JP4501508B2 - VIDEO DISTRIBUTION METHOD, VIDEO DISTRIBUTION DEVICE, AND VIDEO DISTRIBUTION SYSTEM - Google Patents

Description

  The present invention relates to a video distribution system, and more particularly to a video distribution system capable of emphasizing a region designated by a user for a distributed video.

As a video distribution system for emphasizing and converting an area designated by a user for a distributed video, there is one described in Patent Document 1. This patent document 1 is a system for communicating by compressing and encoding video. In this system, means is provided for the user to specify an arbitrary area of the video. By this means, an image in which the resolution specified by the user is high and the resolution of the other part is low is transmitted. The user of this system can view the part to be noticed in detail by designating the part to be noticed. In particular, it is said that elderly people have a low ability to see the entire image roughly and tend to look at the details of the image in order, so highlighting places of interest and making it easier to pay attention will have a great effect. Can be obtained.
JP 7-288806 A

  However, the conventional system cannot cope with the case where the same video is distributed to a plurality of users. In other words, as a method of emphasizing a part that the user wants to focus on as in the above system, if the method of making the resolution of the part of interest higher than the resolution of the other part is used, the parts that the plurality of users want to focus on are different. Needs to be encoded by setting a part to increase the resolution separately. For this reason, the encoding process is performed by the number of users who have designated the part of interest, and the processing load becomes very large as the number of users who designate the part of interest increases. is there.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a video distribution system capable of distributing the same video with a small amount of processing to a plurality of users having different parts of interest. To do.

  In order to solve the above problems, the present invention pays attention to the processing amount necessary for the encoding process of video data, and reduces the number of encoding processes, thereby reducing the number of users who are interested in different parts. It is possible to distribute the same video with a processing amount.

Specifically, when video data to be distributed is encoded and encoded with a specified area in the video and distributed individually and individually for each video receiving terminal The received emphasis area of one or a plurality of video data is received together with the distribution destination data, all the emphasis areas of the received video data are encoded without dependency on other areas, and the encoded data is received. Thus, the emphasis region designated for the video receiving terminal is individually emphasized and converted, and the processing for transmitting the video receiving terminal as a distribution destination is performed for each video receiving terminal .

  Focusing on the amount of processing required for video data encoding processing, and reducing the number of times this encoding processing is performed, it is possible to distribute the same video with a small amount of processing to a plurality of users with different parts of interest. It is possible.

  Specifically, after encoding the entire video data in a state in which all the arbitrarily specified areas have no dependency with other areas, the areas corresponding to the individual area specifications are emphasized and transformed. The encoding process of the video data that has been performed corresponding to each area designation is omitted. As a result, it is possible to distribute the same video with a small amount of processing to a plurality of users having different parts of interest.

  Next, the best embodiment of the present invention will be described.

(A) First Embodiment A video distribution system according to this embodiment is configured as shown in FIG. FIG. 2 is a schematic diagram showing the overall configuration of the video distribution system according to the present embodiment. The video distribution system 1 includes a video distribution device 11 and a plurality of video reception terminals 13-n (n = [1: N]) connected via a network 12. In the video distribution system 1 of the present invention configured as described above, the video distribution device 11 distributes video to a plurality of video receiving terminals 13-n via the network 12.

  The video distribution apparatus 11 is configured as shown in FIG. FIG. 1 is a block diagram showing a video distribution apparatus according to the first embodiment of the present invention. The video distribution apparatus 11 mainly includes a communication unit 101, an emphasis area receiving unit 102, a plurality of emphasis conversion units 103-n (n = [1: N]), a video encoding unit 104, an encoding control unit 105, and a video. The input unit 106 is configured.

  The communication unit 101 is a unit for communicating with the plurality of video receiving terminals 13-n via the network 12. The communication unit 101 has a function of receiving an emphasis area designated by each video receiving terminal 13-n via a network and a function of transmitting encoded data to be distributed to each video receiving terminal 13-n. . As a result, the communication unit 101 is connected to the emphasis region accepting unit 102 on the output side, and the emphasis region information specified from each video receiving terminal 13-n is received together with the distribution information of the video receiving terminal 13-n. The input side is connected to each emphasis conversion unit 103-n, and the encoded data in which the designated area is emphasized and converted by each emphasis conversion unit 103-n is received and sent to each video receiving terminal 13-n. Send.

  The emphasis area receiving unit 102 is a unit for receiving and processing a request including an emphasis area designated by each video receiving terminal 13-n. The emphasis area accepting unit 102 is connected to the communication unit 101 on the input side, accepts all the area information received by the communication unit 101 including the emphasis area designated by a certain video receiving terminal 13-n, and the output side thereof It is connected to each emphasis conversion unit 103-n, and notifies the emphasis region and the delivery destination. In this case, the received emphasis area information and the distribution destination information that is the video receiving terminal 13-n that designates the emphasis area are set as a set and notified to an arbitrary emphasis conversion unit 103-n. When the enhancement conversion unit 103-n and the video reception terminal 13-n have a one-to-one correspondence, the corresponding enhancement conversion unit 103-n is notified. When the video receiving terminal 13-n requests only the video distribution without designating the emphasis area, only the distribution destination information is notified to the emphasis conversion unit 103-n. Further, the enhancement region receiving unit 102 is connected to the encoding control unit 105 on the output side thereof, and notifies the encoding control unit 105 of all regions including each enhancement region designated by each video receiving terminal 13-n.

  Each emphasis conversion unit 103-n is a unit for generating encoded data obtained by emphasizing the designated emphasis region and passing it to the communication unit 101, and for instructing the communication unit 101 to transmit it to the designated distribution destination. Each emphasis conversion unit 103-n is provided in parallel in the same number corresponding to each video receiving terminal 13-n. This is to cope with the case where all the video receiving terminals 13-n support the emphasis of different areas. Each emphasis conversion unit 103-n extracts a specified emphasis area (a specified emphasis area notified from the emphasis area reception unit 102) from the encoded data received from the video encoding unit 104, and a code obtained by emphasizing and converting the extracted portion. The encoded data is generated, and the encoded data after the emphasis conversion is transferred to the communication means 101 and instructed to be transmitted to the distribution destination.

  FIG. 3 shows an internal configuration of the enhancement conversion unit 103. The enhancement conversion unit 103 includes an enhancement conversion unit 201, an enhanced part search unit 202, and a luminance value conversion table 203.

  The enhancement conversion unit 201 is a unit for performing enhancement conversion of the encoded data encoded by the video encoding unit 104 and passing it to the communication unit 101. The emphasized part searching unit 202 is a unit for searching the designated emphasized region notified from the emphasized region receiving unit 102 from the encoded data from the video encoding unit 104. The emphasis part searched by the emphasis part search unit 202 is notified to the emphasis conversion unit 201 together with the distribution destination notified from the emphasis area receiving unit 102. The luminance value conversion table 203 is a table in which the luminance value of the enhancement region converted by the enhancement conversion unit 201 is recorded. In this luminance value conversion table 203, luminance values after conversion are recorded in association with luminance values before conversion. An example of this is shown in FIG. Here, the high luminance part is set to be higher and the low luminance part is set to be converted lower. Thereby, it is possible to perform conversion so that the contrast of the emphasized region is increased.

  The specific processing in this emphasis conversion unit 103 is as follows. The emphasis partial search unit 202 decodes the encoded data received from the video encoding unit 104, and determines whether the data being decoded is within the emphasis region specified by the emphasis region reception unit 102 or outside the enhancement region. Determination is made to search for an emphasis area, and the data portion in the emphasis area in the encoded data is notified to the emphasis conversion means 201. The enhancement conversion unit 201 extracts a portion in which the luminance value is stored (a portion in which the luminance value in the encoded data of the enhancement region portion notified from the enhancement portion search unit 202 is stored), and the luminance value is extracted. Rewriting is performed according to the luminance value conversion table 203. That is, based on the luminance value conversion table 203, the emphasis conversion unit 201 converts the portion with high luminance to be higher and the portion with low luminance to be lower to increase the contrast of the enhancement region. Specifically, when the range of luminance values before conversion takes an integer value from 0 to 10, conversion is performed as follows using the luminance value conversion table 203.

  Depending on the setting of the luminance value conversion table 203, in a region where the luminance value before conversion is 5 or less, as shown in FIG. 4, the smaller the luminance value is, the smaller the value is converted. That is, when the luminance value before conversion is extremely small 0 and 1, the luminance value is converted to 0, and as the luminance value before conversion increases, the luminance value before conversion is ½ times when 2 and 2/3 when it is 3. Convert to double.

  Conversely, in a region where the luminance value is 5 or more, the table is set so that a larger luminance value is converted to a larger value. Here, the luminance value is converted to a value obtained by adding one point to the luminance value of 6 or more before the conversion.

  The video encoding unit 104 in FIG. 1 is a unit for compressing and encoding video information received from the video input unit 106. The video encoding unit 104 compresses and encodes the video information from the video input unit 106 in accordance with the control of the encoding control unit 105, and passes it to all the emphasis conversion units 103-n.

  The encoding control unit 105 is a unit for controlling the encoding method of the video encoding unit 104. This encoding control means 105 controls the video encoding means 104 so that the enhancement area notified from the enhancement area reception means 102 out of the video information of all designated areas has no dependency on other areas. In addition, data obtained by compressing and converting the absolute value of the luminance value independently is encoded by an encoding method included in the encoded data. As an encoding method in which encoded data includes data obtained by independently compressing and converting the absolute value of a luminance value, for example, there is intra encoding adopted in MPEG or the like. In addition to this, the emphasis area can be included in the original encoded data after the compression of the absolute value of the luminance value alone is cut without dependency on other areas. All methods can be used.

  The video input unit 106 is a unit for inputting video information distributed by the video distribution apparatus 11. The video information input by the video input unit 106 is passed to the video encoding unit 104.

  The network 12 in FIG. 2 is a normal network such as the Internet.

  The video receiving terminal 13 is configured as shown in FIG. The video receiving terminal 13 includes a communication unit 301, a video decoding unit 302, a video display unit 303, and an area specifying unit 304.

  The communication unit 301 is a unit for communicating with the video distribution apparatus 11 via the network 12. The communication unit 301 receives the encoded video data distributed by the video distribution device 11 and passes it to the video decoding unit 302. The communication unit 301 transmits the emphasized area notified by the region specifying unit 304 via the network 12. Notify

  The video decoding unit 302 is a unit for decoding the video encoded data received by the communication unit 301. The video decoding unit 302 passes the decoded data to the video display unit 303.

  The video display unit 303 is a unit for displaying the video decoded by the video decoding unit 302.

  The area specifying means 304 is a means for the user of the video receiving terminal 13 to specify an area that the user wants to emphasize in the received data. The area designating unit 304 notifies the communication unit 301 of the area designated by the user. As a method for specifying the region, the region may be specified in units of pixels, or may be specified in units of image blocks when video coding is performed. Alternatively, the highlight region pattern may be set in advance, and the user may select the highlight region pattern.

  Next, the operation of the video distribution system configured as described above will be described. In the following, as an operation related to the characteristic part of the present invention, the video distribution device 11 is notified of the emphasis region designated by each video receiving terminal 13-n, and the video distribution device 11 performs emphasis conversion on the notified emphasis region. An operation for distributing video data will be described. In the following description, it is assumed that each video receiving terminal 13-n has already received a desired video distribution from the video distribution device 11.

  First, in each video receiving terminal 13-n, the area that the user of the terminal wants to emphasize is specified through the area specifying means 304. The emphasis area designated by the area designation unit 304 is notified from the communication unit 301 to the video distribution apparatus 11 via the network.

  In the video distribution apparatus 11, the communication unit 101 receives the emphasis area notified from each video receiving terminal 13-n, and emphasizes the emphasis area information and the distribution destination information that is the address of the video receiving terminal 13-n that designates the emphasis area information. It is passed to the area receiving means 102. The emphasis area accepting unit 102 notifies each emphasis conversion unit 103-n of the emphasis area and the distribution destination of the video receiving terminal 13-n that designates the emphasis area, and each video receiving terminal 13-n The encoding control unit 105 is notified of all of the designated enhancement areas.

  On the other hand, the video encoding unit 104 compresses and encodes the video input from the video input unit 106 according to the control of the encoding control unit 105, and sends the encoded data to all the emphasis conversion units 103-n. At this time, when the emphasis area is notified from the emphasis area receiving unit 102 to the encoding control unit 105, the encoding control unit 105 controls the video encoding unit 104 so that the notified area is another area. Are encoded by an encoding method in which data obtained by compression-converting the absolute value of the luminance value independently is included in the encoded data.

  Each enhancement conversion unit 103-n receives the encoded data encoded as described above from the video encoding unit 104, and the received encoded data is decoded by the enhanced partial search unit 202. The emphasized portion search unit 202 determines whether the data being decoded is within the enhancement region specified by the enhancement region accepting unit 102 or outside the enhancement region, and determines the data portion in the enhancement region in the encoded data. Notify the emphasis conversion means 201. The enhancement conversion unit 201 extracts a portion in which the luminance value is stored in the encoded data of the enhancement region portion notified from the enhancement portion search unit 202, and rewrites the luminance value according to the conversion table 203. This rewriting of the luminance value affects only a portion that has no dependency with other regions by the video encoding unit 104 and that is obtained by independently compressing and converting the absolute value of the luminance value. Only this part is replaced with data in which the luminance value is rewritten. The encoded data after the luminance value of the emphasized portion is rewritten is transmitted from the communication unit 101 to the distribution destination.

  As described above, in the video distribution system according to the present embodiment, all the emphasis areas designated by the video receiving terminal have no dependency relationship with other areas, and the data obtained by compressing and converting the absolute value of the luminance value independently. For each video receiving terminal 13 that has been encoded by the encoding method included in the encoded data and designated the enhancement region, the high luminance portion of the enhancement region is converted to be higher, and the low luminance portion is converted to be lower. Transmission is made to the corresponding video receiving terminal. Since the luminance value of the emphasis area in the encoded data to be distributed is data obtained by compressing and converting the absolute value alone, it is possible to extract and rewrite only that portion. Therefore, it is possible to respond to individual enhancement requests from individual video receiving terminals by encoding one video once and without encoding video for each video receiving terminal for which an enhancement region is designated. And the processing amount can be reduced.

(B) Second Embodiment Next, a second embodiment of the present invention will be described. The overall configuration of the video distribution system according to the present embodiment is substantially the same as that of the above-described video distribution system according to the first embodiment. Since the feature of this embodiment resides in the enhancement conversion unit of the video distribution apparatus, only this enhancement conversion unit will be described.

  FIG. 6 is a configuration diagram illustrating the enhancement conversion unit according to the present embodiment. The enhancement conversion unit 400 includes a buffer 401, enhancement conversion unit 402, enhancement part search unit 403, maximum luminance value detection unit 404, and minimum luminance value detection unit 405.

  The buffer 401 is a means for temporarily storing the encoded data received from the video encoding means 104. The buffer 401 temporarily stores the received encoded data, and outputs the encoded data stored in response to a read request from the enhancement conversion unit 402.

  The emphasis conversion unit 402 is a unit for emphasizing and converting the video signal encoded by the video encoding unit 104 and passing it to the communication unit 101. The enhancement conversion unit 402 converts the luminance value of the data portion in the enhancement region in response to notifications from the enhancement part search unit 403, the maximum luminance value detection unit 404, and the minimum luminance value detection unit 405. That is, the emphasis conversion unit 402 notifies the emphasis portion search unit 403 of the data portion in the emphasis region in the encoded data, and the maximum luminance value detection unit 404 notifies the maximum luminance value in the emphasis region. When the notification of the minimum luminance value in the enhancement region is received from the detection unit 405, the encoded data is read from the buffer 401, and the luminance value of the data portion in the enhancement region notified from the enhancement portion search unit 403 is converted.

  Here, the luminance value is the maximum value that the maximum luminance value in the region detected by the maximum luminance value detecting unit 404 can take as the luminance value, and the minimum luminance value in the region detected by the minimum luminance value detecting unit 405 is the luminance value. The luminance value is converted so as to be the minimum value that can be taken as For example, when the range of the luminance value is 0 to 10 and the maximum value and the minimum value of the luminance value in the region are 8 and 3, the luminance value in the region is subtracted 3 from that value to be 10 / (8-3 ) Can be converted by multiplying. Alternatively, the minimum luminance value is the minimum luminance value in the region detected by the minimum luminance value detecting unit 405 as it is, and the maximum luminance value in the region detected by the maximum luminance value detecting unit 404 becomes the maximum value that can be taken as the luminance value. The luminance value may be converted into For example, when the luminance value range is 0 to 10 and the maximum and minimum luminance values in the region are 8 and 3, the luminance value in the region is obtained by subtracting 3 from that value (10-3 ) / (8-3) times and then adding 3 to convert. Further, the minimum luminance value in the enhancement area is detected and used to convert the basis value. However, the minimum luminance value of the entire video area is detected by the video input means 106 or the video encoding means 105, and the enhancement area is detected. The brightness value may be converted using the minimum brightness value of the entire video area in the same manner as the minimum brightness value in the image area.

  The emphasized partial search unit 403 decodes the encoded data received from the video encoding unit 104, and determines whether the data being decoded is within the enhancement region designated by the enhancement region receiving unit 102 or outside the enhancement region. Determination is made, and the encoded data of the enhancement region is passed to the maximum luminance value detection unit 404 and the minimum luminance value detection unit 405, and the data portion in the enhancement region in the encoded data is notified to the enhancement conversion unit 402.

  The maximum luminance value detecting unit 404 reads the luminance value in the encoded data received from the emphasized portion searching unit 403, detects the maximum luminance value in the data, and notifies the enhancement converting unit 402 of it.

  The minimum luminance value detection unit 405 reads the luminance value in the encoded data received from the emphasized part search unit 403, detects the minimum luminance value in the data, and notifies the enhancement conversion unit 402 of it.

  Next, the operation of the video distribution system having the above configuration will be described. This embodiment is different from the first embodiment only in the operation in the enhancement conversion unit 400 in the video distribution apparatus. For this reason, hereinafter, only 400 operations of the emphasis conversion unit in the video distribution apparatus will be described.

  The emphasis conversion unit 400 temporarily stores the encoded data received from the video encoding unit 104 in the buffer 401 and decodes it by the emphasis partial search unit 403. The emphasized portion search unit 403 determines whether the data being decoded is within the enhancement region designated by the enhancement region receiving unit 102 or outside the enhancement region, and the encoded data in the enhancement region is used as the maximum luminance value detection unit 404. In addition, the data is transferred to the minimum luminance value detection unit 405, and the data portion in the enhancement region in the encoded data is notified to the enhancement conversion unit 402.

  The maximum luminance value detecting unit 404 and the minimum luminance value detecting unit 405 respectively read the luminance value in the encoded data received from the emphasized portion searching unit 403, detect the maximum or minimum luminance value in the data, and the enhancement processing unit 402 Notify The enhancement conversion unit 402 includes a data portion in the enhancement region in the encoded data, a maximum luminance value and a minimum luminance in the enhancement region, respectively, from the enhancement portion search unit 403, the maximum luminance value detection unit 404, and the minimum luminance value detection unit 405. When the notification of the value is received, the encoded data is read from the buffer 401, and the luminance value of the data portion in the enhancement region notified from the enhancement portion search means 403 is the maximum value that the maximum luminance value in the region can take as the luminance value. Further, the luminance value is converted so that the minimum luminance value in the region becomes the minimum value that can be taken as the luminance value. After the brightness value of the emphasized portion is rewritten, the encoded data is transmitted from the communication unit 101 to the designated distribution destination.

  As described above, the same effect as the effect of the first embodiment can be obtained, and the conversion can be performed so that the difference between the maximum luminance and the minimum luminance of the emphasized portion is maximized, so that the contrast of the emphasized portion can be further increased. become able to.

(C) Modified Example In each of the above embodiments, the same number of emphasis conversion units 103-n (400) are arranged in parallel as the video receiving terminals 13-n, but the emphasis required by each video receiving terminal 13-n. Any number can be used as long as the area can be specified. For example, if only about half of each video receiving terminal 13-n is normally designated as an emphasis region, the emphasis conversion unit 103 may be provided correspondingly to about half of the video receiving terminal 13-n. When the emphasis conversion is not performed, the encoded data received from the video encoding unit 104 is transmitted to the distribution destination as it is.

  When the same area is designated as an emphasis area from a plurality of video receiving terminals 13-n, one emphasis conversion unit 103 is assigned to the plurality of video receiving terminals 13-n, and the same as each distribution destination You may make it designate all the video receiving terminals 13-n which designate the emphasis area | region.

  Further, in each of the above-described embodiments, a plurality of enhancement conversion units 103-n (400) are provided in a series. However, when it is not necessary to distribute data to all the video reception terminals 13-n at the same time, one enhancement is performed. The emphasis area requested by each video receiving terminal 13-n may be sequentially converted and transmitted by the conversion unit 103-n (400).

  Also in this case, the same operations and effects as the above-described embodiments can be achieved.

It is a block diagram which shows the video delivery apparatus which concerns on 1st Embodiment of this invention. 1 is a block diagram showing a video distribution system according to a first embodiment of the present invention. It is a block diagram which shows the emphasis conversion part which concerns on 1st Embodiment of this invention. It is a block diagram which shows the example of the luminance value conversion table which concerns on 1st Embodiment of this invention. It is a block diagram which shows the video receiving terminal which concerns on 1st Embodiment of this invention. It is a block diagram which shows the emphasis conversion part which concerns on 2nd Embodiment of this invention.

Explanation of symbols

  11: Video distribution device, 12: Network, 13: Video receiving terminal, 101: Communication means, 102: Emphasis area reception means, 103: Enhancement conversion section, 104: Video encoding means, 105: Encoding control means, 106: Video input means 201: Emphasis conversion means 202: Emphasis portion search means 203: Brightness value conversion table 301: Communication means 302: Video decoding means 303: Video display means 304: Area designation means 401: Buffer 402: Emphasis conversion means 403: Emphasis portion search means 404: Maximum brightness value detection means 405: Minimum brightness value detection means

Claims (14)

A video distribution method for distributing video data to be distributed by encoding the video data and emphasizing a specified area in the video,
An emphasis area receiving step for receiving an emphasis area of one or more video data individually designated for each video receiving terminal together with the distribution destination data;
A video encoding process for performing encoding of all the emphasized areas of the video data received in the emphasized area receiving process, with no dependency relationship with other areas, and setting the area where the dependency remains as other than the emphasized area,
An enhancement processing step of receiving the encoded data encoded in the video encoding step and performing enhancement conversion of the enhancement region designated in the video receiving terminal for each video receiving terminal;
A video distribution method comprising: a communication step of transmitting the encoded data emphasized and converted in the enhancement processing step to each video reception terminal as a distribution destination .   The video distribution method according to claim 1,
  Encoding in which the video encoding process includes the data that is obtained by compressing and converting the absolute value of the brightness value independently from the other areas, and the enhancement area received in the enhancement area receiving process is not dependent on other areas. Encoding with method
  The enhancement processing step includes a first step of searching for data in a region to be enhanced and converted from the encoded data, and a second step of converting the data searched in the first step so that the region is emphasized. A video distribution method characterized in that the region is emphasized by rewriting the luminance value of the data searched in the first step.   The video distribution method according to claim 1 or 2,
  A video distribution method, wherein the encoding method performed without eliminating the dependency relationship with other regions with respect to the enhancement region is intra coding.   The video delivery method according to claim 2,
  A video distribution method characterized in that the second step of the enhancement processing step converts a luminance value according to a luminance value conversion table.   The video delivery method according to claim 2,
  The first step of the emphasis processing step is
  A storage step of temporarily storing the encoded data encoded in the video encoding step;
  A maximum luminance value detecting step for detecting a maximum value of luminance values in the region to be enhanced and converted;
  A minimum luminance value detecting step for detecting a minimum luminance value in the region to be enhanced and converted,
  A video distribution method, wherein the second step of the enhancement processing step converts the luminance value based on the maximum luminance value and the minimum luminance value in the region to be emphasized.   6. The video distribution method according to claim 5, wherein
  In the second step of the enhancement processing step, the luminance value in the region is set at a ratio such that the maximum luminance in the region to be enhanced and converted is the maximum value that the luminance value can take and the minimum luminance value is the minimum value that the luminance value can take. A video conversion method characterized by converting.   6. The video distribution method according to claim 5, wherein
  In the second step of the enhancement processing step, the minimum luminance value in the region to be enhanced and converted does not change, and the luminance value in the region is a ratio at which the maximum luminance in the region to be enhanced and converted becomes the maximum value that the luminance value can take. A video conversion method characterized by converting video.   The video delivery method according to claim 2,
  A minimum luminance value detecting step for detecting a minimum value of luminance values in a specific area of the video to be distributed; and the emphasis processing step temporarily stores the encoded data; A maximum luminance value detecting step for detecting the maximum luminance value of
  In the second step of the enhancement processing step, the minimum luminance value in a specific region of the distribution video is not changed, and the enhancement conversion is performed at a ratio at which the maximum luminance value in the region to be enhanced and converted becomes the maximum value that the luminance value can take. A video distribution method characterized by converting a luminance value in an area to be played. A video distribution device that distributes video data to be distributed by encoding the video data and emphasizing a specified area in the video,
Emphasis area receiving means for receiving an emphasis area of one or a plurality of video data individually designated for each video receiving terminal together with the distribution destination data;
The video encoding means for encoding all the emphasized areas of the video data received by the emphasized area receiving means so as to eliminate the dependency relation with other areas and to set the remaining area as a non-emphasized area. Encoding control means for controlling
Video encoding means for encoding video data to be distributed according to the control of the encoding control means;
One or a plurality of enhancement processing units that receive encoded data encoded by the video encoding means and perform enhancement conversion of an enhancement region designated by the video receiving terminal for each video receiving terminal ;
A video distribution apparatus comprising: a communication unit configured to transmit encoded data emphasized and converted by the enhancement processing unit to each video reception terminal as a distribution destination . The video distribution apparatus according to claim 9 , wherein
A code in which encoded data includes data obtained by compression-converting the absolute value of the luminance value independently from the other area, and the encoded area is not dependent on the emphasized area notified from the emphasized area receiving unit. Controlling the video encoding means to encode with the encoding method,
An emphasis partial search means for searching for data in a region to be emphasized from the encoded data, and an emphasis conversion means for converting the data searched by the emphasized partial search means so that the region is emphasized. A video distribution apparatus characterized in that the region is emphasized by rewriting the luminance value of the data searched by the emphasized portion search means.   The video distribution apparatus according to claim 9 or 10,
  A video distribution apparatus characterized in that an encoding method performed with no dependency on other regions with respect to the enhancement region is intra coding. The video distribution device according to claim 10 ,
The emphasis processing unit
Storage means for temporarily storing the encoded data encoded by the video encoding means;
Maximum brightness value detecting means for detecting the maximum brightness value in the region to be enhanced and converted;
A minimum luminance value detecting means for detecting a minimum luminance value in the region to be enhanced and converted,
A video distribution apparatus, wherein the enhancement conversion means converts a luminance value based on a maximum luminance value and a minimum luminance value in a region to be emphasized. The video distribution device according to claim 10 ,
A minimum luminance value detecting means for detecting a minimum luminance value in a specific area of the video to be distributed; and a storage means for temporarily storing the encoded data; A maximum brightness value detecting means for detecting the maximum value of the brightness value of
The enhancement conversion means does not change the minimum luminance value in the specific area of the distribution video, and the ratio of the maximum luminance value in the area to be emphasized and converted to the maximum value that can be taken by the luminance value. A video distribution apparatus for converting a luminance value. A video distribution device according to any one of claims 9 to 13 ,
A video distribution system comprising: a video receiving terminal having means for designating an arbitrary area in a video distributed by the video distribution apparatus.

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