JP2011254133A - Image data processing system and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To display a desired image by flexibly combining high-resolution processing types for individual areas included in image data.SOLUTION: An image data processing system includes an image reproducing device and an image display device. The image reproducing device comprises: first high resolution processing means for receiving low resolution image data including a plurality of areas and performing first high resolution processing for a part of areas of the plurality of areas; setting means for setting processing result information indicating either the first high resolution processing is completed or not processed for each of the plurality of areas; and transmission means for transmitting image data including the plurality of areas and the processing result information to the image display device. The image display device comprises: second high resolution processing means for performing second high resolution processing on areas which are set as not processed by the processing result information included in the image data received from the image reproducing device; and display means for displaying an image including the areas which are set as completed by the processing result information and areas in which the second high resolution processing has been performed.

Description

  The present invention relates to a video data processing system and method, and more particularly to a video data processing system and method for displaying video data converted from a low resolution to a high resolution using a video playback device and a video display device.

  In recent years, video display devices have been improved in resolution, and can display high-resolution video data. However, the video data is not always high resolution. Such low-resolution video data needs to be subjected to high-resolution processing for conversion to high resolution before display on the video display device. For example, when high resolution processing is performed in the video playback device, the video playback device transmits the video data after the high resolution processing to the video display device, and the video display device displays the high resolution video data. It will be. Alternatively, when the video display device itself has a function of performing high resolution processing, the high resolution video data is displayed after the high resolution processing is performed on the input low resolution video data.

  Patent Document 1 discloses a technique related to display control for accelerating a response when displaying video data. In the technique according to Japanese Patent Application Laid-Open No. H10-228561, the video playback device is controlled so as not to execute the high-resolution processing on the video display device side with respect to the menu screen that does not require high-resolution processing. As a result, the time required for high resolution processing can be reduced, and delays in video display can be suppressed.

  In addition, Patent Document 2 considers the tendency of the arrangement of characteristic portions corresponding to a desired specific scene in the target image, and also includes fluctuations in their positions and area ratios due to differences in how to take a shooting frame. In view of the above, a technique related to an apparatus for selecting images of various specific scenes with high accuracy is disclosed.

JP 2009-033415 A JP-A-2005-310123

  Here, there are various types of high resolution processing for converting video data to high resolution. Therefore, even if the video data is the same, the converted video data is different if the type of high resolution processing is different. And as shown in patent document 2, each scene included in video data differs in the size, arrangement, etc. of the characteristic part. In addition, when an image that has been subjected to high-resolution processing is displayed, there is a tendency that preferences vary depending on the user who is the viewer. Therefore, in each scene included in the video data, the optimum type of high resolution processing differs for each user. Further, the optimum type of high resolution processing may be different for each region even within one screen.

  In addition, since the video playback device and the video display device are generally developed independently, the types of high resolution processing are often different. Therefore, when video data is played back and displayed by a video playback device and a video display device in which different high-resolution processes are implemented, the video playback device and the video display device are connected in accordance with the video displayed by the viewing user. It may be possible to find an optimum high-resolution process for the user by performing an operation to switch ON / OFF of the high-resolution process. However, it is cumbersome for the user to perform such an operation while viewing the video, which hinders the user from viewing the video.

  According to Patent Document 1, it is possible to reduce a delay in video display by controlling the video playback device to invalidate the high resolution processing in the video display device. However, in Patent Document 1, since it is only possible to control the presence or absence of high-resolution processing in the video display device, there is a problem in that video data cannot be converted by applying a plurality of types of high-resolution processing within one screen. is there.

  A video data processing system according to a first aspect of the present invention includes a video playback device that inputs low-resolution video data including a plurality of regions, and a video display device that displays a high-resolution video. In the system, the video reproduction device performs a first high-resolution processing unit that performs a first high-resolution process on a part of the plurality of regions, and each of the plurality of regions. The video display device includes the setting means for setting processing result information indicating whether the first high resolution processing has been processed or not processed, the plurality of regions, and the processing result information. The video display device performs second high-resolution processing on an area set as unprocessed in the processing result information included in the video data received from the video playback device. line Comprising a second high-resolution processing means, the set and the processing result information to the processed area, and display means for displaying an image including said second region high-resolution process is performed.

  According to a second aspect of the present invention, there is provided a video data processing method using a video playback device that inputs low-resolution video data including a plurality of regions and a video display device that displays a high-resolution video. A video data processing method for processing an image, wherein in the video reproduction device, a first high resolution process is performed on a part of the plurality of regions, and the first region is processed for each of the plurality of regions. Processing result information indicating whether one high-resolution processing has been processed or not processed, and transmitting the video data to the video display device including the plurality of areas and the processing result information, In the video display device, a second high-resolution process is performed on an area set as unprocessed in the processing result information included in the video data received from the video playback device, and the processing result information is processed. Displaying a constant region, an image including said second high-resolution processing is performed region.

  As described above, according to the first or second aspect of the present invention, different high resolution processing is performed for each area included in video data using a video playback device and a video display device having different high resolution processing means. , Including them can be displayed as video. Therefore, it is possible to apply the first high-resolution processing in the video reproduction device to a certain area and apply the second high-resolution processing in the video display apparatus to the other area. That is, it is possible to display a desired video by linking a plurality of types of high resolution processing for each region of video data.

  According to the present invention, it is possible to provide a video data processing system and method for displaying a desired video by flexibly combining the types of high resolution processing of each area included in the video data.

It is a block diagram which shows the structure of the video data processing system concerning Embodiment 1 of this invention. It is a figure which shows the example of the control information of the high resolution process concerning Embodiment 1 of this invention. It is a figure which shows the example of the format of the video data transmitted to the video display apparatus from the video reproduction apparatus concerning Embodiment 1 of this invention. It is a block diagram which shows the structure of the video reproduction apparatus concerning Embodiment 1 of this invention. It is a flowchart which shows the flow of the registration process of the control information of the high resolution process concerning Embodiment 1 of this invention. It is a flowchart which shows the flow of the presentation process of the presentation of the image | video by the presence or absence of the high resolution process concerning Embodiment 1 of this invention, and the selection result from a user. It is a flowchart which shows the flow of the display process of the video data in the video display apparatus concerning Embodiment 1 of this invention. It is a flowchart which shows the flow of the transmission process of the video data in the video reproduction apparatus concerning Embodiment 1 of this invention. It is a flowchart which shows the flow of the separate process of the video data in the video reproduction apparatus concerning Embodiment 1 of this invention. It is a flowchart which shows the flow of the transmission process of the video data in the video reproduction apparatus concerning Embodiment 2 of this invention. It is a flowchart which shows the flow of the separate process of the video data in the video reproduction apparatus concerning Embodiment 2 of this invention. It is a flowchart which shows the flow of a display process of the video data in the video display apparatus concerning Embodiment 2 of this invention. It is a figure explaining the concept at the time of 1 screen concerning Embodiment 2 of this invention being divided | segmented into 2 area | regions.

  Hereinafter, specific embodiments to which the present invention is applied will be described in detail with reference to the drawings. In the drawings, the same elements are denoted by the same reference numerals, and redundant description will be omitted as necessary for the sake of clarity.

<Embodiment 1 of the Invention>
FIG. 1 is a block diagram showing a configuration of a data processing system 10 according to the first exemplary embodiment of the present invention. The data processing system 10 includes a video playback device 100, a video display device 200, and a video data transmission cable 300 that connects the video playback device 100 and the video display device 200. The video playback device 100 inputs low-resolution video data including a plurality of areas, and performs playback processing of the video data. In particular, the video playback apparatus 100 can insert a video media 400 in which arbitrary video data is recorded, and perform high-resolution processing on an arbitrary area of the video data read from the video media 400. Further, the video reproduction device 100 transmits the video data to the video display device 200 via the video data transmission cable 300. The video display device 200 can display video data as a high-resolution video. In particular, the video display device 200 can receive video data from the video playback device 100 via the video data transmission cable 300. In addition, the video display apparatus 200 can perform high resolution processing on an arbitrary area of video data. It is assumed that the video reproduction device 100 and the video display device 200 are different types of high resolution processing.

  The video reproduction apparatus 100 includes a video data reading unit 101, a video data decoding processing unit 102, a CPU (Central Processing Unit) 103, a high resolution processing unit 104, a video data transmitting unit 105, and a user operation receiving unit 106. And a high-resolution processing control DB (DataBase) 107. The video data reading unit 101 is a device that reads video data from the video media 400 and outputs the video data to the video data decoding processing unit 102. The video data decoding processing unit 102 is a device that decodes the video data input from the video data reading unit 101 and outputs the decoded video data to the CPU 103. That is, the video data decoding processing unit 102 restores the video data read from the video media 400 to the original video data.

  The high-resolution processing control DB 107 is a storage device that stores control information 108 that is processing necessity information indicating whether or not high-resolution processing is performed by the high-resolution processing unit 104 for each video type. Note that the high-resolution processing control DB 107 is preferably a nonvolatile storage device. Here, the video type is a feature pattern classified based on image features.

  FIG. 2 is a diagram showing an example of the control information 108 stored in the high resolution processing control DB 107 according to the first embodiment of the present invention. The high resolution processing control DB 107 stores the video type and the correspondence of the high resolution processing control in the video reproduction device 100 in association with each other. In FIG. 2, examples of video types include subtitles, night views,... For example, if the video type of a certain area of the video data is determined to be a caption, it indicates that the high resolution processing by the high resolution processing unit 104 is not performed on the area. Further, when the video type is determined to be night view or animation, it indicates that the high resolution processing by the high resolution processing unit 104 is performed.

  The CPU 103 is a central processing unit that controls various processes in the video playback device 100. The CPU 103 determines whether or not to perform high-resolution processing on a plurality of areas included in the decoded video data input from the video data decoding processing unit 102. The CPU 103 outputs, to the high resolution processing unit 104, an area determined to perform high resolution processing in the video data. Further, the CPU 103 directly outputs, to the video data transmission unit 105, an area that is determined not to perform high resolution processing in the video data. Further, the CPU 103 sets processing result information indicating whether the high resolution processing by the high resolution processing unit 104 has been processed or not processed for each of the plurality of regions. For example, the CPU 103 sets the processing result information in the header area of the video data.

  Further, the CPU 103 determines whether or not the high resolution processing by the high resolution processing unit 104 is to be performed for each of the plurality of areas based on the video type corresponding to the feature of the image included in each area. Specifically, the CPU 103 analyzes the feature of the image and determines which of the plurality of predetermined video types the analyzed feature corresponds to. Then, the CPU 103 determines whether or not to perform high resolution processing by the high resolution processing unit 104 based on the video type in each region and the control information 108 stored in the high resolution processing control DB 107 for each of the plurality of regions. judge.

  The high resolution processing unit 104 is a device that performs high resolution processing on the video data input from the CPU 103 and outputs the processed video data to the video data transmission unit 105. That is, the high resolution processing unit 104 performs arbitrary high resolution processing on a part of a plurality of regions. In particular, the high resolution processing unit 104 performs high resolution processing on an area determined by the CPU 103 to perform high resolution processing among a plurality of areas.

  The video data transmission unit 105 transmits video data including each area of the video data input from the CPU 103 and the high resolution processing unit 104 and the processing result information to the video display device 200 via the video data transmission cable 300. It is a device that transmits. That is, the video data transmission unit 105 includes an area that has been subjected to high resolution processing by the high resolution processing unit 104, an area that has not been subjected to high resolution processing by the high resolution processing unit 104, and processing result information in each area. Send the included video data. The processing result information setting process may be performed by the video data transmission unit 105, but will be described below as being performed by the CPU 103.

  The user operation receiving unit 106 is an input interface that receives input from a user who operates the video playback device 100. In particular, the user operation reception unit 106 outputs processing necessity information received from the outside to the CPU 103. Then, the CPU 103 registers the processing necessity information input from the user operation reception unit 106 in the high resolution processing control DB 107.

  The video display device 200 includes a video display panel 201, a video display processing unit 202, a high resolution processing unit 203, a CPU 204, a video data receiving unit 205, and a user operation receiving unit 206. The video data reception unit 205 is a device that receives video data from the video data transmission unit 105 via the video data transmission cable 300.

  The CPU 204 is a central processing unit that controls various processes in the video display device 200. The CPU 204 determines whether or not to perform high resolution processing on a plurality of areas included in the video data input from the video data receiving unit 205. At this time, the CPU 204 determines whether or not to perform high resolution processing by the high resolution processing unit 203 for each of the plurality of areas based on the processing result information set in the header area of the received video data. The CPU 204 outputs, to the high resolution processing unit 203, an area determined to perform high resolution processing in the video data. In addition, the CPU 204 directly outputs an area of the video data that is determined not to be subjected to high resolution processing to the video display processing unit 202.

  The high resolution processing unit 203 is a device that performs high resolution processing different from the high resolution processing unit 104 on the video data input from the CPU 204 and outputs the processed video data to the video display processing unit 202. That is, the high resolution processing unit 203 performs high resolution processing on an area set as unprocessed in the processing result information included in the video data received from the video reproduction device 100.

  The video display processing unit 202 is a device that outputs the video data input from the CPU 204 and the video data input from the high resolution processing unit 203 to the video display panel 201. That is, the video display processing unit 202 outputs video data including the region set as processed in the processing result information and the region subjected to the high resolution processing by the high resolution processing unit 203 to the video display panel 201. . In other words, both video data input from the CPU 204 or the high resolution processing unit 203 to the video display processing unit 202 have a high resolution.

  The video display panel 201 is a display device that displays the video data input from the video display processing unit 202 as a high-resolution video.

  The user operation receiving unit 206 is an input interface that receives an input from a user who operates the video display device 200. For example, the user operation reception unit 206 receives a signal for turning on / off the function of the high resolution processing unit 203 and outputs the signal to the CPU 204. However, in the data processing system 10 according to the first exemplary embodiment of the present invention, the user operation reception unit 206 is not essential.

  FIG. 3 is a diagram illustrating an example of a format of video data transmitted from the video playback device according to the first embodiment of the present invention to the video display device. The video data header 610 is header information related to video data. The video data header 610 includes high-resolution processing information 611, 612,. The video data body 620 is data representing pixels, regions, frames, or the like of the video data itself. The video data body 620 includes video data 621, 622,. For example, when high-resolution processing is performed on the video data 621, the high-resolution processing information 611 includes information indicating processing completion as processing result information. When high resolution processing is not performed on the video data 622, the high resolution processing information 612 includes information indicating unprocessed processing result information.

  In FIG. 3, the high-resolution processing information 611, 612,..., 61n corresponds to the video data 621, 622,. For example, the processing result information for a plurality of video data may be defined by a single high-resolution processing information. The video data body 620 may include at least one video data. Furthermore, the processing result information may indicate only processed or unprocessed information. For example, when the processing result information indicates that the processing has been completed, if there is no high resolution processing information corresponding to the video data corresponding to the video data 621 being subjected to the high resolution processing, the high resolution processing information 611 is stored. Although it is included in the video data header 610, the high resolution processing information 612 corresponding to the video data 622 that has not been subjected to high resolution processing may not be included in the video data header 610. All of the video data 621, 622,..., 62n may be high-resolution processed or unprocessed.

  FIG. 4 is a block diagram showing a functional configuration of the CPU 103 in the video reproduction apparatus 100 according to the first embodiment of the present invention. In addition, about the structure same as FIG. 1, the same code | symbol is attached | subjected and detailed description is abbreviate | omitted. The CPU 103 includes a high resolution processing switching unit 501, an edge detection processing unit 502, a brightness analysis processing unit 503, a texture analysis processing unit 504, an image feature analysis processing unit 505, a high resolution processing determination unit 506, and a high resolution. A process selection unit 507.

  The high resolution processing switching unit 501 is configured to process the high resolution processing unit 104 or the video data input from the video data decoding processing unit 102 based on the signals input from the user operation receiving unit 106 and the high resolution processing determination unit 506. The video data is output to any one of the video data transmission units 105.

  The edge detection processing unit 502 detects an edge component of the video from the video data input from the video data decoding processing unit 102 and outputs the result to the image feature analysis processing unit 505. The brightness analysis processing unit 503 analyzes the brightness of the video from the video data input from the video data decoding processing unit 102 and outputs the result to the image feature analysis processing unit 505. The texture analysis processing unit 504 analyzes the video texture from the video data input from the video data decoding processing unit 102, and outputs the result to the image feature analysis processing unit 505.

  The image feature analysis processing unit 505 receives inputs from the edge detection processing unit 502, the lightness analysis processing unit 503, and the texture analysis processing unit 504, and determines whether the current video data to be processed is a predetermined video type. Then, the image feature analysis processing unit 505 outputs the video type determination result to the high resolution processing determination unit 506 and the high resolution processing selection unit 507.

  Here, an example in which the video type is determined will be described. For example, in the case of an image composed only of characters, the lightness distribution appears in a bipolar manner in a dark part and a bright part. In the edge detection, it is possible to detect that what is composed of a loop of lines is solid and distributed. Thus, the screen can be identified as a video in which most characters are occupied like a subtitle. Further, in the case of a night scene image, it can be identified as a night scene by detecting that the brightness distribution is extremely increased in a dark part.

  A technique for classifying an image based on various features included in the image is disclosed in Patent Document 2 and the like. In the first embodiment of the present invention, as an example, a configuration is shown in which an image is analyzed by an edge detection processing unit 502, a lightness analysis processing unit 503, and a texture analysis processing unit 504, and a video type is determined by an image feature analysis processing unit 505. ing.

  The high resolution processing selection unit 507 receives the user selection result of the high resolution processing result input from the user operation reception unit 106 and the video type input from the image feature analysis processing unit 505, and receives the user selection result and the video type. Are stored in the high-resolution processing control DB 107 in association with each other.

  The high resolution processing determination unit 506 receives the video type input from the image feature analysis processing unit 505 when playing back the video after the control information 108 is stored in the high resolution processing control DB 107, and sets the received video type to the received video type. The associated control information 108 is searched from the high resolution processing control DB 107. The high resolution processing determination unit 506 determines whether the current video data to be processed should be subjected to high resolution processing on the video playback device 100 side or high resolution processing on the video display device 200 side. Then, the image feature analysis processing unit 505 outputs the determination result to the high resolution processing switching unit 501.

  FIG. 5 is a flowchart showing a flow of registration processing of control information for high resolution processing according to the first embodiment of the present invention. First, the video media 400 prepared for creating the high-resolution processing control information is inserted into the video playback device 100 by the user (S101). It is assumed that the video media 400 contains low-resolution video data including a plurality of areas for a plurality of video types.

  Next, the video playback device 100 reads video data from the video media 400 (S102). Then, the video reproduction device 100 determines whether there is unprocessed video data (S103). When it is determined that there is no unprocessed video data, that is, when all the video data recorded in the video media 400 has been processed, the video playback device 100 ends the registration process.

  If it is determined in step S103 that there is unprocessed video data, the video playback device 100 analyzes the characteristics of the video data and determines the video type (S104). Specifically, each of the edge detection processing unit 502, the lightness analysis processing unit 503, and the texture analysis processing unit 504 analyzes various characteristics of an image included in the video data input from the video data decoding processing unit 102. Then, the image feature analysis processing unit 505 determines a video type in the video data based on various analysis results input from the edge detection processing unit 502, the lightness analysis processing unit 503, and the texture analysis processing unit 504.

  Subsequently, the video reproduction device 100 presents video based on the presence / absence of high-resolution processing and accepts a selection result from the user (S105). Here, with reference to the flowchart shown in FIG. 6, the flow of the process of presenting a video and accepting a selection result from the user according to the first embodiment of the present invention will be described.

  First, the video reproduction device 100 sets high resolution processing as unprocessed in the header (S201). That is, the video reproduction device 100 sets unprocessed processing result information for some areas of the plurality of areas. Specifically, the CPU 103 sets the processing result information in the header area of the processing target video data.

  Next, the video reproduction device 100 transmits the video data including the processing result information set as unprocessed to the video data to the video display device 200 (S202). That is, the video reproduction device 100 transmits the video data without performing high resolution processing by the high resolution processing unit 104.

  Thereafter, the video display device 200 displays the received video data. Here, the flow of the display process of the video data in the video display apparatus according to the first embodiment of the present invention will be described using the flowchart shown in FIG.

  First, the video display device 200 receives video data from the video playback device 100 (S501). Next, the video display device 200 analyzes the header of the video data (S502). That is, the video display apparatus 200 extracts the processing result information set in the header area of the received video data.

  Then, the video display device 200 determines whether or not the high-resolution processing has been completed in the video playback device 100 (S503). Here, since the processing result information is set as unprocessed, the video display apparatus 200 determines that the high-resolution processing is not performed on the video data. Therefore, the video display device 200 performs high-resolution processing of video data (S504). That is, the high resolution processing unit 203 performs high resolution processing on the video display apparatus 200 side for the received video data.

  Then, the video display device 200 outputs the video data subjected to the high resolution processing to the video display panel 201 by the video display processing unit 202 (S505). That is, a high-resolution video is displayed on the video display panel 201. Here, an image on which high-resolution processing has been performed by the image display device 200 is displayed. Therefore, the user views the display result, confirms the effect, and then inputs a confirmation end event to the video reproduction apparatus 100.

  Returning to FIG. 6, the video reproduction apparatus 100 determines whether or not the user has been confirmed (S203). In other words, the video reproduction device 100 determines whether or not a confirmation end event has been received by the user operation reception unit 106. If no confirmation end event has been received, step S203 is performed again after waiting for a predetermined time.

  If it is determined in step S203 that the user has been confirmed, the video reproduction device 100 performs high-resolution processing of the video data to be processed (S204). That is, in step S202, the high resolution processing unit 104 performs high resolution processing on the video playback device 100 side on the same video data as the video data transmitted without performing the high resolution processing. Then, the video reproduction device 100 sets the high resolution processing in the header as processed (S205). That is, the video reproduction device 100 sets the processing result information for a part of the plurality of regions as processed.

  Next, the video reproduction device 100 transmits to the video display device 200 including the processing result information set as processed in the video data (S206). That is, the video reproduction device 100 transmits video data that has been subjected to high resolution processing by the high resolution processing unit 104.

  Thereafter, the video display device 200 displays the received video data. Here, since the processing result information is set to have been processed, in step S503 in FIG. 7, the video display apparatus 200 determines that high-resolution processing has been performed on the video data. Therefore, the video display device 200 does not perform the high resolution processing on the video display device 200 side, and the video display processing unit 202 converts the video data that has been subjected to the high resolution processing on the video playback device 100 side in step S505 of FIG. Output to the display panel 201.

  Thereafter, a high-resolution video is displayed on the video display panel 201. That is, at this time, the video that has been subjected to the high resolution processing by the video playback device 100 is displayed. Therefore, the user views the display result, selects which of the video displayed immediately before and the current video is his / her preference, and inputs the selection result to the video playback device 100. The selection result may be, for example, information indicating the order in which video is displayed, the front or the back, or information specifying either the video playback device 100 or the video display device 200.

  Returning to FIG. 6, the video reproduction device 100 determines whether a selection result has been received from the user (S207). That is, the video reproduction device 100 determines whether or not the selection result has been received by the user operation reception unit 106. If the selection result has not been received, step S207 is performed again after waiting for a predetermined time.

  Returning to FIG. 5, the video reproduction device 100 registers the user selection result and the video type in the high-resolution processing control DB 107 in association with each other (S106). That is, the video playback device 100 receives information on selection of either the video playback device 100 or the video display device 200 for a part of the area, and associates it with the video type in the part of the area to the high resolution processing control DB 107. sign up. Thereafter, the video playback device 100 repeats the processing of steps S102 to S106 until all video data has been read from the video media 400.

  FIG. 8 is a flowchart showing the flow of video data transmission processing in the video playback apparatus according to Embodiment 1 of the present invention. In the following description, detailed description of processes equivalent to those in FIGS. 5, 6, and 7 is omitted.

  First, the video media 400 is inserted into the video playback device 100 by the user (S301). The video media 400 may contain video data different from that used for the registration process in FIG. However, it is assumed that the video media 400 contains low-resolution video data including a plurality of areas for at least a plurality of video types.

  Next, the video reproduction device 100 reads video data from the video media 400 (S302). For example, the video playback device 100 reads video data for one frame from the video media 400. Then, the video reproduction device 100 determines whether or not unprocessed video data exists (S303). For example, the video reproduction device 100 determines whether there is an unread frame.

  If it is determined in step S303 that there is unprocessed video data, the video playback device 100 performs individual processing of the video data (S304). Here, the flow of individual processing of video data in the video reproduction apparatus according to Embodiment 1 of the present invention will be described using the flowchart shown in FIG. Note that the video reproduction device 100 performs the process of FIG. 9 for each area included in the video data read in step S302.

  First, the video playback device 100 analyzes the characteristics of video data and determines the video type (S401). Then, the video reproduction device 100 searches the high resolution processing control DB 107 for high resolution processing corresponding to the video type (S402). Specifically, the high resolution processing determination unit 506 searches the high resolution processing control DB 107 using the video type determined by the image feature analysis processing unit 505 as a key, and acquires the corresponding control information 108. In the example of FIG. 2, when it is determined that the video type is a night view, information indicating that there is high-resolution processing control is acquired.

  Then, the video reproduction device 100 determines whether or not the video reproduction device 100 performs high resolution processing (S403). Specifically, the high resolution processing determination unit 506 determines based on the control information 108 acquired from the high resolution processing control DB 107. For example, when information indicating that there is high-resolution processing control is acquired, the video reproduction device 100 determines to perform high-resolution processing by the high-resolution processing unit 104. At this time, the high resolution processing determination unit 506 outputs a control signal for causing the high resolution processing switching unit 501 to output video data to the high resolution processing unit 104. When information indicating that high-resolution processing control is not performed is acquired, the video reproduction device 100 determines that high-resolution processing is to be performed by the high-resolution processing unit 203. At this time, the high resolution processing determination unit 506 outputs a control signal for causing the video data transmission unit 105 to output video data to the high resolution processing switching unit 501.

  If it is determined in step S403 that the video playback device 100 performs high-resolution processing, the video playback device 100 performs high-resolution processing of the video data to be processed (S404). Then, the video reproduction device 100 sets the high resolution processing in the header as processed (S405).

  If it is determined in step S403 that the video playback device 100 does not perform high resolution processing, the video playback device 100 sets the high resolution processing as unprocessed in the header (S406). That is, at this time, the video reproduction device 100 does not perform high resolution processing on the video data to be processed by the high resolution processing unit 104.

  Returning to FIG. 8, the video reproduction device 100 transmits the video data to the video display device 200 including the processing result in the above-described individual processing of the video data (S305). When the individual processing in step S304 is performed for each area, the video reproduction apparatus 100 transmits the respective areas in the video data format shown in FIG. Thereby, video data including a plurality of areas can be transmitted. Thereafter, the video playback device 100 repeats the processing of steps S302 to S305 until all video data has been read from the video media 400.

  Thereafter, when it is determined in step S303 that there is no unprocessed video data, that is, when all the video data recorded in the video media 400 has been processed, the video playback device 100 ends the transmission process. To do.

  Thereafter, a high-resolution video is displayed by display processing in the video display device 200 shown in FIG. Here, the video data received by the video display device 200 includes a plurality of areas. In particular, there is a case where high resolution processing has been processed or unprocessed depending on the region. Therefore, the video display apparatus 200 processes steps S503 and S504 in FIG. 7 for each region. Then, the video display processing unit 202 outputs the area that has been processed by the high resolution processing unit 104 and the area that has been processed by the high resolution processing unit 203 to the video display panel 201. Thereby, a plurality of areas subjected to different high resolution processing can be displayed together. That is, according to Embodiment 1 of the present invention, a desired video can be displayed by flexibly combining the types of high resolution processing of each area included in the video data.

  In the first embodiment of the present invention, the preference for the effect of the high-resolution processing of each of the video playback device 100 and the video display device 200 is received for each video type, and the selection result is received from the user. Each video type is registered in the high resolution processing control DB 107. Then, when playing back other video data, the video playback device 100 analyzes the video type in the video data, and switches ON / OFF the high-resolution processing control of the corresponding video data according to the information in the database. When high resolution processing is performed on the video playback device 100 side, the high resolution processing information of the video data is added to the header and transmitted to the video playback device 200. In addition, if the video data input from the video playback device 100 includes a portion that has not been subjected to high resolution processing, the video display device 200 performs its own high resolution processing. If there is a portion that has been subjected to high resolution processing, that portion is not subjected to high resolution processing. As described above, the effect of the high resolution processing of the video playback device 100 and the video display device 200 in the video data to be played back becomes an optimum combination by the user.

  In the registration process, even if different screens belong to the same video type, the selection results may be made into one control information 108 by statistical processing or the like. Thereby, it is possible to improve the accuracy of reflecting the preference of the user with respect to the control information 108. Further, since the high resolution processing control DB 107 associates the control information 108 for each video type, the video data that the user views for the first time is also stored in the high resolution processing control DB 107 for different screens or areas. If the video types are the same, the same preference can be reflected in the application of high resolution processing.

<Embodiment 2 of the Invention>
The second embodiment of the present invention is a modification of the first embodiment of the present invention described above. The second embodiment of the present invention is an example in which the entire screen of video data is not classified into one video type, but the screen is divided into a plurality of video types and the video types are classified for each. The video reproduction apparatus according to the second embodiment of the present invention further includes an area dividing unit that analyzes the characteristics of the image for each input video data and divides the input video data into a plurality of areas based on the analyzed characteristics. . Then, the video reproduction device further includes arrangement information on the screen of the plurality of divided areas, and transmits the video data to the video display device. In addition, the video display apparatus according to the second exemplary embodiment of the present invention displays a video by combining the divided areas based on the arrangement information. The data processing system according to the second exemplary embodiment of the present invention has the same configuration as that shown in FIG.

  FIG. 10 is a flowchart showing the flow of video data transmission processing in the video playback apparatus according to Embodiment 2 of the present invention. In the following description, detailed description of processing equivalent to that of Embodiment 1 of the present invention is omitted.

  First, the video media 400 is inserted into the video playback device 100 by the user (S601). It is assumed that the video medium 400 contains low-resolution video data including a plurality of areas determined as a plurality of video types in at least one screen.

  Next, the video reproduction device 100 reads video data from the video media 400 (S602). For example, the video playback device 100 reads video data for one frame from the video media 400. Then, the video reproduction device 100 determines whether or not unprocessed video data exists (S603). For example, the video reproduction device 100 determines whether there is an unread frame. If it is determined in step S603 that there is no unprocessed video data, that is, if all video data recorded in the video media 400 has been processed, the video playback device 100 ends the transmission process.

  If it is determined in step S603 that there is unprocessed video data, the video playback device 100 analyzes the characteristics of the video data (S604). Then, the video reproduction device 100 divides the screen into a plurality of areas based on the characteristics (S605). For example, in a movie image, if the subtitle is an image outside the main body image portion, the image reproduction device 100 divides the image into two screens based on the brightness information. At this time, the video reproduction apparatus 100 separately stores arrangement information in the screen of the division source for each divided area. The arrangement information may be, for example, coordinates on the screen, adjacent relations between areas, and the like.

  Thereafter, the video reproduction device 100 performs individual processing of the video data for each divided area (S606). Here, the flow of individual processing of video data in the video playback apparatus according to the second embodiment of the present invention will be described using the flowchart shown in FIG.

  First, the video reproduction device 100 determines the video type of the divided area from the analyzed characteristics (S701). Thereafter, Steps S702 to S706 are performed on the divided area in the same manner as Steps S402 to S406 in FIG.

  Returning to FIG. 10, the video reproduction device 100 determines whether there is another divided area on the processing target screen (S <b> 607). If it is determined that another divided region exists, step S606 is executed again. If it is determined in step S607 that there are no other divided areas, the video reproduction device 100 transmits video data for a plurality of divided areas on the screen to be processed (S608). At this time, the video reproduction device 100 transmits the video data including the above-described arrangement information to the video display device 200. Thereafter, the video reproduction device 100 repeats the processes of steps S602 to S608 until all the video data has been read from the video media 400.

  FIG. 12 is a flowchart showing the flow of video data display processing in the video display apparatus according to the second embodiment of the present invention. In the following description, detailed description of processing equivalent to that of Embodiment 1 of the present invention is omitted.

  First, the video display device 200 receives video data from the video playback device 100 (S801). Next, the video display device 200 analyzes the header of the video data (S802).

  Then, the video display device 200 determines whether or not the divided area has been subjected to high resolution processing by the video playback device (S803). If it is determined that the high resolution processing has not been completed, the video display apparatus 200 performs high resolution processing of the divided areas (S804). If it is determined in step S803 that the high resolution processing has been completed, the high resolution processing of the divided area is not performed.

  Thereafter, the video display apparatus 200 determines whether there is another divided region (S805). If it is determined that another divided area exists, the video display apparatus 200 performs steps S803 and S804.

  If it is determined in step S805 that there are no other divided areas, the video display apparatus 200 combines the divided areas (S806). At this time, the video display apparatus 200 synthesizes each divided region so as to be one screen based on the arrangement information.

  Thereafter, the video display apparatus 200 outputs the video data of the composite word to the video display panel 201 by the video display processing unit 202 (S807).

  FIG. 13 is a diagram for explaining a concept when one screen according to the second embodiment of the present invention is divided into two regions. Screen data 710 indicates the concept of video data after high-resolution processing in the video playback device 100 and before transmission to the video display device 200.

  The screen data 710 indicates that it has been divided into a high-resolution processed area 711 processed by the high-resolution processing section 104 and an unprocessed area 712 that has not been processed by the high-resolution processing section 104. Therefore, in the header area of the data transmitted to the video display apparatus 200, the high-resolution processed area 711 has been processed, and the unprocessed area 712 is not processed. In addition, the header area of the data transmitted to the video display apparatus 200 includes arrangement information of the high-resolution processed area 711 and the unprocessed area 712.

  Then, only the unprocessed area 712 is processed by the high resolution processing unit 203 to become a high resolution processed area 722, which is synthesized based on the arrangement information. That is, the screen data 720 indicates that the high resolution processed area 721 processed by the high resolution processing unit 104 and the high resolution processed area 722 processed by the high resolution processing unit 203 are combined.

  As described above, in the second embodiment of the present invention, the video data is divided into a plurality of regions from the features of the image, each divided region is classified into a video type, and high-resolution processing optimal for them is performed. A high-resolution processing result optimum for each screen can be obtained. Therefore, for the high-resolution processing separately implemented on the video playback device 100 side and the video display device 200 side, the best high-resolution processing video for the user can be obtained by appropriately using each good portion. .

<Other embodiments of the invention>
Furthermore, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention described above.

DESCRIPTION OF SYMBOLS 10 Data processing system 100 Image | video reproduction apparatus 101 Image | video data reading part 102 Image | video data decoding process part 103 CPU
104 High Resolution Processing Unit 105 Video Data Transmission Unit 106 User Operation Reception Unit 107 High Resolution Processing Control DB
108 Control Information 200 Video Display Device 201 Video Display Panel 202 Video Display Processing Unit 203 High Resolution Processing Unit 204 CPU
205 Video Data Receiving Unit 206 User Operation Receiving Unit 300 Video Data Transmission Cable 400 Video Media 501 High Resolution Processing Switching Unit 502 Edge Detection Processing Unit 503 Lightness Analysis Processing Unit 504 Texture Analysis Processing Unit 505 Image Feature Analysis Processing Unit 506 High Resolution Processing Determination Section 507 High-resolution processing selection section 610 Video data header 611 High-resolution processing information 612 High-resolution processing information 61n High-resolution processing information 620 Video data body 621 Video data 622 Video data 62n Video data 710 Screen data 711 High-resolution processed area 712 Not yet Processing area 720 Screen data 721 High resolution processed area 722 High resolution processed area

Claims (12)

A video playback device for inputting low-resolution video data including a plurality of areas;
A video display device for displaying high-resolution video;
A video data processing system comprising:
The video playback device
First high resolution processing means for performing first high resolution processing on a partial area of the plurality of areas;
Setting means for setting processing result information indicating whether the first high-resolution processing has been processed or not processed for each of the plurality of regions;
A transmission means for transmitting the video data to the video display device including the plurality of areas and the processing result information;
The video display device
Second high resolution processing means for performing second high resolution processing on an area set as unprocessed in the processing result information included in the video data received from the video reproduction device;
A video data processing system comprising: display means for displaying a video including an area set as processed in the processing result information and an area on which the second high-resolution processing has been performed. The video playback device
For each of the plurality of regions, further comprising a determination unit that determines whether or not to perform the first high-resolution processing based on a video type according to a feature of an image included in each region,
The first high-resolution processing means performs the first high-resolution processing on an area determined by the determination means to perform the first high-resolution processing among the plurality of areas. The video data processing system according to claim 1, wherein The video playback device
A storage unit that stores processing necessity information indicating whether or not to perform the first high-resolution processing for each video type;
The determination unit determines, for each of the plurality of areas, whether or not to perform the first high-resolution processing based on the video type in each area and the processing necessity information stored in the storage unit. The video data processing system according to claim 2, wherein:   The video data processing system according to claim 3, wherein the video playback apparatus further includes a registration unit that receives the processing necessity information from outside and registers the information in the storage unit. The setting means sets unprocessed in the processing result information for a partial area of the plurality of areas,
The transmission means transmits the video data to the video display device including the partial area and the unprocessed and set processing result information,
The second high resolution processing means performs the second high resolution processing on the partial area,
The display means displays the partial area on which the second high-resolution processing has been performed as the video,
The first high resolution processing means performs the first high resolution processing on the partial area,
The setting means sets the processed result information for the partial area as processed,
The transmission means transmits the video data to the video display device including the partial area and the processing result information set as the processed,
The display means displays the partial area on which the first high-resolution processing has been performed as the video,
The registration unit receives information on selection of either the first high resolution processing or the second high resolution processing for the partial area, and associates the information with the video type in the partial area. The video data processing system according to claim 4, wherein the video data processing system is registered in a storage unit. The video playback device
For the input video data, further comprising an area dividing means for analyzing the characteristics of the image on a screen basis and dividing the plurality of areas based on the analyzed characteristics,
The transmission means further includes arrangement information on the screen of the plurality of divided areas, and transmits the video data to the video display device,
6. The video data processing system according to claim 1, wherein the display unit displays the video by combining the divided areas based on the arrangement information. A video playback device for inputting low-resolution video data including a plurality of areas;
A video display device for displaying high-resolution video;
A video data processing method for processing video data using
In the video playback device,
Performing a first high-resolution process on a partial region of the plurality of regions;
Set processing result information indicating whether the first high-resolution processing has been processed or not processed for each of the plurality of regions,
Transmitting the video data to the video display device including the plurality of areas and the processing result information;
In the video display device,
A second high-resolution process is performed on the area set as unprocessed in the processing result information included in the video data received from the video playback device,
A video data processing method, comprising: displaying an image including an area set as processed in the processing result information and an area subjected to the second high-resolution processing. In the video playback device,
For each of the plurality of regions, it is determined whether to perform the first high-resolution processing based on the video type according to the characteristics of the image included in each region,
8. The video according to claim 7, wherein the first high resolution processing is performed on an area of the plurality of areas determined by the determination unit to perform the first high resolution processing. Data processing method. The video playback device
A storage unit that stores processing necessity information indicating whether or not to perform the first high-resolution processing for each video type;
In the video playback device,
For each of the plurality of areas, it is determined whether to perform the first high-resolution processing based on the video type in each area and the processing necessity information stored in the storage unit. The video data processing method according to claim 8. In the video playback device,
Accept the processing necessity information from outside,
The video data processing method according to claim 9, wherein the received processing necessity information is registered in the storage unit. In the video playback device,
Set unprocessed in the processing result information for a part of the plurality of areas,
Transmitting the video data to the video display device including the partial area and the processing result information set as unprocessed;
In the video display device,
Performing the second high-resolution processing on the partial area;
Displaying the partial area on which the second high-resolution processing has been performed as the video;
In the video playback device,
Performing the first high-resolution processing on the partial area;
Set as processed in the processing result information for the partial area,
Sending the video data to the video display device including the partial area and the processing result information set as the processed,
In the video display device,
Displaying the partial area on which the first high-resolution processing has been performed as the video;
In the video playback device,
Accepting information for selecting either the first high-resolution processing or the second high-resolution processing for the partial area;
The video data processing method according to claim 10, wherein the video data processing method is registered in the storage unit in association with the video type in the partial area. In the video playback device,
For the input video data, analyze the characteristics of the image in screen units,
Dividing into the plurality of regions based on the analyzed features;
Further including arrangement information on the screen of the plurality of divided areas, and transmitting the video data to the video display device,
In the video display device,
12. The video data processing method according to claim 7, wherein the video is displayed by combining the divided areas based on the arrangement information.

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