JP2010258760A - Video display device, and operation method of video display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To overcome the disadvantage in the conventional art, such as, prolonged time for processing due to the steps of determining and controlling the intensity of individual blurring processes, or the like, by acquiring, from a decoder, respective data amounts of restored frame images, since the data amounts of the frame images are coded to be different for each sheet. <P>SOLUTION: There is provided a video display device, having a function of acquiring a transmission rate of a video image in place of a data amount of a frame image and controlling the intensity of NR processing, according to the transmission rate. More specifically, the video display device includes a video information acquiring section for acquiring coded video information; a decoding section for decoding the video information to create a frame video image; a transmission rate information acquiring section for acquiring transmission rate information of the video information; an NR processing section for applying NR processing to the frame video image for each frame; and a controlling section for controlling the NR processing intensity of the NR processing section based on the transmission rate information. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an image processing technique for effectively preventing block noise, mosquito noise, and the like generated when an encoded video is reproduced and displayed.

  Currently, video encoding processing is mainly encoding processing including irreversible compression, so that information thinned out at the time of decoding is reproduced on the video as block-like or mosquito-like distortion (noise). Therefore, television receivers and the like are equipped with a noise reduction processing function for making these noises inconspicuous in order to improve image quality. Specifically, for example, the peripheral pixel luminance value of the target pixel is averaged, and the average value is used as a luminance value of the target pixel, so-called smoothing processing is performed to suppress the edge component of the image and blur the image. Is not conspicuous.

  However, this “blurring process” also blurs the edge component of the subject at the same time, and the image may become a so-called “sleepy” image. Therefore, various techniques for adjusting the intensity of the “blurring process” have been disclosed. Specifically, since the distortion on the video is caused by information thinning out during the encoding process as described above, the larger the thinning amount, the larger the distortion amount at the time of decoding. Therefore, the amount of thinning is determined with reference to the data amount of the decoded and restored frame image, and the intensity of the blurring process is adjusted accordingly.

Japanese Patent Laid-Open No. 8-46966

  However, the above conventional techniques have the following problems. That is, the data amount of the frame image is normally encoded so as to differ for each sheet. For this reason, it is necessary to acquire the data amount of each restored frame image from the decoder and individually determine and control the intensity of the blurring process or the like, and there is a problem that the processing takes time.

  In order to solve the above-described problems, the present invention has a function of acquiring a video transmission rate instead of a frame image data amount and controlling the intensity of noise reduction processing such as blurring processing according to the transmission rate. A video display device is provided. Specifically, a video information acquisition unit that acquires encoded video information, a decoding unit that decodes the acquired video information to obtain a frame video, and a transmission rate information acquisition unit that acquires transmission rate information of the video information And a noise reduction processing unit that performs noise reduction processing on the frame image from the decoding unit in units of frames, and controls noise reduction processing strength of the noise reduction processing unit based on the transmission rate information acquired by the transmission rate information acquisition unit And a video display device having a control unit.

  According to the present invention configured as described above, noise reduction processing such as blurring processing can be performed without taking time, and block noise and mosquito noise can be made inconspicuous.

FIG. 6 is a diagram illustrating an example of functional blocks in the video display apparatus according to the first embodiment. The figure showing an example of the process table which the control part of the video display apparatus of Example 1 refers. 1 is a diagram illustrating an example of a hardware configuration in a video display apparatus according to Embodiment 1. FIG. 7 is a flowchart illustrating an example of a process flow in the video display apparatus according to the first embodiment. The figure showing an example of the functional block in the video display apparatus of Example 2. 7 is a flowchart illustrating an example of a process flow in the video display apparatus according to the second embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to these embodiments, and can be implemented in various modes without departing from the spirit of the present invention. In the first embodiment, claims 1, 2, 3, 4, and 6 will be mainly described. In the second embodiment, claim 5 will be mainly described.

Example 1
<Overview>
The video display apparatus according to the present embodiment has a function of acquiring the transmission rate of the video and controlling the intensity of blurring processing according to the transmission rate so that block noise and mosquito noise are not noticeable. It is characterized by.

<Functional configuration>
FIG. 1 is a diagram illustrating an example of functional blocks in the video display apparatus according to the present embodiment. Note that the “video display device” of the present embodiment may have a mechanism for displaying video externally, and includes, for example, various recorders / players in addition to a television device. The functional blocks of the video display device described below can be realized as hardware, software, or both hardware and software. Specifically, if a computer is used, a CPU, a main memory, a bus, or a secondary storage device (a hard disk, a non-volatile memory, a storage medium such as a CD or a DVD, a read drive for the medium, etc.), information Input devices used for input, printing equipment, display devices, other hardware components such as external peripheral devices, interfaces for external peripheral devices, communication interfaces, driver programs for controlling these hardware, Other examples include application programs and user interface applications.

  Then, by CPU processing according to the program developed on the main memory, the data input from the input device or other interface and held in the memory or hard disk is processed and stored, An instruction for controlling the software is generated. The present invention can be realized not only as a video display device but also as a method. A part of the invention can be configured as software. Furthermore, a software product used for causing a computer to execute such software and a recording medium in which the product is fixed to a recording medium are naturally included in the technical scope of the present invention (the same applies throughout the present specification). Is).

  As shown in FIG. 1, the “video display device” (0100) of this embodiment includes a “video information acquisition unit” (0101), a “decode unit” (0102), and a “transmission rate information acquisition unit”. ”(0103),“ Noise reduction processing unit ”(0104), and“ Control unit ”(0105).

  The “video information acquisition unit” (0101) has a function of acquiring encoded video information. For example, a receiving tuner and a demodulation circuit for digital broadcasting, and reading of encoded video information recorded on a recording medium are read. Examples include circuits. In addition, when acquiring encoded video information recorded on a recording medium, the video information acquisition unit acquires “recorded video acquisition means” that acquires video information recorded based on a user operation from the recording device (see FIG. (Not shown). Or you may have "media recording image | video acquisition means" (not shown) which acquires the image | video information recorded on the recording medium.

  The “decoding unit” (0102) has a function of decoding the acquired video information into a frame video, and includes a CPU (central processing unit), a main memory, a decoding program, or a decoder circuit in which these are integrated into one chip. Can be realized. Here, the encoded video information is generally irreversible encoding accompanied with compression (decimation of information), and therefore, the frame image decompressed and restored by the decoding process has no effect on the video such as block noise. Distortion has occurred. The distortion amount depends on the thinning amount of information. In view of this, the video display apparatus according to the present embodiment is characterized in that a thinning amount of information is acquired with the following configuration, and the intensity of noise reduction processing is controlled according to the thinning amount.

  The “transmission rate information acquisition unit” (0103) has a function of acquiring transmission rate information of video information and can be realized by, for example, a CPU, a main memory, a transmission rate information acquisition program, and the like. Specifically, the PS (program stream) packet, which is video information, includes information indicating a “quantization parameter (Quantizer Scale)”. The “quantization parameter” is a value used as a divisor by the encoder during quantization, which is one process of the encoding process. That is, the larger the quantization parameter, the larger the amount of information that is thinned out. Therefore, the transmission rate information acquisition unit includes a “quantization parameter acquisition unit” (not shown) and acquires a quantization parameter as transmission rate information.

  Alternatively, if the video information is a broadcast program recorded on a recording medium, the transmission rate information may be acquired as follows. That is, for example, an HDD / DVD recorder or the like is configured such that when a broadcast program is encoded and recorded, the recording quality can be designated to adjust the remaining capacity of the recording medium. For example, in the case of “LP mode” or “EP mode”, it is possible to record with a reduced recording capacity instead of setting the above-mentioned quantization parameter large and reducing the image quality. In the “XP mode”, the quantization parameter is set to a small value, and instead of requiring a storage capacity, the image quality can be secured and recorded. In view of this, an HDD / DVD recorder or the like is configured to record video quality information included in video information when video information is encoded and recorded. The transmission rate information acquisition unit includes “recording quality information acquisition means” (not shown), and the recording quality information designated by the user operation as transmission rate information is included in, for example, the High Definition Multimedia Interface (HDMI) standard. The information is acquired from an externally connected device (recorder or player) by CEC (Consumer Electronics Control) information.

  In addition, if the video information is recorded on a portable medium such as a DVD or a next-generation DVD, the transmission rate information may be acquired as follows. In other words, a so-called “ROM (read-only memory)” medium is likely to record a high-quality commercial work with the transmission rate adjusted accordingly. On the other hand, in the case of other recording media such as “R”, “RE”, and “RW”, there is a high possibility that home video and program recorded video with lower image quality than commercial ones are recorded. Therefore, the transmission rate information acquisition unit has “media type information acquisition means” (not shown), and the transmission rate information includes recording media type information such as “ROM” and “R”, for example, CEC information as an externally connected device. And so on. Further, the above quantization parameter, recording quality information, media type information, etc. may be combined and processed as transmission rate information.

  By referring to these transmission rate information, the amount of information thinned out in the encoded video information can be determined to some extent as described above.

  The “Noise Reduction Processing Unit” (0104) has a function of performing noise reduction processing on a frame basis from the decoding unit in units of frames. For example, a CPU, a main memory, a noise reduction program, and a high image quality obtained by integrating them into one chip. It can be realized with a circuit. Note that the noise processed here basically refers to the distortion on the video caused by the thinning of information as described above. Therefore, the noise reduction processing is not 2D / 3D noise reduction processing, for example, For example, “blur processing”. This “blurring process” averages the peripheral pixel luminance values of the target pixel, performs a so-called smoothing process using the average value as the luminance value of the target pixel, and suppresses the edge component of the image to blur the image. A process that makes distortion inconspicuous.

  In addition, a low-pass filter can be used as the noise reduction process. Specifically, when the cut-off frequency of the low-pass filter is lowered, the contour on the video is blurred. That is, the same effect as the “blurring process” is produced. Alternatively, if the “contour emphasis (enhancement)” process is applied excessively, block noise and mosquito noise will be emphasized more than necessary. Therefore, the noise reduction process includes a process for making the noise inconspicuous more than necessary by setting a high threshold for determining whether or not to perform the edge enhancement process.

  The “control unit” (0105) has a function of controlling the noise reduction processing intensity of the noise reduction processing unit based on the transmission rate information acquired by the transmission rate information acquisition unit. For example, a CPU, a main memory, a control program, etc. Can be realized. Specifically, if the noise reduction process is “blurring process”, for example, a threshold value for determining whether or not to perform the blurring process is controlled as the processing intensity. If the transmission rate information indicates that the information amount of the encoded video information is greatly thinned out, for example, the threshold value is set low according to the processing table as shown in FIG. It ’s like putting it on. In addition to the processing table, the control strength g may be calculated using a function such as g = f (x) where the transmission rate information is a variable x. In this way, in the video display apparatus according to the present embodiment, when it is determined that the amount of information thinning out of the video information is large according to the transmission rate information, the noise reduction process is strongly controlled (the edge enhancement process is weakly controlled). ) To make block noise, mosquito noise, etc. inconspicuous.

<Hardware configuration>
FIG. 3 is a diagram illustrating an example of a hardware configuration in the video display apparatus according to the present embodiment. As shown in this figure, the video display device is a transmission rate information acquisition unit and a control unit, and executes “CPU” (0301), “main memory” (0302), and other various arithmetic processes. It has. Also, a “flash memory” (0303) that holds a control processing table, a “digital tuner” (0304) that is a video information acquisition unit, a “decoder” (0305) that is a decoding unit, and a noise reduction processing unit. A “high image quality circuit” (0306) is also provided. Although not shown, a built-in “recording media playback drive” or an “HDMI connection circuit” for connecting to an external recording media playback device may also be provided. They are connected to each other via a data communication path such as a “system bus” to transmit / receive information and process information.

  A program is read out to the “main memory”, and the “CPU” refers to the read out program and executes various arithmetic processes according to the procedure indicated by the program. In addition, a plurality of addresses are assigned to each of the “main memory” and “flash memory”, and in the calculation processing of the “CPU”, the addresses are specified and accessed to store the data. It is possible to perform arithmetic processing using.

  Here, the broadcast signal wave received by the “digital tuner” is demodulated to obtain encoded video information. Alternatively, encoded video information is acquired via a built-in “recording medium playback drive” or “HDMI connection circuit”. Then, the “CPU” interprets the transmission frame information acquisition program, acquires the quantization parameter from the PS packet of the acquired video information, for example, according to the interpretation result, and stores it as the transmission rate information at the address 1 of the “main memory”. Alternatively, recording quality information indicating “LP mode” or media such as “DVD-ROM” from an external recording media playback device connected via HDMI via a built-in “recording media playback drive” or “HDMI connection circuit” The type information is acquired and stored in the address 1 of the “main memory” as transmission rate information.

  Subsequently, the “CPU” interprets the control program, and reads a processing table as shown in FIG. 2 held in, for example, the “flash memory” to the address 2 of the “main memory” according to the interpretation result. Then, the table is searched by using the transmission rate information stored in the address 1 by the logical operation processing of the “CPU” as a key, and the strength specified as the search result is stored in the address 3 of the “main memory”. Alternatively, the function g = f (x) held in the “flash memory” is read, the intensity g is calculated by the calculation process of the “CPU” using the transmission rate information x, and stored in the address 3 of the “main memory”. To do. Then, the “CPU” outputs the control intensity value stored at the address 3 of the “main memory” to the “image quality improving circuit”.

  Then, the “high image quality circuit” sets a threshold value based on the received intensity value, for example, whether to perform “blur processing” or whether to perform contour enhancement processing. Alternatively, the cut-off frequency in the low-pass filter is set low. The frame image decoded and generated by the “decoder” is subjected to blurring processing, contour enhancement processing, or output of the frame image through a low-pass filter, thereby reducing the block noise and mosquito noise. It can be displayed on a “display” (not shown).

<Process flow>
FIG. 4 is a flowchart illustrating an example of a processing flow in the video display apparatus according to the present embodiment. The steps shown below may be steps executed by each hardware configuration of the computer as described above, or may be processing steps that constitute a program for controlling the computer recorded on a medium. I do not care. As shown in this figure, first, encoded video information is acquired via, for example, a digital tuner, an HDMI connection circuit, a built-in recording medium playback drive, or the like (step S0401). Then, the acquired video information is decoded to generate a frame image (step S0402). Also, for example, transmission rate information such as a quantization parameter included in a PS packet of video information, recording quality information acquired as CEC information, and media type information is acquired (step S0403). Subsequently, based on the transmission rate information, for example, a processing table and a function g = f (x) are referred to determine the strength for noise reduction processing (step S0404). For example, noise reduction processing such as blur processing, processing that does not perform contour enhancement, and frequency cutoff processing using a low-pass filter is executed (step S0405). Then, an image in which block noise, mosquito noise, etc. are made inconspicuous in this way is displayed.

<Brief description of effect>
As described above, according to the transmission rate information, the video display apparatus according to the present embodiment can execute noise reduction processing such as blurring processing without taking time, and block noise and mosquito noise can be made inconspicuous.

<< Example 2 >>
<Overview>
In the video display device according to the above embodiment, once transmission rate information is acquired for one video information, an appropriate noise reduction process can be performed without performing transmission rate acquisition processing and intensity reduction processing in noise reduction processing thereafter. It can be performed. Therefore, the video display apparatus according to the present embodiment is characterized in that the acquisition timing of transmission rate information is set as the acquisition timing of other video information determined by, for example, channel switching.

<Functional configuration>
FIG. 5 is a diagram illustrating an example of functional blocks in the video display apparatus according to the present embodiment. As shown in this figure, the “video display device” (0500) of the present embodiment is based on the first embodiment, and “video information acquisition unit” (0501), “decode unit” (0502), and “transmission”. A "rate information acquisition unit" (0503), a "noise reduction processing unit" (0504), and a "control unit" (0505). Also, it may have “quantization parameter acquisition means”, “recorded video acquisition means”, “recording quality information acquisition means”, “media recording video acquisition means”, “media type information acquisition means”, etc. good. Since these constituent elements have already been described in the above embodiment, the description thereof will be omitted. The video display device according to the present embodiment is characterized in that it further includes a “trigger reception unit” (0506) and the transmission rate information acquisition unit includes a “trigger acquisition unit” (0507).

  The “trigger reception unit” (0506) has a function of receiving a transmission rate information acquisition trigger in the transmission rate information acquisition unit, and can be realized by a CPU, a main memory, a trigger reception program, or the like. Specifically, if the video information is a television broadcast, another video information is acquired when the channel is switched. Therefore, reception of a channel switching operation signal by a remote control operation or the like is received as a transmission rate information acquisition trigger. Or even if it is the same channel, if the program is changed, it will naturally be different video information with different quantization parameters. Therefore, for example, the end of the previous program and the start of the subsequent program are determined by referring to the electronic program guide using the current time information and the current received channel information acquired from the built-in clock or received broadcast wave as keys. And the structure which receives the determination result as an acquisition trigger is also mentioned. In addition, when there are a plurality of video input terminals, acquisition of different video information is started by switching the input terminals. Therefore, the input terminal switching operation signal may be received as a transmission rate information acquisition trigger. In this embodiment, in response to reception of such an acquisition trigger, transmission rate information is acquired once by “trigger acquisition means” (0507).

<Process flow>
FIG. 6 is a diagram illustrating an example of a processing flow in the video display apparatus according to the present embodiment. As shown in this figure, first, encoded video information is acquired via, for example, a digital tuner, an HDMI connection circuit, a built-in recording medium playback drive, or the like (step S0601). Then, the acquired video information is decoded to generate a frame image (step S0602). Also, for example, transmission rate information such as a quantization parameter included in a PS packet of video information, recording quality information acquired as CEC information, and media type information is acquired (step S0603). Subsequently, based on the transmission rate information, for example, the intensity for noise reduction processing is determined with reference to a processing table, function g = f (x), and the like (step S0604), and the frame image is determined with the intensity. For example, noise reduction processing such as blur processing and frequency cut-off processing using a low-pass filter is executed (step S0605). Then, noise reduction processing is performed uniformly with the determined intensity, and an image in which block noise and mosquito noise are appropriately inconspicuous is displayed.

  After that, for example, when an acquisition trigger such as a channel switching signal is received (step S0606), the processing from step S0601 is repeated again to newly acquire transmission rate information, determine noise reduction strength, and perform noise reduction processing. It is.

<Brief description of effect>
As described above, with the noise reduction device of this embodiment, transmission rate information acquisition processing and noise reduction intensity determination processing can be made uniform with respect to one piece of video information. Therefore, it is possible to reduce the arithmetic processing load related to the above processing.

0100 Video display device 0101 Video information acquisition unit 0102 Decoding unit 0103 Transmission rate information acquisition unit 0104 Noise reduction processing unit 0105 Control unit

Claims (6)

A video information acquisition unit for acquiring encoded video information;
A decoding unit that decodes the acquired video information to form a frame video;
A transmission rate information acquisition unit for acquiring transmission rate information of video information;
A noise reduction processing unit that performs noise reduction processing on a frame-by-frame basis from the decoding unit;
A control unit that controls the noise reduction processing intensity of the noise reduction processing unit based on the transmission rate information acquired by the transmission rate information acquisition unit;
A video display device.   The video display apparatus according to claim 1, wherein the transmission rate information acquisition unit includes a quantization parameter acquisition unit that acquires a quantization parameter as transmission rate information. The video information acquisition unit includes recorded video acquisition means for acquiring video information recorded based on a user operation from a recording device,
The video display device according to claim 1, wherein the transmission rate information acquisition unit includes recording quality information acquisition means for acquiring recording quality information designated by the user operation as transmission rate information. The video information acquisition unit includes media recording video acquisition means for acquiring video information recorded on a recording medium,
4. The video display device according to claim 1, wherein the transmission rate information acquisition unit includes media type information acquisition means for acquiring type information of the recording medium as transmission rate information. 5. A trigger receiving unit for receiving a transmission rate information acquisition trigger in the transmission rate information acquiring unit;
The video display device according to claim 1, wherein the transmission rate information acquisition unit includes a trigger acquisition unit that acquires transmission rate information in response to reception of the acquisition trigger. A video information acquisition step of acquiring encoded video information;
A decoding step of decoding the acquired video information into a frame video;
A transmission rate information acquisition step of acquiring transmission rate information of video information;
A noise reduction processing step for performing noise reduction processing on a frame basis from the decoding unit in units of frames;
A control step for controlling the noise reduction processing intensity of the noise reduction processing step based on the transmission rate information acquired in the transmission rate information acquisition step;
A method of operating a video display device that causes a computer to execute the above.

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