JP5237915B2 - Recording / reproducing device, display device - Google Patents

Description

  The present invention relates to a recording / reproducing device and a display device, and in particular, a recording / reproducing device connected to a display device that variably controls the amount of light emitted from a backlight that illuminates a display panel based on a change in average luminance value of a video frame, and the recording The present invention relates to a display device provided with a playback device.

Conventionally, various liquid crystal display devices that variably control the light emission amount (also referred to as light emission luminance) of a backlight that illuminates a liquid crystal panel based on a change in an average luminance value (APL: Average Picture Level) of a video frame have been proposed.
For example, in Patent Document 1, in order to improve contrast, control is performed to increase the amount of backlight emission when displaying a bright image, and to decrease the amount of backlight emission when displaying a dark image. A liquid crystal display device is disclosed.

JP 2009-58718 A

  In the liquid crystal display device as described above, the backlight emission amount changes according to the change in the average luminance value of the continuous video frames, so that the average luminance value of the continuous video frames is, for example, high → low → When it changes with high (lightness and darkness change in a short time), the amount of backlight emission changes from high to low to high in a short time. As a result, when such a video frame is displayed, the screen flickers (deterioration of the displayed video), and the viewer feels uncomfortable.

  In video frame display, it is difficult to control the backlight emission amount following the change without delaying the change in the average luminance value of the video frame. The reason for such a delay is, for example, that it takes time to calculate the average luminance value of the video frame. Therefore, since the backlight emission amount is controlled with a delay from the change in the average luminance value of the video frame, the viewer feels uncomfortable. In particular, as described above, when the brightness changes in a short time, the screen flickers more.

  In addition, when the backlight emission amount is controlled by referring not only to the average luminance value of the video frame but also to the maximum luminance value of the pixels in the video frame, for example, dark video (video frame with a low average luminance value) When a suddenly lit (flashing) light (video frame with a low average luminance value but a high maximum luminance value) is displayed on this video, the backlight emits in conjunction with the change in the maximum luminance value of the video frame. Since the amount changes, the entire video is suddenly displayed (the display video is deteriorated), and the viewer feels uncomfortable.

  By the way, at present, a recording / reproducing apparatus including a large-capacity recording apparatus in a liquid crystal display device is connected using various connection means such as HDMI. In addition, a liquid crystal display device (integrated video display recording / reproducing device) on which such a recording / reproducing device is mounted has been proposed. The viewer not only watches the television video in real time but also frequently watches the video (data) recorded in the recording device.

  The present invention has been made in view of such circumstances, and uses a recording / reproducing apparatus connected to a display device that variably controls the amount of light emitted from a backlight that illuminates a display panel based on a change in the average luminance value of a video frame. Accordingly, it is an object to prevent display image deterioration associated with variable control of the backlight emission amount.

The first technical means includes: a recording unit that records video data; an average luminance value calculating unit that calculates an average luminance value of each video frame of the video data read from the recording unit; and the average luminance value calculating unit A recording process control unit that records the average luminance value of each video frame in the recording unit in association with each video frame, and a predetermined number of changes in the average luminance value calculated by the average luminance value calculation unit. A trend detection unit that detects each video frame, and further generates backlight emission amount control information of the display device corresponding to the change tendency of the average luminance value for each predetermined number of video frames detected by the trend detection unit. A light emission amount control information generating unit for recording in the recording unit in correspondence with the first video frame of a predetermined number of video frames,
In the reproducing of the video data, the light emission amount control information is supplied to a display device together with the supply of the video frame.

  According to a second technical means, in the first technical means, the light emission amount control information generating unit determines the average luminance value when the average luminance value for each of the predetermined number of video frames continues to increase or decrease for a predetermined time. Generating control information for controlling to increase or decrease the amount of backlight emission based on the change, and when the change of the average luminance value for each predetermined number of video frames returns to the average luminance value before the change within a predetermined time, the average Control information that does not control the amount of light emitted from the backlight regardless of a change in luminance value is generated.

  According to a third technical means, in the first or second technical means, the light emission amount control information generation unit records an average luminance value change tendency and light emission amount control information for each predetermined number of video frames. A control information table is provided, and the light emission amount control information corresponding to the change tendency of the average luminance value for each of the predetermined number of video frames is generated with reference to the control information table.

  According to a fourth technical means, in any one of the first to third technical means, the average luminance value calculation unit calculates an average luminance value and a maximum luminance value of each video frame of the video data read from the recording unit. The recording processing control unit records the average luminance value and the maximum luminance value of each video frame calculated by the average luminance value calculating unit in the recording unit in association with each video frame, and the tendency detecting unit The average luminance value and the maximum luminance value calculated by the average luminance value calculating unit are continuously detected for each predetermined number of video frames, and the light emission amount control information generating unit is The backlight emission amount control information of the display device corresponding to the change tendency of the average luminance value and the maximum luminance value for each of the predetermined number of detected video frames is generated, and corresponding to the first video frame of the predetermined number of video frames Recording section It is characterized in that recording.

  According to a fifth technical means, in the fourth technical means, the light emission amount control information generation unit records a change tendency of the average luminance value and the maximum luminance value and the light emission amount control information for each of the predetermined number of video frames. A light emission amount control information corresponding to a change tendency of an average luminance value and a maximum luminance value for each of the predetermined number of video frames, with reference to the control information table. is there.

  A sixth technical means includes the recording / reproducing apparatus according to any one of the first to fifth technical means, and emits light from a backlight that illuminates the display panel based on backlight emission amount control information supplied from the recording / reproducing apparatus. The display device is characterized in that the amount is controlled.

  According to the present invention, a change in average luminance value of successive video frames using a recording / playback device connected to a display device that variably controls the amount of light emitted from a backlight that illuminates the display panel based on a change in average luminance value of video frames Such a tendency is detected, and the backlight emission amount is variably controlled so as to correspond to the change tendency. Therefore, it is possible to prevent display image deterioration. Therefore, the viewer does not feel uncomfortable even when viewing the video.

It is a functional block diagram of the video display recording / reproducing apparatus provided with the recording / reproducing apparatus which concerns on this invention. It is a figure explaining the recording process of a video frame and an average luminance value. It is a figure explaining control of the amount of light emission of backlight. It is a figure which shows an example of the light emission amount control information table. It is a graph for demonstrating the conventional backlight emission amount control and the backlight emission amount control of this invention. It is another functional block diagram of the video display recording / reproducing apparatus provided with the recording / reproducing apparatus which concerns on this invention. It is another figure explaining control of the light emission amount of a backlight. It is another figure which shows the light emission amount control information table. It is another graph for demonstrating the conventional backlight emission amount control and the backlight emission amount control of this invention.

Example 1
FIG. 1 is a functional block diagram of a video display recording / reproducing apparatus including a recording / reproducing apparatus according to the present invention. The video display recording / reproducing apparatus 1 includes a video display apparatus 2 and a recording / reproducing apparatus 3.
The video display device 2 includes a tuner 11, a decoder 12, a video processing unit 13, an electrode drive control unit 14, a liquid crystal panel (display panel) 15, an average luminance value calculation unit 16, a backlight emission amount control unit 17, and a backlight 18. Composed.
The recording / reproducing apparatus 3 includes an average luminance value calculation unit 16, a recording processing control unit 19, a recording unit 20, a reproduction processing control unit 21, a tendency detection unit 22, a backlight emission amount control information generation unit (hereinafter referred to as emission amount control information generation). 23) and a table storage unit 24. The average luminance value calculation unit 16 is a functional block common to the video display device 2 and the recording / reproducing device 3.

The tuner 11 selects a desired channel from a digital broadcast signal received by an antenna (not shown), and outputs a digital received signal of the selected channel to the decoder 12.
The decoder 12 decodes the encoded digital reception signal, generates a video signal, and outputs the video signal to the video processing unit 13.

  The video processing unit 13 performs image quality correction such as γ correction and color correction on the video signal input from the decoder 12. When the video data is not recorded (recorded), it is output to the average luminance value calculation unit 16 and the electrode drive control unit 14. When recording video data, the video data is output to the recording processing control unit 19.

  The electrode drive control unit 14 drives the scanning electrodes and data electrodes of the liquid crystal panel 15 based on the video data input from the video processing unit 13 or the reproduction processing control unit 21. The liquid crystal panel 15 is an active matrix liquid crystal panel having a liquid crystal layer and electrodes for applying scanning signals and data signals to the liquid crystal layer. In addition to the liquid crystal panel, an organic EL panel or the like can be used.

  The average luminance value calculation unit 16 extracts a video frame of the video data input from the video processing unit 13 and calculates an average luminance value of the extracted video frame. Also, the average luminance value of each video frame of the video data 20a read from the recording unit 20 is calculated.

  When the video data is not recorded, the calculated average luminance value is output to the backlight emission amount control unit 17. Based on the average luminance value input from the average luminance value calculation unit 16, the backlight emission amount control unit 17 generates a backlight control signal for controlling the light emission amount (luminance value) of the light emitting elements of the backlight 18. Output to the light 18. Each light emitting element of the backlight 18 emits light corresponding to a control signal from the backlight light emission amount control unit 17.

  The recording processing control unit 19 controls processing for recording the video data (video frame) input from the video processing unit 13 in the recording unit 20. In addition, a process of recording each video frame of the video data in association with the average luminance value of each video frame calculated by the average luminance value calculation unit 16 is controlled.

  The recording unit 20 records the video data input from the recording processing control unit 19 and the average luminance value of the video frame of the video data as video data 20a and luminance data 20b, respectively. This recording will be described in detail with reference to FIG.

  Further, the recording unit 20 records the backlight emission amount control information (hereinafter referred to as emission amount control information) 20c generated by the emission amount control information generation unit 23. The light emission amount control information 20c is output (supplied) together with the luminance data 20b to the backlight light emission amount control unit 17 when reproducing the video data of the recording unit 20, and the backlight is based on the luminance data 20b and the light emission amount control information 20c. Light emission amount control is performed.

  The reproduction processing control unit 21 controls processing for reproducing the video data 20a recorded in the recording unit 20. Here, the video data 20a is output to the electrode drive control unit 14, and the process of outputting the luminance data 20b and the light emission amount control information 20c to the backlight light emission amount control unit 17 is controlled.

  The tendency detection unit 22 continuously detects the change tendency of the average luminance value of the video frames of the video data 20a for each predetermined number of video frames.

  The light emission amount control information generation unit 23 generates information for controlling the backlight light emission amount of the backlight 18 corresponding to the change tendency of the average luminance value for each predetermined number of video frames detected by the tendency detection unit 22. The number of video frames is recorded in the recording unit 20 in correspondence with the first video frame.

Hereinafter, detection of the change tendency of the average luminance value, generation of light emission amount control information, and backlight control based on the light emission amount control information will be described in detail.
(Detection of change in average luminance value)
Before the trend detection unit 22 detects the change tendency of the average luminance value of the video frame continuously for every predetermined number of video frames, the video frame of the video data input from the video processing unit 13 and the average luminance value calculation It is assumed that the average luminance value of the video frame calculated by the unit 16 is recorded in association with it.

FIG. 2 is a diagram for explaining the recording process. As shown, in response to a video frame of the video data 20a of the recording section 20 _(f 1 ~f _n), the average luminance value of the video frame _{(f 1 ~f n) (A} 1 ~A n) is recorded The

FIG. 3 is a diagram illustrating a change tendency of the average luminance value.
FIG. 3A is a diagram schematically showing a state in which a video frame and an average luminance value of the video frame are recorded in association with each other as shown in FIG. For illustration, in the video consecutive frames, the video frames f _{a1 ~} video frame f _an, which is a predetermined number of video frames as the video frames belonging to the group A, belonging to the video frame f _{b1 ~} video frame f _bn in group B It is a video frame. The number of video frames (predetermined number) belonging to the group can be arbitrarily determined.

  3B and 3C are diagrams illustrating the change tendency of the average luminance value of consecutive video frames in group A, where the vertical axis indicates the luminance value and the horizontal axis indicates time.

Tendency detection unit 22 is detected for each video frame of a predetermined number continuously change trend in average luminance value, wherein the video frame of the predetermined number and the video frame f _{a1 ~} video frame f _an, Group A To do. The tendency detection unit 22 detects a change tendency of the average luminance value of the continuous video frames from the difference information of the average luminance values of adjacent video frames in the group A that is the detection target of the change tendency.

(Generation of light emission control information)
When the tendency detection unit 22 detects that the average luminance value for each predetermined number of video frames continues to decrease for a predetermined time as shown in FIG. 3B, the light emission amount control information generation unit 23 calculates the average luminance. Light emission amount control information for performing control to reduce the light emission amount of the backlight based on the change in value is generated. Note that if the average luminance value for each predetermined number of video frames continues to increase for a predetermined time, light emission amount control information for performing control to increase the backlight light emission amount based on the change in the average luminance value is generated.

  Further, as shown in FIG. 3C, when the trend detection unit 22 detects that the change in the average luminance value for each predetermined number of video frames returns to the average luminance value before the change within a predetermined time, the light emission amount The control information generation unit 23 generates light emission amount control information that does not control the backlight light emission amount regardless of changes in the average luminance value. The predetermined time can be arbitrarily determined.

Specifically, the light emission amount control information generation unit 23 generates light emission amount control information while referring to the light emission amount control information table 24 a stored in the table storage unit 24.
FIG. 4 is a diagram illustrating an example of the light emission amount control information table 24a.
In the initial condition column, an initial condition necessary for executing a process of detecting whether or not the average luminance value of the first frame in a continuous video frame to be detected as a change tendency is equal to or higher than a predetermined luminance value is recorded. Yes.
In FIG. 4, the average luminance value = high is recorded in the upper part of the initial condition column, and the average luminance value = low is recorded in the lower part.
In the trend number column, change trend numbers are recorded in order from the top of the table.

  In the average luminance value change tendency column, the type (pattern) of the change tendency of the average luminance value of consecutive video frames is recorded. For example, in the case of tendency 1, a change tendency is recorded in which the average luminance value of successive video frames decreases with time, and this luminance value change continues for a while (first predetermined time). The first predetermined time can be arbitrarily determined.

  In the backlight emission amount control information column, backlight emission amount control information corresponding to the change tendency in the average luminance value change tendency column is recorded. In the example of the trend 1, it is recorded that the control for reducing the backlight emission amount is performed as the average luminance value of successive video frames decreases with time.

  Information recorded in each column of the table may be added / deleted.

The light emission amount control information generation unit 23 corresponds to the detected change tendency of the average luminance value from the eight types of average luminance value change trends recorded in the average luminance value change tendency column of the light emission amount control information table of FIG. The average luminance value change tendency to be extracted is extracted. Further, light emission amount control information corresponding to this average luminance value change tendency is extracted (generated) from the light emission amount control information recorded in the backlight light emission amount control information column of the table of FIG. _Is associated with the first video frame f _a1 of group A and recorded as the light emission amount control information 20c.

As shown in FIG. 3B, it is assumed that the average luminance value of consecutive video frames in group A changes. At this time, the trend detection unit 22 detects whether or not the average luminance value of the first video frame _fa1 in the group A is equal to or greater than a predetermined luminance value Th (see the initial condition column in FIG. 4). In this case, it is not less than the predetermined luminance value Th. Next, it is detected that the average luminance value of the video frames in group A decreases with time, and that this luminance value change continues for a while.

  The luminance value change tendency is “average luminance value = high” recorded in the initial condition column of the table of FIG. 4 and “decreases → continues for a while” (trend 1) recorded in the average luminance value change tendency column. Therefore, the light emission amount control information generation unit 23 sets the backlight light emission amount, which is light emission amount control information corresponding to this average luminance value change tendency, from the light emission amount control information recorded in the light emission amount control information column. Extract “Reduce”. Then, light emission amount control information including information for performing control for reducing the backlight light emission amount corresponding to the change in the luminance value is generated and recorded in the recording unit 20.

As shown in FIG. 3C, when the average luminance value of the continuous video frames in the group A changes, the tendency detection unit 22 determines that the average luminance value of the first video frame _fa1 in the group A is equal to or greater than the predetermined luminance value Th. Whether or not is detected. In this case, it is not less than the predetermined luminance value Th. Next, it is detected that the average luminance value of the video frames in group A decreases and increases (second predetermined time) immediately thereafter (change in the average luminance value returns to the average luminance value before the change within the predetermined time). The second predetermined time can be arbitrarily determined.

  This luminance value change tendency is “average brightness value = high” recorded in the initial condition column of the table of FIG. 4 and “decreases → immediately increases” (trend 2) recorded in the average luminance value change tendency column. Therefore, the light emission amount control information generation unit 23 calculates the backlight light emission amount that is the light amount control information corresponding to this average luminance value change tendency from the light amount control information recorded in the light amount control information column. Extract “do not reduce”.

  In this way, when the average luminance value of the video frame decreases and immediately increases, light emission amount control information including information that does not perform control to reduce the backlight light emission amount corresponding to the decrease in the average luminance value of the video frame is generated, Records in the recording unit 20.

The generation and recording processing of the light emission amount control information is executed for the video frames f _b1 to f _bn belonging to the group B next to the group A, and also for all the video frames of the video data 20a.

(Backlight control processing based on light emission control information)
Thereafter, when an instruction to reproduce the video data 20a of the recording unit 20 is received from the viewer via a remote controller or the like, the reproduction processing control unit 21 outputs the video data 20a to the electrode drive control unit 14 and also the video data 20a. The average luminance value (luminance data 20b) of the video frames and the light emission amount control information 20c are output to the backlight light emission amount control unit 17. The backlight light emission amount control unit 17 controls the light emission amount of the backlight 18 based on the luminance data 20b and the light emission amount control information 20c input from the reproduction processing control unit 21. That is, the light emission amount of the backlight 18 is controlled based on the average luminance value and the light emission amount control information recorded corresponding to the video frame of the video data.

Described in FIG. 3 (B), the case of displaying the video frame f _{a1 ~} video frame f _an, in the group A to the liquid crystal panel 15, light emission amount of the backlight 18, as described above, in response to the luminance value change Will be reduced. Further, as described in FIG. 3 (C), the case of displaying the video frame f _{a1 ~} video frame f _an, in the group A to the liquid crystal panel 15, light emission amount of the backlight 18, as described above, the average luminance of the image frame It does not decrease in response to a decrease in value.

Since the amount of light emitted from the backlight is controlled based on the average luminance value of the already recorded video frame in this way, it is not necessary to calculate the average luminance value of the video frame in real time when displaying the video. Therefore, it is possible to control the backlight emission amount accurately following the change in the average luminance value of the video frame.
In addition, since the backlight emission amount control is performed by pre-reading the change in the average luminance value of the video frame, the occurrence of screen flickering can be suppressed.

  5A and 5B are graphs for explaining the conventional backlight emission amount control and the backlight emission amount control of the present invention. The vertical axis represents the backlight emission amount (luminance value), and FIG. The luminance value of the video frame is shown, and the horizontal axis shows time.

  The broken lines in FIGS. 5A and 5B indicate the change in the average luminance value of the video frame, the alternate long and short dash line indicates the change in the backlight emission amount by the conventional backlight emission amount control, and the thick line indicates the present invention. The change of the light emission amount of the backlight by the light emission amount control is shown.

According to the conventional backlight emission amount control (see the alternate long and short dash line), as shown by the reference symbol P1, the backlight emission amount is controlled (lowered) accurately following the change in the average luminance value of the video frame (see the broken line). I can't. The same applies to the case where the backlight emission amount control is performed only after the average luminance value of the video frame becomes equal to or less than the predetermined value.
However, according to the backlight emission amount control (see the bold line) of the present invention, the backlight emission amount can be changed by accurately following the change in the average luminance value of the video frame, as indicated by reference numeral P2.

  Also, as indicated by reference numeral P3 in FIG. 5A, when the average luminance value of the video frame increases but decreases immediately thereafter, according to the backlight emission amount control of the present invention, the change in the average luminance value of the video frame is achieved. Therefore, the display image (screen) does not flicker because the control for increasing the backlight emission amount is not performed (see trend 6 in FIG. 4).

  In addition, as shown by the symbol P4 in FIG. 5B, when the average luminance value of the video frame decreases and then increases, the backlight emission amount is controlled in accordance with the luminance value change of the video frame. When the average luminance value of this video frame changes in a short time (the average luminance value decreases and then increases immediately), as described above, as shown by the dotted line P5 in FIG. Control for increasing the amount of backlight emission by following the change in the average luminance value of the frame is not performed (see trend 2 in FIG. 4).

  In addition, in order to explain the effects of the present invention in an easy-to-understand manner, the conventional backlight light emission amount control and the state of light emission amount control according to the present invention have been described with a straight line graph, but in more detail, corresponding to the average luminance value of the video frame. Needless to say, it is possible to control the amount of backlight emission.

(Example 2)
In the first embodiment, the backlight emission amount control information is generated using only the change tendency of the average luminance value of the video frame. In the second embodiment, the maximum luminance value is used in addition to the average luminance value of the video frame. A recording / reproducing apparatus that generates backlight emission amount control information will be described. Here, the maximum luminance value means the highest luminance value among the luminance values of the pixels in the video frame.

FIG. 6 is a functional block diagram of a video display recording / reproducing apparatus including the recording / reproducing apparatus of the second embodiment. The video display recording / reproducing apparatus 1 ′ includes a video display apparatus 2 ′ and a recording / reproducing apparatus 3 ′. Yes.
In the video display device 2 ′, the tuner 11, the decoder 12, the video processing unit 13, the electrode drive control unit 14, the liquid crystal panel 15, and the backlight 18 have the same functions as the functional blocks with the same reference numerals in FIG. Is omitted.

  The average luminance value calculation unit 16 'extracts the video frame of the video data input from the video processing unit 13, and calculates the average luminance value and the maximum luminance value of the extracted video frame. Further, the average luminance value and the maximum luminance value of each video frame of the video data 20a read from the recording unit 20 are calculated.

  When the video data is not recorded, the calculated average luminance value and maximum luminance value are output to the backlight emission amount control unit 17 '. The backlight emission amount control unit 17 ′ generates a backlight control signal for controlling the emission amount of the light emitting elements of the backlight 18 based on the average luminance value change and the maximum luminance value input from the average luminance value calculation unit 16. , Output to the backlight 18.

The recording process control unit 19 ′ controls a process for recording the video data input from the video processing unit 13 in the recording unit 20. In addition, as described with reference to FIG. 2, a process of recording each video frame of the video data in association with the average luminance value and the maximum luminance value of the video frame calculated by the average luminance value calculation unit 16 is controlled. Both luminance values are recorded in the recording unit 20 as the light emission amount control information 20c ′.
The recording unit 20 records the light emission amount control information 20c ′ generated by the light emission amount control information generation unit 23 ′.

  The reproduction processing control unit 21 ′ controls processing for reproducing the video data 20 a recorded in the recording unit 20. Here, the video data 20a is output to the electrode drive control unit 14, and the process of outputting the luminance data 20b 'and the light emission amount control information 20c' to the backlight light emission amount control unit 17 is controlled.

  The tendency detection unit 22 'detects the change tendency of the average luminance value and the maximum luminance value of the video frames of the video data 20a continuously for every predetermined number of video frames.

  The light emission amount control information generation unit 23 ′ controls the backlight emission amount of the backlight 18 corresponding to the change tendency of the average luminance value and the maximum luminance value for each predetermined number of video frames detected by the tendency detection unit 22. Is recorded in the recording unit 20 in correspondence with the first video frame of the predetermined number of video frames. Specifically, as described above, the light emission amount control information is generated from the luminance data 20b ′ of the recording unit 20 by referring to the light emission amount control information table 24a ′ stored in the table storage unit 24 ′ and recorded. To the unit 20.

Hereinafter, detection of the change tendency of the average luminance value and the maximum luminance value, generation of the light emission amount control information, and backlight control based on the light emission amount control information will be described in detail.
(Detection of changes in average and maximum luminance values)
As described above, the video input from the video processing unit 13 before the trend detection unit 22 ′ continuously detects the change tendency of the average luminance value and the maximum luminance value of the video frame every predetermined number of video frames. It is assumed that the video frame of data is recorded in association with the average luminance value and the maximum luminance value of the video frame calculated by the average luminance value calculation unit 16 ′.

  FIG. 7 is a diagram showing changes in the average luminance value and the maximum luminance value of consecutive video frames in the group A described with reference to FIG. 3, where the vertical axis indicates the luminance value and the horizontal axis indicates time.

The trend detection unit 22 ′ continuously detects the change tendency of the average luminance value and the maximum luminance value for each predetermined number of video frames. Here, the predetermined number of video frames are the video frames f _a1 to f _a1 of the group A. Let it be a video frame _fan . The trend detection unit 22 ′ detects the average luminance value of each video frame in the group A, and detects the change tendency of the average luminance value of successive video frames from the difference information of the average luminance value of adjacent video frames. Similarly, the maximum luminance value of each video frame in group A is detected, and the change tendency of the maximum luminance value of successive video frames is detected from the difference information of the maximum luminance value of adjacent video frames.

(Generation of light emission control information)
As shown in FIG. 7, the trend detection unit 22 ′ detects that the average luminance value for each predetermined number of video frames continues to decrease for a predetermined time, and further determines the maximum luminance value for each predetermined number of video frames. When detecting that the change returns to the maximum luminance value before the change within a predetermined time, the light emission amount control information generation unit 23 ′ generates control information that does not control the backlight light emission amount regardless of the change in the maximum luminance value. The predetermined time can be arbitrarily determined.

Specifically, the light emission amount control information generation unit 23 generates light emission amount control information while referring to the light emission amount control information table 24a ′ stored in the table storage unit 24.
FIG. 8 is a diagram illustrating an example of the light emission amount control information table 24a ′. A maximum luminance value change tendency column is added to the light emission amount control information table 24a of FIG. 4, and an initial condition column and a backlight light emission amount control information column. The contents of are changed.

In the initial condition column, in addition to the contents recorded in the initial condition column of FIG. 4, initial values necessary for executing a process for detecting whether or not the maximum luminance value of the first frame in a continuous video frame is equal to or greater than a predetermined luminance value. The condition is recorded.
The trend number column and the average luminance value change trend column have been described with reference to FIG.

  The maximum luminance value change tendency column records the type of change tendency of the maximum luminance value of consecutive video frames. For example, in the case of trend 1, a change trend is recorded in which the average luminance value and the maximum luminance value of successive video frames decrease with time, and this luminance value change continues for a while.

As shown in FIG. 7, when the average luminance value and the maximum luminance value of the continuous video frames in the group A change, the tendency detection unit 22 ′ determines the average luminance value and the maximum luminance value of the first video frame _fa1 in the group A. Is greater than or equal to a predetermined luminance value Th (see the initial condition column in FIG. 8). In this case, it is not less than the predetermined luminance value Th. Next, it is detected that the average luminance value of the video frames in group A decreases with time, and that this luminance value change continues for a while. Further, it is detected that the maximum luminance value of the video frame in the group A decreases and increases immediately thereafter (the change in the maximum luminance value returns to the maximum luminance value before the change within a predetermined time).

  The brightness value change tendency is “average brightness value = high” and “maximum brightness value = high” recorded in the initial condition column of the table of FIG. “Continue”, “down → immediately rise” (trend 4) recorded in the maximum luminance value change trend column, so this average luminance value is selected from the light emission amount control information recorded in the light emission amount control information column. Then, “do not reduce” the backlight emission amount, which is the emission amount control information corresponding to the maximum luminance value change tendency, is extracted.

In this way, when the maximum luminance value of the video frame decreases and immediately increases, light emission amount control information including information that does not perform control to reduce the backlight light emission amount corresponding to the decrease in the maximum luminance value of the video frame is generated, Records in the recording unit 20.
The generation and recording process of the light emission amount control information is executed for all video frames of the video data 20a.

(Backlight control processing based on light emission control information)
Thereafter, when an instruction to reproduce the video data 20a of the recording unit 20 is received from the user via a remote controller or the like, the reproduction processing control unit 21 ′ outputs the video data 20a to the electrode drive control unit 14 and the video data 20a. The average luminance value, maximum luminance value (luminance data 20b), and light emission amount control information 20c ′ of the video frames are output to the backlight light emission amount control unit 17 ′. Since the subsequent processing has been described in the first embodiment, a description thereof will be omitted.

  FIG. 9 is a graph for explaining the conventional backlight emission amount control and the backlight emission amount control of the present invention, and the vertical axis shows the backlight emission amount, the average luminance value, and the maximum luminance value of the video frame. The horizontal axis indicates time.

  The broken line in FIG. 9 indicates the change in the average luminance value of the video frame, the solid line indicates the change in the maximum luminance value of the video frame, the alternate long and short dash line indicates the change in the backlight emission amount by the conventional backlight emission amount control, and the thick line Indicates changes in the amount of backlight emission by the emission amount control of the present invention.

  As indicated by reference numeral P91, the average luminance value of the video frame gradually decreases and thereafter becomes substantially constant. On the other hand, as indicated by reference numeral P92, the maximum luminance value of the video frame decreases greatly once, but increases immediately thereafter, and thereafter becomes substantially constant. It is assumed that the maximum luminance value is changed in a short time.

In such a case, according to the conventional backlight emission amount control (refer to the alternate long and short dash line), the backlight emission amount control is performed in response to the change in the maximum luminance value of the video frame, as indicated by reference numeral P93. Will flicker. Also, if the backlight emission amount is kept constant, the image of the maximum luminance value portion becomes dull.
However, according to the backlight emission amount control (thick line) of the present invention, as shown by reference numeral P94, the backlight emission amount control is not performed in response to the change in the maximum luminance value of the video frame, so that the screen flickers. There is no.

  As described above, according to the backlight emission amount control of the present invention, the change start timing of the backlight emission amount is determined in accordance with the change start timing of the average luminance value and the maximum luminance value, and the average luminance value and the maximum luminance are determined. The change rate of the backlight emission amount can be determined in accordance with the change rate of the value.

(Other)
The recording / reproducing apparatus of the present invention described in the first and second embodiments is configured integrally with the video display apparatus, but may be connected separately using a network or a connection cord. The recording unit 20 may be a recording device such as a flash memory or an HDD, or a recording device using a medium such as a DVD. The execution timing of the average luminance value (maximum luminance value) calculation processing in the average luminance value calculation units 16 and 16 ′ and the execution timing of the light emission amount control information generation processing in the light emission amount control information generation units 23 and 23 ′ are not particularly limited. For example, it may be executed when the recording / reproducing apparatus is not used.

  As described with reference to FIG. 3, the detection of the average luminance value change tendency is performed on consecutive video frames of the same group (group A in FIG. 3), but the group and the next group of the group (FIG. 3). It is also possible to execute the processing for all the consecutive video frames of group B). The same applies to the case where the maximum luminance value changes.

  Although one type of predetermined luminance value is described in the initial condition column of FIG. 4 (FIG. 8), a plurality of types of predetermined luminance values may be recorded.

DESCRIPTION OF SYMBOLS 1,1 '... Video display recording / reproducing apparatus, 2, 2' ... Video display apparatus, 3, 3 '... Recording / reproducing apparatus, 11 ... Tuner, 12 ... Decoder, 13 ... Video processing part, 14 ... Electrode drive control part, DESCRIPTION OF SYMBOLS 15 ... Liquid crystal panel, 16 ... Average luminance value calculation part, 17, 17 '... Backlight emission amount control part, 18 ... Backlight, 19, 19' ... Recording process control part, 20, 20 '... Recording part, 20a ... Video data, 20b, 20b '... Luminance data, 20c, 20c' ... Light emission amount control information, 21, 21 '... Reproduction processing control unit, 22, 22' ... Trend detection unit, 23, 23 '... Light emission amount control information generation , 24, 24 '... table storage unit, 24a, 24a' ... emission amount control information table.

Claims (6)

A recording unit for recording video data;
An average luminance value calculating unit for calculating an average luminance value of each video frame of the video data read from the recording unit;
A recording processing control unit that records the average luminance value of each video frame calculated by the average luminance value calculation unit in the recording unit in association with each video frame;
A trend detecting unit that continuously detects a change tendency of the average luminance value calculated by the average luminance value calculating unit for each predetermined number of video frames;
Furthermore, the backlight emission amount control information of the display device corresponding to the change tendency of the average luminance value for each predetermined number of video frames detected by the trend detection unit is generated and corresponds to the first video frame of the predetermined number of video frames And a light emission amount control information generating unit for recording in the recording unit,
A recording / reproducing apparatus, wherein when the video data is reproduced, the light emission amount control information is supplied to a display device together with the video frame. The light emission amount control information generation unit performs control to increase or decrease the backlight light emission amount based on the change of the average luminance value when the average luminance value for each predetermined number of video frames continues to increase or decrease for a predetermined time. Generate control information,
When the change in the average luminance value for each predetermined number of video frames returns to the average luminance value before the change within a predetermined time, control information that does not control the backlight emission amount regardless of the change in the average luminance value is generated. The recording / reproducing apparatus according to claim 1. The light emission amount control information generation unit includes a control information table in which a change tendency of an average luminance value for each predetermined number of video frames and light emission amount control information are recorded.
3. The recording / reproducing apparatus according to claim 1, wherein light emission amount control information corresponding to a change tendency of an average luminance value for each of the predetermined number of video frames is generated with reference to the control information table. The average luminance value calculating unit calculates an average luminance value and a maximum luminance value of each video frame of the video data read from the recording unit,
The recording processing control unit records the average luminance value and the maximum luminance value of each video frame calculated by the average luminance value calculating unit in the recording unit in association with each video frame,
The trend detection unit continuously detects a change tendency of the average luminance value and the maximum luminance value calculated by the average luminance value calculation unit for each predetermined number of video frames,
Further, the light emission amount control information generation unit generates backlight light emission amount control information of the display device corresponding to the change tendency of the average luminance value and the maximum luminance value for each predetermined number of video frames detected by the tendency detection unit. 4. The recording / reproducing apparatus according to claim 1, wherein recording is performed in the recording unit in correspondence with a leading video frame of the predetermined number of video frames. The light emission amount control information generation unit includes a control information table in which a change tendency of the average luminance value and the maximum luminance value for each predetermined number of video frames and the light emission amount control information are recorded.
5. The recording / reproducing apparatus according to claim 4, wherein light emission amount control information corresponding to a change tendency of an average luminance value and a maximum luminance value for each of the predetermined number of video frames is generated with reference to the control information table. .   A recording / reproducing apparatus according to any one of claims 1 to 5, wherein a light emission amount of a backlight that illuminates a display panel is controlled based on backlight light emission amount control information supplied from the recording / reproducing apparatus. Display device.

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