous image frame with respect to the current image data input from the input image processing unit 101 and outputs the comparison result to the accident situation determination unit 109.

The accident situation determination unit 109 determines an accident situation based on the comparison result between the current image frame and the previous image frame, and outputs the accident situation information and the image data. The accident situation determination unit 109 may determine that an accident has occurred when the image change is judged not to be large or there is no image change from the comparison result between the current image frame and the previous image frame.

The sensor input processing unit 111 processes sensed data input from a sensor such as a smoke sensor or a temperature sensor according to the interface standard and outputs the sensed data to the sensing data analysis unit 113.

The sensing data analysis unit 113 analyzes the sensing data output from the sensor input processing unit 111 and outputs the analysis data to the sensing data determination unit 115.

The sensing data determination unit 115 determines a fire and disaster situation through the analysis data from the sensing data analysis unit 115 and outputs fire and disaster situation information and sensing data to the disaster situation determination unit 117. The sensing data determination unit 115 may determine that a fire or a disaster occurs when the smoke or the temperature is higher than the set reference value through the analysis data from the sensing data analysis unit 115. [

The disaster situation determination unit 117 determines a disaster situation based on the various information input from the fire situation determination unit 105, the incident situation determination unit 109 and the sensing data determination unit 115 and the related image and sensing data Comprehensive analysis to determine the current disaster situation and disaster location.

The disaster situation determination unit 117 outputs the finally determined disaster situation information to the module control unit 119 and outputs the image and sensing data related to the disaster situation to the output unit 119. [

The control unit 121 monitors the measured data from the sensing means such as the CCTV, the smoke sensor, and the temperature sensor, and grasps the situation of the place. For example, when the sensing means is installed in a place such as a tunnel or an underground space, the controller 121 grasps a situation of a place such as a tunnel or an underground space by monitoring the measured data from the sensing means.

That is, the images and various sensor data of the input image processing unit 101 and the sensor input processing unit 111 are input to the control unit 121, and the control unit 121 monitors the status of the corresponding place based on the input. At this time, if a disaster situation occurs at the corresponding place, the disaster state determination unit 117 outputs the finally determined disaster state information to the controller 121, and the controller 121 receives the disaster state information from the disaster state determination unit 117 Upon receipt, the output unit 119 is operated to generate a disaster occurrence signal and output it to the broadcast transmission unit 200.

The output unit 119 outputs the image and sensing data related to the disaster situation input from the disaster situation determination unit 117 to the broadcast transmission unit 200 according to the operation control signal input from the control unit 121. [

In addition, when a disaster occurs, additional information such as voice and text can be input from the outside of the manager or the like to the control unit 121, and the control unit 121 transmits the additional information inputted from the outside to the output unit 119 .

The output unit 119 outputs the additional information input from the control unit 121 to the broadcast transmission unit 200.

In addition, the control unit 121 determines the degree of emergency of the disaster situation based on the finally determined disaster situation information. If it is determined that the disaster situation is an emergency, the broadcast transmission unit 200 transmits a wake- Up request signal so as to send a wake-up signal to the broadcast transmitter 200. The wake- Alternatively, the controller 121 may generate a wake-up request signal simultaneously with the disaster occurrence signal. That is, the controller 121 can generate a wake-up request signal when a disaster occurs, irrespective of an emergency situation.

The control unit 121 may output the disaster occurrence signal and the wake up request signal to the broadcast transmission unit 200 through the output unit 119. However, the control unit 121 may transmit the disaster occurrence signal and the wake up request signal To the broadcast transmission unit 200. [

5 is a flowchart illustrating a method of providing a disaster broadcasting service in a monitoring unit according to an embodiment of the present invention.

Referring to FIG. 5, the control unit 121 of the monitoring unit 100 monitors the status of the specific place based on the measured data from the sensing unit installed at a specific location (S500).

The fire situation determination unit 105 of the monitoring unit 100 analyzes the video data of the CCTV to determine a fire situation and the accident situation determination unit 109 of the monitoring unit 100 determines whether or not the video data of the CCTV And the current image data to judge the accident situation. The sensing data determination unit 115 of the monitoring unit 100 analyzes sensing data such as a smoke sensor and a temperature sensor to determine a fire and a disaster situation.

The disaster situation determination unit 117 of the monitoring unit 100 comprehensively analyzes the situation information determined by the fire situation determination unit 105, the incident situation determination unit 109 and the sensing data determination unit 115, (S502), and outputs the disaster situation information to the control unit 121. [0086] Also, the disaster state determination unit 117 outputs the image and sensing data related to the disaster situation to the output unit 119.

Upon receiving the disaster information, the controller 121 of the monitoring unit 100 activates the output unit 119, generates a disaster occurrence signal, and outputs the disaster occurrence signal to the broadcast transmission unit 200 (S504).

The output unit 119 outputs the image and sensing data from the disaster situation determination unit 117 to the broadcast transmission unit 200 (S506). At this time, if there is additional information received from the outside through the control unit 121, the output unit 119 can output additional information to the broadcast transmission unit 200 as well.

The control unit 121 of the monitoring unit 100 determines the emergency degree of the disaster situation based on the disaster situation information (S508), and determines whether the emergency situation is an emergency from the disaster situation (S510).

The controller 121 of the monitoring unit 100 generates a wake-up request signal (S512) if it is determined to be an emergency.

The control unit 121 of the monitoring unit 100 outputs a wake-up request signal to the broadcast transmission unit 200 (S514).

6 is a flowchart illustrating a method of providing a disaster broadcast service in a broadcast transmitter according to an embodiment of the present invention.

6, the system controller 260 of the broadcast transmitter 200 receives the disaster broadcast signal from the monitoring unit 100 in operation S600, operates the disaster broadcast generator 220, And connects the output of the disaster broadcast generation unit 220 to the up-converter 240.

The disaster broadcast generating unit 220 receives video, sensing data, voice, and text input from the monitoring unit 100 according to an operation control signal of the system control unit 260.

The disaster broadcast generating unit 220 encodes at least one service stream of the video, voice, and data related to the disaster situation (S602), and multiplexes the received at least one service stream into one ensemble (S604).

The disaster broadcast generating unit 220 converts the multiplexed ensemble into an ETI signal, and performs COFDM modulation to generate a disaster broadcast signal (S606). The generated disaster broadcasting signal is frequency up-converted into an RF signal, amplified and filtered, and transmitted through a transmission antenna (S608).

The system control unit 260 controls the wakeup generation unit 224 and the wakeup generation unit 224 controls the wakeup generation unit 224. The system control unit 260 controls the wake- And generates a wake-up signal in accordance with the control (S612).

When the wakeup signal is generated, the wakeup synthesizer 226 synthesizes the wakeup signal with the disaster broadcast signal (S614). The synthesized signal is frequency up-converted into an RF signal, amplified and filtered, and transmitted through a transmission antenna (S616).

The embodiments of the present invention are not limited to the above-described apparatuses and / or methods, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded, Such an embodiment can be readily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (9)

A method for providing a disaster broadcast in a disaster broadcast providing apparatus,
Relaying a digital multimedia broadcasting (DMB) broadcast signal to a broadcast receiving apparatus in a signal reaching range,
Receiving at least one measured data from a sensing means installed at a specific location,
Determining a disaster situation based on the at least one data,
Generating a disaster broadcast signal and a wake-up signal for waking up a broadcast receiving apparatus in a broadcast end mode when a disaster occurs; and
Stopping the relay of the DMB broadcast signal and transmitting the disaster broadcast signal and the wake up signal
/ RTI >
The transmitting step
Transmitting the disaster broadcasting signal through an emergency message channel (EMC) of a wakeup channel different from a broadcasting channel for transmitting the DMB broadcasting signal, and
And transmitting the wake-up signal through an emergency wake-up channel (EWC) of the wakeup channel different from the EMC. The method of claim 1,
Wherein the generating includes generating the wake-up signal when the emergency degree of the disaster situation is determined to be an emergency. The method of claim 1,
The receiving step
Receiving the photographed image data from the image photographing apparatus, and
Receiving sensed data from at least one sensor,
Wherein the at least one sensor comprises at least one of a smoke sensor and a temperature sensor. 4. The method of claim 3,
The determining step
Extracting image data corresponding to fire and smoke from the received image data to determine a fire situation,
Determining an accident situation based on a result of comparison between a current image frame and a previous image frame from the received image data,
Determining a fire and disaster situation from the sensed data, and
And analyzing a fire situation and a disaster situation judged from the fire situation, the accident situation and the sensed data judged from the image data to determine a disaster situation and a disaster location. The method of claim 1,
And the transmitting step includes converting the disaster broadcast signal and the wake up signal to the same transmission standard of the DMB broadcast signal. The method of claim 1,
And the transmitting step includes combining the disaster broadcast signal and the wake up signal. The method of claim 1,
The transmitting step
Receiving additional information from outside when the disaster occurs; and
And transmitting the additional information together with the disaster broadcast signal. The method of claim 1,
The transmitting step
And transmitting the signal intensity of the disaster announcement signal and the wake up signal to be less than the signal intensity of the DMB broadcast signal. delete

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