KR20090051389A - System for processing broadcasting-signal using the satellite digital broadcasting media gateway and broadcast-receiving apparatus - Google Patents

Abstract

The present invention prevents broadcast viewing delays or interruptions so that real-time broadcasting can be watched without interruption, and a broadcast signal processing system using a broadcast signal selector and a broadcast signal selector using a satellite digital broadcast media gate for efficiently receiving satellite wave signals. The present invention relates to a transmission apparatus, which receives a QPSK broadcast signal received by a satellite antenna and demodulates it into an image MPEG signal and an audio MPEG signal. After encoding and using the broadcast receiving selector and satellite digital broadcasting media gate including SMG (100: Satellite Broadcasting Media Gateway) for transmitting the terrestrial broadcast signal along with the video MPEG signal to a receiver on the head end. The present invention relates to a broadcast signal processing system, which is connected to a TV. It further comprises a broadcast signal selector 200 for receiving the terrestrial or satellite broadcast signal transmitted from the end and the IP broadcast signal transmitted through the Internet network and selects the most stable signal among these and transmits it to the TV. The present invention relates to a broadcast signal processing system using a broadcast receiving selector and a satellite digital broadcast media gate.

Terrestrial signal, satellite signal, IP signal, digital, analog,

Description

Broadcast signal processing system using broadcast receiving selector and satellite digital broadcast media gates

The present invention is a broadcast signal processing system using a satellite digital broadcast media gate and a broadcast receiver selector for receiving a satellite wave / terrestrial wave or IP signal transmitted from a broadcast through a satellite receiver, a set-top box or an internet network and watching the analog / digital TV in the home. It is about.

With the development of communication technology, the broadcasting system can also communicate in two directions by using various transmission media and communication methods such as terrestrial / satellite / IP in a unidirectional broadcast signal transmission concept.

Therefore, there is a need for a technology that minimizes the loss of broadcast signals so that these various types of broadcast signals can be reproduced on a home TV with higher quality.

However, even if the set-top box receives various types of broadcast signals, only one of them is reproduced and output from the TV.

For example, if the Internet is used as a transmission medium and the real-time broadcasting of a specific broadcasting station is suddenly output when watching a live broadcast of a specific broadcasting station by outputting the broadcast signal transmitted to the IP TV via the IP set-top box through the IP network, the reception sensitivity is not good. As a result, the broadcast may be temporarily delayed or stopped.

In addition to the problem of signal transmission due to the above unstable communication network, in case of broadcasting using satellite, the original image of the broadcast signal may be damaged due to a defect of the satellite receiver.

That is, as shown in FIG. 1, the QPSK signal (digital & analog) received through the satellite antenna is demodulated by the satellite receiver to QPSK to MPEG, and the demodulated MPEG signal to the original video signal, and then the modulator is modulated into a signal suitable for MATV. To send.

Therefore, if the demodulated signal is lost in the satellite receiver, the demodulated video original signal is output from the TV as it is. Therefore, if the performance of the satellite receiver is not good, the TV playback screen may be degraded.

Therefore, in the present invention, when the satellite / terrestrial wave signal or IP signal of the set-top box is the same broadcast signal, the communication end part of the home detects the reception state so that the broadcast signal having the best communication state among these signals is transmitted to the TV. This is to provide quality broadcasting using a selector.

In addition, the present invention provides the QPSK-type MPEG broadcast signal through the SMG (Satellite Broadcasting Media Gateway), which is transmitted from a TV without damaging the original signal of satellite broadcasting. It is to provide a broadcasting signal processing system using a broadcast receiving selector and a satellite digital broadcasting media gate delivered to a home communication terminal without damage.

Accordingly, an object of the present invention is to receive a QPSK broadcast signal received by a satellite antenna and demodulate it into a video MPEG signal and an audio MPEG signal in a broadcast signal receiving system, and demodulate the audio MPEG signal into an original audio signal and then demodulate it. And a SMG (100: Satellite Broadcasting Media Gateway) for encoding the audio AC-3 signal and transmitting the terrestrial broadcast signal together with the video MPEG signal to a receiver on the head end. A broadcast signal processing system using a satellite digital broadcast media gate is achieved.

In addition, the present invention, the SMG 100 includes a QPSK demodulator 110 for receiving a broadcast signal of the satellite QPSK received from the satellite antenna and demodulates into a video MPEG signal and an audio MPEG signal; A TS processor (120) for performing a signal transfer processing process of a video MPEG signal and an audio MPEG demodulated and transmitted from the QPSK demodulator (110); The audio MPEG signal of the MPEG video signal and the MPEG audio signal transmitted from the TS processor 120 is demodulated again into an original audio signal, and then converted into an audio AC-3 signal, and the video MPEG signal and the converted audio AC-3 are An A / V transcodec 140 for transmitting a signal to the TS processor 120; 8VSB modulator 130 for receiving the voice AC-3 signal and the video MPEG signal transmitted from the TS processor 120 and modulates them into 8VSB signal and transmits them through the RF coaxial cable to transmit to the conduit of the head end It is desirable to configure

According to the present invention, it is preferable that the A / V transcodec 140 transmits to the TS processor 120 after synchronizing the transmitted video MPEG signal and the demodulated and converted voice AC-3 signal with each other.

According to the present invention, the A / V transcodec 140 transmits the video MPEG signal and the audio AC-3 signal to the TS processor 120 and simultaneously transmits the video MPEG signal and the NTSC RF modulator 141 to the NTSC RF modulator. Preferably, the 141 modulates the video MPEG signal and the audio AC-3 signal into an NTSC standard signal suitable for analog TV so as to wirelessly transmit it to the head end conbiner.

In addition, according to the present invention, it is connected to the TV, the terrestrial or satellite broadcast signal transmitted from the headend and the IP broadcast signal transmitted through the Internet network receives the most stable of these among the transmission signal to the TV is selected It is preferable that the broadcast signal selector 200 is further included.

In addition, according to the present invention, the broadcast signal selector 200 is preferably made of an external type connected to the satellite / terrestrial signal and IP set-top box received through the cable terminal of MATV and CATV to receive these signals and transmit them to the TV.

In addition, according to the present invention, the broadcast signal selector 200 is configured in the interior of the IP set-top box and connected to the cable terminal of the MATV and CATV, it is preferably made of a built-in type for transmitting these broadcast signals to the TV Do

In addition, according to the present invention, the broadcast signal selector 200 receives both the IP signal and the satellite / terrestrial signals are received in the same reception signal detector 210 for detecting in real time whether they are broadcast signals of the same content broadcast on a specific channel Wow; Receive the same received signals detected by the same received signal detector 210 in real time and analyze the signal state through MPEG I, B, P signal analysis to select the best signal and the selected signal information to the received signal detector 210 A signal sensitivity analyzer 220 for transmitting; The signal sensitivity analyzer 220 is preferably composed of a signal transmitter 230 for transmitting the broadcast signal selected by the TV to be reproduced.

The broadcast signal processing system using the broadcast receiving selector and the satellite digital broadcast media gate of the present invention, when the satellite / terrestrial wave signal or the IP signal of the set-top box is the same broadcast signal, the communication end of the home to determine their signal attenuation Among the signals, a broadcast signal selector for transmitting a broadcast signal having the best communication state to the TV is configured to prevent a delay or interruption of broadcast viewing, thereby enabling real-time broadcasting without interruption.

In addition, the broadcast signal processing system using the satellite digital broadcast media gate of the present invention transmits the QPSK-type MPEG broadcast signal to the home communication terminal through the SMG without losing the original signal of the satellite broadcast. It provides a clear broadcast signal without damaging.

Hereinafter, an embodiment of a broadcast signal processing system using a broadcast receiving selector and a satellite digital broadcast media gate will be described in more detail with reference to the accompanying drawings.

As shown in Fig. 2, the present invention includes an SMG (Satellite Broadcasting Media Gateway), and a broadcast signal selector 200.

The SMG 100 is located in a headend (located in a group building such as an apartment, accommodation, school, etc.) on a broadcasting system.

Therefore, the SMG 100 receives the PQSK signal (composed of the video MPEG signal and the audio MPEG signal) received by the satellite antenna as shown in FIG. 4 and demodulates the video MPEG signal and the audio MPEG signal, among which the audio MPEG signal is included. Once again demodulates the original audio signal and encodes it back into a voice AC-3 signal.

In addition, the video MPEG signal and the audio AC-3 signals are modulated in 8VSB form and transmitted to the conbiner.

The broadcast signal selector 200 receives the terrestrial / satellite broadcast signal transmitted from the satellite digital broadcast media gateway 100 of the headend and the IP signal transmitted through the Internet network, and analyzes the best communication state among them. To the TV.

For demodulation and modulation of the QPSK signal as described above, the SMG 100, as shown in Figure 3, the QPSK demodulator 110, TS processor 120, 8VSB modulator 130, RF Up converter 131, The amplifier 132, the A / V transcodec 140, the NTSC RF modulator 141, the MCU 150, and the power supply unit 160 are configured.

The QPSK demodulator 110 demodulates them after receiving the satellite QPSK signal (analog / digital signal) received from the satellite antenna.

In other words, the video and audio MPEG signals transmitted in the form of QPSK signals are demodulated, and the demodulated video and audio MPEG signals are transmitted to the TS processor 120.

The TS processor 120 is a process module for image / audio signal processing, and transmits an image MPEG signal and an audio MPEG signal transmitted from the QPSK demodulator 110 to an A / V transcodec 140, and A It transmits a signal transmitted from the / V transcodec 140 to the 8VSB modulator 130.

The A / V transcodec 140 demodulates the audio MPEG signal among the MPEG video signal and the MPEG audio signal transmitted from the TS processor 120 into an original audio signal, and then converts it into an audio AC-3 signal. The converted video MPEG signal and the audio AC-3 signal are transmitted to the TS processor 120.

At this time, the A / V transcodec 140 is a broadcast standard matcher for satellite and terrestrial waves. The A / V transcodec 140 is used to match video and audio signals with each other in order to prevent inconsistency of transmission of video and audio signals due to time delay caused by conversion of audio AC-3 signals. After the synchronization is transmitted to the TS processor 120.

The A / V transcodec 140 also transmits these video MPEG signals and audio AC-3 signals to the NTSC RF modulator 141.

The NTSC RF modulator 141 modulates the video MPEG signal and the audio AC-3 signal into an NTSC standard signal suitable for analog TV, and transmits the radio signal to the conduit of the headend.

In addition, the 8VSB modulator 130 is connected to one side of the TS processor 120, receives a voice AC-3 signal and a video MPEG signal transmitted from the TS processor 120, modulates them into 8VSB signals, and head-ends them. It transmits via RF coaxial cable to transmit to the condenser.

The MCU 150 is a central processing unit of the satellite digital broadcasting media gateway 100 and is connected to a display unit and a key input unit to process input / output and commands of data.

In addition, the power supply unit 160 supplies power on the circuit through the MCU 150.

Accordingly, the QPSK signal transmitted to the SMG through the satellite antenna is demodulated by the QPSK demodulator 110 into a video MPEG signal and an audio MPEG signal, and the video MPEG signal and the audio MPEG signal are passed through an A / V transformer through the TS processor 120. It is transmitted to the codec 140 and to the NTSC RF modulator 141.

The audio MPEG signal of the transmitted video MPEG signal and the audio MPEG signal is once again demodulated into an original audio signal, and then converted into an audio AC-3 signal and synchronized with the video MPEG signal.

The synchronized video MPEG signal and audio AC-3 signal are again transmitted to the 8VSB modulator 130 via the TS processor 120, and these signals are modulated to 8VSB and transmitted through the RF coaxial cable.

Also, the video MPEG signal and the audio AC-3 signal transmitted to the NTSC RF modulator 141 are modulated according to the analog TV signal and then transmitted to the conbiner as a wireless signal.

As shown in FIG. 5, the satellite / terrestrial signal transmitted through the communication terminal of the home through the headend and the IP signal transmitted through the Internet network are input to the broadcast signal selector 200.

That is, the broadcast signal selector 200 may be connected to satellite / terrestrial signals and IP set-top boxes received through MATV and CATV, and may be implemented in an external form for receiving these signals. It may be implemented as a built-in.

The broadcast signal selector 200 includes the same reception signal detector 210, a signal sensitivity analyzer 220, and a signal transmitter 230.

The same received signal detector 210 receives both the IP signal and the satellite / terrestrial signals to detect whether they are the same broadcast signals broadcast on a specific channel.

When it is confirmed that the signals are the same broadcast signal, the same received signal detector 210 transmits these signals to the signal sensitivity analyzer 220.

That is, the same reception signal of the same reception signal detector 210 is transmitted to the signal sensitivity analyzer 220 when the same broadcast signal is detected among satellite / terrestrial waves or IP signals.

For example, when a real-time broadcast on a specific channel of the IP TV that you are watching and a terrestrial / satellite signal on the same channel are detected, the signal is detected through MPEG I, B, and P signal analysis.

The signal sensitivity analyzer 220 analyzes and selects a signal having the best signal state among the same broadcast signals.

For example, when watching a specific channel broadcast on IPTV, if the internet line is unstable and detects a signal attenuation, it analyzes I, B, P signals of MPEG and detects satellite or terrestrial broadcast to make the signal higher than the IP signal. You will see if it comes out.

Therefore, the satellite / terrestrial wave signal is selected and transmitted until the IP TV signal is stabilized and the satellite / terrestrial wave signal is transmitted until the signal is normalized.

The signal sensitivity analyzer 220 transmits signal information on the selected broadcast signal to the same received signal detector 210.

In addition, the broadcast signal selected by the signal sensitivity analyzer 220 is transmitted to the signal transmitter 230 and transmitted to the TV through the signal transmitter 230 to be reproduced.

1 is a diagram of a general signal processing method of a conventional satellite broadcast signal;

2 is a diagram illustrating an overall system of a broadcast signal system according to an embodiment of the present invention;

3 is a block diagram of a satellite digital broadcasting media gateway of FIG. 2;

4 is a diagram illustrating a signal processing method of a satellite broadcast signal according to the satellite digital broadcast media gateway of FIG. 3;

5 is a block diagram illustrating the selection of a broadcast signal in the broadcast signal system of the present invention.

* Description of the drawing symbols *

100: satellite digital broadcasting media gateway

200: broadcast signal selector

Claims (8)

In the broadcast signal receiving system, Receives the QPSK broadcast signal received by the satellite antenna and demodulates it into the video MPEG signal and the audio MPEG signal. Among them, the audio MPEG signal is demodulated again into the original audio signal and then encoded again into the audio AC-3 signal. Broadcast signal using a broadcast receiving selector and a satellite digital broadcasting media gate, comprising a SMG (100: Satellite Broadcasting Media Gateway) for transmitting a terrestrial broadcast signal to a conbiner on a head end to receive the signal. Processing system. The method of claim 1, The SMG 100 includes: a QPSK demodulator 110 for receiving a broadcast signal of a satellite QPSK received from a satellite antenna and demodulating a video MPEG signal and an audio MPEG signal; A TS processor (120) for performing a signal transfer processing process of a video MPEG signal and an audio MPEG demodulated and transmitted from the QPSK demodulator (110); The audio MPEG signal of the MPEG video signal and the MPEG audio signal transmitted from the TS processor 120 is demodulated again into an original audio signal, and then converted into an audio AC-3 signal, and the video MPEG signal and the converted audio AC-3 are An A / V transcodec 140 for transmitting a signal to the TS processor 120; 8VSB modulator 130 for receiving the voice AC-3 signal and the video MPEG signal transmitted from the TS processor 120 and modulates them into 8VSB signal and transmits them through the RF coaxial cable to transmit to the conduit of the head end And a broadcast receiving selector and a satellite digital broadcast media gate. The method of claim 2, The A / V transcodec 140 synchronizes the transmitted video MPEG signal with the demodulated converted voice AC-3 signal to the TS processor 120 and transmits the same to the TS receiver 120. Broadcast signal processing system using a gate. The method of claim 2, The A / V transcodec 140 sends the video MPEG signal and the audio AC-3 signal to the TS processor 120 and transmits the same to the NTSC RF modulator 141 so that the NTSC RF modulator 141 transmits the video. A broadcast signal processing system using a broadcast receiving selector and a satellite digital broadcasting media gate, characterized by modulating MPEG signals and audio AC-3 signals into NTSC standard signals suitable for analog TV. The method of claim 1, Connected with the TV, the broadcast signal selector 200 which receives the terrestrial or satellite broadcast signal transmitted from the headend and the IP broadcast signal transmitted through the Internet network and selects the most stable signal among these and transmits the signal to the TV. And a broadcast receiving selector and a satellite digital broadcast media gate. The method of claim 5, The broadcast signal selector 200 is connected to a satellite / terrestrial signal received through a cable terminal of MATV and CATV and an IP set-top box, and receives these signals and transmits them to a TV. Broadcast signal processing system using a digital broadcast media gate. The method of claim 5, The broadcast signal selector 200 is configured in a circuit inside the IP set-top box and is connected to the cable terminals of the MATV and CATV, and the broadcast reception selector characterized in that the built-in type for transmitting these broadcast signals to the TV Broadcast signal processing system using satellite digital broadcasting media gate. The method of claim 5, The broadcast signal selector 200 receives the IP signal and the satellite / terrestrial signals and receives the same received signal detector 210 for detecting in real time whether they are broadcast signals of the same content broadcast on a specific channel; Receive the same received signals detected by the same received signal detector 210 in real time and analyze the signal state through MPEG I, B, P signal analysis to select the best signal and the selected signal information to the received signal detector 210 A signal sensitivity analyzer 220 for transmitting; And a broadcast transmitter for transmitting and reproducing the broadcast signal selected by the signal sensitivity analyzer (220) to a TV.

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