KR101259107B1 - method for transmitting and receiving emergency warning information and apparatus for receiving emergency warning information - Google Patents

Abstract

The present invention relates to a method for transmitting and receiving disaster information and an apparatus for receiving disaster information. The present invention provides a broadcast receiver for receiving a broadcast signal including information on a transmission period for disaster information; A broadcast demodulator for demodulating the broadcast signal received by the broadcast receiver; A signal decoding unit for decoding the demodulated broadcast signal to obtain transmission period information for disaster information; And a power control unit configured to turn on / off at least one of the broadcast receiver, the broadcast demodulator, and the signal decoder according to the transmission period information on the disaster information decoded by the signal decoder. Provides a disaster information receiving device. According to the disaster information transmitting and receiving method and the disaster information receiving apparatus according to the present invention, the power consumption of the disaster information receiving apparatus can be reduced, and the user can receive the disaster information for a long time.

Disaster, Information, Motivation, FIC, EWS, Power

Description

Method for transmitting and receiving emergency warning information and apparatus for receiving emergency warning information}

1 is a diagram illustrating an example of a signal frame structure of digital broadcasting in which disaster information can be transmitted.

2 is a view showing an example of a broadcast signal frame that can be transmitted by the disaster information transmission and reception method according to the present invention

3 is a view showing in detail a frame structure of a signal that can be transmitted by an embodiment of the method for transmitting and receiving disaster information according to the present invention;

4 is a block diagram illustrating an embodiment of an apparatus for receiving disaster information according to the present invention;

5A to 5C are conceptual views illustrating a concept in which an internal block of a disaster information receiving apparatus of the disaster information receiving apparatus is turned on / off

<Description of the code of the main part of drawing>

10: broadcast receiver 20: broadcast demodulator

30: signal decoder 31: FIC decoder

32: MSC decoder 33: EWS decoder

40: memory unit 50: power control unit

60: broadcast signal processor 70: data service processor

80: video processor 85: display unit

90: audio processor 95: speaker

The present invention provides a disaster information transmitting and receiving method and a disaster information receiving apparatus, and more particularly, a disaster information transmitting and receiving method and a disaster information receiving apparatus capable of reducing power consumption of a disaster information receiving apparatus.

As digital broadcasting has become practical, a method of delivering various information to users as well as multimedia contents has been considered. Methods and transmission protocols that inform users of disaster information using digital broadcasting are being considered and supplemented.

The disaster information receiving apparatus may receive disaster information from a broadcast signal according to a digital broadcast transmission protocol, and may display the disaster information according to the transmission protocol. In the following description, a disaster information receiving apparatus generally includes a broadcast receiving device as well as a dedicated terminal for receiving disaster information.

However, in order to transmit disaster information through a broadcast and inform the user of the emergency, the disaster information receiving apparatus must always receive the disaster information transmitted or express the received disaster information.

However, a disaster situation does not always exist, and if the disaster information is expressed by the above-described method, since the power consumption of the disaster information receiving apparatus is high, there is a problem that the disaster information receiving apparatus cannot be used for a long time.

In addition, when the power consumption of the disaster information receiving device consumes all of the power, there is a problem that can not inform the user of the disaster information during the critical disaster time.

The present invention is to solve the above problems, the purpose of the present invention is to reduce the power consumption, disaster information transmission and reception method and disaster information receiving method so that the user can receive the disaster information from the disaster information receiving device for a long time To provide a device.

In order to achieve the above object, the present invention comprises the steps of receiving a broadcast signal; Obtaining transmission period information for disaster information included in a channel information frame for transmitting fast channel information among the broadcast signals; And confirming the disaster information according to the transmission period information on the obtained disaster information.

The channel information frame is preferably a fast information channel (FIC) frame.

The transmission period for the disaster information in the FIC frame may be included in extension 2 of a fast information group (FIG) type 5 data field.

The transmission period information on the disaster information may include a command identifier for synchronizing the transmission period and time information indicating the transmission period.

In another aspect, the present invention comprises the steps of generating information on the transmission period for the disaster information; Forming broadcast data by inserting transmission period information of the generated disaster information into a channel information frame for transmitting fast channel information of a broadcast signal; And transmitting the formed broadcast data.

In another aspect, the present invention provides a broadcast receiving unit for receiving a broadcast signal including information on a transmission period for disaster information; A broadcast demodulator for demodulating the broadcast signal received by the broadcast receiver; A signal decoding unit for decoding the demodulated broadcast signal to obtain transmission period information for disaster information; And a power control unit configured to turn on / off at least one of the broadcast receiver, the broadcast demodulator, and the signal decoder according to the transmission period information on the disaster information decoded by the signal decoder. Provides a disaster information receiving device.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 illustrates an example of a signal frame structure of digital broadcasting in which disaster information can be transmitted. There may be various ways to deliver disaster information using a broadcast signal. However, the example of FIG. 1 will be described using an example of a broadcast standard based on Eureka-147 of digital audio broadcasting (DAB).

The frame of the broadcast signal may have an ensemble structure. One ensemble may include one or more services, and a service may have one or more service components.

1 illustrates an example in which a service included in an ensemble is an ALPHA 1 radio, a BETA radio, and an ALPHA 2 radio.

The ALPHA 1 radio service includes service components of audio, alpha radio traffic information (ALPHA 1 radio), and alpha radio system information.

In addition, the BETA radio service includes a service component of audio and second audio, and the ALPHA 2 radio service includes an example of a service component of alpha radio traffic information, alpha radio system information, and audio.

In FIG. 1, the service components may be multiplexed and transmitted to subchannels a, b, c, d, ..., and the broadcast data according to each subchannel is in accordance with the main service channel (MSC) protocol of the DAB. Can be sent.

A broadcast signal according to a DAB system may be multiplexed into an MSC, a fast information channel (FIC), and a synchronization channel for signal synchronization so that channel information can be quickly accessed from a broadcast signal transmitted by the broadcast reception device. have.

2 is a view showing an example of a broadcast signal frame that can be transmitted by the disaster information transmission and reception method according to the present invention. FIG. 2 illustrates a data field structure of extension 2 of type 5 of FIG (fast information group) included in FIC in DAB.

The fast information channel (FIC) may include a plurality of fast information blocks (FIBs), and each FIB data field may have a plurality of FIG (fast information groups).

FIG. 2 may have a different data field structure depending on the type. The example of FIG. 2 shows a type 5 data field among FIG types.

The FIG header may have a 3-bit field for identifying the type, and a 5-bit field for indicating the length of the FIG data type in bytes.

The D1 field is currently a reserved area. If the value of the D2 field is 0, control information may be transmitted in a type 5 field, and in the case of 1, a message may be transmitted in a type 5 field.

Currently, if the D2 field is 0, the type 5 field is padded with 0 and transmitted.

The TCId field can be used to distinguish eight different service components that can be transmitted using the same extension number.

When the value of the extension field in type 5 of FIG is 2, disaster information may be transmitted in the type 5 field.

Emergency warning systems having such a transmission rule are transmitted to the FIC because they are sent out faster than other transmission information and information needs to be obtained from the receiving apparatus.

Therefore, the disaster information receiving apparatus capable of receiving the disaster information of the above type must continuously decode the broadcast signal to monitor the FIC from the received signal, and therefore, the power consumption of the disaster information receiving apparatus can increase.

Figure 3 shows a frame structure of a signal that can be transmitted by an embodiment of the disaster information transmission and reception method according to the present invention. An embodiment of a method for transmitting and receiving disaster information will be described with reference to FIG. 3.

According to an embodiment of the method for transmitting and receiving disaster information according to the present invention, transmission period information for disaster information may be transmitted in a type 5 field of FIG. 5 type 2 extension. The disaster information receiving apparatus may synchronize the transmitted transmission period information and operate the disaster information receiving apparatus according to the period.

FIG. 3 illustrates a frame structure of a signal when transmitting transmission period information about disaster information in control information of a type 5 data field.

The transmission period information for the disaster information is a 8-bit long value (0x01 in the example of FIG. 3) as a command identifier indicating the information, and a 32-bit long value (millisecond in the example of FIG. 3) as the transmission period information. Second unit).

In the example of FIG. 3, the transmission period information for the disaster information is inserted into a message (when the D2 field is 1) among the type 5 data fields. The location of the transmission period information is not limited thereto, and may be included in any field of the MSC or the FIC. However, it may be easy to implement in the disaster information receiving apparatus to transmit to the data field of the type 5 extension 2 of FIG that can transmit the disaster information.

When receiving and decoding the transmission period information for the disaster information illustrated in FIG. 3, the power consumption of the device may be reduced by turning the disaster information receiving device on and off at a transmission interval of the 32-bit disaster information.

The broadcast transmitting end generates the information on the transmission period for the disaster information as described above, and the broadcast data in which the transmission period information for the generated disaster information is inserted into a channel information frame for transmitting fast channel information of the broadcast signal. Form and send.

4 is a block diagram illustrating an embodiment of an apparatus for receiving disaster information according to the present invention. Referring to Figure 4 describes the operation of an embodiment of the disaster information receiving apparatus according to the present invention. 4 illustrates an embodiment of an apparatus for receiving disaster information capable of expressing digital multimedia broadcasting.

The disaster information receiving apparatus according to the present invention includes a broadcast receiver 10, a broadcast demodulator 20, a signal decoder 30, a memory 40, a power controller 50, a broadcast signal processor 60, and a data service. It may include a processing unit 70.

The broadcast receiver 10 may receive a broadcast signal according to digital broadcasting. Digital broadcasting includes terrestrial digital multimedia broadcasting and satellite digital multimedia broadcasting.

The broadcast demodulator 20 may demodulate the received digital broadcast signal according to a modulation scheme. For example, a terrestrial digital multimedia broadcasting system modulates and transmits a signal using an orthogonal frequency division multiplexing (OFDM) scheme. In this case, the broadcast demodulator 20 may demodulate the broadcast signal in the reverse order of the OFDM modulation scheme.

The signal decoding unit 30 may decode the demodulated broadcast signal according to the protocol of the broadcast signal. The signal decoder 30 may include an FIC decoder 31 that decodes FIC, which is fast channel information, and an EWS decoder 32 that decodes disaster information from the FIC.

The signal decoder 30 may output and store the MCI (Multiplex Configuration Information) including the information related to the service from the FIC to the memory 40. In addition, the signal decoding unit 30 may include an MSC decoding unit 33 for decoding an MSC including broadcast service data, and the MSC decoding unit 33 performs data and video / audio broadcasting included in the data service. The broadcast signal may be separated and output.

When the signal decoder 30 decodes and outputs the MSC, the broadcast signal processor 60 that processes video / audio broadcast processes audio data included in the CIF (common interleaved frame) of the decoded MSC to implement audio broadcasting. Or, the multimedia broadcast can be displayed.

In addition, the signal decoding unit 30 may decode the disaster information included in the FIC and the transmission period information for the disaster information. Among the decoded disaster information, the visual disaster information may be displayed on the display unit 85 via the video processor 80, and the auditory disaster information may be displayed on the audio processor 95 via the audio processor 90. Meanwhile, the transmission period information on the disaster information decoded by the signal decoder 30 may be transmitted to the power controller 50.

The broadcast signal processing unit 60 may display the audio or video after error correction of the multimedia data, and may decode and output the data for audio broadcasting.

The data service processor 70 may implement a data service from a data field included in the MSC.

The power control unit 50 obtains the transmission period from the transmission period information on the disaster information from the signal decoding unit 30 and synchronizes the transmission period. The broadcast receiver 10, the broadcast demodulator 20, the signal decoder 30, the memory 40, the power controller 50, the broadcast signal processor 60, and the data service processor are synchronized according to the synchronized transmission period. The power of at least one or more functional blocks capable of outputting a broadcast signal, such as 70, may be turned on / off.

Therefore, the power control unit 50 is the broadcast receiving unit 10, the broadcast demodulation unit 20, the signal decoding unit 30, the memory unit 40, the power control unit 50, the broadcast signal processing unit 60, data service processing unit When the power of the 70 is turned on, the disaster information receiving apparatus may transmit the disaster information through the display unit 80 or the speaker 90 by decoding the disaster information from the FIC.

When the internal functional block of the disaster information receiving apparatus is powered off, power consumption may be reduced. 4 illustrates a case where the disaster information receiving apparatus is a composite apparatus capable of displaying a multimedia broadcast, and the dedicated receiving apparatus for the disaster information may not include the broadcast signal processor 60 and the data service processor 70. .

5A to 5C are conceptual views illustrating a concept of turning on / off an internal block of a disaster information receiving apparatus of the disaster information receiving apparatus according to the disaster information receiving apparatus according to the present invention.

The broadcast signal transmitting end may insert and transmit transmission period information on the disaster information into the extension type 2 data field of FIG. 5 in the FIC.

FIG. 5A illustrates a command identifier capable of synchronizing transmission cycle information of disaster information to an FIC, and when the transmission cycle information is transmitted with a time interval of 30000 milliseconds, the apparatus for receiving disaster information receives a unit of 30 seconds. (Indicated by the time window in the example of FIG. 5A), the concept of turning on / off is shown.

The broadcast signal transmitter may change and set the transmission period information of the disaster information to 10 seconds in order to notify the disaster information more quickly, and transmit the broadcast data in the FIC format by inserting the set information into the FIC.

The disaster information receiving apparatus may obtain disaster information from the FIC while turning on / off the internal blocks at a period of 10 seconds as shown in FIG. 5B.

5C, when the broadcast transmission terminal sets the transmission period for the disaster information to 1 second, the broadcast information may be synchronized with the transmission period, and the disaster information may be obtained by turning on / off at a period of 1 second.

It is easy for a person skilled in the art to change or modify the present invention from the present specification. Although an embodiment of the present invention has been described above clearly, various modifications thereof should be made without departing from the spirit and the scope of the present invention.

The effects of the disaster information transmitting and receiving method and the disaster information receiving apparatus according to the present invention described above are as follows.

According to the disaster information transmitting and receiving method and the disaster information receiving apparatus according to the present invention, the power consumption of the disaster information receiving apparatus can be reduced, and the user can receive the disaster information for a long time.

Claims (10)

In the method for controlling a disaster information receiving apparatus, Receiving a broadcast signal; Acquiring transmission period information for disaster information included in a channel information frame for transmitting fast channel information among the broadcast signals; Identifying disaster information according to the transmission period information about the obtained disaster information; And Periodically controlling power of functional blocks included in the disaster information receiving apparatus according to the transmission period information; Disaster information receiving device control method comprising a. The method of claim 1, And the channel information frame is a fast information channel (FIC) frame. 3. The method of claim 2, And a transmission period of the disaster information in the FIC frame is included in extension 2 of a fast information group (FIG) type 5 data field. 3. The method of claim 2, And the transmission period information for the disaster information includes a command identifier for synchronizing the transmission periods, and time information indicating the transmission periods. In the method of controlling the disaster information transmitting apparatus, Generating information on a transmission period for disaster information; Forming broadcast data by inserting transmission period information of the generated disaster information into a channel information frame for transmitting fast channel information of a broadcast signal; And A disaster information transmitting apparatus control method comprising the step of transmitting a broadcast signal including the formed broadcast data, The transmission period information includes a period information for controlling the power of the functional blocks included in the device receiving the broadcast signal. 6. The method of claim 5, And the channel information frame is a fast information channel (FIC) frame. The method according to claim 6, And a transmission period of the disaster information in the FIC frame is included in extension 2 of a fast information group (FIG) type 5 data field. The method according to claim 6, And the transmission period information for the disaster information includes a command identifier capable of synchronizing the transmission periods, and time information indicating the transmission period. A broadcast receiver which receives a broadcast signal including information on a transmission period for disaster information; A broadcast demodulator for demodulating the broadcast signal received by the broadcast receiver; A signal decoding unit for decoding the demodulated broadcast signal and obtaining transmission period information for the disaster information; And Disaster information including a power control unit for periodically on / off at least one of the broadcast receiver, the broadcast demodulator and the signal decoder according to the transmission period information for the disaster information decoded by the signal decoder Receiving device. 10. The method of claim 9, The disaster information receiving apparatus may include a broadcast signal processing unit capable of displaying a broadcast signal decoded by the signal decoding unit as a multimedia broadcast; And And a data service processor configured to implement a data service from the data field of the broadcast signal decoded by the signal decoder.

Images