JP3960737B2 - OSD processing equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an OSD processing apparatus having an on-screen display function for displaying service information and the like on video images such as televisions and VTRs.
[0002]
[Prior art]
As an OSD processing apparatus for displaying service information of a video image and the like, for example, there are the following conventional examples.
In the apparatus described in Japanese Patent Laid-Open No. 11-146275, a maximum of four parameters are set as coefficients for mixing the video image and the OSD image. As a method for superimposing the video image and the OSD image, In the case of the non-transparent portion with OSD, the first parameter and the video image are multiplied, the second parameter and the OSD image are multiplied, and a result obtained by adding the multiplication results is used as a mixed image. In the case of the transparent portion with OSD, a product obtained by multiplying the third parameter and the video image is used as a mixed image. When there is no OSD, a product obtained by multiplying the fourth parameter by the video image is used as a mixed image.
[0003]
According to the method described above, in the case of a non-transparent portion with OSD, if the first parameter is increased, the OSD image is seen through the video image, and if the second parameter is increased, the video image is displayed in the OSD image. It is possible to express as if it is transparent. In the case of a transparent portion with OSD, the level of the video image is reduced by reducing the third parameter in the OSD transparent display pixels around the OSD non-transparent portion pixels, and the OSD non-transparent portion pixels are changed. A conspicuous effect is born.
[0004]
Thus, a technique for generating a mixed image from an OSD and a video image and making the OSD easier to see is disclosed.
Normally, the same OSD image is repeated several frames and continuously read from the storage unit and displayed. When the OSD image is blinked, the OSD image is read from the storage unit at the time of lighting, and the OSD image is not read from the storage unit at the time of non-lighting, as if it is blinking. It is showing to.
[0005]
[Problems to be solved by the invention]
However, the method of mixing the video image and the OSD image as in the above-described apparatus has only one pattern of the non-transparent portion, and there is an OSD image. When changing the first parameter and the second parameter, it is necessary to change the contents of the part storing each parameter each time the mix ratio is changed.
[0006]
Similarly, for the transparent portion with an OSD image, it is necessary to change the content of the third parameter each time the level of the video image is changed.
For example, if it is desired to change the mix ratio between pixels in the non-transparent portion with the adjacent OSD, the first parameter is set between the reading of the OSD color number of the previous pixel of the adjacent pixel and the reading of the color number of the subsequent pixel. And the value of the second parameter must be changed. Usually, the change of the setting is not in time for reading the OSD color number of the adjacent pixel.
[0007]
As described above, in the conventional technique, since the mix ratio of the OSD image and the video image that can be expressed simultaneously is only one pattern of the non-transparent portion, it is difficult to change the mix ratio between adjacent pixels. Similarly, the third parameter in the case of transparent display has a problem that it is difficult to change the parameter in order to change the level of the video image between adjacent pixels.
In addition, since the above method is used when the OSD image blinks, it is relatively easy to blink the readout for each OSD image by controlling, but it blinks for a part of the OSD image, that is, for each pixel. In the case of controlling, there is a problem that it is difficult.
[0008]
The present invention has been made in view of such a situation, and even if the mix ratio of the OSD image and the video image is different between adjacent pixels, it is not necessary to rewrite the parameter each time the parameter is changed. By holding the color number and the mix number every time, it is an object to easily mix video images and OSD images with different mix ratios between adjacent pixels.
It is a further object of the present invention to make it possible to easily blink an OSD image for each pixel.
[0009]
[Means for Solving the Problems]
In order to realize an on-screen display function for displaying an OSD (0n Screen Display) image such as a character or a graphic on a video image such as a television or video, the present invention provides color information on the color number of the OSD image. Color information storage means for storing information in correspondence with each other, mix information storage means for storing OSD image mix ratio 1 and video image mix ratio 2 in correspondence with the mix number of the OSD image, and pixels of the OSD image to be displayed Color number storage means for storing each color number, mix number storage means for storing a mix number for each pixel of the OSD image to be displayed, color number of the OSD image from the color number storage means and the mix number storage means and a reading means for reading mix numbers for each pixel, respectively, by referring to the color information storage means, lust the read color number A color number conversion means for converting, with reference to the mix information storage means, the read mix numbers, and mix number conversion means for converting the mix ratio 2 Mix Ratio 1 and the video image of the OSD image, mix the color information converted by the video image and the color number conversion means, respectively multiplied by the mix ratio of 1 and the mix ratio of 2, by adding these multiplication results, a mix of video images and the OSD images And an arithmetic means for generating an image .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
First, an outline of the OSD processing apparatus of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a main configuration of an OSD processing apparatus according to the present invention.
When displaying service information such as characters and graphics on a video image such as a TV or video, an OSD (On Screen Display) image of service information to be superimposed on the video image is displayed on the color information storage unit 100 and the mix information. It is assumed that the storage unit 101, the color number storage unit 102, and the mix number storage unit 103 are configured.
[0013]
Here, the content of the color information storage unit 100 is for creating a table in which the color number of the OSD image corresponds to the color information, and the content of the mix information storage unit 101 is the mix number of the OSD image. This is for creating a table corresponding to the mix ratio for determining the ratio of mixing the video image and the OSD image. The color information and the mix information are provided for each OSD image. To do.
The color number storage unit 102 stores the color number for each pixel of the OSD image to be displayed. Similarly, the mix number storage unit 103 stores the mix number for each pixel of the OSD image to be displayed. And
[0014]
Then, OSD processing apparatus includes a CPU106 reading the OSD image at an appropriate timing, and the color information of the color information storage 憶 unit 100 is written, the color number read from the color number storage unit 102, the color information a color number conversion table 104 for converting and mix ratio of the mix information storage unit 101 is written, the mix number read from the mix number storage unit 103, into a mix ratio video images and the OSD picture image mix and number conversion tape b le unit 104, by using the converted mix ratio, a mix of video images and the OSD color information, an arithmetic circuit 107 for generating a mix image.
[0015]
If such an OSD processing device is used, a table for converting a mix number for each pixel of the OSD image into a mix ratio of the video image and the OSD image is provided. mix ratio of the image also becomes possible to select from among N kinds, even when mixing the adjacent video images and the OSD picture image at different mix ratios between the OSD pixel, according to a pre-OSD mix information storage unit 101, mixes number storing a plurality of types of mix ratio conversion table unit 105, by reading the mix number stored in each pixel without the parameter change in a period of reading the adjacent pixels, mix ratio between the adjacent pixels It is possible to generate a mixed image of different video images and OSD images.
[0016]
Furthermore, in the OSD processing device, when the flash flag of the OSD image to be stored is valid, the flash information storage unit that stores the flashing behavior and the flashing method for each pixel of the OSD image. The flashing flag storage unit shown, the flashing information storage unit is written, the flashing control circuit unit for generating the flashing control signal for controlling the lighting of the OSD image according to the read flashing flag, and the flashing control signal A flashing switching circuit for controlling the ON / OFF of the OSD image is added.
[0017]
For example, the blinking field period stored in the blinking information part of the OSD image is written in the blinking control circuit. The blinking control circuit outputs a blinking control signal according to the written field period and the blinking number to be read. When the blinking control signal indicates lighting, the pixels for which the lighting flag is valid are turned on. In addition, when the blink control signal indicates astigmatism, the pixels for which the blink flag is valid are astigmatized. At this time, it is assumed that the pixels for which the blink flag is invalid are always turned on.
[0018]
By performing such processing, a part of the OSD image can be blinked without controlling the reading of the OSD image by the CPU by a special method.
Further, in the OSD processing apparatus, a blinking number storage unit is provided instead of the OSD image lighting flag storage unit.
Here, the blinking number does not mean one pattern flag indicating whether it is valid or invalid, but means that it has several types of dot patterns.
[0019]
For example, when N types of dot numbers are stored, N flashing cycles are stored in the flashing information storage unit. In the blinking control circuit, the contents of the blinking information storage unit are written, and a blinking control signal is output according to the read blinking number. Further, the dot switching circuit turns on the OSD image if the dot number indicates dot. If the dot number indicates astigmatism, the OSD image is made astigmatism. When it is always turned on, a certain blinking number may be stored in the blinking information so as to always turn on.
By performing such processing, it is possible to display the OSD image by changing the blinking cycle for each pixel of the OSD image without controlling the reading of the OSD image by a special method.
[0020]
An embodiment of an OSD processing apparatus according to the present invention will be described below with reference to the drawings.
Example 1
FIG. 2 is a block diagram showing the configuration of an embodiment of the OSD processing apparatus according to the present invention.
A color information storage unit 200, a mix information storage unit 201, a color number storage unit 202, a mix number storage unit 203, a color number conversion table unit 204, a mix number conversion table unit 205, and a CPU 206 that controls to read out the color number and the mix number 1, a multiplier 207 that multiplies the video image and the mix ratio 2 for the video image output from the mix number conversion table unit 205, and the OSD from the color number conversion table unit 204. The multiplier 208 that multiplies the color information by the OSD image mix ratio 1 from the mix number conversion table unit 205, the video image after multiplication by the multiplier 207, and the OSD color information after multiplication by the multiplier 208 are added. It is comprised from the arithmetic unit comprised by the adder 209. FIG.
[0021]
FIG. 3 is a block diagram showing an internal configuration of the mix number conversion table unit 205 of FIG.
Here, the color information storage unit 20 0, the color number Y values (luminance), Cr value (red color difference), the information for converting the Cb value (blue color difference) is, and the mix information storage unit 201 Stores information of a mix ratio 1 for multiplying the mix number by the OSD color information and a mix ratio 2 for multiplying the video image. The color number storage unit 202 stores color number information for each pixel, and the mix number storage unit 203 stores mix number information for each pixel.
Then, the mix number conversion table unit 205 writes the mix information stored in the mix information storage unit 201 to the registers 300 and 301, and switches the output register according to the mix number read from the mix number storage unit 203 to change the mix ratio 1 And mix ratio 2 is output.
[0022]
FIG. 4 is a diagram illustrating an example of an OSD image displayed in the present embodiment.
A description will be given of a case where such an OSD processing apparatus is used to display an OSD image as shown in FIG.
[0023]
FIG. 5 is a diagram showing color information stored in the color information storage unit 200 when the OSD image shown in FIG. 4 is displayed.
FIG. 6 is a diagram similarly showing mix information stored in the mix information storage unit 201.
Similarly, FIG. 7 is a diagram showing color number information for each pixel stored in the color number storage unit 202.
FIG. 8 is a diagram similarly showing mix number information for each pixel stored in the mix number storage unit 203.
[0024]
When the OSD image shown in FIG. 4 is displayed using the OSD processing apparatus of the present embodiment, the color information shown in FIG. 5 is converted into the color number conversion table section before the color number and the mix ratio of the OSD image are read. 204, and the mix information shown in FIG. 6 is written to the mix number conversion table unit 205.
Thereafter, the CPU 206 reads the color number information shown in FIG. 7 from the color number storage unit 202 into the color number conversion table unit 204 and converts it into color information.
At the same time, the CPU 206 reads the mix number shown in FIG. 8 from the mix number storage unit 203 to the mix number conversion table unit 205 and converts it into a mix ratio 1 and a mix ratio 2.
[0025]
Then, the multiplier 208 multiplies the mix ratio 1 from the mix number conversion table unit 205 by the color information from the color number conversion table unit 204, and the multiplier 207 multiplies the mix ratio 2 from the mix number conversion table unit 205 and the video image. When the result is added by the adder 209, the OSD image can be mixed with the video image with the desired color and the desired mix ratio.
[0026]
(Example 2)
FIG. 9 is a block diagram showing the configuration of another embodiment of the OSD processing apparatus according to the present invention.
The OSD processing apparatus of this embodiment includes a color information storage unit 900, a mix information storage unit 901, a color number storage unit 902, a mix number storage unit 903, a blinking information storage unit 904, a blinking flag storage unit 905, and a color number conversion table unit. 906, a mix number conversion table unit 907, a CPU 913 that controls to read out a color number, a mix number, and a blinking flag, and a multiplier 909 that multiplies the video image and the mix ratio 2 for the video image output from the mix number conversion table unit 907. A multiplier 910 that multiplies the OSD color information from the color number conversion table unit 906 by the OSD image mix ratio 1 from the mix number conversion table 205, a video image after multiplication by the multiplier 909, and a multiplier 910 The OSD color information after multiplication is switched by the blink control signal from the blink control circuit unit 908. It constituted by an adder 911 for adding through a flashing switch circuit 912 to be.
In this configuration, a flashing information storage unit 904, a flashing flag storage unit 905, a flashing control circuit unit 908, and a flashing switching circuit 912 are further added to the configuration of the first embodiment.
[0027]
FIG. 10 is a block diagram showing a detailed configuration of the blinking control circuit unit 908 in FIG.
The blinking information storage unit 904 stores information indicating that blinking and astigmatism are repeated every N fields if the blinking flag is valid (1) so that blinking display is not performed if the blinking flag is invalid (0). Is stored.
[0028]
Then, in the blinking control circuit unit 908 shown in FIG. 10, the contents of the blinking information storage unit 904 are written, and a pulse is generated every N fields from the programmable N-ary counter 1001 counted by the vertical synchronization signal. The flop 1002 toggles every time a pulse is input. If the dot-on flag of the read pixel is valid, the selector 1003 inputs the output of the toggle flip-flop 1002, and if it is invalid, “1”, which means that the OSD image is turned on. input.
Further, a parameter for determining whether or not the blinking function can be used for the entire OSD image is set by the CPU. This function is for the selector 1004 to cut off the output of the selector 1003 and always turn on the OSD regardless of the flashing information and the flashing number if the flashing function cannot be used.
[0029]
FIG. 11 is a diagram illustrating an example of an OSD image displayed in the OSD processing apparatus according to the present embodiment.
FIG. 12 is a diagram showing blink information stored in the blink information storage unit 904 when the OSD image shown in FIG. 11 is displayed.
FIG. 13 is a diagram similarly showing blink flag information stored in the blink flag storage unit 905.
[0030]
When the OSD processing apparatus of this embodiment is used, when displaying an OSD image as shown in FIG. 11, the color information shown in FIG. 5, the mix information shown in FIG. 6, the color number shown in FIG. In addition to the mix number shown in FIG. 8, if the blink information shown in FIG. 12 is stored in the blink information storage unit 904 and the blink cycle shown in FIG. Without controlling the mix number, it is realized that the pixels of the OSD image are read out sequentially and repeatedly to blink partially.
[0031]
(Example 3)
FIG. 14 is a block diagram showing the configuration of still another embodiment of the OSD processing apparatus according to the present invention.
The OSD processing apparatus of this embodiment includes a color information storage unit 1400, a mix information storage unit 1401, a color number storage unit 1402, a mix number storage unit 1403, a blinking information storage unit 1404, a blinking number storage unit 1405, and a color number conversion table unit. 1406, a mix number conversion table unit 1407, a CPU 1413 that controls to read out a color number, a mix number, and a blinking flag, and a multiplier 1409 that multiplies the video image and the mix ratio 2 for the video image output from the mix number conversion table unit 1407. A multiplier 1410 that multiplies the OSD color information from the color number conversion table unit 1406 and the OSD image mix ratio 1 from the mix number conversion table 1407, a video image after multiplication by the multiplier 1409, and a multiplier 1410. The OSD color information after multiplication by the blink control circuit unit 140 The adder 1411 adds through the blinking switch circuit 1412 is switched by blinking control signal from the constructed.
[0032]
In this example, the flashing flag storage unit 905 in the second embodiment is replaced with a flashing number storage unit 1405, and the flashing number storage unit 1405 stores field period information corresponding to the flashing number.
When the blinking number is 0, this field period information is always turned on and does not display blinking. When the blinking number is 1, the N0 field is turned on and then the N0 field is turned off repeatedly. Similarly, when the blinking number is 2, the N1 field is turned on and then the N1 field is turned off repeatedly. Similarly, if the blinking number is 3, the N2 field is turned on and then the N2 field is turned off repeatedly.
[0033]
FIG. 15 is a block diagram showing a detailed configuration of the blinking control circuit unit 1408 in FIG.
The blinking control circuit unit 1408 is configured to select the blinking control signal corresponding to the blinking number from a plurality of blinking control signals according to the blinking information. In addition, a blinking function ON / OFF signal is provided so that the entire OSD image can be turned on regardless of the blinking number, and the OSD image can be turned on constantly by setting parameters from the CPU. . Detailed description is omitted because it is common to the operation of the configuration shown in FIG.
[0034]
FIG. 16 is a diagram illustrating an example of an OSD image displayed in the OSD processing apparatus according to the present embodiment.
FIG. 17 is a diagram showing the blink information stored in the blink information storage unit 1404 when the OSD image shown in FIG. 16 is displayed.
FIG. 18 is a diagram showing blinking number information stored in the blinking number storage unit 1405 when the OSD image shown in FIG. 16 is displayed.
[0035]
In order to display the OSD image of FIG. 16 using such an OSD processing device, in addition to the color information of FIG. 5, the mix information of FIG. 6, the color number of FIG. 7, and the mix number of FIG. 17 and the flashing number as shown in FIG. 18 are stored in the flashing information storage unit 1404 and the flashing number storage unit 1405, the pixels of the OSD image are sequentially repeated. By reading out, it is possible to blink differently for each pixel.
[0036]
【The invention's effect】
According to the present invention, when an attempt is made to mix at a different mix ratio between adjacent pixels, the video image and the video image are changed at different ratios by designating the pixel mix number to an appropriate one without rewriting the parameters. It is possible to mix OSD images, and it is possible to generate a mix image of a video image and an OSD image at various mix ratios by simply reading out the OSD image. Therefore, it is easy to mix the video image and the OSD image at different mix ratios without performing complicated control such as parameter change between adjacent pixels.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main configuration of an OSD processing apparatus according to the present invention.
FIG. 2 is a block diagram showing a configuration of an embodiment of an OSD processing apparatus according to the present invention.
3 is a block diagram showing an internal configuration of a mix number conversion table unit 205 in FIG. 2. FIG.
FIG. 4 is a diagram illustrating an example of an OSD image displayed in the present embodiment.
5 is a diagram showing color information stored in a color information storage unit 200 when the OSD image shown in FIG. 4 is displayed. FIG.
6 is a diagram showing mix information stored in a mix information storage unit 201 when the OSD image shown in FIG. 4 is displayed. FIG.
7 is a diagram showing color number information for each pixel stored in a color number storage unit 202 when the OSD image shown in FIG. 4 is displayed. FIG.
8 is a diagram showing mix number information for each pixel stored in a mix number storage unit 203 when the OSD image shown in FIG. 4 is displayed. FIG.
FIG. 9 is a block diagram showing the configuration of another embodiment of the OSD processing apparatus according to the present invention.
10 is a block diagram showing a detailed configuration of a blinking control circuit unit 908 in FIG. 9. FIG.
FIG. 11 is a diagram illustrating an example of an OSD image displayed in the OSD processing apparatus according to the present embodiment.
12 is a diagram illustrating blink information stored in a blink information storage unit 904 when the OSD image illustrated in FIG. 11 is displayed.
13 is a diagram showing blink flag information stored in a blink flag storage unit 905 when the OSD image shown in FIG. 11 is displayed.
FIG. 14 is a block diagram showing a configuration of still another embodiment of the OSD processing apparatus according to the present invention.
15 is a block diagram showing a detailed configuration of a blinking control circuit unit 1408 in FIG.
FIG. 16 is a diagram illustrating an example of an OSD image displayed in the OSD processing apparatus according to the present embodiment.
17 is a diagram showing blink information stored in a blink information storage unit 1404 when the OSD image shown in FIG. 16 is displayed.
18 is a diagram showing blinking number information stored in a blinking number storage unit 1405 when the OSD image shown in FIG. 16 is displayed.
[Explanation of symbols]
100, 200, 900, 1400 ... color information storage unit, 101, 201, 901, 1401 ... mix information storage unit, 102, 202, 902, 1402 ... color number storage unit, 103, 203, 903, 1403 ... mix number storage , 104, 204, 906, 1406 ... color number conversion table, 105, 205, 907, 1407 ... mix number conversion table, 106, 206, 913, 1413 ... CPU, 107 ... arithmetic circuit, 207, 208, 909 , 910, 1409, 1410 ... multipliers, 209,911,1411 ... adders, 300,301 ... registers, 302,303,1003,1004,1503,1504 ... selectors , 903,1403 ... mix number storage units, 904 1404... Flashing information storage unit, 905... Flashing flag storage unit, 908, 1408 ... flashing control circuit unit, 1001, 1501 ... programmable N-ary counter, 1002, 1502 ... toggle flip-flop (T-FF), 912, 1412 ... flashing switching circuit, 1405 ... flashing number storage unit.

Claims (1)

In order to realize an on-screen display function for displaying an OSD (0n Screen Display) image such as characters and graphics on a video image such as a television or video , color information is associated with the color number of the OSD image. Color information storage means for storing, mix information storage means for storing the OSD image mix ratio 1 and the video image mix ratio 2 in correspondence with the mix number of the OSD image, and the color number for each pixel of the OSD image to be displayed Color number storage means for storing the OSD image, mix number storage means for storing the mix number for each pixel of the OSD image to be displayed , and the color number and mix number of the OSD image from the color number storage means and the mix number storage means. reading means for reading out for every pixel, respectively, by referring to the color information storage means, to convert the read color number to color information A color number conversion means, by referring to the mix information storage means, the read mix numbers, and mix number conversion means for converting the mix ratio 2 Mix Ratio 1 and the video image of the OSD image, a video image Multiply the color information converted by the color number conversion means by the mix ratio 2 and the mix ratio 1, respectively, and add the multiplication results to generate a mix image that mixes the video image and the OSD image And an OSD processing device characterized by comprising an arithmetic means for performing the processing.

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