JP2002344941A - Contents quality control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a contents quality control system that allows a terminal reproducing audio or video contents to be able to select audio or video contents quality so as to control the contents quality corresponding to traffic required for communication and data errors thereby optimally controlling the communication performance and the communication cost. SOLUTION: The contents quality control system of this invention is provided with a transmitter that is connected to a network and transmits audio, moving picture and still picture contents and with a contents receiver connected to the network. The receiver requests the transmitter to set a quality level of the contents and the transmitter transmits the contents encoded by the contents quality level requested from the receiver to the receiver.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multimedia distribution system based on the Internet, a mobile phone, or the like, in which a terminal that reproduces content such as voice and image can control the content quality of the voice and image quality. Related to quality control system.

[0002]

2. Description of the Related Art Conventionally, in broadcast media such as TVs and radios, the image quality and sound quality of contents have been defined in advance, and a receiving apparatus receives the contents in accordance therewith. On the other hand, the content sent over the Internet or the like is often one-to-one unicast, and the image quality and sound quality are determined in advance, or the user selects the image quality and sound quality of the content before communication. . In that case, it is often not possible to change the image quality or sound until the end of a series of contents.

FIG. 8 is a block diagram of a conventional transmission content storage type video distribution system, where 1 is a transmission device,
Reference numeral 2 denotes a communication path, and reference numeral 3 denotes a receiving device. In the transmission device 1 of FIG. 8, 5 is an input unit, 6 is an encoder, 7 is a content storage unit, 8 is a content transmission unit, and 9 is a transmission system control unit. The content transmission section 8 and the transmission system control section 9 are connected to the communication path 2. The audio and image contents input from the input unit 5 are transmitted according to an instruction from the transmission system control unit 9.
After compression encoding is performed by the encoder 6, it is stored in the content storage unit 7. Thereafter, in accordance with an instruction from the transmission system control unit 9, the content necessary for transmission is extracted from the content storage unit 7 with the sound quality and image quality determined by communication with the transmission system control unit 9 and a reception system control unit 10, which will be described later. Is modulated by the content transmitting unit 8 and transmitted to the receiving device 3 via the communication path 2. Note that the content sending unit 8
, An error correction code may be inserted.

In the receiving apparatus 3 shown in FIG. 8, reference numeral 10 denotes a receiving system control unit, 11 denotes a content receiving unit, 12 denotes a decoder,
Reference numeral 3 denotes an output unit, and 14 denotes a key input unit which communicates with the transmission system control unit 9 via the reception system control unit 10 and inputs a request for setting the quality of transmission content in advance. Channel 2
Are demodulated and error-corrected and decoded by the content receiving unit 11 according to the instruction of the receiving system control unit 10, and then decoded by the decoder 12, and then sent to the output unit 13 for reproduction.

FIG. 9 is a block diagram of a conventional real-time compression type video distribution system. In the real-time compression type video distribution system of this example, the configuration of the transmission device 1 is such that the content storage unit 7 is removed from the configuration of FIG.

In FIG. 9, audio and image contents input from an input unit 5 are compression-encoded by an encoder 6 according to an instruction from a transmission system control unit 9. Thereafter, as described above, the transmission system control unit 9 and the reception system control unit 1
The image quality to be transmitted is determined by the agreement with 0. The audio and image contents input from the input unit 5 are compression-encoded by the encoder 6 in accordance with the image quality to be transmitted in accordance with an instruction from the transmission system control unit 9. After that, the content is modulated by the content transmission unit 8 according to an instruction of the transmission system control unit 9 and transmitted to the reception device 3 via the communication path 2. Note that the content transmission unit 8 may insert an error correction code. The operation of the receiving device 3 is the same as the operation of FIG.

FIG. 10 is a flowchart showing a conventional video distribution system service via the Internet. When the video distribution service starts (step S
1) In the terminal, the user selects a content to receive video distribution (step S2). The user first selects the image size as the quality level received by the content (step S3). In general, a high image quality results in a low compression rate and a large amount of transmitted content, and a low image quality results in a high compression rate and a small amount of transmitted content.
Also, if the image size is large, the amount of transmitted content increases, and if the image size is small, the amount of transmitted content decreases. When the user selects the image quality and the image size, the user requests the transmitting device 1 to transmit the content (step S4). The transmitting device 1 starts transmitting the content in response to these instructions, and the receiving device 3 starts receiving and plays back the received content (step S5). Finally, if there is no transmission content or there is a termination instruction, the service is terminated (steps S6 and S7).

FIG. 11 shows an example of a conventional content distribution time schedule and the amount of audio and image content data. FIG. 5 shows a state in which the content changes (in this example, sports, news, music live), and each content is transmitted at a predetermined image data rate and audio data rate for the content. As is clear from this example, in the case of sports, for example, the movement of the player is the center, so that the image content D1 has a larger ratio than the audio content D2 in the entire content amount D. In the case of news, both the audio content D1 and the image content D2 are small, and in the case of live music, the proportion of the audio content D2 is increased to improve the sound quality.

[0009]

However, in the above-described conventional video distribution system, the quality of the content is fixed, and the level of the image quality depends on the user's request from the terminal while receiving the service. Cannot be changed on the way. Therefore, it has not been possible to select an optimal image quality in a situation where the available communication capacity changes instantaneously, such as in a mobile terminal. Further, in the receiving apparatus 3, content such as sports as shown in FIG. 11, which has many motion components, content such as news or weather forecast, which includes many still images and human voices, or music-oriented content such as live broadcast, etc. Even for a plurality of types of image quality, it is not possible to request an optimal service at a fine level in consideration of service satisfaction and communication cost of the receiving user while observing the image quality.

[0010] In the future, the communication capacity that can be used instantaneously and instantaneously for mobile terminals and the like, or even for a plurality of types of image quality, the optimum service will be provided in consideration of the service satisfaction and communication cost of the receiving user while observing the image quality. It will be required at a fine level. For example, content with many motion components, such as sports, requires video compression encoding that reflects the motion components as much as possible. Further, for music-oriented contents such as live broadcasts, audio encoding that can transmit a wide audio band is required. As described above, services are required in accordance with individual communication status, terminal status, and content status.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem, and it is an object of the present invention to select a service quality of a still image or a moving image of a sound or a content on a terminal reproducing the contents such as an image or a sound. Provide a content quality control system that enables content quality to be controlled in response to traffic and data errors required for communication, thereby enabling optimal control of network communication performance and communication cost. The purpose is to:

[0012]

In order to achieve the above object, a content quality control system according to the present invention includes a transmitting device for transmitting audio, moving image, and still image contents, and a transmission device connected to the network. The receiving device requests the transmitting device for a quality level of the content, and the transmitting device transmits the content encoded at the quality level of the content requested by the receiving device. Is transmitted to the receiving device.

Further, in the content quality control system according to the present invention, the transmitting device prepares audio / video content encoded at a plurality of quality levels assumed in advance.

[0014] In the content quality control system according to the present invention, the transmitting device encodes the audio / video of the requested content quality in real time and transmits the encoded audio / video to the receiving device.

Further, in the content quality control system according to the present invention, the transmitting device transmits to the receiving device audio / image content encoded with a plurality of content qualities requested by the receiving device. I do.

Further, a content quality control system according to the present invention includes a transmitting device connected to a network for transmitting audio, moving image, and still image content, and a content receiving device connected to the network, wherein the receiving device is There is provided a means for selecting a necessary content from all the contents received from the transmission device, and decoding and reproducing the selected content.

Further, in the content quality control system according to the present invention, the transmitting device recognizes the content of the content and compression-encodes the content to an optimal quality level according to the category of the content.

Further, in the content quality control system according to the present invention, the transmitting apparatus performs compression encoding to an optimum audio quality according to the quality of the audio included in the content.

Further, in the content quality control system according to the present invention, the transmitting apparatus performs compression encoding to an optimum image quality level in accordance with the motion of the image included in the content.

Further, in the content quality control system according to the present invention, the transmitting device compression-encodes the ratio of the content amount of audio and image at an optimal quality ratio in accordance with the quality of audio and image included in the content. It is characterized by.

[0021]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 An embodiment of the present invention will be described below with reference to FIGS. 1 to 7, the same members or components having the same functions as those in FIG. 8 or FIG. 9 are denoted by the same reference numerals. According to the present invention, it is possible to request, in real time, a content of various quality levels by the receiving device 3 for the content of an image or a voice transmitted by mobile communication, the Internet, or the like.
Hereinafter, a specific description will be given.

FIG. 1 shows a content quality control system according to Embodiment 1 of the present invention, which is an example of a transmission content accumulation type video distribution system. In FIG. 1, 1 is a transmitting device, 2 is a communication path, and 3 is a receiving device (for example, a portable terminal). When the receiving device is a portable terminal, communication path 2
Includes a wireless link via a base station.

In the transmitting apparatus 1 shown in FIG. 1, 5 is an input unit,
Reference numeral 6 denotes an encoder, 7 denotes a content storage unit, 8 denotes a content transmission unit, and 9 denotes a transmission system control unit. The content transmission section 8 and the transmission system control section 9 are connected to the communication path 2. In the receiving apparatus 3 of FIG. 1, 10 is a receiving system control unit,
Reference numeral 11 denotes a content receiving unit, 12 denotes a decoder, 13 denotes an output unit, 15 denotes a content storage unit, 16 denotes a decrypted content selection unit, and 17 denotes a man-machine interface unit that selects a content compression ratio using a key or a dial.

Next, the operation of the content quality control system according to the first embodiment of the present invention will be described. First, FIG.
First, the reception system control unit 10 transmits the content quality desired by the reception user to the transmission system control unit 9 via the communication path 2. The audio and moving image content input from the input unit 5 is encoded at various rates by the encoder 6 according to an instruction of the transmission system control unit 9 based on the request received from the reception system control unit 10 at various rates. Audio and images are compressed and encoded and stored in the content storage unit 7. Thereafter, in accordance with an instruction from the transmission system control unit 9, the content encoded into a plurality of types is extracted from the content storage unit 7, and the content is modulated by the content transmission unit 8, and is received via the communication path 2. Sent to.

In the receiving device 3, the receiving user selects a content quality level with the man-machine interface unit 17 according to his / her preference and sends it to the receiving system control unit 10. The content received from the communication path 2 is demodulated and error-corrected by the content receiving unit 11 according to an instruction from the receiving system control unit 10, and is stored in the content storage unit 15. Thereafter, the content having the quality selected by the receiving user is read from the content storage unit 15 by the decoded content selection unit 16, decoded by the decoder 12, sent to the output unit 13, and reproduced.

Embodiment 2 FIG. FIG. 2 is a diagram illustrating a content quality control system according to Embodiment 2 of the present invention.
It is an example of a real-time compression type video distribution system. In FIG. 2, 1 is a transmitting device, and 3 is a receiving device. In FIG. 2, the same members or components having the same functions as those in FIG. 1, FIG. 8 or FIG.

Next, the operation of the content quality control system according to the second embodiment of the present invention will be described. In FIG. 2, first, the reception system control unit 10 transmits a request of the content quality level desired by the receiving user to the transmission system control unit 9 via the communication path 2. The audio and moving image content input from the input unit 5 is transmitted under the control of the encoder control unit 6a in accordance with the instruction of the transmission system control unit 9 based on the request received from the reception system control unit 10. The image and audio are compression-encoded by the encoder 6 in accordance with the image quality of the content. Thereafter, the encoded content is modulated by the content transmission unit 8 according to an instruction of the transmission system control unit 9 and transmitted to the reception device 3 via the communication path 2. It should be noted that an error correction code can be inserted in the content sending section 8.

The receiving system control unit 10 of the receiving apparatus 3 automatically responds to an instruction from the man-machine interface unit 17 with respect to the content received from the transmitting system control unit 9 in accordance with the request of the receiving user or the category of the content. Control the quality of the content. Others are shown in Figure 1 above.
Since the operation is the same as that described above, the description is omitted.

FIG. 3 is a flowchart of content quality control in the video distribution system according to the second embodiment. In FIG. 3, first, when the service is started (step S10), the receiving user receiving the video distribution selects the content by the man-machine interface unit 17 (step S11), and requests the transmitting device 1 to transmit the content (step S11). Step S12).

Next, the transmitting apparatus 1 determines whether or not there is a content quality change request from the receiving apparatus 3 (step S13). If there is a change request (Yes in step S13), the content is compressed. The rate is changed and transmitted to the receiving apparatus 3 (step S14). If there is no change request (No in step S13), the content is transmitted to the receiving apparatus 3 without changing the compression rate (step S16).

The receiving device 3 receives the content from the transmitting device 1 (step S15), and if there is no received content or if there is an instruction to end the service from the user (Yes in step S17), the service is not activated. The process ends (step S18).

On the other hand, when the content is not finished (No in step S17), and the user wants to change the quality of the content (Yes in step S19)
), It is determined whether or not the mode is the auto mode (step S20). If the mode is the auto mode (Yes in step S20), for example, a “sports mode” predetermined for the content, Content quality such as "news mode" and "live mode" is set (step S24).

On the other hand, if the auto mode is not set (No in step S20), it is determined whether to select high image quality (step S21), and if high image quality is selected (step S21). (In the case of Yes in step S21),
An image area is selected (step S22), and high quality is set for the content in the image area (step S23). In this way, the user can always receive the desired quality of service.

Embodiment 3 FIG. 4 shows a content quality control system according to a third embodiment of the present invention, which is a modification of the real-time compression type video distribution system according to the second embodiment. In FIG. 4, the operation of the transmitting apparatus is the same as that of FIG. 2 in the second embodiment, and a description thereof will be omitted.

In the receiving device 3, the content received from the communication channel 2 is subjected to data error correction / decoding by the content receiving unit 11 based on the instruction of the receiving system control unit 10, and is stored in the content storage unit 20. You. The user
The content stored in the content storage unit 20 is selected in real time using switches, keys, and the like of the content selection unit 21. The selected content is sent to the decoder 1
After being decoded at 2, the data is sent to the output unit 13 and reproduced.
In the third embodiment, the optimum quality of the content stored in the content storage unit 20 can be selected in real time.

FIG. 5 shows the data amount (content quality) of image and audio contents when content distribution is performed.
3 shows an example of the change. The content changes over time, such as sports, news, and live, as indicated by the time axis of the content of the content. In the middle part of FIG. 5, image data and audio data corresponding to a change in content are displayed on a time axis. The upper side of the 0 level on the vertical axis indicates image data, and the lower side indicates audio data. The length of the vertical axis is the image data amount D1 on the upper side and the audio data amount D on the lower side.
2 and the sum of both data is the total data amount D. In addition. L1 indicates the upper limit of the image data amount, and L2 indicates the upper limit of the audio data amount.

In the present invention, as shown in FIG. 5, for example, when the user wants to improve the image quality of only a certain part while watching a sports image, the user can request a desired area by requesting the user. Only the image quality can be improved. At that time, the image data amount D1 in FIG.
To increase. Also, for example, when it is desired to improve only the sound quality during the live, only the sound quality of the sound can be improved for a predetermined time at the request of the user. At that time, in the live part of FIG. 5, the audio data amount D2 increases like D2 '.

FIG. 6 shows an example of a user interface when the receiving device is the portable terminal 23. Mobile terminal 23
Has a small screen 25 for displaying a moving image in a display screen 24,
In the small screen 25, there is a selection area 26 for selecting high image quality. An adjustment jog dial 27 for adjusting image quality and sound quality and up / down / left / right cursor buttons 28 for moving the selection area 26 up / down / left / right are provided on the side surface of the portable terminal 23. Further, in the display screen 24, there are soft buttons for selecting sports, news, live and the like.

In the present invention, the user operates the jog dial 23 and / or the image quality / sound quality adjusting device according to the display on the screen.
Alternatively, by operating the up / down / left / right cursor buttons 28, for example, the selection area 26, which is a part of the sports screen, can be selected in real time, and that part can be displayed with high image quality. Thus, it is possible to partially change the content quality level of the screen in real time.

FIG. 7 shows an example of a service in which the resolution of only a desired area is increased, and FIG.
FIG. 7B shows an image in which the image quality of only the area 31 is improved by the request. As shown in FIG. 7, the transmission device 1 transmits content encoded at a high quality level for only a part of an image, and transmits content encoded at a high compression level for other parts that are not requested. I do.

[0041]

As described above in detail, according to the content quality control system of the present invention, the receiving device can request the transmitting device to change the quality level of the content. The user can select an image quality mode according to the type of content to be distributed, and can display only a desired area on the screen with high image quality.

The sound quality also depends on whether a single voice, a plurality of voices, a musical instrument, a human voice, or a background sound or a sound effect is added to the voice, depending on the required sound source. The level of the sound quality corresponding to the nature of the sound can be variously changed.

Therefore, when the communication capacity of a mobile terminal or the like changes instantaneously or when a plurality of types of content are received, it is possible to always provide the content quality that meets the user's request. As a result, the wireless communication capacity can be reduced, the communication capacity can be used efficiently, the reception quality can be maintained optimally, and the overall system performance for service performance, communication cost and communication capacity can be optimized in real time. There is an effect that can be done.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram of a transmission content storage type video distribution system according to a first embodiment of the present invention.

FIG. 2 is a system configuration diagram of a real-time compression type video distribution system according to a second embodiment of the present invention.

FIG. 3 is a flowchart showing an operation of the video distribution system according to the second embodiment.

FIG. 4 is a system configuration diagram of a real-time compression type video distribution system according to a third embodiment of the present invention.

FIG. 5 is a diagram showing an example of content distribution and a change in image and audio transmission data amounts according to the present invention.

FIG. 6 is a diagram illustrating an example of a user interface in the receiving terminal of the present invention.

FIG. 7 is an explanatory diagram showing an example of a service in which the resolution of a desired area is increased in the present invention.

FIG. 8 is a system configuration diagram of a conventional transmission content accumulation type video distribution system.

FIG. 9 is a system configuration diagram of a conventional real-time compression type video distribution system.

FIG. 10 is a flowchart showing the operation of the conventional video distribution system.

FIG. 11 is a diagram illustrating a conventional example of content distribution and a change in the amount of transmitted data of images and sounds.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 transmission device 2 communication path 3 reception device 5 input unit 6 encoder 6 a encoder control unit 7 content storage unit 8 content transmission unit 9 transmission system control unit 10 reception system control unit 11 content reception unit 12 decoder 13 output unit 15, 20 content storage Unit 16 decrypted content selection unit 17 man-machine interface unit 21 content selection unit 23 mobile terminal 24 display screen 25 small screen 26 selection area 27 adjustment jog dial 28 up / down / left / right cursor buttons 30 image 31 high quality area

Claims (10)

[Claims] 1. A transmitting device connected to a network and transmitting audio, moving image, and still image content, and a content receiving device connected to the network, wherein the receiving device is A content quality control system, wherein the transmission device transmits to the receiving device a content encoded at the quality level of the content requested by the receiving device. 2. The content quality control system according to claim 1, wherein the transmission device prepares audio / video content encoded at a plurality of quality levels assumed in advance. 3. The content quality control system according to claim 1, wherein the transmission device encodes audio / video of the requested content quality in real time and transmits the encoded audio / video to the reception device. 4. The content quality control according to claim 3, wherein the transmitting device transmits to the receiving device audio / video content encoded with a plurality of content qualities requested by the receiving device. system. 5. A transmitting device connected to a network for transmitting audio, moving image, and still image content, and a content receiving device connected to the network, wherein the receiving device includes all content received from the transmitting device. A service quality control system comprising means for selecting necessary content from among the above and decoding and reproducing the selected content. 6. The content quality control system according to claim 5, wherein the transmitting device compresses and encodes only a requested area of the content with a predetermined content quality and transmits the content to a receiving device. 7. The transmission apparatus according to claim 1, wherein the transmitting device recognizes the content of the content and compression-encodes the content to an optimal quality level according to the category of the content.
The content quality control system according to any one of the above. 8. The content quality control system according to claim 7, wherein said transmission device performs compression encoding to an optimum audio quality according to the quality of the audio included in the content. 9. The content quality control system according to claim 7, wherein the transmission device performs compression encoding to an optimal image quality level in accordance with the motion of the image included in the content. 10. The apparatus according to claim 7, wherein the transmitting device compresses and encodes the ratio of the content amount of audio and image at an optimal quality ratio according to the quality of audio and image included in the content. Content quality control system.