WO2002054259A1 - Digital video communication system, digital video communication method, program, and medium - Google Patents

Abstract

An image and sounds could not have been simultaneously transmitted for digital video communication through personal computer. A digital video communication system comprising a virtual driver (103) for connecting an OS-provided driver (102) for driving a digital video (101) to an OS-provided communication application program (106), wherein the virtual driver (103) separates video-sound multiplex data output from the OS- provided driver (102) into video data and sound data and outputs them to the OS-provided communication application program (106).

Description

 Description Digital video communication system, digital video communication method, program, and media

 The present invention relates to, for example, a digital video communication system, a digital video communication method, a program, and a medium for realizing the same function as a videophone using communication by a personal computer. Background art

 Videophones that transmit images and audio have been implemented using dedicated terminals. In other words, in order to make a videophone call, it is necessary to purchase this dedicated terminal, and the videophone has not yet reached widespread use.

 On the other hand, with the recent development of networks and the Internet, communication using personal computers has become common. As one of the applications for using such communication, communication applications attached to OS such as NetMeeting, which can realize functions equivalent to a videophone, are coming to the market.

Such communication applications use televisions as audio and image input devices that use separate devices connected to personal computers for audio and images, such as microphones for audio and USB cameras for images. It has the same function as a telephone. In addition, the communication application attached to the OS, in addition to the above image and audio communication, A line for data transmission is also held in the same line for image and audio, and this is used to realize chat-to-file transfer.

 In addition, the easiest way to configure a communication application that transmits images and audio over the Internet or a network using home digital video is to use a driver such as msdv.sys provided by Windows OS. There is a method of using a combination of the above and the communication application as described above.

 However, the communication application provided by the OS described above recognizes digital video as a single device, so it was not possible to transmit images and audio simultaneously when performing digital video communication using a personal computer. . In addition, the functions and extensions could not be performed because the drivers and applications provided by OS were used.

 Also, when performing digital video communication using a personal computer, it was not possible to realize additional functions, such as control of the camera at the other end of the call, which could be realized by using a conventional dedicated terminal. In addition, the communication application provided with the OS of the personal computer could not switch the device while connected to the communication destination. Disclosure of the invention

 The present invention has been made in consideration of the above-described conventional problems, and provides a digital video communication system, a digital video communication method, and a program capable of simultaneously transmitting an image and sound when performing digital video communication using a personal computer. It is intended to provide rams and media.

In addition, the present invention, in consideration of the above-described conventional problems described above, performs digital video communication using a personal computer when controlling a camera of a call destination. The purpose of the present invention is to provide a digital video communication system, a digital video communication method, a program, and a medium capable of performing such operations.

 The first invention (corresponding to claim 1) includes a virtual driver for connecting a digital video driver for driving digital video to a communication application,

 The virtual driver is a digital video communication system that separates image / audio multiplexed data output from the digital video driver into image data and audio data and outputs the separated data to the communication ablation.

 According to a second aspect of the present invention (corresponding to claim 2), the communication application is capable of outputting function extension information for controlling output of the image data to the virtual driver. 1 is a digital video communication system of the present invention.

 The third invention (corresponding to claim 3) is the digital video communication system according to the second invention, wherein the control of the output of the image data is a control for repeatedly outputting a frame included in the image data. It is.

 A fourth aspect of the present invention (corresponding to claim 4) is that the communication application is capable of outputting function extension information for controlling output of the audio data to the virtual driver. 1 is a digital video communication system of the present invention.

 A fifth invention (corresponding to claim 5) is the digital video communication system according to the fourth invention, wherein the control of the output of the audio data is a control for changing an output level of the audio data.

A sixth invention (corresponding to claim 6) is the digital video communication system according to the fourth invention, wherein the control of the output of the audio data is a control for changing a frequency of the audio data. In a seventh aspect of the present invention (corresponding to claim 7), the virtual driver includes a second or a third output that includes the function extension information output by the communication application in the image data Z or the audio data. The fourth is a digital video communication system of the present invention.

 An eighth aspect of the present invention (corresponding to claim 8 ′) is a seventh aspect including a codec for performing a function extension based on the function extension information output included in the image data and / or the audio data. 1 is a digital video communication system of the invention.

 According to a ninth aspect of the present invention (corresponding to claim 9), the function extension is image synthesis.

 The digital video communication system according to the eighth aspect of the present invention, wherein the function extension information is an image used for synthesizing the image and information for synthesizing the image.

 A tenth aspect of the present invention (corresponding to claim 10) is to use a virtual driver for connecting a digital video driver for driving digital video to a communication application, and to output an image output from the digital video driver. A digital video communication method comprising a step of separating audio multiplexed data into image data and audio data and outputting the separated data to the communication application.

 An H ^ -th invention (corresponding to claim 11) is a digital video communication system for performing communication using digital video via a network,

 This is a digital video communication system for transmitting information for controlling a digital video of a communication destination by using the network.

The twelfth invention '(corresponding to claim 1) is that the transmission using the network uses a data transmission line provided by a communication application. 11 is a digital video communication system according to the eleventh aspect of the present invention. '

 A thirteenth invention (corresponding to claim 13) is the digital video control, wherein the digital video control is at least one of a camera function, a VTR function, and a memory card function. Or a twelfth digital video communication system of the present invention.

 The fourteenth invention (corresponding to claim 14) is the digital video communication system according to the eleventh or twelfth invention, wherein the control of the digital video is the control of the codec of the communication destination.

 According to a fifteenth aspect of the present invention (corresponding to claim 15), the communication destination transmits information for restricting or disabling control of the digital video to be performed to a communication source. It is an eleventh or twelfth digital video communication system of the present invention.

 The sixteenth invention (corresponding to claim 16) is a digital video camera function, a VTR function, and a memory card function which are to be used for the communication, and the function to be used for the communication is The digital video communication system according to any one of the Hth to fifteenth aspects of the present invention, which can be changed based on an instruction from a communication source or a communication destination.

 According to a seventeenth aspect of the present invention (corresponding to claim 17), the codec to be used for the communication can be changed based on an instruction from a communication source or a communication destination during the communication. A digital video communication system according to any one of the ^ th to fifteenth aspects of the present invention.

 An eighteenth aspect of the present invention (corresponding to claim 18) is a digital video communication method for performing communication using digital video via a network,

Information for controlling a digital video of a communication destination is transmitted to the network. A digital video communication method comprising the step of transmitting using a digital video communication. A nineteenth invention (corresponding to claim 19) is a digital video communication method according to the tenth invention, wherein the digital video driver for driving digital video is connected to a communication application. A program for causing a computer to execute a step of using a virtual driver to separate image / audio multiplexed data output from the digital video driver into image data and audio data and output the data to the communication application.

The present invention twentieth (corresponding to claim 2 0) is a nineteenth loaded with medium Purodara arm of the present invention, _c second ^ is a medium that can be processed by a computer - the present invention ( The present invention relates to a digital video communication method according to an eighteenth aspect of the present invention, which causes a computer to execute a step of transmitting information for controlling digital video of a communication destination using the network. Program.

 A twenty-second aspect of the present invention (corresponding to claim 22) is a medium carrying the second H ^-program of the present invention, and is a medium that can be processed by a computer. BRIEF DESCRIPTION OF THE FIGURES

 FIG. 1 is a block diagram of a digital video communication system according to Embodiment 1 of the present invention.

 FIG. 2 is a block diagram of the digital video communication system according to the third embodiment of the present invention.

 FIG. 3 is a block diagram of a digital video communication system according to Embodiment 4 of the present invention.

FIG. 4 is a block diagram of the digital video communication system of the present invention. (Explanation of reference numerals)

 101 "

 102 OS provided driver

 103 Virtual Driver

 104 Imaging Device

 105 Audio Device

 106 OS provided communication application

 107 BEST MODE FOR CARRYING OUT THE INVENTION

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

 (Embodiment 1)

 First, the configuration of the digital video communication system according to the present embodiment will be described with reference to FIG. 1, which is a schematic diagram of the digital video communication system according to the first embodiment of the present invention.

 The digital video communication system according to the present embodiment separates an input signal, in which an image and a sound output from the digital video driver are multiplexed, into an image and a sound between the digital video driver provided by the OS and the communication application. And a virtual driver that connects to a communication application as two devices for image and sound.

In FIG. 1, 101 is a digital video, 102 is a digital video OS-provided driver, 103 is a virtual image device 104 for image data and an audio data for connecting the output of the OS-provided driver to the communication application 106. Configuration with virtual audio device 105 A virtual driver 106 is a communication application provided by the OS.

 Note that the OS providing driver 102 corresponds to the digital video driver of the present invention, and the OS providing communication application 106 corresponds to the communication application of the present invention.

 Next, the operation of the digital video communication system according to the present embodiment will be described. While describing the operation of the digital video communication system of the present embodiment, one embodiment of the digital video communication method of the present invention will be described (the same applies to the following embodiments). The image and sound multiplexed data obtained by multiplexing the image and sound output from the digital video 101 are input to a personal computer (hereinafter PC) via a medium such as IEEE1394. On the PC side, the input audio / video multiplexed data is input to the virtual dryino 103 through the OS providing driver 102 for digital video. The virtual dryino 103 separates the input image / audio multiplexed data into image data and audio data, and sends the image data to the image device 104 and the audio data to the audio device 105. The image device 104 and the audio device 105 output from the OS providing communication application 106 when there is a request for image and audio.

 As described above, the digital video communication system according to the present invention includes the virtual driver 103 between the OS-provided driver 102 and the OS-provided communication application 106, so that the digital video Both voices can be output simultaneously to communication applications provided by the OS.

 (Embodiment 2)

Next, the configuration of the digital video communication system of the present embodiment explain.

 The digital video communication system of the present embodiment is the same as that of the above-described embodiment.

It has the same configuration as the digital video communication system (see Fig. 1). However, in the digital video communication system of the present embodiment, the OS-provided communication application 106 outputs the function extension information to the virtual driver 103, and the virtual driver 103 outputs the stream according to the input function extension information. Is controlled.

 Next, the operation of the digital video communication system according to the present embodiment will be described. The following description focuses on the output stream control method.

 First, a method of controlling the image output will be described. The image device 104 receives image repetition information from the S-provided communication application 106 and performs control to repeatedly output the same frame. As a result, in a communication application that uses encoding such as H.263 using correlation between frames, the amount of difference data between frames during a period in which an image is repeatedly output becomes zero. It is possible to increase the data amount of the frame to be coded in the minute frame, and to improve the image quality. By changing the number of repetitions depending on the communication speed of the application, the image quality during communication can be changed according to the communication speed.

Next, a method of controlling the audio output will be described. The audio device 105 receives a sound output level and a mute signal from the OS-provided communication application 106, processes the audio signal to be output, and outputs the processed audio signal. This reduces the level of unnecessary audio output from digital video generated when fast-forward / rewind processing is performed, for example, when tape playback of digital video is transmitted by the communication application 106. Mi Processing such as quitting and not outputting can be performed, and the user interface for voice can be improved. It is possible to convert not only the sound level but also the frequency. Thus, for example, it is possible to output an audio stream at a frequency desired by ablation. As described above, the digital video communication system according to the present invention includes the virtual driver 103 between the OS-provided dryno 102 and the OS-provided communication application 106, and provides the OS-provided communication application 106 By controlling the output stream by the virtual driver 103 according to the function extension information, it is possible to improve the user interface relating to the image quality and audio at the time of transmission.

 Note that the method of extending the function of the image and sound shown here is an example, and other extensions such as not outputting an image are also possible.

 The function extension information can be set not only from the OS-provided communication application 106 but also from other applications.

 (Embodiment 3)

 Next, the configuration of the digital video communication system according to the present embodiment will be described with reference to FIG. 2, which is a block diagram of the digital video communication system according to the third embodiment of the present invention.

 The digital video communication system according to the present embodiment has the same configuration as the digital video communication system according to the first embodiment (see FIG. 1), except that the image device 104 and the audio device 105 It is characterized by having a codec 107 for decoding the output stream of.

Next, the operation of the digital video communication system according to the present embodiment will be described. Note that the description of the control up to the virtual device 103 is described above. The description is omitted because it is the same as that of the first embodiment.

 The virtual device 103 adds the function extension information from the communication application 106 to the stream output from the video device 104 and the audio device 105 or header information that is not used by the codec 107 at the subsequent stage. And output it. The codec 107 reads the replaced information and performs a predetermined control.

 Here, as an example of this, a case in which image combining processing is performed will be described. The virtual device 103 receives the image file name to be combined with the digital video image received from the communication application and the information used for image combination into the information not used by the codec 107 of the output image stream. The output is replaced with the first one. The codec 107 reads the replaced image file name and information used for image synthesis. Now, suppose that the information used for image synthesis is certain color information. The codec 107 reads the image data specified by the image file name, and replaces the color information portion with an input signal from digital video and outputs it. This makes it possible to output a synthesized image. Of course, it is possible not only to synthesize the images but also to output them by replacing them with predetermined images. Here, the predetermined image is an image of a predetermined format such as a bitmap specified by the application, and for example, an image of a format other than the predetermined format such as JPEG is converted into a predetermined format and used. . Here, the format conversion is performed only once at the first time, and the second and subsequent times use the image converted and stored the first time, so that the load of the image conversion of the application can be reduced.

As described above, the digital video communication system of the present invention includes the virtual driver 103 between the OS-provided driver 102 and the OS-provided communication application 106, and provides the OS-provided communication application 106 Function expansion from By adding or replacing the extension information to the stream output by the virtual driver 103, the function can be extended.

 In particular, by adding extension data to the image stream and synthesizing the image with codec 107, it is possible to hide unnecessary parts on the screen of the transmitted image, and realize privacy protection for the communication partner. I can do it. Further, by pasting a still image on the background in image synthesis and transmitting the same, it is possible to reduce the data of the difference between frames as in the second embodiment, and to improve the transmission image quality. Of course, when the image is replaced with a predetermined image and output instead of the image synthesis, the image becomes a complete still image, so that the image quality can be further improved as compared with the image synthesis.

 It should be noted that the method of realizing the function expansion of the image shown here is an example, and other methods are also possible. Of course, the sound can be expanded. Further, similarly to the case of the second embodiment, the function extension information can be received and set not only from the OS providing communication application 106 but also from other applications.

 (Embodiment 4)

 Next, the configuration of the digital video communication system according to the present embodiment will be described with reference to FIG. 3, which is a block diagram of the digital video communication system according to the fourth embodiment of the present invention.

 In FIG. 3, 201 and 204 are digital video, 202 and 205 are personal computers, 203 is the receiving side consisting of digital video 201 and personal computer 202, and 206 is digital A transmitting side including a video 204 and a personal computer 205 is a network for transmitting and receiving data between personal computers.

Here, the receiving side 203 and the transmitting side 206 are set for the explanation in the present embodiment, and are actually two-way communication, so that they are fixed. Not determined.

 Next, the operation of the digital video communication system according to the present embodiment will be described.

 Digital videos 201 and 204 are connected to personal computers 202 and 205, for example, via IEEE1394, and control signals from personal computers 202 and 205 Operate.

The receiving side 203 transmits digital video control information, which is a control command of the digital video 204, to the transmitting side 206. Here, as a transmission method, for example, the communication application attached to the OS is used to transfer data for performing, for example, chat data / file transfer, etc., within the same line of image and sound. Use the data transmission line at Thus, digital video control information, which is a digital video control command, can be transmitted to the other party. Note that the data transmission line here is not a dedicated communication line, but is, for example, a band allocated for data such as digital video control information by a communication application by band division (of course, by time division. (The data transmission line may be secured.) _{C On the} transmitting side 206, the digital video control information received by the personal computer 205 is transmitted to the digital video 204, so that the digital video 204 is transmitted. Control 4 As a result, it is possible to control the digital video 204 of the transmitting side 206 from the receiving side 203.

 Here, the control of digital video includes, for example, zooming in and zooming out of the camera when the digital video is in the camera mode, and playing back and stopping the tape in the VTR mode, such as fast forward, rewind, and pause. In the memory card mode, switching of images recorded on the memory card is performed.

The control of digital video includes the control of each of the above modes. In addition to switching, it is also possible to switch between camera mode, VTR mode and memory card mode. This makes it possible to switch devices during a call, which could not be achieved with the communication application attached to the OS.

 Also, even if the digital video connected to the personal computer does not operate according to the command operation from the personal computer, the control command is transmitted to the codec used by the communication application, so that the codec can be used to enlarge / reduce or cut out the image. Perform image processing. Thus, even if the source digital video does not support functions such as zoom-in and zoom-out, it is possible to realize the same functions in the camera mode. Instead of switching digital video under control from a personal computer, it is of course possible to switch between voices, images, and codecs to be used during a call by switching manually. But it is possible.

 As described above, in the digital video communication system according to the present embodiment, the receiving side 203 transmits the control command for the digital video 204 to the transmitting side 206 so that the digital video of the transmitting side 206 is transmitted. It becomes possible to control. This makes it possible to implement additional functions, such as controlling the source digital video from the callee, in a TV phone that could only be realized with a dedicated device in the past.

 (Embodiment 5)

 Next, the configuration of the digital video communication system according to the present embodiment will be described.

The digital video communication system according to the present embodiment has the same configuration as the digital video communication system according to the fourth embodiment (see FIG. 3). However, in the digital video communication system of the present embodiment, the network The feature is that the data flowing over the network 207 is digital video information instead of digital video control information.

 Next, the operation of the digital video communication system according to the present embodiment will be described.

 The transmitting side 206 transmits digital video information, which is information relating to the digital video 204, to the receiving side 203. The transmission method here is the same as in the first embodiment, although the transmission side and the reception side are opposite.

 The receiving side 203 controls the digital video 204 in the same procedure as in the first embodiment based on the digital video information received from the transmitting side. That is, in the present embodiment, the control on the digital video 204 that can be performed on the receiving side 203 is only the function specified by the transmitting side 206. Therefore, for example, if the transmitting side 206 transmits information to the receiving side 203 that the control is not permitted, the receiving side 203 cannot control the digital video 204. If the information that only the control is permitted is transmitted, the control can be performed only in the camera mode. In other words, the transmission side 206 can restrict the permission to the reception side 203 in a limited manner.

 In addition, by transmitting information of the digital video 204 itself such as the model number of the digital video 204 and the current state as digital video information, the status of the digital video at the other end of the call can be transmitted between the two parties. It is also possible to share. Furthermore, if both parties who talk on digital video have information in advance, the amount of information to be transmitted can be reduced and the load on the system can be reduced.

As described above, the digital video communication system of the present invention transmits digital video information from the transmitting side 206 to the receiving side 203, thereby limiting the control of the digital video 204 that can be performed on the receiving side 203. Can do It works.

 In Embodiments 4 and 5 described above, the transmission method of digital video control commands is described as using a data line provided by a communication application attached to the OS. It is of course possible to use other methods such as sending. The point is that any control command can be transmitted to the communication destination, and the transmission method is arbitrary.

 The communication application that comes with the OS is a communication application that comes standard with the OS. Even if the same application that is not included is installed via a medium such as a network or CD-ROM, The same effect as the invention can be obtained.

 In the above, Embodiments 1 to 5 have been described in detail.

 As shown in FIG. 4, a digital video communication system having a configuration in which the digital video communication system according to the third embodiment (see FIG. 2) and the digital video communication system according to the third embodiment (see FIG. 3) are combined. Video communication systems are also included in the present invention.

In FIG. 4, the receiving system includes a digital video 1101, an OS-provided driver 1102 for digital video, an image device 1104 and an audio device 1105 for connecting the output of the OS-provided driver to a communication application 1106. A virtual driver 1103 having a configuration including the above, a communication application 1106 provided by the OS, and a codec 1107 for decoding an output stream from the image device 1104 and the audio device 1105 are provided. The transmitting system is a virtual system including a digital video 2101, a digital video OS-provided driver 2102, an image device 2104 for connecting the output of the OS-provided driver to the communication application 2106, and a virtual audio device 2105. Driver 2103, Communication application provided by OS _C Digital video 1 1 0 1 and 2 1 0 1 equipped with a codec 2 1 0 7 and a codec 2 10 7 for decoding the output stream from the image device 2 10 4 and the audio device 2 10 5 Are connected to the 〇S-provided drivers 1102 and 2102 of the personal computer, respectively, and can be operated by control commands from the personal computer.

 That is, the operation of such a digital video communication system (see FIG. 4) is different from the operation of the digital video communication system of the third embodiment (see FIG. 2) and the operation of the digital video communication system of the third embodiment (see FIG. 3). It is understood as a combination of actions.

 The present invention is a program for causing a computer to execute the functions of all or a part of the above-described digital video communication system of the present invention (or an apparatus, an element, a circuit, a unit, or the like). It is a program that works in cooperation. Of course, the computer is

It is not limited to pure hardware such as U, but may include firmware, OS, and peripherals.

 The present invention also provides a program for causing a computer to execute all or some of the steps (or steps, operations, actions, and the like) of the above-described digital video communication method of the present invention. It is a program that works in cooperation with.

 In addition, some means (or an apparatus, an element, a circuit, a part, etc.) of the present invention, and some steps (or a process, an operation, an operation, etc.) of the present invention may be described by a plurality of means or steps among them. Means some means or steps, or means some functions or some actions within one means or step.

In addition, some devices (or elements, circuits, units, and the like) of the present invention mean some of these devices, or some of these devices. Means some means (or elements, circuits, units, etc.) or some function within one means. .

 Further, a computer-readable recording medium that records the program of the present invention is also included in the present invention. Further, one mode of use of the program of the present invention may be a mode in which the program is recorded on a computer-readable recording medium and operates in cooperation with a computer. One use form of the program of the present invention may be a form in which the program is transmitted through a transmission medium, read by a computer, and operates in cooperation with the computer. The recording medium includes ROM and the like, and the transmission medium includes transmission media such as the Internet, light, radio waves, and sound waves.

 Note that the configuration of the present invention may be implemented as software or hardware.

 Further, the present invention is a medium carrying a program for causing a computer to execute all or a part of the functions of all or part of the digital video communication system of the present invention described above. The read program is a medium that executes the function in cooperation with the computer.

 Further, the present invention is a medium carrying a program for causing a computer to execute all or some of the operations of all or some of the above-described digital video communication methods of the present invention. The program that can be read and read is a medium that executes the operation in cooperation with the computer. Industrial applicability

As is apparent from the above description, the present invention utilizes a personal computer. When performing digital video communication, it has the advantage that images and audio can be transmitted simultaneously.

 Further, the present invention has an advantage that, when performing digital video communication using a personal computer, it is possible to control a camera at the other end of a call.

Claims

The scope of the claims

1. With a virtual driver to connect digital video driver to the communication application to drive digital video,

 A digital video communication system, wherein the virtual driver separates image / audio multiplexed data output from the digital video driver into image data and audio data and outputs the separated data to the communication application.

 2. The digital video communication system according to claim 1, wherein the communication application can output function extension information for controlling output of the image data to the virtual driver.

 3. The digital video communication system according to claim 2, wherein the control of the output of the image data is a control for repeatedly outputting a frame included in the image data.

 4. The digital video communication system according to claim 1, wherein the communication application can output function extension information for controlling output of the audio data to the virtual driver. '

 5. The digital video communication system according to claim 4, wherein the control of the output of the audio data is a control for changing an output level of the audio data.

 6. The digital video communication system according to claim 4, wherein the control of the output of the audio data is a control for changing a frequency of the audio data.

 7. The digital video communication system according to claim 2, wherein the virtual driver outputs the function extension information output by the communication application in the image data and / or the audio data.

8. Included in the image data and Z or the audio data The digital video communication system according to claim 7, further comprising a codec for performing function expansion based on the obtained function expansion information.

 9. The enhancement is image composition,

 9. The digital video communication system according to claim 8, wherein the function extension information is an image used for synthesizing the image and information for synthesizing the image.

10. Utilizing a virtual driver for connecting a digital video driver for driving digital video to a communication application, the video / audio multiplexed data output from the digital video driver is converted into image data and audio data. A digital video communication method comprising a step of separating and outputting to the communication application.

 1 1. A digital video communication system for performing communication using digital video via a network,

 A digital video communication system for transmitting information for controlling digital video of a communication destination using the network.

 12. The digital video communication system according to claim 11, wherein transmitting using the network means transmitting using a data transmission line provided by a communication application.

 13. The digital video communication system according to claim 11, wherein the control of the digital video is at least one of a camera function, a VTR function, and a memory card function of the digital video.

 14. The digital video communication system according to claim 11, wherein the control of the digital video is control of a codec of the communication destination.

 15. The digital video communication according to claim 11, wherein the communication destination transmits information to the communication source for limiting or disabling control of the digital video to be performed. system.

1 6. The digital video camera function, VTR function and memory The function to be used for the communication among the card functions can be changed based on an instruction from a communication source or a communication destination during the communication.

16. The digital video communication system according to any one of 11 to 15.

 17. The digital codec according to any one of claims 11 to 15, wherein a codec to be used for the communication can be changed based on an instruction from a communication source or a communication destination during the communication. Video communication system.

 1 8. A digital video communication method for performing communication using digital video via a network,

 A digital video communication method, comprising transmitting information for controlling digital video of a communication destination by using the network.

 19. The digital video communication method according to claim 10, wherein a digital video driver for driving a digital video is connected to a communication application by using a virtual driver for outputting the digital video driver. A program for causing a computer to execute a step of separating image / audio multiplexed data into image data and audio data and outputting the separated data to the communication application.

 20. A medium carrying the program according to claim 19, wherein the medium can be processed by a computer.

 21. A program for causing a computer to execute a step of transmitting information for controlling digital video of a communication destination using the network in the digital video communication method according to claim 18.

22. A medium carrying the program according to claim 21, which can be processed by a computer.