JP4102048B2 - Video display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a video display apparatus that displays two videos alternately.
[0002]
[Prior art]
In DJ scenes such as dance floors, the video display device as described above is used to provide video replacement effects for video displayed on the screen at a timing that matches the tempo of dance music and the scene of music. While replacing. As an effect on video replacement, for example, a slide-in in which another video enters from the edge of the screen on the video displayed on the screen, and the other video gradually appears on the video displayed on the screen. There is an effect.
[0003]
[Problems to be solved by the invention]
In a video display device that replaces while providing an effect such as a slide-in, if a replacement that provides an effect on the video replacement is performed after the replacement that provides the slide-in effect is completed, the video display device enters by slide-in. The video goes out to the edge of the screen and the original video gradually appears from the bottom of the video. For this reason, on the screen, the same video appears to move forward and backward in the screen, the video display tends to be monotonous, and is far from rhythmic video replacement according to the music.
[0004]
In view of the circumstances described above, an object of the present invention is to provide a video display device capable of performing video display rich in change.
[0005]
[Means for Solving the Problems]
The video display device of the present invention that achieves the above object is a video display device that alternately displays two videos.
A video display screen for displaying video;
On the video display screen, two display frames, a first display frame and a second display frame, each displaying a video are displayed, and the first display frame is fixed on the video display screen. A display video replacement unit that replaces the video on the video display screen by moving the second display frame at
The display video replacement unit replaces the video displayed in the first display frame and the video displayed in the second display frame at the end of the video replacement, and newly starts replacement of the video on the video display screen. It is characterized by being.
[0006]
In the video display device of the present invention, the video moving on the video display screen is replaced every time the video is replaced by the display video replacement unit as described above, so that it is possible to perform a video display rich in change.
[0007]
In the video display device of the present invention, the video display device further comprises a replacement instruction operator for instructing replacement of the video displayed on the video display screen.
The display image replacement unit replaces the image displayed on the first display frame and the image displayed on the second display frame every time the replacement instruction operator is operated, on the image display screen. An image may be replaced.
[0008]
By operating such a replacement instruction operator, the video displayed in the first display frame and the video displayed in the second display frame are automatically switched.
[0009]
Further, in the video display device of the present invention, the video display device includes replacement time setting means for setting a time from the start of replacement to the end of replacement of the video displayed on the video display screen,
The display video replacement unit replaces the video displayed on the video display screen over the time set by the replacement time setting means when replacing the video displayed on the video display screen. May be.
[0010]
By setting the time from the start of replacement to the end of replacement by the replacement time setting means to a different time, video replacement with different impressions can be performed.
[0011]
Furthermore, the video display device of the present invention includes a control operator that outputs a control signal corresponding to the operation amount,
The display video replacement unit replaces the video displayed on the video display screen by receiving the operation of the control operator and moving the second display frame by an amount corresponding to the operation amount of the control operator. The mode which is what to do may be sufficient.
[0012]
According to such an aspect, since the person who operates the control operator can freely determine the amount of movement of the second display frame on the video display screen, the person who operates the control operator The video replacement can be performed at a timing of its own preference while freely moving the second display frame on the video display screen.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[0014]
FIG. 1 is a hardware configuration diagram of an embodiment of a video display device of the present invention.
[0015]
The video display device 1 of the present embodiment is a device that alternately displays two videos and displays the video on the display screen according to an instruction from the main body unit 10 and the main body unit in terms of appearance configuration. And a video display unit 20 for display.
[0016]
The main body 10 stores a CPU 110 that executes various programs, a storage area for data that is referred to by programs executed by the CPU 110, a RAM 120 that is used as a work area for the programs, and various programs and data. A ROM 130 is provided.
[0017]
The main body 10 also includes a video input first terminal 141, a video input second terminal 142, a frame buffer RAM 150, an FPGA (Field Programmable Gate Array) 160, a video encoder 170, and a video output terminal 180. A video signal representing a video is input to each of the video input first terminal 141 and the video input second terminal 142. The frame buffer RAM 150 temporarily stores data representing video signals input to the video input first terminal 141 and the video input second terminal 142, respectively. The FPGA 160 reads the above data from the frame buffer RAM 150, and gives video (hereinafter referred to as A video) and video input based on the video signal input to the video input first terminal 141 while giving an effect on video replacement described later. A video signal that replaces a video (hereinafter referred to as a B video) based on the video signal input to the second terminal 142 is generated. The video encoder 170 converts the video signal generated by the FPGA 160 into a video signal suitable for the video display unit 20. The video output terminal 180 outputs the video signal converted by the video encoder 170 toward the video display unit 20.
[0018]
Furthermore, the main body unit 10 includes an operator group 190 that is a collection of various operators.
[0019]
Note that the CPU 110, the RAM 120, the ROM 130, the FPGA 160, and the operating element group 190 included in the main body 10 shown in FIG. 1 are connected to each other by a bus 200.
[0020]
FIG. 2 is a diagram illustrating a front view of the main body of the video display device according to the present embodiment.
[0021]
As shown in FIG. 2, a video input first terminal 141, a video input second terminal 142, and a video output terminal 180 are arranged on the upper surface of the main body 10. The other end of a cable (not shown) having one end connected to the video display unit 20 is connected.
[0022]
Further, as shown in FIG. 2, a part of the operator group 190 shown in FIG. 1 is provided on the front panel 10 a of the main body 10. The front panel 10a is provided with a control operator 191, a switching start operator 192, a set of switching order designation operators 193, and six pattern selection operators 194.
[0023]
The control operator 191 is a slider-type operator that is moved left and right within a predetermined operation area 191a, and outputs a control signal corresponding to the operation amount to the FPGA 160 shown in FIG.
[0024]
Here, the video display device 1 has an operation mode and a setting mode. In the operation mode, two image replacement modes of an automatic operation mode and a manual operation mode are prepared. The automatic operation mode is a mode in which the A image and the B image are replaced while automatically providing an effect on image replacement described later when the switching start operator 192 is pressed. On the other hand, the manual operation mode is a mode in which the A image and the B image are replaced while giving an effect on the image replacement by an amount corresponding to the operation amount of the operation of the control operator 191. The setting mode is a mode for setting conditions for video replacement.
[0025]
One set of switching order designating operators 193 is composed of a set of an operator marked “A” and an operator marked “B”. An A video is assigned to the operator marked “A”, and a B video is assigned to the operator marked “B”. One set of such switching order designation operators 193 designates whether to replace A video with B video or B video with A video at the start of replacement as one condition for video replacement. When the operator labeled “A” is pressed, it is specified that the B video is replaced with the A video at the start of replacement, and the operator labeled “B” is pressed. Then, on the contrary, it is specified that the A video is replaced with the B video at the start of the replacement.
[0026]
Each of the six pattern selection operators 194 is an operator that designates what kind of image replacement effect is to be applied while replacing the A image and the B image. Numbers 1 to 6 are indicated. ing. In the video display device according to the present embodiment, the fixed display frame fixed on the display screen on the display screen of the video display unit 20 (first described in the present invention), regardless of any video replacement effect. Display frame) and a moving display frame (second display frame in the present invention) that moves on the fixed display frame are displayed. When the pattern selection operator 194 with “1” or the pattern selection operator 194 with “2” is pressed, both the A video and the video replacement effect such as slide-in from the side are provided. It is designated to replace B video. Here, with reference to FIG. 3, the effect on the video replacement such as the slide-in from the side in the manual operation mode of the video display device 1 will be described.
[0027]
FIG. 3 is a diagram for explaining the effect on the video replacement such as the slide-in from the side in the manual operation mode of the video display device of the present embodiment.
[0028]
FIG. 3 shows a total of eight diagrams from a diagram number (a) to a diagram number (h). Each diagram has a control operator 191 shown in FIG. 2 and its control operator 191. FIG. 6 is a diagram showing a video displayed on the display screen 20a of the video display unit according to the state of the screen, and a fixed display frame 201 and a moving display frame 202 are shown on the display screen 20a. Moreover, the arrow P shown on the control operator 191 in each figure indicates the operation direction of the control operator 191. Note that this arrow P indicates the same thing in FIGS. 4 to 7 used in the following description. Further, a left predetermined position P1 is provided at a predetermined position in front of the left end of the operation area of the control operator 191, and a right predetermined position P2 is provided at a predetermined position in front of the right end. The left predetermined position P1 and the right predetermined position P2 are written in the operation area of the control operator 191 in the figure. Furthermore, it represents that the white image displayed on the display screen 20a of each figure from (a) to (h) in FIG. 3 appears to be displayed on the same shaded image. ing. The relationship between the white background image and the shaded image is the same in FIGS. 4 to 7 used in the description to be described later.
[0029]
FIG. 3 shows a state in which the operation state of the control operation element 191 changes in alphabetical order of the figure number. The B image is first replaced with the A image, and then the replaced A image is again displayed. The state until the original B video is replaced and the B video starts to be replaced with the A video again is shown. When the B video is replaced with the A video, the B video is displayed in the fixed display frame 201 and the A video is displayed in the moving display frame 202. Conversely, when the A video is replaced with the B video, the A video is displayed in the fixed display frame 201 and the B video is displayed in the moving display frame 202.
[0030]
In the upper left corner (a) of FIG. 3, the control operator 191 is displayed after the switching order designation operator indicated by “A” in the set of switching order designation operators 193 shown in FIG. A display screen 20a immediately after being operated in the right direction is shown. In the example shown in FIG. 3, the control operator 191 immediately before being operated is located between the center of the operation area of the control operator 191 and a predetermined position P1 on the left side, and the display screen 20a in FIG. Appears as if a part of the A video is displayed on the B video. This is a display based on the position of the control operator 191 immediately before the operation. If the position of the control operator 191 immediately before the operation is the left end, the display screen 20a is displayed immediately after the operation of the control operator 191. B image is displayed on the entire surface. Each of the two (b) and (c) diagrams in the upper center of FIG. 3 shows the display screen 20a when the control operator 191 is operated in the right direction. A control signal corresponding to the operation amount is output from the control operator 191 to the FPGA 160. Upon receiving the control signal, the FPGA 160 displays the display by moving the moving display frame 202 by an amount corresponding to the operation amount of the control operator 191. The video displayed on the screen 20a is replaced. The display screen 20a from (a) to (c) shows that the A video enters from the left side of the screen on the B video and the A video gradually appears on the B video. The control operator 191 is moved further to the right end of the operation area by being further operated rightward from the position shown in FIG. When the control operator 191 is moved to the right end, the A video is displayed on the entire surface of the display screen 20a, and the replacement with the B video is completed. The upper right part (d) of FIG. 3 shows the display screen 20a when the operation direction of the control operator 191 operated up to the right end of the operation area is reversed and this time the operation is started to the left. 3, (e) to (g) shown in the lower part of FIG. 3 show a display screen 20a when the control operator 191 is further operated leftward. In the display screen 20a from (d) to (g), the B video before the replacement starts on the replaced A video from the right side of the screen, and the B video gradually appears on the A video. Although not shown, the control operator 191 is further operated leftward from the position shown in (g) and moved to the left end. When the operation control operator 191 is operated to the left end, the B video is displayed on the entire surface of the display screen 20a, and the replacement with the A video is completed. Further, (h) at the lower right end of FIG. 3 shows a display screen 20a when the operation direction of the control operator 191 operated to the left end is reversed again and started to operate rightward again. Although it is not yet understood on the display screen 20a of (h), the display screen 20a shows a state where the A video appears to enter from the left side of the screen on the B video.
[0031]
Both the pattern selection operator with “1” and the pattern selection operator with “2” replace the A image and the B image while giving the above-described image replacement effect to the FPGA 160. In the manual operation mode, the time from the start of replacement of the video to the end of replacement is a time corresponding to the operation speed of the control operator 191. On the other hand, in the automatic operation mode, the time from the start of replacement to the end of replacement is longer when the pattern selection operator marked “1” is being pressed and when the pattern selection operator marked “2” is pressed. It is shorter than when is pressed. That is, in the automatic operation mode, the movement when the pattern selection operator marked with “1” is pressed is less than when the pattern selection operator marked with “2” is pressed. Even if the moving speed of the display frame 202 is fast and the video with the same effect on video replacement is given, the impression received by the viewer is different. Accordingly, in the automatic operation mode, a set of a pattern selection operator marked with “1” and a pattern selection operator marked with “2” becomes a means for setting the time from the start of replacement to the end of replacement. . In the manual operation mode, the image replacement is performed any number of times in accordance with the operation of the control operator 191. In the automatic operation mode, the image replacement is automatically ended when the image replacement is performed twice in succession. To do.
[0032]
When the pattern selection operator with “3” is pressed, it is designated to replace the A image and the B image while providing an effect on image replacement such as slide-in from above or below. When the pattern selection operator with “4” is pressed, it is designated to replace the A video and the B video while providing an effect on video replacement such as sliding in from an oblique direction. Here, the effects on the video replacement in the manual operation mode will be described with reference to FIGS.
[0033]
FIG. 4 is a diagram for explaining an effect on video replacement such as slide-in from above in the manual operation mode of the video display device of this embodiment, and FIG. 5 is a manual view of the video display device of this embodiment. It is a figure for demonstrating the effect on image replacement, such as the slide-in from diagonally lower left, in operation mode.
[0034]
4 and FIG. 5, after the switching order designation operator indicated by “B” in the set of switching order designation operators 193 shown in FIG. 2 is pressed, the control operation shown in FIG. 2 is performed. A display screen 20a when the child 191 is operated rightward is shown. Also on these display screens 20a, a fixed display frame 201 and a moving display frame 202 are shown in the same manner as in each drawing of FIG. In both FIG. 4 and FIG. 5, the A video is displayed in the fixed display frame 201, and the B video is displayed in the moving display frame 202.
[0035]
The display screen 20a shown in FIG. 4 shows an image in which the B image appears to enter from above the screen on the A image. Further, the display screen 20a shown in FIG. 5 shows an image in which the B image appears to enter from the diagonally lower left of the screen on the A image. When the control operator 191 is operated in the direction of the arrow P in FIGS. 4 and 5, the A image appears to enter further downward (see arrow M in FIG. 4). 5, the A image appears to enter further diagonally to the upper right (see arrow M in FIG. 5), and when the control operator 191 is moved to the right end, it is shown in FIG. 4 and FIG. 5 respectively. The entire surface of the display screen 20a is a B image. That is, in any slide-in, the video displayed on the display screen 20a is replaced from the A video to the B video. Although not shown, when the control operator 191 moved to the right end is operated in the left direction (the direction opposite to the arrow P in FIGS. 4 and 5), B is displayed on the fixed display frame 201. The video is displayed, the A video is displayed in the moving display frame 202, and the A video before the replacement starts on the replaced B video in the case of FIG. 4 from the lower part of the screen, and in the case of FIG. In any case, the A image appears to gradually appear on the B image, and when the control operator 191 is moved to the left end, the entire surface of the display screen 20a becomes A. It becomes a picture. That is, in any slide-in, the video displayed on the display screen 20a is now replaced from the B video to the A video.
[0036]
When the pattern selection operator marked “5” is pressed, the A image and the B image are provided while providing an effect on the image replacement slightly different from the effect on the image replacement described with reference to FIGS. To be replaced. Also, when the pattern selection operator with “6” is pressed, the A video and the video replacement effect such as a swing, which is significantly different from the above video replacement effect, are added. It is designated to replace B video. Here, the effects on the video replacement in the manual operation mode will be described with reference to FIGS.
[0037]
FIG. 6 is a diagram for explaining the effect on the video replacement in the manual operation mode of the video display device of the present embodiment when the pattern selection operator with “5” is pressed. These are the figures for demonstrating the effect on three-dimensional video replacement, such as a swing, in the manual operation mode of the video display apparatus of this embodiment.
[0038]
6 and 7, after the switching order designation operator indicated by “B” in the set of switching order designation operators 193 shown in FIG. 2 is pressed, the control shown in FIG. 2 is performed. A display screen 20a when the operator 191 is operated rightward is shown. Similar to FIGS. 4 and 5, these display screens 20 a also show a fixed display frame 201 and a moving display frame 202. A video is displayed on the fixed display frame 201, and a moving display frame 202 is displayed on the moving display frame 202. Although the B video is displayed, the moving display frame 202 shown in each of FIGS. 6 and 7 is divided into left and right at the center for movement.
[0039]
In the display screen 20a shown in FIG. 6, the left half of the B video goes out to the left side of the screen and the right half goes out to the right side of the screen. An image that appears to gradually appear is shown. In the display screen 20a shown in FIG. 7, the left half of the B video rotates toward the back of the screen with the left end of the screen as the rotation axis, and the right half has the back of the screen with the right end of the screen as the rotation axis. An image that rotates toward the screen and appears to gradually appear from the bottom of the B image is shown. When the control operator 191 is operated in the direction of arrow P in FIGS. 6 and 7, in FIG. 6, the left half of the B image goes further to the left and the right half also goes to the right. 7 (see arrow M in FIG. 6). In FIG. 7, the left half of the B image is further rotated and the right half is further rotated (see arrow M in FIG. 6). Come. When the control operator 191 is moved to the right end, the entire surface of the display screen 20a shown in each of FIGS. 6 and 7 becomes A video. That is, in any case, the video displayed on the display screen 20a is replaced from the B video to the A video. Although not shown, when the control operator 191 moved to the right end is operated in the left direction (the direction opposite to the arrow P in FIGS. 6 and 7), B is displayed on the fixed display frame 201. In the case of FIG. 6, the left half of the replaced A video goes out to the left side of the screen and the right half is the right side of the screen. In the case of FIG. 7, the left half of the replaced A image rotates toward the back of the screen with the left end of the screen as the rotation axis, and the right half has the right end of the screen as the rotation axis. Rotating toward the back of the screen, in both cases, it appears that the B image before the replacement starts gradually appearing from the bottom of the A image, and when the control operator 191 is moved to the left end, the display screen 20a The entire surface is a B image. That is, in any case, the video displayed on the display screen 20a is now replaced from the A video to the B video.
[0040]
The effects on the video replacement described with reference to FIGS. 4 to 7 are in the manual operation mode, but are the same in the automatic operation mode. However, like the slide-in from the side described with reference to FIG. 3, in the manual operation mode, the image replacement is performed any number of times according to the operation of the control operator 191. When the video replacement is performed twice, the process is automatically terminated.
[0041]
Next, a main routine executed by the CPU of the video display device will be described with reference to FIG.
[0042]
FIG. 8 is a flowchart of a main routine executed by the CPU of the video display device of this embodiment.
[0043]
The main routine shown in FIG. 8 starts when the main power supply (not shown) of the video display device 1 of the present embodiment is turned on.
[0044]
When the main power is turned on, first, the video display device 1 is initially set (step S1). Next, it is determined whether or not the video display device 1 has shifted to the operation mode (step S2). This determination is made based on whether any one of the control operator 191 and the switching start operator 192 is operated. If none of the operators 191 and 192 is operated, it is determined that the operation mode has not been changed, and it is then determined whether or not the operation mode has been changed (step S3). The determination in step S3 is made based on whether or not any one of the pair of switching order specifying operators 193 and the six pattern selection operators 194 has been operated. If any one of the operators is operated, it is determined that the mode has been changed to the setting mode, a processing routine for the setting mode described later is executed (step S4), and it is then determined whether or not the operation is finished (step S5). . The determination in step S5 ends when the main power is turned off, and returns to step S2 if the main power remains on. Further, when it is determined in step S3 that the mode has not been shifted to the setting mode, that is, any one of the set of switching order specifying operators 193 and the six pattern selection operators 194 is not operated. In this case, the process returns to step S2. On the other hand, if it is determined in step S2 that the operation mode has been entered, that is, if either one of the control operator 191 and the switching start operator 192 is operated, the operation is now performed. It is determined whether or not the automatic operation mode is selected from the modes (step S6). The determination in step S6 is made based on whether or not the switching start operator 192 has been operated. When the switching start operator 192 is operated, it is determined that the operation mode has been shifted to the automatic operation mode, and the FPGA 160 shown in FIG. 1 is instructed to execute a processing routine of an automatic operation mode described later (step S7). The process proceeds to step S5. On the other hand, when the switching start operator 192 is not operated, it is determined that the manual operation mode has been entered, and the FPGA 160 shown in FIG. 1 is instructed to execute a processing routine for the manual operation mode described later (step S8). ), Go to step S5.
[0045]
Next, a setting mode processing routine executed by the CPU 110 in step 4 of the main routine will be described with reference to FIG.
[0046]
FIG. 9 is a flowchart of a setting mode processing routine executed by the CPU of the video display apparatus according to the present embodiment.
[0047]
In the processing routine of this setting mode, the CPU 110 shown in FIG. 1 sets video replacement conditions in the FPGA 160 in accordance with the operation of the switching order designation operator 193 and the pattern selection operator 194 (step S11). That is, when an operator indicated by “A” in one set of switching order designation operators 193 is pressed, the CPU 110 causes the FPGA 160 to replace the B image with the A image at the start of replacement (FIG. 3 ( a) is set, and when the operator labeled “B” is pressed, the CPU 110 sets the FPGA 160 to replace the A image with the B image at the start of replacement (see FIGS. 4 to 7). To do. When any one of the six pattern selection operators 194 is pressed, the CPU 110 gives the FPGA 160 any of the image replacement effects described with reference to FIGS. However, it is set to generate a video signal representing a video that replaces the A video and the B video. When such step S11 is executed, the processing routine of this setting mode ends.
[0048]
Next, the processing routine of the automatic operation mode instructed to be executed in step 7 of the main routine shown in FIG. 8 will be described with reference to FIG.
[0049]
FIG. 10 is a flowchart of a processing routine in an automatic operation mode executed by the FPGA of the video display apparatus according to the present embodiment.
[0050]
When the FPGA 160 executes this automatic operation mode processing routine in response to an instruction from the CPU 110, two video replacements are automatically displayed on the display screen of the video display unit 20 shown in FIG. First, the FPGA 160 generates a video signal representing a video for which the first replacement is performed (step S21). In other words, it represents a video in which one of the videos is replaced with the other in accordance with the operation of the switching order specifying operator 193 while giving the effect on the video replacement according to the operation of the pattern selection operator 194. Generate a video signal. In the generation of the video signal, one of the videos is displayed on the fixed display frame, and the other video is displayed on the moving display frame. Next, the video displayed in the fixed display frame and the video displayed in the moving display frame are switched (step S22). Subsequently, a video signal representing a video to be subjected to the second replacement is generated (step S23). In other words, the video signal of the video that replaces the video after replacement displayed by executing step S21 with the video before replacement while giving the effect on video replacement according to the operation of the pattern selection operator 194. Is generated. Since the video of the fixed display frame and the video of the moving display frame are interchanged in the previous step S22, the video moved in the first replacement is fixed and the video fixed in the first replacement is moved in step S23. To replace the video on the display screen. Therefore, in the first video replacement and the second video replacement, the video moving on the display screen is different, and a video display rich in change can be performed. When step S23 is executed, the processing routine in the automatic operation mode ends. If the video replacement is performed twice in this way, the processing routine in the automatic operation mode may not be terminated, but the video replacement may be performed three or more times.
[0051]
Next, the processing routine of the manual operation mode instructed to be executed in Step 8 of the main routine shown in FIG. 8 will be described using FIG.
[0052]
FIG. 11 is a flowchart of the processing routine in the manual operation mode executed by the FPGA of the video display apparatus according to the present embodiment.
[0053]
In the manual operation mode processing routine executed by the FPGA 160 in response to the instruction from the CPU 110, the left predetermined position P1 provided in front of the left end of the operation area of the control operator 191 and the right end front shown in each drawing of FIG. The right-side predetermined position P2 provided in is used. Further, a P flag is used to indicate the relationship between the position of the control operator 191 and the left predetermined position P1 and the right predetermined position P2. In the following description, FIG. 11 is used and FIG. 3 is referred to as necessary.
[0054]
First, it is determined whether or not the position of the control operator 191 has exceeded the right predetermined position P2 as a result of the control operator 191 being operated in the right direction (step S31). If the right predetermined position P2 is not yet exceeded as shown in FIG. 3B, or if the right predetermined position P2 is exceeded as a result of being operated leftward as shown in FIG. Determines whether or not the position of the control operator 191 has exceeded the left predetermined position P1 as a result of the control operator 191 being operated in the left direction (step S32). As shown in FIG. 3E, when the left predetermined position P1 has not been exceeded yet, or when the left predetermined position P1 has been exceeded as a result of being operated rightward, the operation direction of the control operator 191 is further changed. It is determined whether or not it has been reversed (step S33). If the operation direction is not inverted, a video signal representing a video to which an effect on the video replacement set in the processing routine of the setting mode shown in FIG. 9 is given is generated (step S34). In this step S34, a video signal representing a video in which the moving display frame 202 moves by an amount corresponding to the operation amount of the control operator 191 is generated on the display screen 20a. Therefore, in the manual operation mode in the video display device 1, the person who operates the control operator 191 can freely determine the amount of movement of the second display frame 202 on the display screen 20a. Therefore, the person who operates the control operator 191 can perform video replacement at his / her favorite timing while freely moving the second display frame 202 on the display screen 20a.
[0055]
On the other hand, if it is determined in step S31 that the position of the control operator 191 has exceeded the right predetermined position P2 (see FIG. 3C), the P flag is set (step S35). If it is determined in step S32 that the position of the control operator 191 exceeds the left predetermined position P1 (see FIG. 3G), the process proceeds to step S35 and the P flag is set. Furthermore, if it is determined in step S33 that the operation direction of the control operator 191 has been reversed (see (c) to (d), (g) to (h) in FIG. 3), the P flag is set. It is determined whether it is set (step S36). If not set, the process proceeds directly to step S34. On the other hand, if the P flag is set, the video displayed in the fixed display frame 201 and the video displayed in the moving display frame 202 are switched (step S37), and then the P flag is reset (step S38). ), And proceeds to step S34. Therefore, in the manual operation mode in this video display device, the video in the fixed display frame 201 and the video in the moving display frame 202 are alternated every time the video is replaced, so that a video display rich in change can be performed.
[0056]
In the video display device according to the present embodiment described above, the five types of video replacement effects described with reference to FIGS. 3 to 7 can be provided. The present invention can also be applied to a video display device that can provide the above effects.
[0057]
【The invention's effect】
As described above, according to the video display apparatus of the present invention, it is possible to perform a video display rich in change.
[Brief description of the drawings]
FIG. 1 is a hardware configuration diagram of an embodiment of a video display device of the present invention.
FIG. 2 is a diagram illustrating a front view of a main body of the video display device according to the present embodiment.
FIG. 3 is a diagram for explaining an effect on video replacement such as slide-in from the side in the manual operation mode of the video display device of the present embodiment.
FIG. 4 is a diagram for explaining an effect on video replacement such as slide-in from above in the manual operation mode of the video display device of the present embodiment;
FIG. 5 is a diagram for explaining an effect on video replacement such as slide-in from diagonally lower left in the manual operation mode of the video display device of the present embodiment;
FIG. 6 is a diagram for explaining an effect on video replacement in the manual operation mode of the video display device of the present embodiment when a pattern selection operator marked with “5” is pressed.
FIG. 7 is a diagram for explaining an effect on three-dimensional video replacement such as swing in the manual operation mode of the video display device of the present embodiment.
FIG. 8 is a flowchart of a main routine executed by the CPU of the video display apparatus according to the present embodiment.
FIG. 9 is a flowchart of a setting mode processing routine executed by the CPU of the video display apparatus according to the present embodiment;
FIG. 10 is a flowchart of a processing routine in an automatic operation mode executed by the FPGA of the video display apparatus according to the present embodiment.
FIG. 11 is a flowchart of a processing routine in a manual operation mode executed by the FPGA of the video display apparatus according to the present embodiment.
[Explanation of symbols]
1 Video display device
10 Body
10a Front panel
110 CPU
120 RAM
130 ROM
141 Video input first terminal
142 Video input second terminal
150 frame buffer RAM
160 FPGA
170 Video encoder
180 Video output terminal
190 Operators
191 Control operator
192 Switching start operator
193 Switch order designation operator
194 Pattern selection operator
200 buses
20 Video display
20a Display screen
201 Fixed display frame
202 Moving display frame

Claims (2)

In an image display device that displays two images alternately replaced,
A video display screen for displaying video;
Two display frames, a first display frame and a second display frame, for displaying images on the image display screen, respectively, are displayed on the image display screen while the first display frame is fixed on the image display screen. A display video replacement unit that replaces the video on the video display screen by moving the second display frame in a predetermined first direction,
In the replacement, only the second display frame is displayed by moving the second display frame from the state where only the first display frame is displayed on the video display screen. Alternating the video displayed in one display frame and the video displayed in the second display frame and displaying only the first display frame on the video display screen;
Further, the second display frame is moved in a second direction that is opposite to the first direction from a state in which only the first display frame is displayed on the video display screen. After only two display frames are displayed, the video displayed in the first display frame and the video displayed in the second display frame are switched, and only the first display frame is displayed in the video. A video display device, characterized in that it can be displayed on a display screen and a replacement of a video on the video display screen can be newly started. In an image display device that displays two images alternately replaced,
A video display screen for displaying video;
Two display frames, a first display frame and a second display frame, for displaying images on the image display screen, respectively, are displayed on the image display screen while the first display frame is fixed on the image display screen. A display video replacement unit that replaces the video on the video display screen by moving the second display frame in a predetermined first direction,
In the replacement, only the first display frame is displayed by moving the second display frame from the state where only the second display frame is displayed on the video display screen. Alternating the video displayed in one display frame and the video displayed in the second display frame and displaying only the second display frame on the video display screen;
Further, the second display frame is moved in a second direction opposite to the first direction from a state in which only the second display frame is displayed on the video display screen. After only one display frame is displayed, the video displayed on the first display frame and the video displayed on the second display frame are switched, and only the second display frame is displayed on the video. A video display device, characterized in that it can be displayed on a display screen and a replacement of a video on the video display screen can be newly started.

Images