KR100257345B1 - Personal computer teleconference system for isdn - Google Patents

Abstract

PURPOSE: A personal computer video conference system for an ISDN is provided to increase the convenience of a user by providing a video capture function by a video overlay, an internet connection function and a voice communication with a subscriber of a public switched telephone network in addition to a video conference operation. CONSTITUTION: An analog/digital converter(10) converts a video analog signal into a digital signal. A video processor(20) compresses and encodes the digital signal. A channel connection control unit(30) synchronizes data applied from an ISDN connection unit(40) to a clock and a frame synchronous signal. The ISDN connection unit(40) generates a clock signal and a frame signal. A video overlay unit(50) and a video digital/analog converter(60) overlay video data applied from the video processor(20) and data applied from a video card. An analog MUX/DEMUX unit(70) selects an input/output terminal according to a user's selection. A signal converter(80) converts an analog audio signal applied from the analog MUX/DEMUX unit(70) into a digital audio signal. The DSP(90) converts an ADPCM signal into a digital audio signal. A gain adjustment unit(100) adjusts a level of a voice signal applied from the analog MUX/DEMUX unit(70). A voice communication control unit(110) filters a ring control, a coding/decoding and a voice. An internet control unit(120) provides an internet service. A net channel connection control unit(130) applies state data controlled to a DPRAM(140). A buffer(150) receives and stores specific data.

Description

Personal computer video conferencing system for ISD

The present invention relates to an ISDN PC video conferencing system, and more particularly, to an ISDN PC video conferencing system that provides a video capturing function by a video overlay in addition to the basic video conferencing operation, and provides an internet connection function and voice communication with subscribers of a general public telephone network. It's about the system.

In general, the PC video conferencing system refers to a computer and a computer that are geographically separated from each other through a communication network, and an application that uses video or audio data from each computer to one's own computer and an application on a remote computer. By simultaneously transmitting / receiving between programs, it is possible to exchange information according to video or audio data received from a remote computer at a remote location, so that a meeting can be held at a remote location.

At this time, the communication network to be connected to the other computer uses an ISDN (Integrated Services Digital Network) network capable of high-speed data transmission / reception, such a PC video conferencing system as can be seen in Figure 1 attached, Including an A / D converter 1, a video processor 2, an ISDN connection 3, a memory 4, an audio processor 5, a data processor 6, a RAMDAC 7 and a monitor 8 Was done.

The A / D converter 1 converts an analog video signal applied from a camera, which is an image input means, into a 16-bit digital video signal and applies it to the video processor 2 side together with the synchronized control clock signal.

The video processor 2 compares and analyzes the motion and still picture of the video signal received from the ISDN, corrects error data generated during decoding, processes for multiplexing or demultiplexing video and audio signals, and video overlay processing. The overall operation of the video and audio signals transmitted and received through the ISDN.

The ISDN connection unit 3 is connected to the ISDN to interface the video and audio signals in the serial state of the multiplexed or demultiplexed bit streams at a narrowband ISDN transmission rate, 2B + D = 144 (Kbps).

The memory unit 4 stores data corresponding to the H. 261 standard for compression encoding and demodulation of a video signal transmitted and received, and an operation program for data processing of the video processor 2.

The audio processor 5 is set to the H. 221 standard for the processing of audio signals transmitted and received via ISDN to perform the overall processing of the audio signal.

The data processor 6 processes data necessary for the PC system in the transmitted and received video and audio signals.

The RAMDAC 7 converts the 16-bit digital video signal, which is restored and applied to the video overlay from the video processor 2, into an analog signal and displayed to the user through the monitor 8.

Referring to the operation of the image processing of the conventional PC video conferencing system configured as described above are as follows.

First, in case of transmitting a video signal of a user, an analog video signal applied from a camera, which is a video input means, is converted into a 16-bit digital signal by the A / D converter 1, and then the video together with the control signal of the synchronized clock. When applied to the processor 2 side, the corresponding video processor 2 is a 16-bit digital image applied by the program logic set in the memory unit 4 according to the clock signal TDMCLK for time division multiplexing at 4.096 MHz. Compressively encode the signal to H. 261 standard. Then, the error frame generated during the encoding process is corrected, and the audio signal applied from the audio processor 5 and the data signal applied from the data processor 6 are processed to H.221 standard and multiplexed with the video signal. Thereafter, it is applied to the ISDN connection portion 3 side on the sixth falling edge of the 4.096 (MHz) time division multiplexed clock signal applied from the outside. Accordingly, the ISDN connection unit 3 transmits the multiplexed video and audio signals to ISDN at a transmission rate of 144 (Kbps) (2B + D) according to a data clock DCLK of 0.512 (MHz). In addition, as described above from the ISDN, the video and audio signals which are compressed and applied are applied to the video processor 2 side as 8-bit signals through the ISDN connection unit 3 according to the time division multiplexed frame synchronization signal (TDMFS). Then, the video processor 2 demultiplexes the applied compressed coded video and audio signal according to the program logic applied from the memory unit 4 to separate the video signal, the audio signal and the user data signal, and then the audio signal. Is processed into a voice signal through the audio processing unit 5, and the corresponding user data signal is formed of data necessary for the PC system through the data processing unit 6, and the corresponding video signal is used for error data generated in the process of demultiplexing. After performing correction, decoding, frame control, format change to R, G, and B, and video overlay processing with the original video signal, 16 A digital video signal of a bit is applied to the side RAMDAC (7).

Accordingly, the RAMDAC 7 converts the applied 16-bit digital video signal into an analog video signal and displays the same to the user through the monitor 8.

As described above, the conventional ISDN PC video conferencing system has additional functions for the convenience of the user, such as a video capturing function or an internet access function by a video overlay, and subscriber and voice communication function of a public public telephone network, in addition to the basic video conferencing operation. Because it does not provide a function, it is not easy to use a variety of PC video conferencing system for ISDN.

The present invention has been made in view of the above-described problems, and in addition to the video conferencing operation basically provided by the PC video conferencing system, the video capture function by the video overlay, the Internet connection function, and the voice communication with the subscriber of the public public telephone network By providing a PC video conferencing system for ISDN that can be used in various ways, there is a purpose.

The present invention for achieving the above object, in the ISDN PC video conferencing system,

An A / D converter for converting a video analog video signal applied from a camera, which is a video input means, into a 16-bit digital signal and outputting the same with a synchronized control signal; An ISDN connection unit connected to the ISDN and generating a synchronized clock signal 128 (KHz) and a frame signal 8 (KHz) to interface a signal applied from the ISDN; A channel connection controller for synchronizing and outputting data applied from the ISDN connection unit with a clock and frame synchronization signal; A network channel access controller configured to control a call connection state of the ISDN access unit and output corresponding controlled state data; A DPRAM for driving a BAS / FAS (Bit Alignment Signal / Frame Alignment Signal) protocol by applying state information applied from the network channel access control unit to a CPU of a PC via a PC bus; A video overlay unit for overlaying the applied video data with the data applied from the PC video card and outputting the video data; A video D / A converter for converting digital video data applied from the video overlay unit into analog video data so as to be output to a monitor; The digital signal applied from the A / D converter is compressed and encoded, the audio signal and the general data are multiplexed and applied to the channel access controller, and the clock signal 128 (KHz) and the frame signal 8 applied from the ISDN connection unit. A video processor for demultiplexing a signal applied from the channel connection controller into a video signal, an audio signal, and general data according to (KHz); A DSP for compressing the applied audio signal into an ADPCM signal and applying the same to the video processor, and converting the ADPCM signal from the video processor into a digital audio signal and outputting the digital audio signal; A signal converter converting the applied analog audio signal into a digital audio signal and applying the same to the DSP, and converting the digital audio signal applied from the DSP into an analog audio signal and outputting the analog audio signal; A gain adjusting unit which adjusts and outputs a level of an applied audio signal; A voice communication control unit for mu / A-low conversion, ring control, coding / decoding, and voice filtering of the audio signal adjusted by the gain adjusting unit or the audio signal applied from the ISDN connection unit, respectively; By selecting an input / output terminal according to a user's selection, an audio signal input from a microphone is selected and output to the signal converter or the gain adjusting unit, and an audio signal input from the signal converter or applied from the voice communication control unit. An analog mux / demux unit for selecting an audio signal and outputting the same to a speaker; When the call connection with the ISDN is made through the ISDN access unit, and connected to the Internet according to the TCP / IP (Transmission Control Protocol / Internet Protocol) through the B-channel, the Internet control unit for providing an Internet service; A buffer that receives and stores a file or specific data to be transmitted from a PC to a counterpart PC through the PC bus, and then to the video processor, and sends data from the video processor to an application program running through the PC bus. Characterized in having a.

1 is a block diagram showing a conventional PC video conferencing system for ISDN.

Figure 2 is a block diagram of a PC video conferencing system for ISDN according to the present invention.

Explanation of symbols on the main parts of the drawings

1,10: A / D Converter 2,20: Video Processor

3,40: ISDN connection part 4: memory part

5: audio processor 6: data processor

7: RAMDAC 8: PC Monitor

30: channel access control unit 50: video overlay unit

60: video D / A converter 70: analog mux / demux unit

80: signal converter 90: DSP (Digital Signal Processor)

100: gain adjustment unit 110: voice communication control unit

120: Internet control unit 130: Network channel access control unit

140: DPRAM 150: buffer

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

PC video conferencing system for ISDN according to the present invention, as shown in Figure 2, the A / D converter 10, video processor 20, channel connection control unit 30, ISDN connection unit 40, video Overlay unit 50, video D / A converter 60, analog mux / demux unit 70, signal converter 80, DSP 90, gain adjustment unit 100, voice communication control unit 110, Internet The controller 120, the network channel access controller 130, a DPRAM (Dual Port RAM) 140, and a buffer 150 are provided.

The A / D converter 10 converts a video analog video signal applied from a camera, which is an image input means, into a 16-bit digital signal and applies the synchronized control signal to the video processor 20.

The video processor 20 compresses and encodes the digital signal applied from the A / D converter 10, and multiplexes the audio signal applied from the DSP 90 and the general data applied from the buffer 150 to multiplex the channel access controller. And demultiplexing the signal applied from the channel access controller 30 according to the clock signal 128 (KHz) and the frame signal 8 (KHz) applied from the ISDN connection unit 40, and the corresponding audio signal is DSP. In step 90, the general data is applied to the buffer 150, and the video data is decoded and applied to the video overlay unit 50.

The channel access control unit 30 applies the data applied from the ISDN connection unit 40 to the video processor 20 in synchronization with the clock and frame synchronization signals.

The ISDN connection unit 40 is connected to the ISDN, generates a synchronized clock signal 128 (KHz) and a frame signal 8 (KHz) to interface a signal applied from the ISDN.

The video overlay unit 50 and the video D / A converter 60 overlay the video data applied from the video processor 20 and the data applied from the video card of the PC to be applied to the monitor and displayed on the screen.

The analog mux / demux unit 70 selects an input / output terminal according to a user's selection, selects and outputs a voice signal input from the microphone to the signal converter 80 or the gain adjusting unit 100, and outputs the signal converter 80. The voice signal input from the voice signal or the voice signal applied from the voice communication control unit 110 is selected and output to the speaker.

The signal converter 80 converts the analog audio signal applied from the analog mux / demux unit 70 into a digital audio signal and applies the same to the DSP 90, and converts the digital audio signal applied from the DSP 90 into analog. The signal is converted into an audio signal and applied to the analog mux / demux unit 70.

The DSP 90 compresses an audio signal applied from the signal converter 80 into an ADPCM signal and applies it to the video processor 20. The DSP 90 converts an ADPCM signal applied from the video processor 20 into a digital audio signal and converts the signal into a digital audio signal. 80).

The gain adjusting unit 100 adjusts the level of the voice signal applied from the analog mux / demux unit 70 and applies it to the voice communication control unit 110.

The voice communication controller 110 mu / a-row converts the voice signal adjusted by the gain adjusting unit 100 or the voice signal applied from the ISDN connection unit 40, or performs ring control, coding / decoding, and voice. Filter out the output.

When a call connection is made with the ISDN, the Internet controller 120 connects with the Internet according to a Transmission Control Protocol / Internet Protocol (TCP / IP) which is a LAN (Local Area Network) protocol through a B-channel and provides an Internet service. .

The network channel access controller 130 controls the state of the ISDN connection 40 dml call connection and applies the controlled state data to the DPRAM 140.

The DPRAM 140 drives the BAS / FAS (Bit Alignment Signal / Frame Alignment Signal) protocol by applying the PC-bus to the CPU of the PC for the state information applied from the network channel access controller 130.

The buffer 150 receives and stores a file or specific data to be transmitted from the PC to the counterpart PC through the PC bus, and then applies the data to the video processor 20 and sends the data from the video processor 20 to the PC bus. Sends to the running application program.

The operation of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, according to an embodiment of the present invention, in order to share a voice communication function with PC video conferencing via ISDN, the present invention, according to the user's selection in the application running on the terminal, the control selection signal is analog mux / de When it is applied to the mux part 70, if the video conference and the voice communication is simultaneously performed, the A ₀ and B ₀ input / output terminals of the analog mux / demux part 70 are selected to enable voice communication during the video conference. If only the voice service is selected, the A ₁ and B ₁ input / output terminals of the analog mux / demux unit 70 are selected to perform voice communication.

First, a video video conferencing process using the PC video conferencing system for ISDN will be described. First, the ISDN access unit 40 converts ISDN into call connection data applied through the DPRAM 140 and the network channel access control unit 130. The call is connected to the other terminal through the network channel access control unit 130 and the DPRAM 140, and the call connection data applied through the ISDN from the other terminal in response thereto. In more detail, the call connection control between the terminal and the ISDN switch is in charge of the D channel indicated by the data channel, and the network channel access controller 130 controls the state of the call connection to control the state information of the DPRAM 140. And BPC / BAS protocol of 1B / 2B. In this case, two channels are used.

Thereafter, after the call is connected, actual data transmission / reception between the terminal and the ISDN is transmitted / received through the B channel, which is a voice channel. At this time, at the time of transmission, video data applied from the camera, converted into a digital signal by the A / D converter 10, and applied to the video processor 20, and input from the microphone are inputted from the analog mux / demux unit 70. After converting the digital data from the signal converter 80 through the A ₀ output stage, compressed to the ADPCM at the DSP 90 and applied to the video processor 20, and stored in the buffer 150 through a PC bus. The general data applied to the video processor 20 is multiplexed by the video processor 20 and transmitted to the ISDN via the channel access controller 30 and the ISDN access unit 40. In addition, at the time of reception, a signal received from the ISDN to the ISDN access unit 40 is applied to the channel access control unit 30, and the channel access control unit 30 corrects an error frame generated during data processing. To the video processor 20. In this case, the video processor 20 demultiplexes the received signal. At this time, the video signal is applied to the video overlay unit 50, and the video overlay unit 50 is a VGA graphic signal and a R, The G, B, and horizontal / vertical synchronization signals are loaded together and applied to the PC monitor through the video D / A converter 60 to be displayed on the screen. At this time, the video overlay function supports the resolution provided by the PC when the video data is output to the PC monitor, that is, the 640 × 480, 800 × 600, 1024 × 768, 1205 × 1024 modes and the video capture function. For this purpose, the video overlay unit 50 and the video D / A converter 60 are implemented. In addition, the voice signal is applied to the DSP 90 and decoded, and then converted into an analog voice signal by the signal converter 80 and output through the speaker via the B ₀ input terminal of the analog mux / demux unit 70. . In addition, general data, that is, data used by an application program operating in the terminal is stored in the buffer 150 and is applied to the terminal through a PC bus.

On the other hand, when PC video conferencing is not performed, that is, when video data, voice data, and general data are not transmitted / received, a process for talking with a general telephone connected to a general PSTN network as well as an ISDN telephone through ISDN This is as follows.

First, the call connection process is the same as the above-described video video conference process, in which case only one channel for voice communication is connected.

Thereafter, after the call is connected, video conferencing transmits / receives multiplexed data to B-channel according to H.221 protocol, but in case of voice communication, a call must be made with a general telephone connected to a PSTN network. When transmitting data, the voice signal input through the microphone is level adjusted by the gain adjusting unit 100 through the A ₁ output terminal of the analog mux / demux unit 70, and then mu / A is performed by the voice communication control unit 110. Low-conversion, coded and filtered and sent to the other end through the ISDN connection 40. In addition, in the receiving process of the voice data, the voice data applied through the ISDN access unit 40 is mu / a-low conversion, decoding and filtering in the voice communication control unit 110, analog mux / demux unit 70 It is output to the speaker via B ₁ input terminal of.

Meanwhile, the internet communication process using the PC video conferencing system for ISDN is as follows. First of all, this process connects to the Internet at the line speed of 128kbps, which is the ISDN basic connection speed. The call connection process is the same as the video conferencing process described above. In this case, one channel or two channels are selected according to the user's selection. Can optionally be used.

Subsequently, when the call is connected, data is transmitted / received through the ISDN access unit 40 and the Internet controller 120 through the B channel, that is, after the call connection is made with the ISDN, the TCP / IP is controlled by the Internet controller 120. According to the protocol, data is transmitted / received through the B channel, and the corresponding data is transmitted to the terminal through the PC bus.

As described above, the present invention provides various additional functions such as video capturing by video overlay, internet access function and subscriber and voice communication function of general public telephone network in addition to video conference operation basically provided by PC video conferencing system. By doing so, it is possible to increase the convenience of the user and to expect high added value of the product.

Claims (1)

In PC video conferencing system for ISDN, An A / D converter 10 for converting a video analog video signal applied from a camera, which is a video input means, into a 16-bit digital signal and outputting the same with a synchronized control signal; An ISDN connection unit 40 connected to the ISDN and generating a synchronized clock signal 128 (KHz) and a frame signal 8 (KHz) to interface a signal applied from the ISDN; A channel connection controller (30) for synchronizing and outputting data applied from the ISDN connection unit (40) to a clock and frame synchronization signal; A network channel access control unit 130 for controlling the state of the call connection of the ISDN access unit 40 and outputting the controlled state data; A DPRAM 140 for driving a BAS / FAS (Bit Alignment Signal / Frame Alignment Signal) protocol by applying state information applied from the network channel access controller 130 to a CPU of a PC through a PC-bus; A video overlay unit 50 which overlays and outputs the applied video data and the data applied from the PC video card; A video D / A converter 60 for converting the digital video data applied from the video overlay unit 50 into analog video data so as to be output to a monitor; The digital signal applied from the A / D converter 10 is compressed and coded, the audio signal and the general data are multiplexed and applied to the channel access controller 30, and the clock applied from the ISDN connection unit 40. A video processor (20) for demultiplexing a signal applied from the channel connection controller (30) into a video signal, an audio signal, and general data according to a signal 128 (KHz) and a frame signal 8 (KHz); A DSP (90) for compressing the applied audio signal into an ADPCM signal and applying it to the video processor (20), converting the ADPCM signal applied from the video processor (20) into a digital audio signal; A signal converter (80) for converting the applied analog audio signal into a digital audio signal and applying the same to the DSP (90), and converting the digital audio signal applied from the DSP (90) into an analog audio signal and outputting the analog audio signal; A gain adjusting unit 100 for adjusting and outputting a level of an applied audio signal; A mu / a-low conversion, ring control, coding / decoding, and voice filtering are performed on the audio signal adjusted by the gain adjusting unit 100 or the audio signal applied from the ISDN connection unit 40, respectively. A voice communication control unit 110; By selecting an input / output terminal according to a user's selection, an audio signal input from a microphone is selected and output to the signal converter 80 or the gain adjusting unit 100, and an audio signal input from the signal converter 80. Or an analog mux / demux unit 70 for selecting an audio signal applied from the voice communication control unit 110 and outputting the audio signal to a speaker; When the call connection with the ISDN is made through the ISDN access unit 40, the Internet control unit 120 connects to the Internet according to Transmission Control Protocol / Internet Protocol (TCP / IP) through the B-channel and provides an Internet service. ; File and specific data to be transmitted from PC to counterpart PC are received and stored through the PC-bus, and then applied to the video processor 20, and the data from the video processor 20 is being executed through the PC-bus. PC video conferencing system for ISDN, characterized in that it comprises a buffer 150 for sending to the application program.

Images