JP6815181B2 - Video data transmission processing system - Google Patents

Description

The present invention is a video data processing system that performs processing when displaying video data by a 4K or 2K shooting device, in particular, 3D display or 2D display switching of video data by these shooting devices, and video. It relates to a video data transmission processing system capable of easily performing processing such as vertical / horizontal inversion of data.

Conventionally, especially in the medical market, there is a strong demand for 3D display of video data by an imaging device, and therefore, a 3D display system using two 2K cameras (imaging devices) has been widely used. In addition, in order to display in 3D, it is common to convert the synchronized images of two cameras with a 3D converter (Line by Line, Top and Bottom, Side by Side, etc.) and display them on a 3D display monitor. is there. Furthermore, the medical market is also required to record video data in 3D.

By the way, in the transmission processing of video data by a photographing device, a 2SI (2-sample interleaving) method is known as a transmission method compliant with the SDI standard for transmitting video data to the outside. That is, it is a method of transmitting in parallel by alternately allocating the pixels constituting one line of the video data to the two channels for each of the two adjacent pixels. Then, for example, Patent Document 1 employs a method in which odd-numbered lines are assigned to two channels and even-numbered lines are assigned to two other channels, and video data is transmitted in parallel on four channels. Further, Patent Document 2 discloses an image processing system using the transmission method disclosed in Patent Document 1, and aims to improve the efficiency of video data transmission processing.

JP-A-2009-130639 Japanese Unexamined Patent Publication No. 2016-36114

However, in the conventional system configuration, when a 3D display system is constructed using a 4K camera, there is no 3D converter for a 4K photographing device (camera), so that the 2K camera is used as shown in FIG. A large-scale system configuration using a plurality of 3D converters (4 in the figure) is required. It has also been pointed out that the frame delay of the entire system is at least about 2.5 frames.

Further, it is assumed that two 4K cameras and a 4K3D display monitor for displaying 3D are introduced in the processing system disclosed in Patent Document 2 by utilizing the transmission method disclosed in Patent Document 1. However, as described above, since a plurality of 3D converters for 2K cameras are required, the system configuration becomes large and the problem of frame delay cannot be solved.

The present invention is for solving the above-mentioned problems, and even if the video data generated by two 4K or 2K photographing devices (cameras) is displayed in 3D or 2D on a 4K3D display monitor. The purpose of the present invention is to provide a video data transmission processing system that does not become a large scale as a whole, can be easily controlled, and can significantly suppress frame delay.

In order to cope with the above-mentioned problems, the present invention takes the following technical measures.
That is, the invention according to claim 1 includes an L-shooting device and an R-shooting device for 4K shooting or 2K shooting, which are simultaneously arranged and coupled to each other for shooting side by side.
A data signal transmission unit that divides and transmits a video data signal generated by shooting with the L shooting device and the R shooting device, and
A mix switcher unit that performs processing under the following conditions (1) to (4) for the channel to which the data signal transmitted from the data signal transmission unit is assigned.
(1) When transmitting a data signal as a 4K3D video, two channels from an odd line out of the four channels to which the data signal divided by the 2SI method from the L shooting device for 4K shooting is assigned. Of the four channels to which the data signals divided by the 2SI method from the R imaging device for 4K imaging are assigned, the data signals are set as the four channels with the two channels from the even line as the bottom. (2) When transmitting a data signal as a 4K2D video, the four channels to which the data signal divided by the 2SI method from the L shooting device for 4K shooting is assigned, or for the 4K shooting. The data signal divided by the 2SI method from the R photographing device is transmitted as four channels to which the data signal is assigned. (3) When the data signal is transmitted as a 2K3D image, the L photographing device for 2K photographing is used. The data signal is set as four channels, with the two channels to which the divided data signals are assigned and the two channels to which the divided data signals from the R imaging device for 2K imaging are assigned are below. (4) When transmitting a data signal as a 2K2D video, the two channels to which the divided data signals from the L-shooting device for 2K shooting are assigned are placed above and below, or for the 2K shooting. the two channels divided data signals from the R imaging device is allocated to the top and bottom, accept the data signals of the four channels that are processed by the mix switcher unit for transmitting data signals as four channels, for processing As a result, a 4K3D display monitor device that displays video data based on the data signal, and
It is a video data transmission processing system characterized by being provided with.

The invention according to claim 2 is the video data transmission processing system according to claim 1, wherein the mix switcher unit refers to the data signal transmitted from the data signal transmission unit in the above (1) or ( When processing is performed under the condition of 3), the 4K3D display monitoring device alternately alternates between the data signal from the L photographing device and the data signal from the R photographing device, respectively, with an odd-line scanning line and It is characterized in that video data is displayed by video processing by a line-by-line method that is assigned to scanning lines of even lines.

The invention according to claim 3 is the video data transmission processing system according to claim 2, and the display surface of the 4K3D display monitoring device is a circle having different angles, alternating between odd-numbered lines and even-numbered lines. It is characterized by having a deflection filter attached.

The invention according to claim 4 is the video data transmission processing system according to any one of claims 1 to 3, wherein the mix switcher unit performs processing under the conditions of (1) or (3). In this case, when the inversion processing signal of the video data to be displayed by the 4K3D display monitor device is received, the two channels from the L photographing device and the two channels from the R photographing device are being processed. Is replaced with each other, and a process of transmitting a data signal as four channels is performed.

Further, the invention according to claim 5 is the video data transmission processing system according to any one of claims 1 to 4, and when the mix switcher unit receives a 3D / 2D switching signal, the above-mentioned ( It is characterized in that the processing is switched between the conditions 1) and (2), or the processing is controlled to be switched between the conditions (3) and (4). The invention according to claim 6 is the video data transmission processing system according to any one of claims 1 to 5, wherein the L-shooting device and the R-shooting device display images on the 4K3D display monitor device. When the zoom signal of the data is received, the zoom control is performed by the L shooting device and the R shooting device , and when the vertical / horizontal inversion signal of the video data of the video data to be displayed by the 4K3D display monitor device is received. The L photographing device and the R photographing device are characterized in that vertical / horizontal inversion control is performed.

The invention of claim 7, wherein, there is provided a video data transmission processing system according to any one of claims 1 to 6, accept the data signals of the four channels transmitted from the mix switcher unit, recording It is characterized in that it is equipped with a 4K recording device.

According to the present invention, video data in 4K / 2K shooting does not require special signal processing, and two left and right shooting devices are controlled by Genlock (synchronous coupling) for 2SI transmission (in the case of 4K shooting). As a result, 3D / 2D display can be performed on a small-scale system without any special image processing. Further, it is possible to significantly suppress the frame delay in the transmission of video data. Further, since 3D / 2D display switching, vertical / horizontal inversion of images, zoom shooting, and the like can be easily controlled, it is possible to meet the needs in the medical market.

The first embodiment of the video data transmission processing system according to the present invention is shown, (a) is a system configuration diagram, (b) is a transmission image of a data signal as a 4K3D video, and (c) is a 4K2D video. It is a transmission image of the data signal of. It is a figure which showed the image of the data division by the 2SI system in the 1st Embodiment of the video data transmission processing system which concerns on this invention. It is a conceptual diagram which showed the control of the mix switcher part in 1st Embodiment of the video data transmission processing system which concerns on this invention. The second embodiment of the video data transmission processing system according to the present invention is shown, (a) is a system configuration diagram, (b) is a transmission image of a data signal as a 2K3D video, and (c) is a 2K2D video. It is a transmission image of the data signal of. It is a figure which showed the image of the data division in the 2nd Embodiment of the video data transmission processing system which concerns on this invention. It is a conceptual diagram which showed the control of the mix switcher part in the 2nd Embodiment of the video data transmission processing system which concerns on this invention. It is a figure which showed the structure of the conventional 4K3D system.

A first embodiment of the video data transmission processing system according to the present invention will be described with reference to the drawings. FIG. 1 shows a first embodiment of a video data transmission processing system according to the present invention, (a) is a system configuration diagram, (b) is a transmission image of a data signal as a 4K3D video, and (c). Is a transmission image of a data signal as a 4K2D video, FIG. 2 is a diagram showing an image of data division by the 2SI method in the first embodiment of the video data transmission processing system according to the present invention, and FIG. 3 is a diagram. It is a conceptual diagram which showed the control of the mix switcher part in 1st Embodiment of the video data transmission processing system which concerns on this invention.

Regarding the code, 10 is a video data transmission processing system, 12 is an L imaging device, 14 is an R imaging device, 16 is a data signal transmission unit, 18 is a mix switcher unit, 20 is a 4K3D display monitor device, and 22 is a 4K recording device. 24 represents a foot switch.

First, as shown in FIG. 1, the video data transmission processing system 10 in the present embodiment includes the L-shooting device 12 and the R-shooting device 14 that are arranged side by side on the left and right and are shot in parallel with each other and are Genlocked (synchronically coupled). , The data signal transmission unit 16 that divides and transmits the video data signal generated by the imaging by the L imaging device 12 and the R imaging device 14 by the 2SI method, and the data signal transmitted from the data signal transmission unit 16 is processed. A 4K3D display monitor device 20 that displays video data by receiving and processing a data signal processed by the mix switcher unit 18 by a 2SI method is provided.

Then, in the present embodiment, the imaging by the L imaging device 12 and the R imaging device 14 is performed by 4K, and the mix switcher unit 18 sets the following conditions for the data signal transmitted from the data signal transmission unit 16. It is for processing.

That is, when transmitting a data signal as a 4K3D image, as shown in FIGS. 1 (a), 1 (b) and 2, the data signal divided by the data signal transmission unit 16 of the L photographing apparatus 12 by the 2SI method. Of the four channels assigned to, the two channels assigned from the odd lines are divided above (AL, BL in the figure) by the data signal transmission unit 16 of the R imaging device 14 in a 2SI manner. Of the four channels to which the assigned data signal is assigned, the data signal is transmitted as four channels with the two channels assigned from the even lines as the bottom (CR and DR in the figure). ..

Further, when transmitting a data signal as a 4K2D video, as shown in FIGS. 1 (a), 1 (c) and 2, the data signal divided by the 2SI method from the L photographing device 12 is assigned 4 The data signal is transmitted as one channel or as four channels to which the data signal divided by the 2SI method from the R photographing apparatus 14 is assigned.

Further, the video data transmission processing system 10 in the present embodiment is a mix switcher when transmitting a data signal as a 2K3D video and when transmitting data as a 2K2D video, as in the second embodiment described later. It is configured to perform predetermined control for each data signal by the unit 18 (details will be described in the second embodiment).

Subsequently, the video data transmission processing system 10 in the present embodiment will be described in detail. In the video data transmission processing system 10 of the present embodiment, as shown in FIG. 1, the L-shooting device 12 and the R-shooting device 14 that are Genlocked (synchronically coupled) to each other for shooting side by side on the left and right are respectively. I am using a camera for 4K shooting.

Further, the video data generated by the L-shooting device 12 and the R-shooting device 14 is transmitted by the data signal transmission unit 16 through the 3GSDI interface. At that time, in the present embodiment, as shown in FIG. 2, the data signal transmission unit 16 is controlled to be assigned to each of the four channels and divided and transmitted by the 2SI method.

Subsequently, in the present embodiment, the mix switcher unit 18 allocates data to the four channels from the L photographing device 12 and the four channels from the R photographing device 14 transmitted from the data signal transmission unit 16. Receive signals and process them. Specifically, when transmitting as 4K3D video, as shown in FIGS. 1 (a) and 1 (b), of the four channels of the L-shooting device 12, the two channels assigned from the odd-numbered lines are on the top. , The data signal is transmitted as four channels with the two channels assigned from the even-numbered lines as the bottom among the four channels of the R photographing apparatus 14 (see FIG. 2).

When transmitting as 4K2D video, as shown in FIGS. 1 (a) and 1 (c), either one of the four channels of the L photographing device 12 or the four channels of the R photographing device 14 is 4 Data signals are transmitted as one channel. As described above, the configuration of the present embodiment can easily control the switching between the 3D display and the 2D display.

By sending a switching signal of the photographing device that is generating the currently selected data signal to the mix switcher unit 18, for example, switching from the L photographing device 12 to the R photographing device 14 or R It is also possible to easily perform control such as switching from the photographing device 14 to the L photographing device 12.

Subsequently, in the present embodiment, the 4K3D display monitor device 20 capable of displaying video data based on the data signal by receiving and processing the data signal processed by the mix switcher unit 18 by the 2SI method is provided. It is equipped. The 4K3D display monitor device 20 is capable of 3D display and 2D display, but in the case of 3D display, the data signal by the L photographing device 12 is an odd line scanning line, and the data signal by the R photographing device 14 is an even line. The video data is displayed by video processing by the line-by-line method, which is assigned to the scanning lines of the above, or vice versa.

Further, in the present embodiment, since circular deflection filters having different angles are attached to the display surface (monitor screen) of the 4K3D display monitor device 20 alternately with odd-numbered lines and even-numbered lines, only 2SI input support is supported. As a 4K3D display monitor device 20, by using circularly deflected glasses without special signal processing or image processing, 4K high-definition 3D images can be easily achieved without reducing the horizontal resolution. You can watch it on. In the 2D display, viewing is easily possible regardless of the presence or absence of circularly deflected glasses.

Subsequently, when the mix switcher unit 18 receives the inversion processing signal of the video data to be displayed by the 4K3D display monitor device 20, when the video is 3D display, as shown in FIG. 3, the L photographing device 12 Of the four channels of, the two channels assigned from the odd line and the two channels assigned from the even line of the four channels of the R shooting device 14 are exchanged (L / R exchange). ), Controls the transmission of data signals as four channels.

In the medical field, the camera may take a picture through the lens optical system, but in that case, the image is flipped horizontally and vertically, but the image is left and right on the photographing device (12, 14) and the 4K3D display monitor device 20 side. It is easy to perform the vertical inversion process (especially, from the viewpoint of display speed, it is preferable to perform the inversion process on the photographing device side). However, when the reversing process is performed by the photographing device (12, 14), the left and right sides are optically switched. However, as in the present embodiment, the 4K3D display monitor device 20 is used for the mix switcher unit 18. If the inversion processing signal of the video data to be displayed is output, the processing is performed as described above, so that the 4K3D display monitor device 20 can easily observe in a normal image.

When the mix switcher unit 18 receives the inversion processing signal again, as shown in FIG. 3, of the four channels of the L photographing apparatus 12, two channels assigned from odd-numbered lines and R Of the four channels of the photographing device 14, the two channels assigned from the even-numbered lines are replaced again (L / R swapping), and then the data signal is transmitted as the four signals (channels). It will be.

Further, in the present embodiment, when the L photographing device 12 and the R photographing device 14 receive the zoom signal of the video data to be displayed by the 4K3D display monitor device 20, the zoom control is performed by adjusting the zoom lens or the like. Since it is configured, it is particularly useful in the medical field and the like as described above.

Further, in the present embodiment, as shown in FIG. 1, a 4K recording device that receives and records four channels transmitted from the data signal transmission unit 16 via the mix switcher unit 18 by the 2SI method (input). 22 is provided, and it is possible to record the video data after each of the above processes. Then, the video data recorded in the 4K recording device 22 can be displayed on the 4K3D display monitor device 20.

Further, in the present embodiment, the foot switch 24 is connected to the L photographing device 12, the R photographing device 14, and the mix switcher unit 18, respectively. The foot switch 24 can be operated by a foot, and sends a signal for performing zoom control and a signal for performing vertical / horizontal inversion control of video data to the L photographing device 12 and the R photographing device 14. In this case, it is used when sending a switching signal of 3D and 2D display, an inversion (L / R exchange) processing signal, and the like to the mix switcher unit 18.

Subsequently, a second embodiment of the video data transmission processing system according to the present invention will be described with reference to the drawings. FIG. 4 shows a second embodiment of the video data transmission processing system according to the present invention, (a) is a system configuration diagram, (b) is a transmission image of a data signal as a 2K3D video, and (c). Is a transmission image of a data signal as a 2K2D video, and FIG. 5 is a diagram showing an image of data division in a second embodiment of the video data transmission processing system according to the present invention. FIG. 6 is a conceptual diagram showing the control of the mix switcher unit in the second embodiment of the video data transmission processing system according to the present invention. The reference numerals are the same as those in FIG.

As shown in FIG. 4, the video data transmission processing system 10 in the present embodiment is an L-shooting device in which Genlock is applied (synchronically coupled) to each other for shooting side by side in the same manner as in the first embodiment. It is transmitted from the data signal transmission unit 16 and the data signal transmission unit 16 that divide and transmit the video data signal generated by the imaging by the L imaging device 12 and the R imaging device 14 and the R imaging device 14 by the 2SI method. A mix switcher unit 18 that processes the data signal and a 4K3D display monitor device 20 that displays video data by receiving and processing the data signal processed by the mix switcher unit 18 by the 2SI method are provided. There is.

In the present embodiment, the imaging by the L imaging device 12 and the R imaging device 14 is performed by 2K, and the mix switcher unit 18 sets the following conditions for the data signal transmitted from the data signal transmission unit 16. It is for processing.

That is, when transmitting a data signal as a 2K3D image, as shown in FIGS. 4 (a), 4 (b) and 5, the data signal divided by the 2K (HD) output of the L photographing apparatus 12 is assigned. The two channels are above (AL, BL in the figure), and the two channels to which the data signal divided by the 2K (HD) output of the R imaging device 14 is assigned are below (in the figure). Then, the data signal is transmitted as four channels, which are CR and DR).

When transmitting a data signal as a 2K2D image, as shown in FIGS. 4 (a), 4 (c) and 5, the data of either the L photographing device 12 or the R photographing device 14 is used. The data signal is transmitted as four channels on the top and bottom of the two channels to which the data signal divided by the signal transmission unit 16 is assigned by the 2K (HD) output (AL, in the figure). BL, AL, BL). With such a configuration, switching between 3D display and 2D display can be easily controlled.

Further, the video data transmission processing system 10 in the present embodiment is defined in each case of transmitting a data signal as a 4K3D video and a case of transmitting data as a 4K2D video, as in the first embodiment described above. It is also possible to control the data signal by the mix switcher unit 18 (see the first embodiment for details).

Subsequently, the video data transmission processing system 10 in the present embodiment will be described in detail. In the video data transmission processing system 10 of the present embodiment, as shown in FIG. 4, the L-shooting device 12 and the R-shooting device 14 that are genlocked (synchronically coupled) with each other for shooting side by side on the left and right are respectively. I am using a camera for 2K shooting.

Further, the video data from the L-shooting device 12 and the R-shooting device 14 is transmitted by the data signal transmission unit 16 through the 3GSDI interface. At that time, in the present embodiment, as shown in FIG. 5, the data signal transmission unit 16 controls to divide and transmit each of the two signals by a normal 2K (HD) output.

Subsequently, in the present embodiment, the mix switcher unit 18 receives two channels from the L photographing device 12 and two channels from the R photographing device 14 transmitted from the data signal transmitting unit 16 and receives them. Processing is performed. Specifically, when transmitting as 2K3D video, as shown in FIGS. 4A and 4B, the two channels of the L photographing device 12 are on the top and the two channels of the R photographing device 14 are on the bottom. Data signals are transmitted as four channels.

When transmitting as 2K2D video, as shown in FIGS. 4A and 4C, either the two channels of the L photographing device 12 or the two channels of the R photographing device 14 are displayed above and below. In addition, data signals are transmitted as four channels. As described above, the configuration of the present embodiment can easily control the switching between the 3D display and the 2D display.

In addition, as in the first embodiment described above, by sending a switching signal of the photographing device generating the currently selected data signal to the mix switcher unit 18, for example, from the L photographing device 12. Control such as switching to the R photographing device 14 or switching from the R photographing device 14 to the L photographing device 12 can be easily performed.

Subsequently, in the present embodiment, the 4K3D display monitor device 20 capable of displaying video data based on the data signal by receiving and processing the data signal processed by the mix switcher unit 18 by the 2SI method is provided. It is equipped. In the present embodiment, shooting is performed in 2K, but even in that case, the 4K3D display monitor device 20 is used.

Further, the 4K3D display monitor device 20 is capable of 3D display and 2D display. Similar to the first embodiment, in the case of 3D display, the data signal by the L photographing device 12 is converted into an odd-numbered line scanning line, and the R photographing device is used. The video data is displayed by video processing by a line-by-line method in which the data signal according to 14 is assigned to scanning lines of even-numbered lines.

Further, since the circular deflection filter is attached to the display surface (monitor screen) of the 4K3D display monitor device 20 as in the first embodiment, the 4K3D display monitor device 20 can be used only for 2SI input. By using circularly deflected glasses without special signal processing or image processing, you can easily view 2K high-definition 3D images with little delay and without reducing the horizontal resolution. It has become.

Subsequently, in the present embodiment, when the mix switcher unit 18 receives the inversion processing signal of the video data to be displayed by the 4K3D display monitor device 20, when the video is 3D display, as shown in FIG. , The two channels of the L photographing device 12 and the two channels of the R photographing device 14 are exchanged (L / R exchanged), and then control is performed to transmit the data signal as four channels.

Therefore, in the present embodiment, as in the first embodiment, the system functions as a particularly effective system in the medical field. When the mix switcher unit 18 receives the inversion processing signal again, as shown in FIG. 6, the two channels of the L photographing device 12 and the two channels of the R photographing device 14 are replaced again. Above (L / R exchange), it is controlled to transmit the data signal as four channels.

Further, also in the present embodiment, when the L photographing device 12 and the R photographing device 14 receive the zoom signal of the video data to be displayed by the 4K3D display monitor device 20, the zoom control is performed by adjusting the zoom lens or the like. Since it is configured, it is particularly useful in the medical field.

Further, as shown in FIG. 4, a 4K recording device 22 is provided which receives and records four channels transmitted from the data signal transmission unit 16 via the mix switcher unit 18 by the 2SI method (input). , It is possible to record the video data after each of the above processes. Then, the video data recorded in the 4K recording device 22 can be displayed on the 4K3D display monitor device 20.

Further, also in the present embodiment, the foot switch 24 is connected to the L photographing device 12, the R photographing device 14, and the mix switcher unit 18, respectively, and outputs the same control signal as in the first embodiment. It is possible. As described above, the current 2K camera has a delay of one frame due to the fact that the video processing, video flip, and zoom functions are implemented in all models, but the video data processing system in the present embodiment is used. For example, since the 4K display monitor device receives the 2SI system, the delay is only a few lines, and the total delay until the display can be suppressed to 1 frame + several lines.

The present invention can easily perform 3D / 2D display in a small-scale system without special signal processing or image processing on the video data in both 4K shooting and 2K shooting. It can be used particularly preferably in a narrow environment. Further, even in a shooting site where 2D display or vertical / horizontal inversion processing by a shooting device is not performed, it is easier to adopt the configuration of the present invention using two shooting devices and a 4K3D display monitor device. 3D display is possible.

10 Video data transmission processing system 12 L Imaging device 14 R Imaging device 16 Data signal transmission unit 18 Mix switcher unit 20 4K3D display monitor device 22 4K recording device 24 Foot switch

Claims (7)

L-shooting equipment and R-shooting equipment for 4K shooting or 2K shooting that are synchronized with each other for shooting side by side on the left and right,
A data signal transmission unit that divides and transmits a video data signal generated by shooting with the L shooting device and the R shooting device, and
A mix switcher unit that performs processing under the following conditions (1) to (4) for the channel to which the data signal transmitted from the data signal transmission unit is assigned.
(1) When transmitting a data signal as a 4K3D video, two channels from an odd line out of the four channels to which the data signal divided by the 2SI method from the L shooting device for 4K shooting is assigned. Of the four channels to which the data signals divided by the 2SI method from the R imaging device for 4K imaging are assigned, the data signals are set as the four channels with the two channels from the even line as the bottom. (2) When transmitting a data signal as a 4K2D video, the four channels to which the data signal divided by the 2SI method from the L shooting device for 4K shooting is assigned, or for the 4K shooting. The data signal divided by the 2SI method from the R photographing device is transmitted as four channels to which the data signal is assigned. (3) When the data signal is transmitted as a 2K3D image, the L photographing device for 2K photographing is used. The data signal is set as four channels, with the two channels to which the divided data signals are assigned and the two channels to which the divided data signals from the R imaging device for 2K imaging are assigned below. (4) When transmitting a data signal as a 2K2D video, the two channels to which the divided data signal from the L shooting device for 2K shooting is assigned are placed above and below, or for the 2K shooting. the two channels divided data signals from the R imaging device is allocated to the top and bottom, accept the data signals of the four channels that are processed by the mix switcher unit for transmitting data signals as four channels, for processing As a result, a 4K3D display monitor device that displays video data based on the data signal, and
A video data transmission processing system characterized by being equipped with. When the mix switcher unit processes the data signal transmitted from the data signal transmission unit under the conditions of (1) or (3), the 4K3D display monitor device is from the L imaging device. A data signal and a data signal from the R imaging device are alternately displayed by video processing by a line-by-line method in which an odd-line scanning line and an even-line scanning line are assigned to each other. The video data transmission processing system according to claim 1, wherein the video data transmission processing system is characterized by the above. The video data transmission processing system according to claim 2, wherein on the display surface of the 4K3D display monitoring device, circular deflection filters having different angles are attached to the odd-numbered lines and the even-numbered lines alternately. When the mix switcher unit receives the inversion processing signal of the video data to be displayed by the 4K3D display monitor device when the processing is performed under the conditions of (1) or (3), the mixing switcher unit processes the processing. Any one of claims 1 to 3 characterized in that the two channels from the L photographing device and the two channels from the R photographing device are exchanged with each other and a process of transmitting a data signal as four channels is performed. The video data transmission processing system described in the section. When the mix switcher unit receives the 3D / 2D switching signal, the process is switched between the processes under the conditions (1) and (2), or the process under the conditions (3) and (4). The video data transmission processing system according to any one of claims 1 to 4, wherein the mutual switching control is performed. When the L-shooting device and the R-shooting device receive a zoom signal of video data to be displayed by the 4K3D display monitor device, the L-shooting device and the R-shooting device perform zoom control, and the 4K3D display monitor Any one of claims 1 to 5, wherein when the video data up / down / left / right inversion signal of the video data to be displayed in the apparatus is received, the up / down / left / right inversion control is performed in the L photographing device and the R photographing device . The video data transmission processing system described in the section. Accept the data signals of the four channels transmitted from the mix switcher unit, video data transmission processing system according to claim 6 any one of claims, characterized in that 4K recording apparatus for recording are provided ..

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