KR19990005420A - APU capable of processing audio signals of different standards - Google Patents

Abstract

The present disclosure relates to an audio processing unit (APU) capable of processing audio signals of different standards of a multipoint control unit (MCU) connected to a plurality of terminals. The APU includes a plurality of decoders for receiving, restoring, and outputting an audio signal for each access terminal, a mux part and a mux connected to the outputs of the plurality of decoders to receive and add an audio signal output from each decoder. It includes a plurality of encoder (Encoder) for receiving the compressed audio signal output from the unit to be compressed and transmitted to each access terminal. Since the APU according to the present invention restores / compresses audio signals of different standards received from each access terminal to each terminal and transmits them to each terminal, video conferencing is possible through different networks.

Description

APU capable of processing audio signals of different standards

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an audio processing unit (APU) of a multipoint control unit (MCU). In particular, an audio signal of a different standard for receiving, restoring / compressing and transmitting audio signals of different standards from a terminal connected through different networks It relates to an APU that can be processed.

In recent years, as multimedia communication services become more popular, audio / video transmissions and video conferencing systems for switching data signals are developed. Doing. Thus, each terminal user can send and receive data to each other while having a conference call by calling the other party to the telephone number where the video conferencing system is installed.

In such a video conference system, an MCU is used to control signals transmitted and received from a plurality of interconnected terminals so that the system operates smoothly. In addition, up to now, one MCU of a videoconferencing system receives and processes audio signals of the same standard from terminals connected through the same network. Thus, if an audio signal of different standards is received from terminals connected through different networks, there is a problem in that compression / restore cannot be transmitted to each terminal.

Accordingly, in order to solve the above problem, the present invention is to provide an apparatus for processing a received audio signal of a different standard from the terminals connected through different networks to be transmitted to each access terminal.

1 is a block diagram showing an example of an APU capable of processing audio signals of another standard according to the present invention;

Explanation of symbols for main parts of the drawings

11-14: decoder 15 mux part

16 to 17: encoder

A feature of the present invention for achieving the above object is a plurality of decoders for receiving and restoring an audio signal for each access terminal in an APU (Audio Processing Unit) of a multipoint control unit (MCU) connected to a plurality of terminals ( Decoder) A plurality of encoders connected to the output terminals of a plurality of decoders to receive an audio signal output from each decoder, add a mux unit and a plurality of encoders to receive and compress the added audio signal output from the mux unit and transmit the compressed audio signal to each connection terminal. The APU is capable of processing audio signals of other standards, including (Encoder).

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing an example of an APU capable of processing audio signals of another standard according to the present invention. The APU of FIG. 1 includes a plurality of decoders 11 to 14 that receive and restore an audio signal for each connection terminal under control of a system controller not shown. Here, the first and second decoders 11 and 12 are decoders according to the G.711, 722, and 728 algorithms for receiving an audio signal from a terminal connected through ISDN, and the third and fourth decoders 13 and 14 are PSTNs. It is a decoder according to the G.723 algorithm that receives an audio signal from a connected terminal. An output terminal of the plurality of decoders 11 to 14 is connected to a mux unit 15 for receiving and adding output signals of each decoder. Two encoders 16 and 17 which receive and compress the output signal of the mux unit 15 are connected to an output terminal of the mux unit 15 to form an APU. Here, the first encoder 16 is an encoder according to the G.711, 722, 728 algorithm for transmitting the compressed signal to the access terminal of the ISDN, and the second encoder 17 transmits the compressed signal to the access terminal of the PSTN. An encoder according to the G.723 algorithm. In the present embodiment, a case in which the decoder and the encoder are configured of four and two, respectively, will be described.

The operation of the APU configured as described above will be described.

First, the audio signals separated from the H.320 / H.324 bitstream received for four terminals selected from the multiple terminal access boards of the ISDN / PSTN are controlled by a plurality of decoders according to control of a system controller (not shown). It is applied to each of (11-14). At this time, the audio signal received from the terminal of the ISDN is applied to the first and second decoders 11 and 12 according to the G.711, 722, 728 algorithm, and the audio signal received from the terminal of the PSTN is applied according to the G.723 algorithm. The third and fourth decoders 13 and 14 are applied. Thus, the first and second decoders 11 and 12 receive and restore the audio signal according to the G.711, 722, 728 algorithm. The reconstructed signal is modulated in accordance with a Pulse Code Modulation (PCM) method and input to the mux unit 15. The third and fourth decoders 13 and 14 receive and restore the audio signal according to the G.723 algorithm. This restored signal is also modulated in accordance with the PCM method and input to the mux unit 15. The mux section 15 adds the audio signal which is modulated by the PCM method from each decoder 11-14. Thus, the added signal is output to the first and second encoders 16 and 17. At this time, the first encoder 16 compresses the inputted audio signal according to the G.711, 722, 728 algorithm, and the compressed signal is transmitted to the connected terminal through the ISDN. The second encoder 17 compresses the inputted audio signal according to the G.723 algorithm, and the compressed signal is transmitted to the connected terminal through the PSTN.

In this way, audio signals of different standards transmitted from terminals connected through different networks are processed through the APU according to the present invention, and the processed audio signals are transmitted to respective terminals connected through different networks.

As described above, since the APU of the MCU according to the present invention restores / compresses audio signals of different standards received from each access terminal to each terminal and transmits them to each terminal, video conferencing is possible through different networks. .

Claims (4)

An audio processing unit (APU) of a multipoint control unit (MCU) connected to a plurality of terminals, comprising: a plurality of decoders for receiving and restoring an audio signal for each access terminal; A mux unit connected to output terminals of the plurality of decoders to receive and add an audio signal output from each decoder; And a plurality of encoders for receiving and compressing the added audio signal output from the mux unit and transmitting the compressed audio signal to each access terminal. The apparatus of claim 1, wherein the plurality of decoders include: a first decoder configured to receive and restore an audio signal for a terminal connected through ISDN; And a second decoder configured to receive and restore an audio signal for a terminal connected through a PSTN. The APU of claim 1, wherein the audio signals output from the plurality of decoders are modulated by a PCM (Pulse Code Modulation) method and input to the mux unit. 2. The apparatus of claim 1, wherein the plurality of encoders comprises: a first encoder for compressing an audio signal received from the MUX unit according to a compression algorithm of an ISDN audio signal and outputting the compressed audio signal to a terminal connected to the ISDN; And a second encoder for compressing the audio signal applied from the MUX unit according to a compression algorithm of the audio signal for the PSTN and outputting the audio signal to a terminal connected to the PSTN.