CN112788399A - Method for awakening emergency broadcast through subcarrier, DTMB set top box and system - Google Patents

Abstract

The invention discloses a method for awakening emergency broadcast through subcarrier, a DTMB set top box and a system, wherein the method comprises the following steps: the method comprises the steps that a frequency modulation subcarrier receiving module and a frequency modulation subcarrier decryption analysis module acquire emergency messages from frequency modulation subcarrier broadcast signals, wherein the emergency messages comprise emergency instructions and emergency information, and the emergency information is receiving parameters of emergency broadcast DTMB programs; the DTMB receiving module obtains a DTMB program from the DTMB broadcast television signal; the first control module receives the emergency message, executes the emergency instruction, wakes up the DTMB set-top box in advance for a necessary time period, and transmits the emergency message to the main control module for receiving the program video and audio data; the main control module sets receiving parameters of the second DTMB receiving module according to the emergency information, and converts and synthesizes the emergency broadcast content into a media type and outputs the media type. The invention realizes real-time detection and receiving of emergency messages in frequency modulation subcarrier broadcast signals and awakening of the DTMB set top box for emergency broadcasting.

Description

Method for awakening emergency broadcast through subcarrier, DTMB set top box and system

Technical Field

The invention belongs to the technical field of emergency broadcasting, and particularly relates to a method for awakening emergency broadcasting through subcarriers, a DTMB set top box and a system.

Background

The ground digital television DTMB set-top box receives, demodulates, demultiplexes and decodes DTMB broadcast television signals to obtain broadcast television program data, and outputs the broadcast television program data to a television for playing. When natural disasters or social public events occur, the emergency broadcast management platform sends emergency messages to the DTMB set top box. The problem of how to respond to emergency messages and play emergency broadcasts exists when the DTMB set-top box is turned off, standby or plays programs.

The existing emergency broadcasting system inserts the emergency message into the DTMB broadcast television signal, and the DTMB set-top box receives and separates the emergency message, and has the defects that a DTMB receiving module and a main control module 7 x 24 of the DTMB set-top box are required to run in real time, and high-frequency components are required for receiving, demodulating and decoding the DTMB signal, and the data volume for processing the DTMB broadcast television signal is large, so that the power consumption required by the DTMB set-top box for detecting the emergency message in real time is large, and the data processing is complex.

The bandwidth of FM broadcast stereo channel is about 200KHz, while the main carrier audio only occupies about half of the frequency, the rest part is unused, and the part is not called as subcarrier. The frequency modulation subcarrier technology is to transmit data signals by utilizing subcarriers, and one frequency modulation frequency can realize the simultaneous transmission of audio signals and coded signals. The FM subcarrier technology is classified into FM-SCA (chinese standard, national standard GB4311.3-84, subcarrier frequency 67 KHz), FM-RDS broadcast (european standard, subcarrier frequency 57KHz), FM-RBDS broadcast (american standard, subcarrier frequency 57KHz), and FM-DARC broadcast (japanese standard, subcarrier frequency 76 KHz).

Therefore, based on the existing problems, the invention provides a new technical method by considering that the data volume of the frequency modulation subcarrier is small, the processing complexity is low, and the power consumption is low, and combining the frequency modulation subcarrier with the DTMB set-top box, so as to solve the problem of how to respond to the emergency message and play the emergency broadcast when the DTMB set-top box is turned off, stands by or plays programs.

Disclosure of Invention

The invention aims to provide a method for awakening emergency broadcast through subcarrier, a DTMB set top box and a system, and aims to solve the problem of how to respond to emergency messages and play the emergency broadcast by the DTMB set top box.

In order to achieve the purpose, the invention provides the following technical scheme:

method, DTMB set-top box and system for waking up an emergency broadcast via a subcarrier, wherein,

in one aspect of the present invention, a method for waking up an emergency broadcast via a subcarrier is provided, which includes the following steps:

(1) when the DTMB set top box is turned off or is in standby or plays programs, the frequency modulation subcarrier receiving module receives frequency modulation subcarrier broadcasting signals, frequency modulation subcarrier data are obtained through demodulation and decoding, and then the frequency modulation subcarrier decryption analysis module decrypts and analyzes the frequency modulation subcarrier data to obtain emergency messages;

the frequency modulation subcarrier broadcast is one of FM-SCA broadcast, FM-RDS broadcast, FM-RBDS broadcast and FM-DARC broadcast;

the emergency message comprises an emergency instruction and emergency information;

the emergency information is a receiving parameter of an emergency broadcast DTMB program;

(2) when the DTMB set-top box plays a program, a first DTMB receiving module receives DTMB broadcast television signals, and video and audio data of the DTMB program are obtained after demodulation, demultiplexing and decoding;

(3) the first control module receives an emergency message, executes an emergency instruction, wakes up the DTMB set-top box in advance for a necessary time period, and transmits the emergency instruction and the emergency information to the main control module, wherein the necessary time period refers to the time required by the DTMB set-top box from being woken up to outputting emergency broadcast playing content;

(4) the main control module executes an emergency instruction, sets receiving parameters of a second DTMB receiving module according to emergency information, and the second DTMB receiving module receives DTMB broadcast television signals and obtains video and audio data of emergency broadcast DTMB programs as emergency broadcast content after demodulation, demultiplexing and decoding;

(5) the main control module firstly converts the media types of the emergency broadcast contents and then carries out synthesis processing on the emergency broadcast contents to obtain the emergency broadcast playing contents;

(6) the main control module controls the output module to output the emergency broadcast playing content to the playing device, wherein the playing device is one of a text playing device, a picture playing device, an audio playing device, a video and audio playing device and a streaming media playing device.

Further, the emergency instruction comprises a target area code, a playing date and time, a synthesizing mode and a playing media type;

the synthesis mode is one of cutting and broadcasting, picture-in-picture and superimposed captions;

the playing media type is one of text, picture, audio, video and audio and streaming media.

Further, in the step (1),

the DTMB set top box is powered off when the main control module, the first DTMB receiving module, the second DTMB receiving module and the output module are powered off;

the DTMB set top box is in standby, the main control module is in sleep, and the first DTMB receiving module, the second DTMB receiving module and the output module are powered off;

the DTMB set-top box plays a program, the second DTMB receiving module is powered off, the main control module sets receiving parameters of the first DTMB receiving module, the first DTMB receiving module receives DTMB broadcast television signals, and after demodulation, demultiplexing and decoding, video and audio data of the currently played DTMB program are output by the main control module;

in step (3), the method for waking up the set top box is as follows:

(a1) if the set-top box is powered off, the first control module powers on and initializes the main control module, and the first control module directly or through the main control module powers on and initializes the second DTMB receiving module and the output module;

(a2) if the set-top box is in standby, the first control module sends a wake-up instruction to the main control module, the main control module restores the working state from the dormant state, and the first control module directly or through the main control module enables the second DTMB receiving module and the output module to be powered on and initialized;

(a3) if the set-top box plays programs, the first control module directly or through the main control module enables the second DTMB receiving module to be powered on and initialized.

Further, the DTMB set-top box has a unique code, and in step (3), before executing the emergency instruction, the first control module checks the emergency message, and the specific method is as follows:

(c1) checking whether the format of the emergency command conforms to a preset format, and if not, returning to the step 1;

(c2) checking whether the target area code of the emergency command is matched with the code of the DTMB set-top box or not, and if not, returning to the step 1;

(c3) checking whether the playing date and time of the emergency instruction is less than the current date and time, if not, returning to the step 1;

(c4) checking whether the format of the emergency information accords with a preset format, and if not, returning to the step 1;

(c5) checking whether the content of the emergency information is legal or not, and if not, returning to the step 1;

the method for checking whether the content of the emergency information is legal is as follows:

(d1) if the emergency information is the receiving parameters of the emergency broadcasting DTMB program, judging whether the emergency information meets the parameter regulation of the relevant DTMB standard or not, and if not, judging that the emergency information is illegal.

Further, in the step (5), the media type of the emergency broadcast content is converted into one of text, picture, audio, video, audio-video and streaming media;

in step (5), the emergency broadcast content is synthesized by:

(b1) if the emergency command is cut-and-broadcast, then: the method comprises the steps of firstly, stopping outputting the currently played DTMB program if the DTMB program is currently played, and secondly, directly replacing emergency broadcast contents;

(b2) if the synthesis mode of the emergency instruction is picture-in-picture, overlapping the emergency broadcast content to the picture-in-picture area of the video picture of the currently played DTMB program, and synthesizing a new program video;

(b3) and if the synthesis mode of the emergency command is the caption superposition, superposing the emergency broadcast content to the caption area of the video picture of the currently played DTMB program to synthesize a new program video.

On the other hand, the invention provides a DTMB set-top box capable of awakening emergency broadcast through subcarrier, which comprises a frequency modulation subcarrier receiving module, a frequency modulation subcarrier decryption analysis module, a first control module, a main control module, a first DTMB receiving module, a second DTMB receiving module and an output module;

the frequency modulation subcarrier receiving module is connected with the frequency modulation subcarrier decryption analysis module, receives the frequency modulation subcarrier broadcast signals, demodulates and decodes the frequency modulation subcarrier broadcast signals to obtain frequency modulation subcarrier data, and transmits the frequency modulation subcarrier data to the frequency modulation subcarrier decryption analysis module;

the frequency modulation subcarrier decryption and analysis module is connected with the first control module, decrypts and analyzes frequency modulation subcarrier data to obtain emergency information, and transmits the emergency information to the first control module;

the frequency modulation subcarrier broadcast is one of FM-SCA broadcast, FM-RDS broadcast, FM-RBDS broadcast and FM-DARC broadcast;

the emergency message comprises an emergency instruction and emergency information;

the emergency information is a receiving parameter of an emergency broadcast DTMB program;

the first control module receives the emergency message, executes the emergency instruction, wakes up the DTMB set-top box in advance for a necessary time period, and transmits the emergency message to the main control module; the necessary time period refers to the time required by the DTMB set top box from awakening to outputting emergency broadcast playing content;

the first DTMB receiving module receives DTMB broadcast television signals according to receiving parameters set by the main control module, and the DTMB program video and audio data which are currently played after demodulation, demultiplexing and decoding are carried out;

the second DTMB receiving module receives DTMB broadcast television signals according to receiving parameters set by the main control module, and emergency broadcast DTMB program video and audio data serving as emergency broadcast content are obtained after demodulation, demultiplexing and decoding;

the main control module is connected with the first control module, the first DTMB receiving module, the second DTMB receiving module and the output module, executes an emergency instruction, sets receiving parameters of the second DTMB receiving module according to emergency information, converts the media type of emergency broadcast content, synthesizes and processes the emergency broadcast content to obtain emergency broadcast content, and controls the output module to output the emergency broadcast content to the playing equipment;

the playing device is one of a text playing device, a picture playing device, an audio playing device, a video and audio playing device and a streaming media playing device.

And the DTMB set-top box further comprises a user response module which is connected with the main control module and responds to user operation, wherein under the condition that the DTMB set-top box is standby or plays programs, the response user operation is shielded before the emergency broadcast is played, and the response user operation is recovered after the emergency broadcast is played.

The emergency broadcast system further comprises a peripheral startup and shutdown module which is connected with the main control module to detect the startup and shutdown state of the playing device and control the startup and shutdown of the playing device, and the playing device is started before the emergency broadcast is played.

The emergency broadcasting system further comprises a first storage module connected with the first control module and a second storage module connected with the main control module, wherein the storage content of the first storage module comprises emergency instructions and emergency information, and the storage content of the second storage module comprises emergency broadcasting content and emergency broadcasting playing content.

In another aspect of the present invention, a system for waking up an emergency broadcast by a subcarrier is also provided, comprising an emergency broadcast management platform, a frequency modulation subcarrier transmission network, a DTMB transmission network and a DTMB set-top box;

the emergency broadcast management platform generates an emergency message;

the frequency modulation subcarrier transmission network receives an emergency message from the emergency broadcast management platform, performs frequency modulation subcarrier broadcast and then transmits the emergency message to the DTMB set top box;

the DTMB transmission network receives and transmits the DTMB programs to the DTMB set-top box;

the frequency modulation subcarrier broadcast is one of FM-SCA broadcast, FM-RDS broadcast, FM-RBDS broadcast and FM-DARC broadcast;

the emergency message comprises an emergency instruction and emergency information;

the emergency information comprises receiving parameters of emergency broadcast DTMB programs.

Compared with the prior art, the invention has the following beneficial effects:

1) the system comprises a frequency modulation subcarrier receiving module, a frequency modulation subcarrier decryption and analysis module and a first control module, wherein the frequency modulation subcarrier receiving module, the frequency modulation subcarrier decryption and analysis module and the first control module receive frequency modulation subcarrier broadcast signals in real time within 7 x 24 hours, detect and receive emergency messages in frequency modulation subcarrier data, wake up a DTMB set top box in time and transmit emergency instructions and emergency messages to a main control module; the main control module acquires emergency broadcast contents, and converts, synthesizes and plays the emergency broadcast contents according to emergency instructions; the invention realizes real-time detection and receiving of emergency messages in frequency modulation subcarriers, and further awakens the DTMB set-top box for emergency broadcasting.

2) The method has the advantages that the frequency modulation subcarrier receiving module, the frequency modulation subcarrier decryption and analysis module and the first control module are used for detecting and receiving the emergency message in the frequency modulation subcarrier in real time, the processing data volume is small, the power consumption is low, the method is different from a general DTMB set top box in that the DTMB broadcast television signal is received in real time and the emergency message is detected and received from DTMB data, a high-frequency processing component is involved, the power consumption is large, and the processing data volume is large; the invention has the advantages of reducing data processing amount, reducing power consumption for detecting emergency messages and reducing standby power consumption.

3) Before executing the emergency instruction and awakening the DTMB set top box, the emergency message is checked, specifically, the format of the emergency instruction, the target area code, the playing date and time and the format and content of the emergency message are checked, invalid or illegal emergency messages are not processed, and the DTMB set top box is not awakened, so that safe playing is guaranteed, and misoperation is avoided.

4) The first control module receives an emergency message, executes an emergency instruction, and wakes up the DTMB set-top box in advance for a necessary time period, wherein the necessary time period refers to the time required by the DTMB set-top box from being woken up to outputting emergency broadcast playing content; the invention realizes time accurate awakening of the DTMB set top box, and the DTMB set top box is not awakened once an emergency message is received, thereby consuming a lot of power, or is not awakened before the emergency broadcast playing moment, thereby causing the playing delay.

5) When the DTMB set top box is turned off or is in standby or plays programs, the DTMB set top box end wakes up the DTMB set top box in a self-adaptive mode, related modules awakened in different states are different, only the module awakened for emergency broadcast playing is ensured to be awakened, the unrelated modules are not awakened, and the power consumption of the emergency broadcast playing is optimized.

6) The media type of the emergency broadcast content can be different from the playing media type of the emergency broadcast playing content, the emergency broadcast playing content is obtained by converting the media type of the emergency broadcast content at the DTMB set top box end in a self-adaptive mode and then synthesizing the emergency broadcast content, the length of the emergency message can be shortened, the distribution efficiency of the emergency message is improved, and the efficiency of the set top box for receiving the emergency message is also improved.

7) Processing the received emergency message, converting the media types of the emergency broadcast contents, synthesizing the emergency broadcast contents to obtain emergency broadcast playing contents, and outputting the emergency broadcast playing contents to playing equipment, wherein the playing equipment is one of text playing equipment, picture playing equipment, audio playing equipment, video and audio playing equipment and streaming media playing equipment; different from the condition that the general DTMB set-top box can only output to a television or a sound box, the method expands the output mode of the DTMB set-top box for emergency broadcasting by converting the emergency broadcasting content into the media types, synthesizing the media types and outputting the media types, and supports text playing equipment, picture playing equipment, audio playing equipment, video and audio playing equipment and streaming media playing equipment.

8) And the user response module responds to the user operation, shields the response user operation before the emergency broadcast is played and restores the response user operation after the emergency broadcast is played under the condition that the DTMB set-top box is standby or plays programs. Different from the common DTMB set-top box, the emergency broadcast can be interrupted by the user operation during the emergency broadcast playing, so that the emergency broadcast cannot be played completely; the method is also different from the method that the state of the set top box is reported to the emergency broadcast management platform before and after the emergency broadcast is played by some DTMB set top boxes, and then the emergency broadcast management platform remotely controls whether to respond to the user operation or not. The invention realizes that the set-top box autonomously processes and responds to the user operation, has high efficiency and ensures the complete playing of the emergency broadcast.

9) And the peripheral on-off module is connected with the main control module to detect the on-off state of the playing equipment and control the on-off of the playing equipment, and the playing equipment is started before the emergency broadcast is played. The invention realizes that the DTMB set top box and the external playing equipment jointly send the emergency broadcast to the user, thereby ensuring the playing of the emergency broadcast.

10) The invention relates to a DTMB set top box which wakes up emergency broadcast by subcarrier, which can respond to emergency message from FM subcarrier signal and play the emergency broadcast.

11) The invention relates to a system consisting of an emergency broadcast management platform, a frequency modulation subcarrier transmission network, a DTMB transmission network and a DTMB set-top box, and realizes a system which enables the DTMB set-top box to respond to emergency messages from frequency modulation subcarrier signals and play emergency broadcasts; the emergency broadcast system receives emergency messages from frequency modulation subcarrier signals, the distribution path of emergency broadcast is that an emergency broadcast management platform transmits the emergency broadcast to a frequency modulation subcarrier transmission network, the frequency modulation subcarrier transmission network transmits the emergency broadcast to a DTMB set top box with frequency modulation subcarrier receiving processing, while a general emergency broadcast system taking the DTMB set top box as a terminal receives the emergency messages from the DTMB broadcast television signals, the distribution path of the emergency broadcast is that the emergency broadcast management platform transmits the emergency broadcast to the DTMB transmission network, and the DTMB transmission network transmits the emergency broadcast to the DTMB set top box; the invention improves the distribution efficiency of the emergency message and reduces the operation and maintenance power consumption of the system by utilizing the advantages of large broadcast coverage range, convenient receiving and low detection power consumption of the frequency modulation subcarrier.

Drawings

FIG. 1 is a flowchart illustrating a method for waking up an emergency broadcast via a subcarrier according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a DTMB set-top box for waking up emergency broadcast via subcarrier in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a system for waking up emergency broadcast via a subcarrier in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention are further described in detail below with reference to the accompanying drawings and the embodiments.

Embodiments a method, DTMB set-top box and system for waking up an emergency broadcast via a subcarrier, as shown in fig. 1-3, wherein,

in one aspect of this embodiment, a method for waking up an emergency broadcast via a subcarrier is provided, including the following steps:

(1) when the DTMB set top box 400 is turned off or stands by or plays a program, the frequency modulation subcarrier receiving module 1 receives a frequency modulation subcarrier broadcasting signal, frequency modulation subcarrier data are obtained through demodulation and decoding, and then the frequency modulation subcarrier decrypting and analyzing module 2 decrypts and analyzes the frequency modulation subcarrier data to obtain an emergency message;

the FM subcarrier broadcasting is one of FM-SCA broadcasting, FM-RDS broadcasting, FM-RBDS broadcasting and FM-DARC broadcasting;

the emergency message comprises an emergency instruction and emergency information;

the emergency information is a receiving parameter of emergency broadcasting DTMB programs;

(2) when the DTMB set-top box 400 plays a program, the first DTMB receiving module 5 receives a DTMB broadcast television signal, and obtains the video and audio data of the DTMB program after demodulation, demultiplexing and decoding;

(3) the first control module 3 receives the emergency message, executes the emergency instruction, wakes up the DTMB set-top box 400 in advance for a necessary time period, and transmits the emergency instruction and the emergency information to the main control module 4, wherein the necessary time period refers to the time required by the DTMB set-top box 400 from waking up to outputting the emergency broadcast playing content;

(4) the main control module 4 executes an emergency instruction, sets receiving parameters of the second DTMB receiving module 6 according to emergency information, and the second DTMB receiving module 6 receives DTMB broadcast television signals, and obtains video and audio data of emergency broadcast DTMB programs as emergency broadcast content after demodulation, demultiplexing and decoding;

(5) the main control module 4 firstly converts the media types of the emergency broadcast contents, and then carries out synthesis processing on the emergency broadcast contents to obtain emergency broadcast playing contents;

(6) the main control module 4 controls the output module 7 to output the emergency broadcast content to the playing device, wherein the playing device is one of a text playing device, a picture playing device, an audio playing device, a video-audio playing device and a streaming media playing device.

Further, the emergency instruction comprises a target area code, a playing date and time, a synthesizing mode and a playing media type;

the synthesis mode is one of cutting and broadcasting, picture-in-picture and superimposed caption;

the playing media type is one of text, picture, audio, video, audio video and streaming media.

Further, in the step (1),

the DTMB set top box 400 is powered off, namely the main control module 4, the first DTMB receiving module 5, the second DTMB receiving module 6 and the output module 7 are powered off;

the DTMB set-top box 400 is in standby, the main control module 4 is in sleep, and the first DTMB receiving module 5, the second DTMB receiving module 6 and the output module 7 are powered off;

when the second DTMB receiving module 6 is powered off, the main control module 4 sets the receiving parameters of the first DTMB receiving module 5, the first DTMB receiving module 5 receives the DTMB broadcast television signals, and after demodulation, demultiplexing and decoding, the main control module 4 controls the output module 7 to output the currently played video and audio data of the DTMB program;

in step (3), the method for waking up the set top box is as follows:

(a1) if the set-top box is powered off, the first control module 3 powers on and initializes the main control module 4, and the first control module 3 directly or through the main control module 4 powers on and initializes the second DTMB receiving module 6 and the output module 7;

(a2) if the set-top box is in standby, the first control module 3 sends a wake-up instruction to the main control module 4, the main control module 4 restores the working state from the dormant state, and the first control module 3 directly or through the main control module 4 enables the second DTMB receiving module 6 and the output module 7 to be powered on and initialized;

(a3) if the set-top box plays a program, the first control module 3 powers on and initializes the second DTMB receiving module 6 directly or through the main control module 4.

Further, the DTMB set-top box 400 has a unique code, and in step (3), before the emergency instruction is executed, the first control module 3 checks the emergency message, and the specific method is as follows:

(c1) checking whether the format of the emergency command conforms to a preset format, and if not, returning to the step 1;

(c2) checking whether the target area code of the emergency command is matched with the code of the DTMB set top box 400, if not, returning to the step 1;

(c3) checking whether the playing date and time of the emergency instruction is less than the current date and time, if not, returning to the step 1;

(c4) checking whether the format of the emergency information accords with a preset format, and if not, returning to the step 1;

(c5) checking whether the content of the emergency information is legal or not, and if not, returning to the step 1;

the method for checking whether the content of the emergency information is legal is as follows:

(d1) if the emergency information is the receiving parameters of the emergency broadcasting DTMB program, judging whether the emergency information meets the parameter regulation of the relevant DTMB standard or not, and if not, judging that the emergency information is illegal.

Further, in the step (5), converting the media type of the emergency broadcast content into one of text, picture, audio, video, audio video and streaming media;

in step (5), the emergency broadcast content is synthesized by:

(b1) if the emergency command is cut-and-broadcast, then: the method comprises the steps of firstly, stopping outputting the currently played DTMB program if the DTMB program is currently played, and secondly, directly replacing emergency broadcast contents;

(b2) if the synthesis mode of the emergency instruction is picture-in-picture, overlapping the emergency broadcast content to the picture-in-picture area of the video picture of the currently played DTMB program, and synthesizing a new program video;

(b3) and if the synthesis mode of the emergency command is the caption superposition, superposing the emergency broadcast content to the caption area of the video picture of the currently played DTMB program to synthesize a new program video.

In another aspect of this embodiment, a DTMB set-top box for waking up emergency broadcast by subcarrier is provided, which includes a frequency modulation subcarrier receiving module 1, a frequency modulation subcarrier decryption and analysis module 2, a first control module 3, a main control module 4, a first DTMB receiving module 5, a second DTMB receiving module 6, and an output module 7;

the frequency modulation subcarrier receiving module 1 is connected with the frequency modulation subcarrier decryption analysis module 2, receives the frequency modulation subcarrier broadcast signals, demodulates and decodes the frequency modulation subcarrier broadcast signals to obtain frequency modulation subcarrier data, and transmits the frequency modulation subcarrier data to the frequency modulation subcarrier decryption analysis module 2;

the frequency modulation subcarrier decryption and analysis module 2 is connected with the first control module 3, decrypts and analyzes frequency modulation subcarrier data to obtain an emergency message, and transmits the emergency message to the first control module 3;

the FM subcarrier broadcasting is one of FM-SCA broadcasting, FM-RDS broadcasting, FM-RBDS broadcasting and FM-DARC broadcasting;

the emergency message comprises an emergency instruction and emergency information;

the emergency information is a receiving parameter of emergency broadcasting DTMB programs;

the first control module 3 receives the emergency message, executes the emergency instruction, wakes up the DTMB set-top box 400 in advance for a necessary time period, and transmits the emergency message to the main control module 4; a necessary time period, which is the time required for the DTMB set-top box 400 to output the emergency broadcast contents from being awakened;

the first DTMB receiving module 5 receives DTMB broadcast television signals according to receiving parameters set by the main control module 4, and after demodulation, demultiplexing and decoding, the DTMB program video and audio data which are currently played are received;

the second DTMB receiving module 6 receives the DTMB broadcast television signals according to the receiving parameters set by the main control module 4, and emergency broadcast DTMB program video and audio data serving as emergency broadcast content are obtained after demodulation, demultiplexing and decoding;

the main control module 4 is connected with the first control module 3, the first DTMB receiving module 5, the second DTMB receiving module 6 and the output module 7, executes an emergency instruction, sets receiving parameters of the second DTMB receiving module 6 according to emergency information, converts the media type of emergency broadcast content, synthesizes the emergency broadcast content and DTMB program video and audio data to obtain emergency broadcast content, and controls the output module 7 to output the emergency broadcast content to the playing equipment;

the playing device is one of a text playing device, a picture playing device, an audio playing device, a video and audio playing device and a streaming media playing device.

Further, the digital television set top box 400 further comprises a user response module 8 connected with the main control module 4 to respond to user operation, wherein under the condition that the digital television set top box 400 is standby or plays programs, the response user operation is shielded before the emergency broadcast is played, and the response user operation is recovered after the emergency broadcast is played.

Further, the emergency broadcast system also comprises a peripheral startup and shutdown module 9 which is connected with the main control module 4 to detect the startup and shutdown state of the playing device and control the startup and shutdown of the playing device, and the playing device is started before the emergency broadcast is played.

Further, the emergency broadcast system further comprises a first storage module 10 connected with the first control module 3 and a second storage module 11 connected with the main control module 4, wherein the storage content of the first storage module 10 comprises emergency instructions and emergency information, and the storage content of the second storage module 11 comprises emergency broadcast content and emergency broadcast playing content.

Further, the core model of the first control module 3 is STM32F030C8, and the core model of the main control module 4 is haisi hi3798MV 200.

In another aspect of this embodiment, a system for waking up an emergency broadcast via a subcarrier is further provided, including an emergency broadcast management platform 100, a frequency modulation subcarrier transmission network 200, a DTMB transmission network 300, and a DTMB set-top box 400;

the emergency broadcast management platform 100 generates an emergency message;

the fm subcarrier transmission network 200 receives the emergency message from the emergency broadcast management platform 100, performs fm subcarrier broadcast, and transmits the fm subcarrier broadcast to the DTMB set-top box 400;

a DTMB transmission network 300 for receiving and transmitting the DTMB program to the DTMB set-top box 400;

the FM subcarrier broadcasting is one of FM-SCA broadcasting, FM-RDS broadcasting, FM-RBDS broadcasting and FM-DARC broadcasting;

the emergency message comprises an emergency instruction and emergency information;

and emergency information including receiving parameters of the emergency broadcast DTMB program.

As can be seen from this embodiment, the present invention has the following advantages:

1) the frequency modulation subcarrier receiving module 1, the frequency modulation subcarrier decryption and analysis module 2 and the first control module 3 receive frequency modulation subcarrier broadcast signals in real time, detect and receive emergency messages in frequency modulation subcarrier data, wake up the DTMB set top box 400 in time and transmit the emergency instructions and the emergency messages to the main control module 4; the main control module 4 acquires emergency broadcast contents, and converts, synthesizes and plays the emergency broadcast contents according to emergency instructions; the invention realizes real-time detection and receiving of emergency messages in frequency modulation subcarriers, and further awakens the DTMB set-top box for emergency broadcasting.

2) The method is characterized in that the frequency modulation subcarrier receiving module 1, the frequency modulation subcarrier decryption analysis module 2 and the first control module 3 are used for detecting and receiving the emergency message in the frequency modulation subcarrier in real time, the processing data volume is small, the power consumption is low, and the method is different from a general DTMB set top box which receives DTMB broadcast television signals in real time and detects and receives the emergency message from DTMB data, relates to a high-frequency processing component, and is large in power consumption and large in processing data volume; the invention has the advantages of reducing data processing amount, reducing power consumption for detecting emergency messages and reducing standby power consumption.

3) Before executing the emergency instruction and waking up the DTMB set-top box 400, the emergency message is checked, specifically, the format of the emergency instruction, the target area code, the playing date and time, and the format and content of the emergency message are checked, and the invalid or illegal emergency message is not processed and the DTMB set-top box 400 is not woken up. The invention ensures safe playing and avoids misoperation.

4) The first control module 3 receives the emergency message, executes the emergency instruction, and wakes up the DTMB set-top box 400 in advance for a necessary time period, wherein the necessary time period refers to the time required by the DTMB set-top box 400 from being woken up to outputting the emergency broadcast playing content. The invention realizes time accurate awakening of the DTMB set top box, and the DTMB set top box is not awakened once an emergency message is received, thereby consuming a lot of power, or is not awakened before the emergency broadcast playing moment, thereby causing the playing delay.

5) When the DTMB set-top box 400 is turned off or is in standby or plays programs, the DTMB set-top box 400 is woken up the DTMB set-top box 400 in a self-adaptive manner, and related modules woken up in different states are different, so that only the module for playing emergency broadcast is woken up, and the unrelated modules are not woken up. The invention realizes the optimization of the emergency broadcast playing power consumption.

6) The media type of the emergency broadcast content can be different from the playing media type of the emergency broadcast playing content, and the emergency broadcast playing content is obtained by adaptively converting the media type of the emergency broadcast content at the DTMB set top box 400 and then synthesizing the emergency broadcast content, so that the length of the emergency message can be shortened. The invention improves the distribution efficiency of the emergency message and also improves the efficiency of the set top box for receiving the emergency message.

7) Processing the received emergency message, converting the media types of the emergency broadcast contents, synthesizing the emergency broadcast contents to obtain emergency broadcast playing contents, and outputting the emergency broadcast playing contents to playing equipment, wherein the playing equipment is one of text playing equipment, picture playing equipment, audio playing equipment, video and audio playing equipment and streaming media playing equipment; different from the common DTMB set-top box, the digital television set-top box can only output to a television or a sound box. The invention expands the output mode of the DTMB set top box for emergency broadcasting by converting the emergency broadcasting content into the media types, synthesizing the emergency broadcasting content and outputting the emergency broadcasting content finally, and supports text playing equipment, picture playing equipment, audio playing equipment, video and audio playing equipment and streaming media playing equipment.

8) The user response module 8, which responds to the user operation, masks the response user operation before the emergency broadcast is played and restores the response user operation after the emergency broadcast is played, under the condition that the DTMB set-top box 400 is standby or plays a program. Different from the common DTMB set-top box, the emergency broadcast can be interrupted by the user operation during the emergency broadcast playing, so that the emergency broadcast cannot be played completely; the method is also different from the method that the state of the set top box is reported to the emergency broadcast management platform before and after the emergency broadcast is played by some DTMB set top boxes, and then the emergency broadcast management platform remotely controls whether to respond to the user operation or not. The invention realizes that the set-top box autonomously processes and responds to the user operation, has high efficiency and ensures the complete playing of the emergency broadcast.

9) And the peripheral on-off module 9 is connected with the main control module 4 to detect the on-off state of the playing equipment and control the on-off of the playing equipment, and the playing equipment is started before the emergency broadcast is played. The invention realizes that the DTMB set top box and the external playing equipment jointly send the emergency broadcast to the user, thereby ensuring the playing of the emergency broadcast.

10) The frequency modulation sub-carrier set-top box realizes that the set-top box wakes up emergency broadcast by sub-carriers, and can respond to emergency messages from frequency modulation sub-carrier signals and play the emergency broadcast.

11) The system consists of an emergency broadcast management platform 100, a frequency modulation subcarrier transmission network 200, a DTMB transmission network 300 and a DTMB set-top box 400, and the invention realizes a system which enables the DTMB set-top box to respond to emergency messages from frequency modulation subcarrier signals and play emergency broadcasts; the emergency broadcast system receives emergency messages from frequency modulation subcarrier signals, the distribution path of emergency broadcast is that an emergency broadcast management platform transmits the emergency broadcast to a frequency modulation subcarrier transmission network, the frequency modulation subcarrier transmission network transmits the emergency broadcast to a DTMB set top box with frequency modulation subcarrier receiving processing, while a general emergency broadcast system taking the DTMB set top box as a terminal receives the emergency messages from the DTMB broadcast television signals, the distribution path of the emergency broadcast is that the emergency broadcast management platform transmits the emergency broadcast to the DTMB transmission network, and the DTMB transmission network transmits the emergency broadcast to the DTMB set top box; the invention improves the distribution efficiency of the emergency message and reduces the operation and maintenance power consumption of the system by utilizing the advantages of large broadcast coverage range, convenient receiving and low detection power consumption of the frequency modulation subcarrier.

The above embodiments further explain the object, technical solution and advantageous effects of the present invention in detail. The above description is only exemplary of the present invention and should not be taken as limiting the scope of the invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (10)

1. A method for waking up an emergency broadcast via a subcarrier, comprising the steps of:

(1) when the DTMB set top box is turned off or is in standby or plays programs, the frequency modulation subcarrier receiving module receives frequency modulation subcarrier broadcasting signals, frequency modulation subcarrier data are obtained through demodulation and decoding, and then the frequency modulation subcarrier decryption analysis module decrypts and analyzes the frequency modulation subcarrier data to obtain emergency messages;

the frequency modulation subcarrier broadcast is one of FM-SCA broadcast, FM-RDS broadcast, FM-RBDS broadcast and FM-DARC broadcast; the emergency message comprises an emergency instruction and emergency information;

the emergency information is a receiving parameter of an emergency broadcast DTMB program;

(2) when the DTMB set-top box plays a program, a first DTMB receiving module receives DTMB broadcast television signals, and video and audio data of the DTMB program are obtained after demodulation, demultiplexing and decoding;

(3) the first control module receives an emergency message, executes an emergency instruction, wakes up the DTMB set-top box in advance for a necessary time period, and transmits the emergency instruction and the emergency information to the main control module, wherein the necessary time period refers to the time required by the DTMB set-top box from being woken up to outputting emergency broadcast playing content;

(4) the main control module executes an emergency instruction, sets receiving parameters of a second DTMB receiving module according to emergency information, and the second DTMB receiving module receives DTMB broadcast television signals and obtains video and audio data of emergency broadcast DTMB programs as emergency broadcast content after demodulation, demultiplexing and decoding;

(5) the main control module firstly converts the media types of the emergency broadcast contents and then carries out synthesis processing on the emergency broadcast contents to obtain the emergency broadcast playing contents;

(6) the main control module controls the output module to output the emergency broadcast playing content to the playing device, wherein the playing device is one of a text playing device, a picture playing device, an audio playing device, a video and audio playing device and a streaming media playing device.

2. The method of subcarrier wake-up emergency broadcast of claim 1,

the emergency instruction comprises a target area code, a playing date and time, a synthesizing mode and a playing media type;

the synthesis mode is one of cutting and broadcasting, picture-in-picture and superimposed captions;

the playing media type is one of text, picture, audio, video and audio and streaming media.

3. The method of subcarrier wake-up emergency broadcast according to claim 1, wherein, in step (1),

the DTMB set top box is powered off when the main control module, the first DTMB receiving module, the second DTMB receiving module and the output module are powered off;

the DTMB set top box is in standby, the main control module is in sleep, and the first DTMB receiving module, the second DTMB receiving module and the output module are powered off;

the DTMB set-top box plays a program, the second DTMB receiving module is powered off, the main control module sets receiving parameters of the first DTMB receiving module, the first DTMB receiving module receives DTMB broadcast television signals, and after demodulation, demultiplexing and decoding, video and audio data of the currently played DTMB program are output by the main control module;

in step (3), the method for waking up the set top box is as follows:

(a1) if the set-top box is powered off, the first control module powers on and initializes the main control module, and the first control module directly or through the main control module powers on and initializes the second DTMB receiving module and the output module;

(a2) if the set-top box is in standby, the first control module sends a wake-up instruction to the main control module, the main control module restores the working state from the dormant state, and the first control module directly or through the main control module enables the second DTMB receiving module and the output module to be powered on and initialized;

(a3) if the set-top box plays programs, the first control module directly or through the main control module enables the second DTMB receiving module to be powered on and initialized.

4. The method for subcarrier wake-up emergency broadcasting as claimed in claim 1 or 2, wherein the DTMB stb has a unique code, and the first control module checks the emergency message before executing the emergency command in step (3), specifically comprising:

(c1) checking whether the format of the emergency command conforms to a preset format, and if not, returning to the step 1;

(c2) checking whether the target area code of the emergency command is matched with the code of the DTMB set-top box or not, and if not, returning to the step 1;

(c3) checking whether the playing date and time of the emergency instruction is less than the current date and time, if not, returning to the step 1;

(c4) checking whether the format of the emergency information accords with a preset format, and if not, returning to the step 1;

(c5) checking whether the content of the emergency information is legal or not, and if not, returning to the step 1;

the method for checking whether the content of the emergency information is legal is as follows:

(d1) if the emergency information is the receiving parameters of the emergency broadcasting DTMB program, judging whether the emergency information meets the parameter regulation of the relevant DTMB standard or not, and if not, judging that the emergency information is illegal.

5. The method of subcarrier wake-up emergency broadcast according to claim 1 or 2,

in the step (5), the media type of the emergency broadcast content is converted into one of text, picture, audio, video, audio and streaming media;

in step (5), the emergency broadcast content is synthesized by:

(b1) if the emergency command is cut-and-broadcast, then: the method comprises the steps of firstly, stopping outputting the currently played DTMB program if the DTMB program is currently played, and secondly, directly replacing emergency broadcast contents;

(b2) if the synthesis mode of the emergency instruction is picture-in-picture, overlapping the emergency broadcast content to the picture-in-picture area of the video picture of the currently played DTMB program, and synthesizing a new program video;

(b3) and if the synthesis mode of the emergency command is the caption superposition, superposing the emergency broadcast content to the caption area of the video picture of the currently played DTMB program to synthesize a new program video.

6. The sub-carrier awakening emergency broadcast DTMB set-top box of any one of claims 1-5, comprising a frequency modulation sub-carrier receiving module, a frequency modulation sub-carrier decryption and analysis module, a first control module, a main control module, a first DTMB receiving module, a second DTMB receiving module and an output module;

the frequency modulation subcarrier receiving module is connected with the frequency modulation subcarrier decryption analysis module, receives the frequency modulation subcarrier broadcast signals, demodulates and decodes the frequency modulation subcarrier broadcast signals to obtain frequency modulation subcarrier data, and transmits the frequency modulation subcarrier data to the frequency modulation subcarrier decryption analysis module;

the frequency modulation subcarrier decryption and analysis module is connected with the first control module, decrypts and analyzes frequency modulation subcarrier data to obtain emergency information, and transmits the emergency information to the first control module;

the frequency modulation subcarrier broadcast is one of FM-SCA broadcast, FM-RDS broadcast, FM-RBDS broadcast and FM-DARC broadcast; the emergency message comprises an emergency instruction and emergency information;

the emergency information is a receiving parameter of an emergency broadcast DTMB program;

the first control module receives the emergency message, executes the emergency instruction, wakes up the DTMB set-top box in advance for a necessary time period, and transmits the emergency message to the main control module; the necessary time period refers to the time required by the DTMB set top box from awakening to outputting emergency broadcast playing content;

the first DTMB receiving module receives DTMB broadcast television signals according to receiving parameters set by the main control module, and the DTMB program video and audio data which are currently played after demodulation, demultiplexing and decoding are carried out;

the second DTMB receiving module receives DTMB broadcast television signals according to receiving parameters set by the main control module, and emergency broadcast DTMB program video and audio data serving as emergency broadcast content are obtained after demodulation, demultiplexing and decoding;

the main control module is connected with the first control module, the first DTMB receiving module, the second DTMB receiving module and the output module, executes an emergency instruction, sets receiving parameters of the second DTMB receiving module according to emergency information, converts the media type of emergency broadcast content, performs synthesis processing on the emergency broadcast content to obtain emergency broadcast content, and controls the output module to output the emergency broadcast content to the playing device;

the playing device is one of a text playing device, a picture playing device, an audio playing device, a video and audio playing device and a streaming media playing device.

7. The sub-carrier wake-up emergency broadcast DTMB set-top box of claim 6,

the digital television set top box further comprises a user response module which is connected with the main control module and responds to user operation, under the condition that the digital television set top box is standby or plays programs, the response user operation is shielded before the emergency broadcast is played, and the response user operation is recovered after the emergency broadcast is played.

8. The sub-carrier wake-up emergency broadcast DTMB set-top box of claim 6,

the emergency broadcast system also comprises an external startup and shutdown module which is connected with the main control module to detect the startup and shutdown state of the playing device and control the startup and shutdown of the playing device, and the playing device is started before the emergency broadcast is played.

9. The sub-carrier wake-up emergency broadcast DTMB set-top box of claim 6,

the emergency broadcasting system is characterized by further comprising a first storage module connected with the first control module and a second storage module connected with the main control module, wherein the storage content of the first storage module comprises emergency instructions and emergency information, and the storage content of the second storage module comprises emergency broadcasting content and emergency broadcasting playing content.

10. The system for awakening emergency broadcast by subcarrier is characterized by comprising an emergency broadcast management platform, a frequency modulation subcarrier transmission network, a DTMB transmission network and a DTMB set-top box;

the emergency broadcast management platform generates an emergency message;

the frequency modulation subcarrier transmission network receives an emergency message from the emergency broadcast management platform, performs frequency modulation subcarrier broadcast and then transmits the emergency message to the DTMB set top box;

the DTMB transmission network receives and transmits the DTMB programs to the DTMB set-top box;

the DTMB set top box comprising the subcarrier wake-up emergency broadcast DTMB set top box of any of claims 6 to 9;

the frequency modulation subcarrier broadcast is one of FM-SCA broadcast, FM-RDS broadcast, FM-RBDS broadcast and FM-DARC broadcast; the emergency message comprises an emergency instruction and emergency information;

the emergency information comprises receiving parameters of emergency broadcast DTMB programs.

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