JP2013078071A - Moving image data processor and display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress an adverse effect when moving image data is converted into high resolution.SOLUTION: A display device of the embodiment includes: reception means, conversion determination means; and image processing means. The reception means receives identification information showing whether resolution is converted or not in moving image data inputted to a moving image data processor with the moving image data from the moving image data processor in accordance with a specification for transmitting the moving image data. The conversion determination means determines whether the moving image data processor converts the moving image data into the resolution of a screen, which is determined in the specification, on the basis of the identification information. The image processing means performs an image processing for suppressing influence of resolution conversion on the moving image data when the conversion determination means determines that the moving image data is converted into the resolution of the screen, which is determined in the specification.

Description

  Embodiments described herein relate generally to a moving image data processing device and a display device.

  In recent years, opportunities for viewing video content on a television receiver having a resolution exceeding the SD (Standard Definition) standard are increasing in general households.

  HDMI (High-Definition Multimedia Interface) has been proposed as a standard for connecting devices in order to deliver such video content. HDMI is one of multimedia interfaces compatible with high resolution. By using this HDMI, it becomes possible to deliver high-resolution video content while ensuring security.

  By the way, video data acquired by a photographing device such as a video camera, video content such as an SD standard compatible television broadcast, DVD, etc. have a lower resolution than that of terrestrial digital broadcast or Blu-ray disc video content. For this reason, when delivering video content, the video content is up-converted to increase the resolution.

  In addition, when the video content is increased in resolution, a technique for performing noise removal and sharpening processing on the video content has been proposed in order to suppress adverse effects due to the high resolution.

JP 2010-152518 A

  However, in the prior art, when the resolution is increased in accordance with the HDMI standard before the video content is delivered to the television receiver, the television receiver increases the resolution (for example, from Standard Definition). Cannot recognize whether the video content has been up-converted to High Definition or high-resolution video content from the beginning. For this reason, the problem that the bad influence by high resolution cannot be suppressed has arisen.

  The present invention has been made in view of the above, and provides a moving image data processing device and a display device that suppress adverse effects when converting to high resolution.

  The display device according to the embodiment includes a receiving unit, an exchange determination unit, and an image processing unit. The receiving means includes identification information indicating whether or not the resolution has been converted from the moving image data processing device to the moving image data input to the moving image data processing device in accordance with the standard for transmitting the moving image data together with the moving image data. Receive. The exchange determination unit determines whether the moving image data processing apparatus has converted the moving image data into the screen resolution defined by the standard based on the identification information. The image processing means performs image processing for suppressing the influence of resolution conversion on the moving image data when it is determined by the conversion determination means that the image has been converted to the screen resolution defined by the standard.

  The moving image data processing apparatus according to the present embodiment includes an input unit, a conversion unit, and a transmission unit. The input means inputs moving image data. The conversion unit converts the moving image data input by the input unit into a screen resolution defined by a standard for transmitting the moving image data to the display device. When transmitting the moving image data converted by the converting unit according to the standard, the transmitting unit transmits identification information indicating whether or not the resolution of the moving image data has been converted by the converting unit to the display device.

FIG. 1 is a diagram illustrating a system configuration according to the embodiment. FIG. 2 is a diagram illustrating a hardware configuration of the recording / playback apparatus and the television display apparatus according to the embodiment. FIG. 3 is a diagram illustrating a television display device 100 that displays moving image content provided from a conventional recording / playback device. FIG. 4 is a diagram illustrating a configuration realized in an SoC (System-on-a-chip) of the recording / playback apparatus according to the embodiment. FIG. 5 is a diagram illustrating a configuration realized by the SoC and the TV microcomputer in the television display device according to the embodiment. FIG. 6 is a diagram illustrating processing performed by the image processing unit according to the present embodiment when moving image data is up-converted from SD video to HD video in the recording / playback apparatus according to the first embodiment. FIG. 7 is a flowchart showing a processing procedure of the recording / playback apparatus according to the present embodiment. FIG. 8 is a flowchart showing a processing procedure of the television display device according to the present embodiment.

  In the embodiment described below, an example in which the moving image data processing device is applied to a recording / playback device and the display device is applied to a television display device will be described.

  FIG. 1 is a diagram showing a system configuration according to the present embodiment. As illustrated in FIG. 1, the present embodiment is a diagram illustrating an example that includes a television display device 100, a PC 110, and a recording / playback device 120.

  The PC 110 and the recording / playback apparatus 120 are equipped with a BD (Blu-ray Disc) Driver, and can play back BDs and DVDs. Then, the moving image data reproduced by the BD Driver of the PC 110 or the recording / reproducing device 120 is displayed on the television display device 100.

  In order to realize the display of the moving image data, the television display device 100, the recording / playback device 120, and the PC 110 according to the present embodiment use an interface (hereinafter referred to as an HDMI interface) compliant with the HDMI (High Definition Multimedia Interface) standard. It is connected. In this embodiment, as shown in FIG. 1, the devices are connected by HDMI cables 151 and 152. Thereby, a video signal (moving image data) can be transmitted and received between the television display device 100 and the recording / playback device 120 or the PC 110 via the HDMI interface.

  Further, in the HDMI standard, a CEC (Consumer Electronics Control) standard is further defined. In the present embodiment, the television display device 100, the recording / playback device 120, and the PC 110 all have an HDMI-CEC function. Thereby, control information and the like based on CEC can be transmitted and received via the HDMI interface between the television display device 100 and the recording / playback device 120 or the PC 110.

  FIG. 2 is a diagram illustrating a hardware configuration of the recording / playback device 120 and the television display device 100 according to the present embodiment. Hereinafter, a case where moving image data is transferred from the recording / playback device 120 to the television display device 100 will be described. However, a case where moving image data is transferred from the PC 110 to the television display device 100 is also omitted. To do.

  As shown in FIG. 2, the recording / playback apparatus 120 includes a BD (Blu-ray Disc) Driver 201, an HDMI_IC 202, and a SoC 203.

  When a BD or DVD is set, the BD Driver 201 reads moving image data recorded on the BD or DVD.

  The HDMI_IC 202 is a transmitter IC that can transfer moving image data in accordance with the HDMI standard. Also, the HDMI_IC 202 can transmit CEC-compliant control information and the like using the HDMI-CEC function.

  The SoC 203 is an integrated circuit in which various functions are aggregated in order to transmit the moving image data read by the BD Driver 201 using the HDMI_IC 202.

  The television display device 100 includes an HDMI_IC 251, a TV microcomputer 252, an SoC 253, a panel display unit 254, and a remote controller reception unit 255.

  The HDMI_IC 251 is a receiver IC that can receive moving image data in accordance with the HDMI standard. Also, the HDMI_IC 251 can receive CEC-compliant control information and the like by the HDMI-CEC function.

  The remote controller receiving unit 255 is a sensor that receives a control signal from a remote controller (not shown).

  The TV microcomputer 252 controls the operation for displaying the moving image data in addition to the control for reproducing the received moving image data and the operation based on the control signal received by the remote controller receiving unit 255. To do. Furthermore, the TV microcomputer 252 has a built-in function for decoding the control information received by the HDMI_IC 251.

  The SoC 253 is an integrated circuit (SoC: System-on-a-chip) that integrates various functions in order to perform image processing on moving image data. For example, the SoC 253 converts moving image data into an analog video signal that can be displayed on the panel display unit 254.

  The panel display unit 254 displays video based on the analog video signal input from the SoC 253.

  Incidentally, the resolution is different between the moving image data stored on the DVD and the moving image data stored on the BD. For this reason, when displaying the DVD moving image data on a television display device capable of displaying the BD moving image data, it is necessary to convert the resolution. FIG. 3 is a diagram illustrating a television display device 100 that displays moving image content provided from a conventional recording / playback device.

  (1) in FIG. 3 is a diagram illustrating an example in which moving image data of a DVD is displayed. The DVD stores moving image data of SD video in the DVD-VIDEO format. Then, the recording / reproducing apparatus recognizes the performance of the television display apparatus via the HDMI cable when transmitting the moving image data. The recording / playback device converts the moving image data into HD video in accordance with the performance of the television display device, and then transmits it to the television display device.

  For example, the recording / playback apparatus upconverts (converts resolution) the moving image data to 1920 × 1080 i / p in accordance with the resolution of the television display apparatus. Thereafter, the recording / playback apparatus transmits the up-converted moving image data to the television display apparatus 100 in accordance with the HDMI standard.

  On the other hand, (2) of FIG. 3 is a diagram showing an example in the case of displaying BD moving image data. The BD stores HD video data in the BD-VIDEO format. Therefore, the recording / playback apparatus can directly transmit the read video data 303 of the HD video to the television display device without degrading the video quality. Accordingly, the television display device can display the moving image data 304 of HD video.

  However, as in the example shown in (1) of FIG. 3, when the SD video moving image data 301 is simply expanded to generate the HD video moving image data 302, noise inherent in the moving image data is further expanded. The video will also be blurred with no sense of resolution. However, even if the television display device is the moving image data whose resolution has been converted, it cannot be determined whether the moving image data is an up-converted SD image because it is an HDMI HD image.

  For this reason, the television display device normally performs image processing suitable for HD video and displays it even when moving image data obtained by up-converting SD video is received. For this reason, in some cases, image processing that is not suitable for a video obtained by expanding an SD video has been performed.

  Therefore, in the present embodiment, the recording / playback apparatus 120 notifies the television display apparatus 100 whether the moving image data to be transmitted is stored on the DVD. The DVD-CEC function is used for this notification.

  In the HDMI-CEC function, various control information can be transmitted. For example, the HDMI-CEC function includes a common command that is used in common by a plurality of manufacturers and a unique command that can be set independently. By executing these commands, transmission of various control information can be realized. In the present embodiment, whether or not the original resolution of the moving image data is SD video (DVD-VIDEO format) is set for the unique setting by the unique command, and the setting is read on the television display device 100 side. It was decided.

  FIG. 4 is a diagram showing a configuration realized in the SoC 203 of the recording / playback apparatus 120. The configuration shown in FIG. 4 may be a software configuration realized by a CPU (not shown) in the SoC 203 reading a program, or may be realized as a hardware configuration.

  As shown in FIG. 4, the SoC 203 of the recording / playback apparatus 120 includes a read control unit 401, a determination unit 402, and a conversion unit 403.

  The read control unit 401 performs control for reading moving image data stored on a DVD or BD from the BD Driver 201. Thereby, the moving image data is input to the recording / reproducing apparatus 120.

  The determination unit 402 determines whether or not the resolution of the moving image data read by the read control unit 401 is an SD video resolution smaller than the screen resolution defined by the HDMI standard. In this embodiment, the HDMI standard is described, but any standard for transferring high-resolution video data may be used.

  The conversion unit 403 converts the moving image data read by the reading control unit 401 into a resolution defined by the HDMI standard in order to transmit the moving image data of HD video to the television display device 100. In this embodiment, when the determination unit 402 determines that the SD video is smaller than the resolution (HD video) defined in the HDMI standard, the moving image data is up-converted to HD video.

  Then, the HDMI_IC 202 transmits the moving image data to the HDMI_IC 251 of the television display device 100 using the HDMI standard. When the read content is SD video, the HDMI_IC 202 transmits the moving image data after being up-converted to HD video by the conversion unit 403 using the HDMI standard.

  When transmitting the moving image data, the HDMI_IC 202 transmits identification information corresponding to the resolution of the moving image data read by the read control unit 401 to the television display device 100. This identification information may be a flag indicating whether or not the moving image data is read from the DVD, or may be a flag indicating whether or not the moving image data is an SD video. Furthermore, a flag indicating whether or not the moving image data has been up-converted may be used. In this way, the transmission source television display device 100 may be identification information (flag) capable of recognizing whether or not the received moving image data has undergone resolution conversion. In this embodiment, the HDMI_IC 202 passes the identification information using an individual command based on the HDMI-CEC function. Thereby, the identification information is transmitted to the television display device 100.

  Therefore, in the conventional HDMI standard communication, it was not possible to recognize whether or not the received moving image data was up-converted, whereas the television display device 100 according to the present embodiment received the received HD. It is possible to recognize whether the video data of the video is up-converted.

  FIG. 5 is a diagram showing a configuration realized by the SoC 253 and the TV microcomputer 252 in the television display device 100.

  The HDMI_IC 251 illustrated in FIG. 5 receives moving image data having a screen resolution defined by the HDMI standard (High-Definition Multimedia Interface). Further, the HDMI_IC 251 receives identification information indicating whether or not resolution conversion has been performed using an HDMI-CEC (High-Definition Multimedia Interface-Consumer Electronics Control) function.

  As shown in FIG. 5, the TV microcomputer 252 includes a reading unit 501 and a conversion determination unit 502.

  The reading unit 501 reads the identification information received by the HDMI_IC 251.

  Based on the read identification information, the conversion determination unit 502 determines whether or not the recording / playback device 120 has been converted to the screen resolution defined by the HDMI standard. Depending on the determination result, the image processing by the image processing unit 510 is varied.

  As shown in FIG. 5, the SoC 253 includes an image processing unit 510. The image processing unit 510 includes a noise removal unit 511, an IP conversion unit 512, and an image sharpening processing unit 513. When the conversion determination unit 502 determines that the image data has been converted into resolution, the image processing unit 510 On the other hand, image processing is performed to suppress the influence of resolution conversion.

  The noise removal unit 511, the IP conversion unit 512, and the image sharpening processing unit 513 perform the following processing when the conversion determination unit 502 determines that the resolution has been converted.

  The noise removing unit 511 removes noise from the moving image data.

  When the moving image data is interlaced, the IP conversion unit 512 converts it into a progressive signal by IP conversion (IP conversion).

  The image sharpening processing unit 513 performs a sharpening process on the moving image data. At that time, the image sharpening processing unit 513 can improve a sense of high resolution by using a super resolution technique (Super Resolution).

  In this embodiment, when it is determined that the resolution has been converted, noise removal, IP conversion, and image sharpening processing are performed. However, it is not necessary to perform all processing, and any one or more of them are performed. It only needs to be processed.

  FIG. 6 is a diagram illustrating processing performed by the image processing unit 510 according to the present embodiment when moving image data is up-converted from SD video to HD video in the recording / playback device 120. The moving image data shown in FIG. 6A is an example of moving image data obtained by expanding the SD video of a DVD into an HD video. Since such moving image data is conspicuous in noise due to resolution conversion, the noise removing unit 511 performs NR (Noise Reduction) on the data data to remove the noise. As a result, the moving image data shown in FIG. 6B is obtained. Thereafter, although not shown in FIG. 6, when the moving image data is interlaced, it is converted into a progressive signal by IP conversion by the IP conversion unit 512.

  In the moving image data shown in FIG. 6B converted as described above, a sense of resolution is not so much generated. Therefore, the image sharpening processing unit 513 performs a sharpening process on the moving image data to obtain the moving image data shown in FIG. As a result, the image data blurred by the up-conversion becomes clear. As described above, the SoC 253 of the television display device 100 according to the present embodiment performs dedicated image quality processing for suppressing the influence caused by the up-conversion on the moving image data obtained by up-converting the SD video into the HD video. With this, high image quality is achieved.

  Note that the processing shown in FIG. 6 is not performed on moving image data read from a BD that has not been up-converted by the recording / playback apparatus 120.

  Next, processing performed by the recording / playback apparatus 120 will be described. FIG. 7 is a flowchart showing a processing procedure of the recording / playback apparatus 120 according to the present embodiment.

  First, the recording / reproducing apparatus 120 accepts reproduction of moving image data (step S701).

  Next, the read control unit 401 instructs the BD Driver 201 to start reproduction of moving image data (step S702). Then, the read control unit 401 controls the BD Driver 201 to read moving image data from the BD or DVD (Step S703).

  Next, the determination unit 402 determines whether or not the read moving image data is a DVD-VIDEO format, in other words, an SD video (step S704). When it is determined that the video is not an SD video, that is, an HD video (step S704: No), the process proceeds to step S706.

  On the other hand, when the determination unit 402 determines that the video is SD video (step S704: Yes), the conversion unit 403 up-converts the video data to HD video (resolution conversion) (step S705).

  Thereafter, the HDMI_IC 202 transmits the moving image data to the television display device 100 using HDMI (step S706).

  Next, using the HDMI-CEC function, the HDMI_IC 202 transmits identification information regarding the original resolution of the moving image data or identification information indicating whether or not the resolution has been converted to the television display device 100 (step S100). S707).

  By transmitting the identification information to the television display device 100, the television display device 100 can determine whether or not to perform image processing on the moving image data.

  FIG. 8 is a flowchart showing a processing procedure of the television display device 100 according to the present embodiment.

  First, the HDMI_IC 251 receives video data using HDMI (step S801).

  Next, the HDMI_IC 251 receives the identification information using the HDMI-CEC function (step S802).

  Thereafter, the conversion determination unit 502 of the TV microcomputer 252 determines whether or not the original moving image data is in the DVD-VIDEO format, in other words, SD video, based on the identification information notified via the HDMI-CEC ( Step S803). When it is determined that the video is not an SD video (step S803: No), the moving image data is output to the panel display unit 254, and the process proceeds to step S807.

  On the other hand, when the conversion determination unit 502 of the TV microcomputer 252 determines that the video is in the DVD-VIDEO format, that is, the SD video (step S803: Yes), the noise removal unit 511 applies noise to the received moving image data. Removal is performed (step S804).

  After that, when the moving image data is interlaced, the IP conversion unit 512 performs IP conversion and outputs a progressive signal (step S805).

  Then, the image sharpening processing unit 513 performs a sharpening process on the moving image data (step S806). Then, the moving image data subjected to the sharpening process is output to the panel display unit 254.

  Thereafter, the panel display unit 254 displays moving image data (step S807).

  In the present embodiment, an example in which noise removal, IP conversion, and sharpening processing are called when it is determined to be SD video has been described. However, the present invention is not limited to these processing, and high-resolution video data is used. On the other hand, the image processing may be any image processing for suppressing the influence of high resolution. Further, it may be combined with image processing for improving the image quality for display on the television display device 100.

  Even when moving image data up-converted from SD video to HD video is received by the above-described processing procedure, the television display device 100 can recognize that the video data is up-converted, and thus the up-conversion has occurred. Image processing for suppressing the influence can be performed. As a result, high image quality can be achieved.

  Although the embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 100 ... Television display apparatus, 110 ... PC, 120 ... Recording / reproducing apparatus, 151, 152 ... HDMI cable, 201 ... BD Driver, 202 ... HDMI_IC, 203 ... SoC, 251 ... HDMI_IC, 252 ... TV microcomputer, 253 ... SoC, 254 ... Panel display unit, 255 ... Remote controller reception unit, 401 ... Read control unit, 402 ... Determination unit, 403 ... Conversion unit, 501 ... Read unit, 502 ... Conversion determination unit, 510 ... Image processing unit, 511 ... Noise removal , 512... IP converter, 513... Image sharpening processor.

Claims (6)

Identification information indicating whether or not the resolution of the moving image data input to the moving image data processing device has been converted is received from the moving image data processing device together with the moving image data in accordance with a standard for transmitting moving image data. Receiving means;
Conversion determination means for determining whether or not the moving image data processing device has converted the moving image data into a screen resolution defined by the standard based on the identification information;
An image processing unit that performs image processing for suppressing the influence of resolution conversion on the moving image data when it is determined by the conversion determination unit that the image has been converted to the screen resolution defined by the standard;
A display device comprising: The receiving means receives the identification information in accordance with HDMI-CEC (High-Definition Multimedia Interface-Consumer Electronics Control) standard together with moving image data having a screen resolution defined by HDMI (High-Definition Multimedia Interface).
The display device according to claim 1. The conversion determination means determines, based on the identification information, whether or not the moving image data processing device has converted from SD video to a screen resolution defined by the standard,
When the image processing means determines that the SD video has been converted, the image processing means performs at least one of noise removal, IP conversion, and image sharpening processing on the moving image data.
The display device according to claim 2. An input means for inputting video data;
Conversion means for converting the moving image data input by the input means into a screen resolution defined by a standard for transmitting moving image data to a display device;
Transmitting means for transmitting, to the display device, identification information indicating whether or not the resolution of the moving image data has been converted by the converting unit when transmitting the moving image data converted by the converting unit according to the standard;
A moving image data processing apparatus. A determination unit that determines whether the resolution of the moving image data input by the input unit is smaller than the resolution of the screen defined by the standard;
The converting means converts the screen resolution for the moving image data when the determining means determines that the resolution is smaller than the screen resolution defined in the standard;
The moving image data processing apparatus according to claim 4. The determination means determines whether the moving image data input by the input means has an SD video resolution smaller than a screen resolution defined by HDMI (High-Definition Multimedia Interface),
The conversion means converts the resolution of the moving image data when the determination means determines that the resolution is SD video resolution,
The transmission means transmits the identification information indicating that the resolution of the moving image data when input by the input means is SD video to the display device with HDMI-CEC (High-Definition Multimedia Interface-Consumer Electronics). Control)
The moving image data processing apparatus according to claim 5.

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