JP4064709B2 - Image display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image display device, and more specifically, realizes an on-screen display (hereinafter referred to as OSD) function for displaying images such as characters and graphics on a display together with a television screen, a VTR screen, and the like. The present invention relates to an image display device capable of performing the above.
[0002]
[Prior art]
Conventionally, when an image (OSD image) such as a character representing a broadcasting station or a preset SW (OSD image) is displayed on a television screen or a VTR screen, an image (video) forming a television screen or the like at the display position of the OSD image. The pixel of the image) was replaced with the pixel of the OSD image.
Therefore, the user cannot see the video image for the portion of the OSD image that has been replaced with pixels.
[0003]
Further, when the OSD image is displayed in an overlapping manner on a TV screen or the like, the color information of the pixel of the video image is not multiplied as described above but multiplied by a coefficient α (0 ≦ α ≦ 1). By multiplying the pixel color information of the OSD image by a coefficient β (= 1−α) and taking the sum of these, a display can be made such that the video image can be seen through under the OSD image. It is known.
[0004]
In this way, by displaying the video image so that the video image can be seen through from the bottom of the OSD image, it becomes possible to see the portion that has been filled with the OSD image conventionally, and the amount of information that can be provided to the user is increased. be able to.
[0005]
[Problems to be solved by the invention]
However, if the display is such that the video image can be seen from below the OSD image, the OSD image may be difficult to see. In particular, in the case of an image display device (for example, a television) mounted on a vehicle, the possibility is high because the display screen to be equipped is not so large.
[0006]
In addition, a method has been proposed in which the OSD image is displayed in a margin portion generated by reducing the video image and reducing the video image, but this makes the video image difficult to see.
[0007]
The present invention has been made in view of the above problems, and when displaying OSD images such as characters and figures on a display together with a TV screen, a VTR screen, and the like, the TV screen and the like are not made difficult to see. An object of the present invention is to provide an image display device capable of displaying the OSD image in an easily viewable manner.
[0015]
[Means for solving the problems and effects thereof]
In order to achieve the above object, an image display device (1) according to the present invention provides a video image having a first aspect ratio supplied from a video signal supply means with a second aspect different from the first aspect ratio. A function for displaying on a display screen having a ratio, a function for displaying an OSD image such as characters and figures on the display screen together with the video image, and a display for multiplexing the OSD image on the video image In the image display device having a first display control means having a function of combining these images so that the video images can be seen through from below the OSD image, a portion of the video image is displayed. The aspect ratio of 1 and the second aspect ratio of the display screen are different, so that a blank portion where the video image is not displayed is formed on the display screen. If serial OSD image is displayed, the first display control means, for the OSD image displayed in addition to the margin is subjected to a treatment for the synthesis, the video image from the bottom of the OSD image In contrast, the OSD image displayed in the margin part has a function of displaying without performing the process for the composition .
[0016]
The image display apparatus according to the present invention (2) is a display screen a video image having a first aspect ratio which is supplied from the video signal supply means, having a second aspect ratio different from the first aspect ratio A function for displaying on the display screen, a function for displaying an OSD image such as characters and figures on the display screen together with the video image, and a portion for displaying the OSD image multiplexed on the video image, In an image display device having a first display control unit having a function of combining these images so that the video images can be seen through under the OSD image, a first aspect ratio of the video image by the second aspect ratio of the display screen are different, the margin of the video image on the display screen is not displayed is formed, the OSD image該余white portion displays When, in that said first display control means, the OSD image displayed on the margin, and has a function of displaying the same display luminance as OSD image displayed superimposed with the video image It is a feature.
[0017]
First aspect ratio (e.g., 3: 4) the video image having a second aspect ratio different from the first aspect ratio (e.g. 9: 16) located in the central portion on the display screen with When displayed in such a manner, blank spaces are formed on the left and right sides of the video image.
For example, as shown in FIG. 4 to be described later, a video image P ₁ having an aspect ratio of 3: 4 is 81 (H) on a display screen (aspect ratio 9:16) E of 81 (H) × 144 (W) mm. ) × 108 (W) mm, and 81 (H) × 18 (W) mm margins F ₁ and F ₂ are formed on the left and right, respectively.
[0018]
When the OSD image P ₂ is displayed on the upper portion of the display screen E in a state where the blank portions F ₁ and F ₂ are formed, the OSD image P ₂ is a portion displayed overlapping the video image P _1. (Region E ₃₂ ) and portions (regions E ₃₁ and E ₃₃ ) displayed in the margins F ₁ and F ₂ are formed.
[0019]
According to the image display device ( 1 ), for the portion where the OSD image is multiplexed and displayed on the video image, these images are combined so that the video image can be seen from below the OSD image. It is like that.
That is, these images are synthesized by reducing the display brightness of any of these images so that the video image can be seen through from the bottom of the OSD image.
[0020]
Further, the OSD image displayed in the margin is not overlapped with the video image, and it is not necessary to lower the display brightness of the OSD image, so that the OSD image is displayed as it is. Thereby, the OSD image can be easily seen.
[0021]
By the way, in the image display device ( 1 ), the OSD image is made easier to see by performing a through display where it is not necessary to reduce the display brightness. Since there is a difference in display brightness between the non-overlapping parts (the parts displayed in the margin part), there is a possibility that it may be difficult for some users to see.
[0022]
According to the image display device ( 2 ), the OSD image displayed in the margin part is also displayed with the same display luminance as the OSD image displayed superimposed on the video image. Can be solved.
[0023]
The image display device ( 3 ) according to the present invention has a function of displaying an OSD image such as a character or a graphic on a display screen together with a video image supplied from a video signal supply unit, and the OSD image is displayed on the display screen. An image display device comprising a second display control means having a function of combining the images so that the video images can be seen through from below the OSD image for a portion to be displayed in a multiplexed manner with the video image The second display control means has a function of adjusting the composition based on the reception state of the video image.
[0024]
The image display device ( 4 ) according to the present invention has a function of displaying an OSD image such as characters and figures on a display screen together with a video image supplied from a video signal supply unit, and the OSD image is displayed on the display screen. An image display device comprising a second display control means having a function of combining the images so that the video images can be seen through from below the OSD image for a portion to be displayed in a multiplexed manner with the video image The second display control means has a function of adjusting the size of the OSD image based on the reception state of the video image.
[0025]
When a video image is supplied from a TV tuner or the like, the reception state of the video image is lowered, and a clear image cannot be displayed on the display screen, and the video image is displayed on the display screen. May be less valuable. In particular, when mounted on a vehicle, a relatively large number of cases as described above occur.
[0026]
According to the image display device ( 3 ), for the portion where the OSD image is multiplexed and displayed on the video image, these images are combined so that the video image can be seen from below the OSD image. Further, the composition adjustment is performed based on the reception state of the video image.
For example, when the reception state of the video image is lowered and the value of displaying the video image on the display screen is reduced, the display brightness of the OSD image is higher than the display brightness of the video image. Thus, the adjustment of the synthesis is performed. Thereby, the OSD image can be easily seen.
[0027]
Further, according to the image display device ( 4 ), for the portion where the OSD image is multiplexed and displayed on the video image, the images are combined so that the video image can be seen from below the OSD image. In addition, the size of the OSD image is adjusted based on the reception state of the video image.
For example, when the reception state of the video image is lowered and the value of displaying the video image on the display screen is reduced, the OSD image is adjusted to be displayed in a large size. Thereby, the OSD image can be easily seen.
[0028]
The image display device ( 5 ) according to the present invention has a function of displaying an OSD image such as a character or a graphic on a display screen together with a video image supplied from a video signal supply unit, and the OSD image is displayed on the display screen. For a portion to be multiplexed and displayed on the video image, the vehicle is provided with a second display control means having a function of combining these images so that the video images can be seen through from below the OSD image. In the mounted image display device, the second display control means has a function of adjusting the synthesis based on the dynamics of the vehicle.
[0029]
The image display device ( 6 ) according to the present invention has a function of displaying an OSD image such as a character or a graphic on a display screen together with a video image supplied from a video signal supply unit, and the OSD image is displayed on the display screen. For a portion to be multiplexed and displayed on the video image, the vehicle is provided with a second display control means having a function of combining these images so that the video images can be seen through from below the OSD image. In the mounted image display device, the second display control means has a function of adjusting the size of the OSD image based on the dynamics of the vehicle.
[0030]
When the image display device is mounted on a vehicle, the OSD image becomes difficult to see if the vehicle speed is high. In particular, there is a possibility that it is very difficult to recognize and accurately operate a preset SW that is likely to be formed of small characters.
[0031]
According to the image display device ( 5 ), for the portion where the OSD image is multiplexed and displayed on the video image, these images are combined so that the video image can be seen from below the OSD image. Further, the synthesis is adjusted based on the dynamics of the vehicle.
For example, when the speed of the vehicle reaches a predetermined first speed (for example, 40 km / h) or more, the composition adjustment is performed so that the display brightness of the OSD image is higher than the display brightness of the video image. Like that. Thereby, the OSD image can be easily seen.
[0032]
Further, according to the image display device ( 6 ), in the portion where the OSD image is multiplexed and displayed on the video image, the images are synthesized so that the video image can be seen from below the OSD image. In addition, the size of the OSD image is adjusted based on the dynamics of the vehicle.
For example, when the speed of the vehicle becomes equal to or higher than the predetermined first speed, the OSD image is adjusted to be displayed larger. Thereby, the OSD image can be easily seen.
[0033]
The image display device ( 7 ) according to the present invention has a function of displaying an OSD image such as a character or a graphic on a display screen together with a video image supplied from a video signal supply unit, and the OSD image is displayed on the display screen. For the portion to be displayed in a multiplexed manner on the video image, the synthesis coefficient of the OSD image is α (0 ≦ α ≦ 1) so that the video image can be seen from below the OSD image, and the video image is synthesized. In the image display device having the second display control means having a function of combining these images with a coefficient β (= 1−α), the video image of the portion displayed in a multiplexed manner with the OSD image Are formed with only the same color or approximate colors, the second display control means performs the synthesis by setting the synthesis coefficient α of the OSD image to be larger than the synthesis coefficient β of the video image. With things It is characterized in Rukoto.
[0034]
Further, in the image display device ( 8 ) according to the present invention, in the image display device ( 7 ), the video image of the portion displayed in a multiplexed manner with the OSD image is formed with only the same color or an approximate color. The second display control means performs the synthesis by setting the synthesis coefficient α of the OSD image to 1 and setting the synthesis coefficient β of the video image to 0.
[0035]
By the way, when a blue sky is reflected in the video image, and the OSD image is displayed over the deep blue sky, even if the video image becomes difficult to see due to the OSD image, there is a problem. There seems to be nothing.
[0036]
According to the image display device ( 7 ), with respect to a portion where the OSD image is multiplexed and displayed on the video image, a composite coefficient of the OSD image is displayed so that the video image can be seen from below the OSD image. Is α (0 ≦ α ≦ 1), and the synthesis coefficient of the video image is β (= 1−α), and these images are synthesized.
[0037]
Furthermore, when the video image of the portion displayed in a multiplexed manner with the OSD image is formed of the same color or only an approximate color, the synthesis coefficient α of the OSD image is determined from the synthesis coefficient β of the video image. Also, the synthesis is performed.
[0038]
Therefore, for example, when the OSD image is displayed in a blue sky reflected in the video image, the synthesis coefficient α of the OSD image is set larger than the synthesis coefficient β of the video image, The synthesis is performed. That is, since the OSD image is displayed so that the display brightness of the OSD image is higher than the display brightness of the video image, the OSD image can be easily seen.
[0039]
Further, according to the image display device ( 8 ), since the composition is performed with the composition coefficient α of the OSD image set to 1 and the composition coefficient β of the video image set to 0, the OSD image is made very easy to see. be able to.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of an image display apparatus according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram schematically showing the main part of the image display apparatus according to the embodiment (1). Here, an image display device mounted on a vehicle will be described.
[0041]
In the figure, reference numeral 1 denotes a television tuner for supplying a video signal for forming a video image (aspect ratio 3: 4). The television tuner 1 converts the video signal into a sync separation circuit 2 and a switch switching control signal described later, The signal to be output to the liquid crystal panel 5 (aspect ratio 9:16) is transmitted to the input terminal 3a of the switching circuit 3 for switching.
[0042]
The sync separation circuit 2 is configured to transmit a vertical synchronization signal and a horizontal synchronization signal to the drawing processing circuit 4 based on the video signal from the TV tuner 1, and the drawing processing circuit 4 transmits from the synchronization separation circuit 2. The OSD signal is transmitted to the input terminal 3b of the switching circuit 3 in accordance with the OSD image display start timing based on the vertical synchronization signal and the horizontal synchronization signal. The drawing processing circuit 4 transmits a switch switching control signal to the switching circuit 3 in accordance with the screen scanning position of the liquid crystal panel 5 based on the vertical synchronizing signal and the horizontal synchronizing signal.
[0043]
In addition, the drawing processing circuit 4 can take in a signal (for example, a signal indicating the presence / absence of an occupant in the driver's seat or the presence / absence of an occupant in the passenger seat) indicating the boarding status of the vehicle from the outside. Based on the acquired signal, the switch switching control signal is transmitted to the switching circuit 3 at a predetermined timing, or the OSD signal is transmitted to the input terminal 3b of the switching circuit 3.
[0044]
For example, when there is no passenger in the front passenger seat and only the driver in the front seat, the video image is displayed close to the front passenger seat side, and the video image is displayed in close proximity. The switch switching control signal is transmitted to the switching circuit 3 so that the OSD image is displayed in the margin, and when the passenger seat is also present in the passenger seat, the video image is displayed near the driver. At the same time, the switch switching control signal is transmitted so that the OSD image is displayed in the margin formed by displaying the video image together.
[0045]
That is, the drawing processing circuit 4 is a case where there is no passenger in the passenger seat and only a driver in the front seat, and the screen scanning position of the liquid crystal panel 5 is in the region E ₁₁ (see FIG. 2A). in some cases, so as to connect the input terminal 3a and the output terminal 3c in the switching circuit 3, and sends the switch changeover control signal to the switching circuit 3, on the other hand, when the screen scanning position is in the region E ₁₂ Transmits the switch switching control signal to the switching circuit 3 so as to connect the input terminal 3b and the output terminal 3c.
[0046]
Conversely, when the passenger is present in the passenger seat and the screen scanning position of the liquid crystal panel 5 is in the region E ₂₁ (see FIG. 2B), the switching circuit 3 outputs the input terminal 3b and the output. as to connect the terminal 3c, and sends the switch changeover control signal to the switching circuit 3, on the other hand, when the scanning position is in the region E _22, as to connect the input terminal 3a and the output terminal 3c The switch switching control signal is transmitted to the switching circuit 3.
[0047]
In other words, the drawing processing circuit 4 connects the input terminal 3b and the output terminal 3c of the switching circuit 3 only during a period in which the screen scanning position of the liquid crystal panel 5 is in the margin (regions E ₁₂ and E ₂₁ ). The switch switching control signal is transmitted.
[0048]
FIG. 2 (a) shows an example of a screen display when an OSD image is displayed in a margin formed by displaying a video image close to the driver's seat and displaying the video image in close proximity, FIG. 2B shows an example of a screen display in a case where a video image is displayed close to the passenger seat side and an OSD image is displayed in a margin formed by displaying the video image in close proximity. In addition, about the signal which showed the riding condition, the signal transmitted from the seatbelt detection sensor etc. which detect the wearing condition of a seatbelt is taken in.
[0049]
According to the image display device according to the above embodiment (1), the video image is not displayed so as to be positioned at the central portion on the display screen of the liquid crystal panel 5, but is displayed near either the left or right. The OSD image can be displayed in a margin formed by bringing the video image together.
[0050]
That is, since the OSD image is displayed in the widened margin, the OSD image can be easily seen. In addition, since the video image drawing side is determined based on the boarding situation with respect to the vehicle, the OSD image can be displayed in a more suitable manner for the user.
[0051]
Note that an image display device according to another embodiment can capture information on the dynamics of the vehicle. For example, when the vehicle is stopped, regardless of whether there is a passenger in the passenger seat. The video image may be displayed close to the passenger seat side so that the OSD image is displayed on the driver seat side.
[0052]
FIG. 3 is a block diagram schematically showing a main part of the image display device according to the embodiment (2). However, the same components as those of the image display apparatus shown in FIG. 1 are denoted by the same reference numerals, and the description thereof is omitted here.
[0053]
The TV tuner 1 that supplies a video signal that forms a video image (aspect ratio 3: 4) outputs the video signal to the liquid crystal panel 5 (aspect ratio 9:16) based on the synchronization separation circuit 2 and the switch switching control signal. The signal is transmitted to the input terminal 13a of the switching circuit 13 for switching signals and the multiplier 15.
[0054]
The sync separation circuit 2 transmits a vertical sync signal and a horizontal sync signal to the drawing processing circuit 14 based on the video signal from the TV tuner 1, and the multiplier 15 is transmitted from the TV tuner 1. The video signal is multiplied by the synthesis coefficient k ₁ (0 ≦ k ₁ ≦ 1), and the multiplication result is output to the adder 17.
[0055]
The drawing processing circuit 14 matches the display start timing of the OSD image (displayed on the upper part of the display screen in the liquid crystal panel 5) based on the vertical synchronization signal and the horizontal synchronization signal transmitted from the synchronization separation circuit 2. The OSD signal is transmitted to the input terminal 13c of the switching circuit 13 and the multiplier 16, and the switch switching control is performed in accordance with the screen scanning position of the liquid crystal panel 5 based on the vertical synchronizing signal and the horizontal synchronizing signal. A signal is transmitted to the switching circuit 13.
[0056]
The multiplier 16 multiplies the OSD signal transmitted from the drawing processing circuit 14 by the synthesis coefficient k ₂ (= 1−k ₁ ) and outputs the multiplication result to the adder 17. . The adder 17 transmits a combined signal obtained by combining the signals output from the multipliers 15 and 16 to the input terminal 13 b of the switching circuit 13.
[0057]
The drawing processing circuit 14, as in the case the screen scanning position of the liquid crystal panel 5 is in the region E ₃₅ (see FIG. 4 (c)) may be connected between the input terminal 13a and output terminal 13d in the switching circuit 13 sends the switch changeover control signal to the switching circuit 13, when the screen scanning position is in the region E ₃₂ is as to connect the input terminal 13b and an output terminal 13d, the switching circuit of said switch switching control signal When the screen scanning position is outside the areas E ₃₂ and E ₃₅ , the switch switching control signal is transmitted to the switching circuit 13 so as to connect the input terminal 13c and the output terminal 13d. It is supposed to be.
[0058]
4A shows an example of a screen display when the video image P ₁ is displayed at the center of the display screen E. FIG. 4B shows an OSD image P ₂ displayed at the top of the display screen E. FIG. 4C shows an example of the screen display when the video image P ₁ and the OSD image P ₂ are displayed together. In the screen display shown in FIG. 4C, the upper portion of the video image P ₁ and the central portion of the OSD image P ₂ are displayed overlapping each other.
[0059]
According to the image display apparatus according to the embodiment (2), parts (region E ₃₂₎ to display by multiplexing OSD image P ₂ to the video image P _1, the video image P from the bottom of the OSD image P ₂ These images are combined so that ₁ can be seen through.
In other words, these images are synthesized by reducing the display luminance of any of these images so that the video image P ₁ can be seen through from the bottom of the OSD image P ₂ (for example, the synthesis coefficient k ₁ is set). Set to 1/2).
[0060]
Also, the OSD image P ₂ displayed in the margin (regions E ₃₁ and E ₃₃ ) does not overlap with the video image P _1, and it is not necessary to reduce the display brightness of the OSD image P ₂ , so that it is displayed as it is. It is supposed to be. Thus, it is possible to more visible the OSD image P _2.
[0061]
In the image display device according to the above embodiment (2), the OSD image is made easier to see by performing through display where it is not necessary to lower the display luminance. However, the image display device overlaps with the video image. Since there is a difference in display luminance between the part that is present and the part that is not overlapped (the part displayed in the margin part), it may be difficult for some users to see.
[0062]
Therefore, in the image display apparatus according to another embodiment, as shown in FIG. 5, the result multiplied by the multiplier 16 is transmitted not only to the adder 17 but also to the input terminal 13c of the switching circuit 13. (In other words, the OSD signal subjected to multiplication processing is also transmitted to the input terminal 13c), and the OSD image displayed in the margins (regions E ₃₁ and E ₃₃ ) is also displayed so as to overlap with the video image. You may make it display with the same display brightness as the OSD image. Thereby, the said problem can be solved. In the image display device shown in FIG. 5, the same components as those in the image display device shown in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted here.
[0063]
FIG. 6 is a block diagram schematically showing a main part of the image display device according to the embodiment (3). However, the same components as those of the image display apparatus shown in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted here.
[0064]
The TV tuner 1 that supplies a video signal that forms a video image (aspect ratio 3: 4) outputs the video signal to the liquid crystal panel 5 (aspect ratio 9:16) based on the synchronization separation circuit 2 and the switch switching control signal. The signal is transmitted to the input terminal 13a of the switching circuit 13 for switching signals and the multiplier 15.
[0065]
The sync separation circuit 2 transmits a vertical sync signal and a horizontal sync signal to the drawing processing circuit 24 based on the video signal from the TV tuner 1, and the multiplier 15 is transmitted from the TV tuner 1. The video signal and the synthesis coefficient k ₁ (0 ≦ k ₁ ≦ 1) are multiplied, and the multiplication result is output to the adder 17.
[0066]
Based on the vertical synchronization signal and the horizontal synchronization signal transmitted from the synchronization separation circuit 2, the drawing processing circuit 24 matches the display start timing of the OSD image (displayed on the upper part of the display screen in the liquid crystal panel 5). The OSD signal is transmitted to the input terminal 13c of the switching circuit 13 and the multiplier 16, and the switch switching signal is set in accordance with the screen scanning position of the liquid crystal panel 5 based on the vertical synchronizing signal and the horizontal synchronizing signal. The data is transmitted to the switching circuit 13.
[0067]
The multiplier 16 multiplies the OSD signal transmitted from the drawing processing circuit 24 and the synthesis coefficient k ₂ (= 1−k ₁ ), and outputs the multiplication result to the adder 17. The adder 17 transmits a combined signal obtained by combining the signals output from the multipliers 15 and 16 to the input terminal 13 b of the switching circuit 13.
[0068]
In addition, when the screen scanning position of the liquid crystal panel 5 is in the region E ₃₅ (see FIG. 4), the drawing processing circuit 24 switches the switch so that the input terminal 13a and the output terminal 13d are connected in the switching circuit 13. sends a switching control signal to the switching circuit 13, when the screen scanning position is in the region E ₃₂ is as to connect the input terminal 13b and an output terminal 13d, transmits the switch change-over control signal to the switching circuit 13 When the screen scanning position is outside the areas E ₃₂ and E ₃₅ , the switch switching control signal is transmitted to the switching circuit 13 so as to connect the input terminal 13c and the output terminal 13d. It has become.
[0069]
Further, the electric field strength signal when a video image is received from the outside is transmitted from the TV tuner 1 to the synthesis coefficient changing means 25, and the synthesis coefficient changing means 25 is transmitted from the TV tuner 1. Based on the electric field intensity signal, the value of the synthesis coefficient k ₁ is changed, and the changed synthesis coefficient k ₁ is transmitted to each of the multipliers 15 and 16.
[0070]
For example, if the synthesis coefficient changing unit 25 determines that the reception state of the video image is equal to or higher than a predetermined level based on the electric field strength signal, the synthesis coefficient k ₁ is not changed (for example, 1/2). On the other hand, if it is determined that the reception state of the video image is less than the predetermined level, the synthesis coefficient k ₁ is decreased (that is, the synthesis coefficient k ₂ is increased). Note that the change of the synthesis coefficient k _1, may be changed linearly in accordance with the reception state.
[0071]
According to the image display device according to the embodiment (3), the OSD image is multiplexed and displayed on the video image so that the video image can be seen from below the OSD image. Images are synthesized, and further, the synthesis is adjusted based on the reception state of the video image.
For example, when the reception state of the video image is reduced and the value of displaying the video image on the display screen is reduced, the display brightness of the OSD image is higher than the display brightness of the video image. Thus, the synthesis adjustment is performed. Thereby, the OSD image can be easily seen.
[0072]
In the image display apparatus according to another embodiment, as shown in FIG. 7, the electric field strength signal from the television tuner 1 is also transmitted to the drawing processing circuit 24A, and the drawing processing circuit 24A is connected to the television. The size of the OSD image may be adjusted based on the electric field strength signal transmitted from the tuner 1. For example, if it is determined that the reception state of the video image is less than a predetermined level based on the electric field strength signal, the OSD image is enlarged so that the OSD image can be easily seen. In the image display device shown in FIG. 7, the same components as those in the image display device shown in FIG. 6 are denoted by the same reference numerals, and description thereof is omitted here. In addition, the size may be adjusted linearly according to the reception state.
[0073]
Furthermore, in the image display device according to another embodiment, information on the dynamics of the vehicle can be captured. For example, when the speed of the vehicle is equal to or higher than a predetermined speed, the OSD image The synthesis coefficient k ₁ may be decreased or the OSD image may be increased so that the display brightness is higher than the display brightness of the video image.
[0074]
FIG. 8 is a block diagram schematically showing the main part of the image display apparatus according to Embodiment (4). However, the same components as those of the image display apparatus shown in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted here.
[0075]
The TV tuner 1 that supplies a video signal that forms a video image (aspect ratio 3: 4) outputs the video signal to the liquid crystal panel 5 (aspect ratio 9:16) based on the synchronization separation circuit 2 and the switch switching control signal. The signal is transmitted to the input terminal 13a of the switching circuit 13 for switching signals, the multiplier 15, and the image pattern detecting means 35.
[0076]
The sync separation circuit 2 is configured to transmit a vertical sync signal and a horizontal sync signal to the drawing processing circuit 34 based on the video signal from the TV tuner 1, and the multiplier 15 is transmitted from the TV tuner 1. The video signal and the synthesis coefficient k ₁ (0 ≦ k ₁ ≦ 1) are multiplied, and the multiplication result is output to the adder 17.
[0077]
The drawing processing circuit 34 is based on the vertical synchronization signal and the horizontal synchronization signal transmitted from the synchronization separation circuit 2 in accordance with the display start timing of the OSD image (displayed on the upper part of the display screen in the liquid crystal panel 5). The OSD signal is transmitted to the input terminal 13c of the switching circuit 13 and the multiplier 16, and the switch switching control signal is adjusted in accordance with the screen scanning position of the liquid crystal panel 5 based on the vertical synchronizing signal and the horizontal synchronizing signal. Is transmitted to the switching circuit 13.
[0078]
The multiplier 16 multiplies the OSD signal transmitted from the drawing processing circuit 34 and the synthesis coefficient k ₂ (= 1−k ₁ ), and outputs the multiplication result to the adder 17. The adder 17 transmits a combined signal obtained by combining the signals output from the multipliers 15 and 16 to the input terminal 13 b of the switching circuit 13.
[0079]
In addition, when the screen scanning position of the liquid crystal panel 5 is in the region E ₃₅ (see FIG. 4), the drawing processing circuit 34 is configured to switch the switch so that the switching circuit 13 connects the input terminal 13a and the output terminal 13d. sends a switching control signal to the switching circuit 13, when the screen scanning position is in the region E ₃₂ is as to connect the input terminal 13b and an output terminal 13d, transmits the switch change-over control signal to the switching circuit 13 When the screen scanning position is outside the areas E ₃₂ and E ₃₅ , the switch switching control signal is transmitted to the switching circuit 13 so as to connect the input terminal 13c and the output terminal 13d. It has become.
[0080]
The image pattern detection means 35 detects the image pattern of the video image in the area E ₃₂ where the OSD image is displayed, changes the value of the synthesis coefficient k ₁ based on the detection result, and changes the synthesized coefficient k _1. Is transmitted to each of the multipliers 15 and 16.
[0081]
For example, the image pattern detection means 35 detects whether or not the video image in the region E ₃₂ (or the surrounding region including the region E ₃₂ ) is formed with the same color or only the approximate color, and the video in the region E ₃₂ is detected. If the image is formed of the same color or only approximate colors, the synthesis coefficient k _{1 is set} to 0 in order to set the synthesis coefficient k ₂ to 1.
[0082]
According to the image display device according to the embodiment (4), the OSD image is multiplexed and displayed on the video image so that the video image can be seen from below the OSD image. It is designed to synthesize images.
[0083]
Furthermore, when the video image of the portion displayed in a multiplexed manner with the OSD image is formed of the same color or only an approximate color (for example, in the case of a deep blue sky or the sea), the synthesis coefficient k ₁ Is set to 0, that is, the synthesis coefficient k _{2 is set} to 1, and the video image and the OSD image are synthesized. Therefore, since the OSD image is substantially the same as the through display, the OSD image can be made very easy to see.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing a main part of an image display apparatus according to Embodiment (1) of the present invention.
FIGS. 2A and 2B are diagrams showing an example of a screen display in the image display apparatus according to the embodiment (1).
FIG. 3 is a block diagram schematically showing a main part of an image display device according to an embodiment (2).
4A is an example of a screen display when a video image is displayed at the center of the display screen, and FIG. 4B is an example of a screen display when an OSD image is displayed at the top of the display screen. (C) is a figure which showed an example of the screen display in the image display apparatus concerning Embodiment (2).
FIG. 5 is a block diagram schematically showing a main part of an image display apparatus according to another embodiment.
FIG. 6 is a block diagram schematically showing main parts of an image display device according to an embodiment (3).
FIG. 7 is a block diagram schematically showing a main part of an image display device according to another embodiment.
FIG. 8 is a block diagram schematically showing a main part of an image display device according to an embodiment (4).
[Explanation of symbols]
3, 13 Switching circuits 4, 14, 24, 24A, 34 Drawing processing circuits 15, 16 Multiplier 17 Adder 25 Composite coefficient changing means 35 Image pattern detecting means

Claims (1)

A function of displaying a video image having a first aspect ratio supplied from a video signal supply means on a display screen having a second aspect ratio different from the first aspect ratio;
A function for displaying an on-screen display image such as characters and graphics on the display screen together with the video image;
A part that multiplexes and displays the on-screen display image on the video image has a function of combining these images so that the video image can be seen through under the on-screen display image. In an image display device provided with display control means,
Due to the difference between the first aspect ratio of the video image and the second aspect ratio of the display screen, a blank portion where the video image is not displayed is formed on the display screen, and the on-screen is formed in the blank portion. If a display image is displayed,
The first display control means performs processing for the composition on the on-screen display image displayed in a region other than the margin, so that the video image can be seen through under the on-screen display image. Whereas
The image display device having a function of displaying the on-screen display image displayed in the blank portion without performing the processing for the composition .

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