JP4097885B2 - Multi-screen display controller - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multi-screen display control apparatus that superimposes a child screen on a parent screen and performs multi-screen display.
[0002]
[Prior art]
In order to display two video data from two different interlaced sources, one as a parent screen and the other as a child screen, the video data from the child screen source is converted into an odd field memory (hereinafter referred to as an odd field memory). , ODD field memory) and even field memory (hereinafter referred to as EVEN field memory) are alternately written, and the written data is read at the source timing of the parent screen. At this time, since there is no correlation (asynchronous) between the reading frequency of the parent screen and the writing frequency of the child screen, the field memory being written is read and updated depending on the timing of these two sources. There may be a phenomenon in which a screen in which the previous data and the updated data are mixed is displayed (hereinafter referred to as an overtaking phenomenon).
[0003]
Conventionally, a configuration as shown in FIG. 5 is known as a configuration for preventing the occurrence of such an overtaking phenomenon. In the figure, 14 is a filter for reducing an input image to be displayed as a sub-screen, 16 is two EVEN field memories (EVEN-A and EEV-B), and two ODD field memories (ODD-A and ODD-). B) is a field memory composed of four storage areas. 15 is a selection switch that selectively supplies input data to one of the four storage areas, and 17 is a selection switch that selects one of EVEN-A and EVEN-B, and one of ODD-A and ODD-B. , 18 is a selection switch that selects and outputs either EVEN field data or ODD field data in accordance with a read field determination signal from a read circuit side (not shown), and 19 is a read field determination signal and an input data supply circuit (not shown). The control circuit controls each selection switch in accordance with an input field discrimination signal from the side.
[0004]
Normally, writing of input data to each storage area is repeatedly performed in the order of ODD-A → EVEN-A → ODD-B → EVEN-B, and the control circuit 19 stores the data according to the table shown in FIG. Select an area. For example, during writing to the storage area ODD-A, if the read field determination signal is ODD, ODD-B is read. If the read field determination signal is EVEN, the next area to be written is EVEN-A. Considering the fact, EVEN-B is selected. Further, during the writing to the storage area EVEN-A, when the read field determination signal is EVEN, EVEN-B is read. When the read field determination signal is ODD, the area to be written next is ODD-B. Therefore, ODD-A is selected.
[0005]
In this way, the control circuit 19 preferentially selects a storage area with a longer time until writing is performed so that writing and reading do not overlap.
[0006]
[Problems to be solved by the invention]
Although the overtaking phenomenon can be prevented by the above-described conventional configuration, since it is necessary to store data for four fields, a large memory capacity is required as compared with a normal configuration for storing data for two fields. Data for three screens (three fields) ago may be displayed.
[0007]
It is an object of the present invention to provide a multi-screen display control device that can prevent the occurrence of the overtaking phenomenon only by storing data for two fields.
[0008]
[Means for Solving the Problems]
The multi-screen display control apparatus according to the present invention performs multi-screen display control for performing multi-screen display control for reducing and superimposing a video from an interlaced second video source on a video from an interlaced first video source. A device,
According to the supplied coefficient set, first reduced field data having the same field type is generated from the first field data constituting the video data of the second video source, and second field data having the same field type is generated from the second field data. Reduced filter for generating reduced field data, or generating second reduced field data having a different field type from the first field data, and generating first reduced field data having a different field type from the second field data When,
A first field memory and a second field memory;
Field memory selection for writing the first reduced field data output from the reduction filter into the first field memory and writing the second reduced field data output from the reduction filter into the second field memory Means,
Field memory reading means for selectively reading one of the first field memory and the second field memory in accordance with a read field determination signal synchronized with the first video source supplied from the outside;
Coefficient set supply means for determining the coefficient set supplied to the reduction filter;
Control means for controlling the coefficient set supply means, the field memory selection means, and the field memory read means;
The control means includes
When the video data of the second video source input to the reduction filter is the first field data and the field memory reading means is reading the first reduced field data from the first field memory, The coefficient set supply means is controlled to supply the coefficient set for generating the second reduced field data from the first field data to the reduction filter, and the generated second reduced field data is Controlling the field memory selection means to write to the second field memory;
When the video data of the second video source input to the reduction filter is the second field data and the field memory reading means is reading the second reduced field data from the second field memory, The coefficient set supply means is controlled so as to supply the coefficient set for generating the first reduced field data from the second field data to the reduction filter, and the generated first reduced field data is The field memory selection means is controlled to write to the second field memory.
The control means includes
When the video data input to the reduction filter is the first field data and the field memory reading means is reading the second reduction field data from the second field memory, the first field memory If the distance from the position of the read access pointer to the position of the write access pointer in the second field memory is smaller than a predetermined value, the second reduced field data is generated from the first field data and the second reduced field data is generated. Set the coefficient set to execute the process of writing to the field memory,
When the video data input to the reduction filter is the second field data and the field memory reading means is reading the first reduction field data from the first field memory, the second field memory If the distance from the position of the read access pointer to the position of the write access pointer in the first field memory is smaller than a predetermined value, the first reduced field data is generated from the second field data, and the first reduced field data is generated. The coefficient set can be set to execute processing to be written to the field memory .
[0009]
Moreover, the reduced filter is one of a plurality of even line data to generate the even line data, or to generate one odd line data from a plurality of odd line data, or from a plurality of even line data one It generates odd line data, it is possible to generate one of the even line data from a plurality of odd line data.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows the configuration of an embodiment of the multi-screen display control apparatus of the present invention. In the figure, 2 is a filter for reducing input data for display on a small screen, 3 is a coefficient set supply means for supplying a coefficient set to the reduction filter 2, 5 and 8 are field memory selection switches, 6 is an ODD field memory, 7 Is an EVEN field memory, and 9 is a control circuit for controlling the coefficient set supply means 3 and the field memory selection switches 5 and 8.
[0011]
FIG. 2 shows a circuit configuration of the filter 2. In the figure, 10 is a delay element such as a line memory for delaying input data by one line, 11 and 12 are multipliers, and 13 is an adder.
[0012]
The multiplier 11 multiplies the input data delayed by one line and the coefficient C ₀ , the multiplier 12 multiplies the input data and the coefficient C ₁ , and the adder 13 adds the outputs of the multipliers 11 and 12. Output.
[0013]
When the input data is reduced and the number of lines is halved, the coefficient C ₀ is 1 and the coefficient C ₁ is 0, or the coefficients C ₀ and C ₁ are both halved, and the filter 2 is Control is performed to repeat the operation of outputting continuously for two lines, then pausing for two lines, and outputting continuously for two lines. In this way, when the coefficient C ₀ is 1 and the coefficient C ₁ is 0, every other input line data is thinned out as reduced field data of the same field type as the input data as shown in FIG. Is output. On the other hand, when the coefficients C ₀ and C ₁ are both halved, the average data of two adjacent ODD line data is output as one EVEN line data as shown in FIG. In addition, the average value data of two adjacent EVEN line data is output as one ODD line data.
[0014]
That is, the filter 2 generates reduced field data of the same field type from the field data input according to the coefficient set supplied from the coefficient set supply means 3, or a different field type from the input field data. Generate reduced field data.
[0015]
Next, the operation of the apparatus having the above configuration will be described. Here, it is assumed that data has already been written in the field memories 6 and 7. When both the input field determination signal supplied from the child screen source side and the read field determination signal supplied from the parent screen source side are ODD, the image data input to the filter 2 is ODD field data and is read out. The memory to be recorded is the ODD field memory 6.
[0016]
In this case, the control circuit 9 controls the input ODD field data to be converted into EVEN field data and written into the EVEN field memory 7 in order to prevent the overtaking phenomenon. That is, the control circuit 9 controls the coefficient set supply unit 3 to supply the filter 2 with a coefficient set for generating EVEN line data from ODD line data. As described above, the filter 2 multiplies the input ODD line data and the preceding ODD line data delayed by the delay element 10 by 1/2, and adds them to generate EVEN line data. Here, since the reduction ratio is 1/2, this operation is performed once per two lines.
[0017]
Even when the input field discrimination signal and the read field discrimination signal are both EVEN, and the image data input to the filter 2 is EVEN field data, and the memory to be read is the EVEN field memory 7, the overtaking phenomenon occurs. In order to prevent this, the control circuit 9 controls the coefficient set supply means 3 to supply the filter 2 with a coefficient set for generating ODD line data from the EVEN line data, and the EVEN field data input in the same manner as described above. Data is converted and written into the ODD field memory 6.
[0018]
Further, when the input field determination signal is ODD and the read field determination signal is EVEN, the control circuit 9 performs control so that data is written in the field memory that is not accessed. That is, in this case, the control circuit 9 controls the coefficient set supply means 3 to supply the coefficient set for thinning out the ODD line data to the filter 2, whereby the ODD field data is reduced to ½ and stored in the ODD field memory 6. Written. As described above, the filter 2 operates as a thinning filter by operating once for two lines, and reduces the input image to ½.
[0019]
Even when the input field discrimination signal is EVEN and the read field discrimination signal is ODD, the control circuit 9 similarly controls the coefficient set supply means 3 to reduce the input data to ½ and EVEN that is not accessed. Write to the field memory 7.
In each of the above cases, when the filter is selected based on the input field determination signal and the read field determination signal and writing to the field memory is started, the read field determination signal may change due to a time delay. . In addition, the read field determination signal may change during writing to the field memory.
[0020]
Therefore, the control circuit 9 selects a filter and a field memory in consideration of not only the field discrimination signal but also the read position and write position in the field memory. For this reason, the control circuit 9 calculates the distance between the position of the read access pointer and the position of the write access pointer, and selects a filter and a field memory according to the distance.
[0021]
For example, even if the input field determination signal is ODD and the read field determination signal is EVEN, if the distance between the position of the access pointer and the position of the write access pointer is short, the overtaking phenomenon may occur during writing to the ODD field memory. The ODD field data is converted into EVEN field data by the filter 2 and written to the EVEN field memory 7.
[0022]
【The invention's effect】
According to the first aspect of the present invention, the memory of the field that is being written / updated is read without increasing the capacity of the field memory, and a screen in which data before update and data after update are mixed is displayed. Occurrence of the overtaking phenomenon can be prevented.
[0023]
According to the second aspect of the present invention, a plurality of even-numbered or odd-numbered line data can be converted into one line data of the same field type or different field types by interpolation.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an embodiment of a multi-screen display control apparatus of the present invention.
2 is a configuration diagram of a reduction filter of the multi-screen display control device of FIG. 1. FIG.
FIG. 3 is a diagram illustrating a thinning operation of a reduction filter.
FIG. 4 is a diagram illustrating a line conversion operation of a reduction filter.
FIG. 5 is a configuration diagram of a conventional multi-screen display control device.
FIG. 6 is a table for explaining the operation of a conventional multi-screen display control device.
[Explanation of symbols]
2 reduction filter, 3 coefficient set supply means, 5, 8 field memory selection switch, 6 ODD field memory, 7 EVEN field memory, 9 control circuit, 10 delay element, 11, 12 multiplier, 13 adder.

Claims (4)

In a multi-screen display control apparatus that performs multi-screen display control for reducing and superimposing a video from an interlaced second video source on a video from an interlaced first video source ,
According coefficient set supplied, the second to generate a first reduced field data is the same field type from the first field data constituting the video data of the video source is the same field type from the second field data 2 reduction filter either to generate a reduced field data, or to generate a second reduced field data is different fields type from the first field data, and generates a first reduced field data is different fields type from said second field data and,
A first field memory and a second field memory;
Field memory selection for writing the first reduced field data output from the reduction filter into the first field memory and writing the second reduced field data output from the reduction filter into the second field memory Means,
According readout field discrimination signal in synchronization with said first video source supplied from outside, a field memory reading means for reading selects one of said first field memory and said second field memory,
A coefficient set supplied means for determining the coefficient set supplied before SL reduction filters,
Control means for controlling the coefficient set supply means, the field memory selection means, and the field memory read means;
The control means includes
When the video data of the second video source input to the reduction filter is the first field data and the field memory reading means is reading the first reduced field data from the first field memory, The coefficient set supply means is controlled to supply the coefficient set for generating the second reduced field data from the first field data to the reduction filter, and the generated second reduced field data is Controlling the field memory selection means to write to the second field memory;
When the video data of the second video source input to the reduction filter is the second field data and the field memory reading means is reading the second reduced field data from the second field memory, The coefficient set supply means is controlled so as to supply the coefficient set for generating the first reduced field data from the second field data to the reduction filter, and the generated first reduced field data is The multi-screen display control apparatus, wherein the field memory selection means is controlled so as to be written into the second field memory . The control means includes
When the video data input to the reduction filter is the first field data and the field memory reading means is reading the second reduction field data from the second field memory, the first field memory If the distance from the position of the read access pointer to the position of the write access pointer in the second field memory is smaller than a predetermined value, the second reduced field data is generated from the first field data and the second reduced field data is generated. Set the coefficient set to execute the process of writing to the field memory,
When the video data input to the reduction filter is the second field data and the field memory reading means is reading the first reduction field data from the first field memory, the second field memory If the distance from the position of the read access pointer to the position of the write access pointer in the first field memory is smaller than a predetermined value, the first reduced field data is generated from the second field data and the first reduced field data is generated. Execute the process of writing to the field memory Set the coefficient set to
The multi-screen display control device according to claim 1. The reduced filter,
Generate one even line data from a plurality of even line data, or to generate one odd line data from a plurality of odd line data, Moshiku one odd from <br/> plurality of even line data It generates line data, the multi-screen display control device according to claim 1 or 2, characterized in that to generate one of the even line data from a plurality of odd line data. The reduction filter is
Generating one even line data from data of two adjacent even lines and generating one odd line data from two adjacent odd line data, or
One odd line data is generated from two adjacent even line data, and one even line data is generated from two adjacent odd line data.
The multi-screen display control device according to claim 1, wherein

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