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 Video Video capture card resources

By default, the resources of the video capture cards card used to process and digitize video signals are uniformly distributed between cameras video signals of which are digitized and processed by this ADC. The . The frame rate of the digitized video signal is limited by the ADC resources for video signal processing and digitization.

Video capture cards may be configured, so as to give Axxon PSIM software package components that are used for configuring video capture cards can give additional ADC resources to one or more cameras additional ADC resources, and thus to increase the frame rate of the video signals signal from these cameras. At the same time, the frame rate of the video signals signal from other cameras is decreaseddecreases.

Axxon PSIM™ software The joint use of Axxon PSIM and video capture cards sharing allows provides the following options for reallocating video capture card resources to the between cameras:

Option 1. Reallocation of cameras between ADCs of a video capture card.

ADC resources are generally characterized by the maximum allowable total frame rate of video signals. By default, ADC resources are uniformly distributed between cameras to the assigned cameras. So, which are processed and digitized by this ADC. Thus, the more camera video signals from cameras are digitized and processed by the ADC, the lower the frame rate of the single each digitized video signal is.

Reallocation of cameras between ADCs allows increasing the frame rate for some cameras by means of decreasing it for others.

If all allowable cameras are connected to a video capture card, then only uniform distribution on ADC is possible. In this case, every ADC of a video capture card digitizes and processes video signal signals from an equal number of cameras. SoThus, the maximum allowable frame rate is the same for all video signals (except for video signals of different formats and different frame resolutions).

If the number of cameras connected to a video capture card is less than their maximum number, then it is possible to you can reallocate them between ADCs of a video capture card. For this, those cameras , which whose frame rate is to be increased, you want to increase are allocated separately to one ADC , or allocated in a number that is less than the maximum allowable one. Cameras allocated to a given ADC and not that aren't subject to strict frame rate requirements , are reallocated to other ADCs.

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A. Uniform camera allocation between ADCs

B. reallocating the cameras between ADCs to allocate extra additional resources to Camera1

Option 2. Reallocation of resources of one ADC between cameras, video signal signals of which are to be processed and digitized by one ADC.

By default, the ADC resources are uniformly distributed between cameras, video signals of which are digitized and processed by this ADC. 

Reallocation of cameras between ADCs allows increasing the frame rate for some cameras by means of of decreasing it for others. Reallocation of resources of one ADC to the cameras is much less effective than camera reallocation of cameras between the ADC. Therefore this is to be done , you must do this only if camera reallocation to the ADC is impossible or if it does not doesn't help. 

With reallocation of resources from 1 ADC to the To reallocate resources of one ADC between cameras, give one of the cameras gets extra additional ADC resources for its video signal processing and digitization. Extra You can give additional ADC resources are formed by removing them from other cameras' video signals of , which whose are processed by the this ADC.

So, for a single Thus, within one ADC, when you can increase the frame rate of a certain camera increases, video signal from one camera only when you decrease the frame rates rate of a video signal from other cameras decrease.

To perform do this operation, a place the selected camera is to have priority in the priority process queue.

An example of the reallocation of resources of one ADC between cameras is shown in the figure below.

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B. reallocating the cameras between ADCs to allocate extra additional resources to Camera1

Operation modes of the video capture cards’ ADC

ADC operation mode is defined determined by the number of processed and digitized video signals. There are two modes:

1. Live video.
2. Multiplexing.

In the Live video mode, all resources of an ADC are used to process the single only one video signal. The This mode provides a digital video stream with a maximum frame rate of 25 fps FPS in PAL format and 30 fps FPS in NTSC format.

If the ADC processes two or more video signals, its resources are used in the multiplexing mode. Then the ADC resources are uniformly allocated between the cameras, and in addition to video signal processing, part of its resources support the multiplexing process. SoThus, in the multiplex mode, the total frame rate of video signals , digitized by a single ADC , is much lower than in the Live video mode.

The maximum permissible allowable total frame rate in the multiplexing mode depends on the frame resolution of video signals.

For ADC that , which digitizes all video signals with standard (352 x 288 pixels in PAL format, 352 x 240 pixels in NTSC format) and/or high (704 x 288 pixels in PAL format, 640 x 240 pixels in NTSC format) frame resolution, the total frame rate is 16 fps FPS in PAL format and 20 fps FPS in NTSC format.

When If ADC digitizes at least one of the video signals with full resolution (704 x 576 pixels in PAL format, 640 x 480 pixels in NTSC format), the maximum permissible allowable total frame rate is reduced reduces to 12 fps FPS in PAL format and 15 fps FPS in NTSC format.

Frame rate setup procedure

Default settings for the With default settings, you can receive digitized video signals with frame rate are rates of 2 fps FPS in PAL format and 2.5 fps FPS in NTSC format.

While settings it is possible to increase or to During setup, you can increase and reduce the frame rate.

To set up the frame rate, do the following:

1. Switch off the Camera objects , which are assigned that correspond to the idle video channels. This allows allocating the resources between working cameras only and , thus increasing the frame rate of their video signals. 
2. Change frame grooming.
3. Reallocate cameras on the ADC of the video capture card.
4. Reallocate resources of one ADC between cameras (priority process queues).

In most cases, 1 and 2 setting steps are sufficient to set the frame rate. 3 and 4 setting steps are necessary only with high frame rate requirements to for one or more cameras.

Configuring video subsystem with disabled video channels

By default, resources of video capture cards’ ADC are allocated uniformly between all video channels, whether there is any signal passing through it or not. SoThus, even if a video channel has no signal, the resources of ADC are allocated to it.Several Camera objects are disabled in turneach video channel.

To prevent allocation of ADC resources , the Camera objects are to be disabled in Axxon PSIM™, assigned to the disabled video channelsfor digitization and processing of idle video channels, you must disable the Camera objects that correspond to these channels in Axxon PSIM.

Disable several Camera objects in turn for each object.

To disable the Camera objects that correspond to the idle video channels in Axxon PSIM™ systemPSIM, do the following:

1. Define Determine the numbers of the idle video capture channels (taking into account BNC plug numbering).
2. Go to the Hardware tab in the System settings dialog box (1) window.
3. Select the In the object tree on the Hardware tab, select the Camera object , created before, with the same channel number as the BNC plug (idle channel) (2). The settings panel for the selected object is displayed on the right of the the Hardware tab.
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4. Make sure that no video signal is isn't displayed in the video field surveillance window (1).
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   The display of the video signal displayed in the video field indicates that the the Camera object is matched to matches another video channel.
5. Specify the number of the The video channel number is specified in the Channel number drop-down list in on the Basic settings tab (2). Match the Camera object with the channel number, which corresponds to the BNC plug number and the Camera object number, or scan for a Camera object , matched with the desired required channel number.
6. Set the Disabled Disable checkbox (3).
7. Click the Apply button (4).

The disabled Camera object is indicated with a cross mark.

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Configuration of the video Video subsystem with disabled video channels is now configuredcomplete.

Actual frame rate

It is recommended to define We recommend determining the actual frame rate of video signal digitization and then to set setting up the frame rate for video signals from video surveillance system cameras. 

Frame You must perform frame rate setup is to be done only if video signal frame rates of video signals from one or more cameras do not don't meet the requirements.

Actual frame rates are defined determined for each camera individually.

To define specify the actual frame rate for a selected camera, do the following:

1. Configure the video Video surveillance monitor (see Configuring video display on Video Surveillance Monitor section);
2. Enable the debug Debug mode in Axxon PSIM™ software PSIM using the tweaki.exe utility (see Tweaki.exe utility for advanced setup of the Axxon PSIM software system, The Settings panel of the Axxon PSIM section).

In Axxon PSIM™ software, actual As a result, the current frame rates of the digitized video signals in the debug mode are displayed on the Monitordirectly in the Video surveillance monitor. To define get information about the frame rate of the video signal from a the selected camera, do the following:

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display the Surveillance window corresponding to the selected camera

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in the Video surveillance monitor and activate this window by clicking it with the left mouse button. A window with video signal information is displayed in the upper right corner:

• video stream frame rate (FPS);
• size of the displayed frame in bytes (you can use this parameter, for example, to understand whether the displayed frame is a key frame or to calculate the average bitrate);
• video stream resolution in pixels.

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Note that this information window displays initial data about the video stream from the camera or from the archive transmitted to the Video surveillance monitor. The actual displayed frame rate of the video stream can be different, see Displaying information about a video stream on top of a video.

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Changing frame

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decimation

By default, Axxon PSIM™ software PSIM digitizes video signals with the frame rate lower than the maximum allowed one. This is caused by the following:

1. Video signal processing and digitization with a high frame rate is a resource-intensive process. When the video signal frame rate increases, configuration requirements increase for the computer used as a Serverserver.
2. Video signal is transmitted to the Remote Workplaces with the same frame rate as it was is digitized. SoThus, network capacity requirements increase together along with the frame rate increase.

By default, the total frame rate of video signals, which are digitized and processed by the same ADC, is 2 two times lower than the maximum allowed one. This ratio is provided supported by frame groomingdecimation, which allows provides every second frame to be processed for further processing by the programfunctional modules of the Axxon PSIM.

Settings allow reducing You can reduce (total frame rate increases) or increasing increase (total frame rate decreases) the groomingdecimation.

Frame grooming decimation is changed separately and independently for every ADC.

To change grooming the decimation of ADC video signals, do the following:

1. Go to the Hardware tab in the System settings dialog box window (1).
2. Select the relevant Video Capture Device object, created before, in the Hardware tab in the objects tree In the objects tree on the Hardware tab, select the Video capture device object created before that corresponds to the configured ADC of the video capture card (2). The settings panel for the selected object is displayed in the right part of the Hardware tab.
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3. If it is necessary to increase the total frame rate up to the maximum allowed value, move the Rate slider to the Max max position (3).
4. If it is necessary to reduce the total frame rate to the minimum allowed value, move the Rate slider to the
Min
5. min position. The minimum total frame rate of video signals, digitized and processed by a selected ADC, is
3
6. three times lower than the maximum allowed one.
7. If it is necessary to return the default
grooming
8. decimation settings, move the Rate slider to the middle position. The default total frame rate is
2
9. two times lower than the maximum allowed one.
10. Click the Apply button (4).
11. Close the System settings dialog box window and restart Axxon PSIM™ softwarePSIM.

Allocation of video capture card’s resources

By default, all cameras are uniformly allocated to the ADC of the video capture card. Thus, ADC resources are uniformly distributed to the between cameras , attached connected to the video capture card, and all cameras have the same frame rate of the digitized video signal. 

If the number of cameras connected to a video capture card is less than their maximum allowed number, it is possible to you can reallocate them between different ADCs of the video capture card. Reassigning of cameras This allows increasing the frame rate for some cameras by means of a decrease in decreasing the same frame rate of others.value for other cameras. 

Before reassigning the reallocating cameras to between ADCs of the video capture card, disable the Camera objects corresponding to disabled cameras (see Configuring video subsystem with disabled video channels section).

To increase the frame rate of the video signal from one or more cameras, do the following:

1. Go to the Hardware tab in the System settings dialog box (1).Select window.
2. In the objects tree on the Hardware tab, select the Camera object
,
3. created before, corresponding to the camera
, which frame rate is to be increased, in the objects tree in the Hardware tab (2)
4. whose frame rate you want to increase. The settings panel for the selected object is displayed on the right of the Hardware tab.
5. Image RemovedTo If you want to increase the frame rate of a camera up to the Real time rate (25 fps FPS in PAL format and 30 fps FPS in NTSC format), reallocate other cameras serviced , the video signals of which are digitized by the same ADC as with the for this camera above , to other ADCs.

For this, move the Camera objects to the parent branches of other Video Capture Devicecapture device objects. The You can set the parent Video Capture Devicecapture device object for a the Camera object is set by selecting the number of the parent object in the the Video Capture Devicecapture device list of settings panel for the Camera object settings panel. As a result, the Camera object moves to a subdirectory the child branch of the selected set Video Capture Device objectcapture device object in the objects tree.

Example 1. Configuring video signal digitization with the Real time frame rate.

Task. Video signal on Camera2 is to Camera 2 must be digitized with the Real time frame rate.

Initial data. The card has 4 four ADCs. They are matched to 4 four Video Capture Devicecapture device objects in the objects object tree. The video capture card may have up to 16 cameras connected to it. 8 Eight cameras are actually connected to the video capture card. The objects matched to the remaining 8 eight cameras are disabled. Each of the two ADCs, matched to the Video Capture Device capture device 1 and Video Capture Device capture device 2 objects, is configured to digitize the signals from 4 four cameras. The ADCs matched to the Video Capture Device capture device 3 and Video Capture Device capture device 4 objects are not aren't configured to digitize signals from any cameras. An example of the objects object tree is given in figure A:

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A. Initial data data                                            B. Result

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1. Select the Camera 1 object in the objects tree. The settings panel for the selected object is displayed.
2. Select Video Capture Device capture device 3 in the Video Capture Devicecapture device list.
3. Click the Apply button.
4. The Camera 1 object moves to the subdirectory child branch of the the Video Capture Device capture device 3 object (see B).
5. Repeat (1) – (4) 1–4 steps for the Camera 3 and Camera 4 objects.
6. Select the Video Capture Device capture device 1 object in the objects tree.
7. Make sure that the Speed Rate slider is in the max position.
   If the Speed Rate slider is in the max position, then setup is completed.
   If the Speed Rate slider is in another position, move it to the max position and do (8) - (10) 8–10 steps.
8. Click the Apply button.
9. Close the System settings dialog box window and restart Axxon PSIM™ softwarePSIM.
10. The frame rate of the selected camera increases up to the Real time rate (for information on testing the frame rate change, see the Actual frame rate section).
11. If the number of connected cameras
prevents the configuration
12. doesn't allow setting up digitization of video signal
digitization
13. from one of the cameras with the Real time rate (for example, when 15 out of 16 allowed cameras are connected)
,
14. or if it is necessary to increase the frame rate
on
15. of several cameras
is to be increased
16. simultaneously to the rate
,
17. lower than the Real time one,
then
18. the
cameras, the frame rate of which is to be increased,
19. allocation of cameras between ADCs is performed as follows: the cameras for which it is necessary to increase the frame rate are allocated between ADCs
and they do not exceed
20. in the number less than the maximum allowable
number
21. one. The frame rate is increased by as many times
,
22. as the number of cameras on ADC is reduced.

Video capture card’s resources are now allocatedAllocation of the video capture card's resources is complete.

Example 2. Configuring video signal digitization from 2 two cameras with an increased frame rate

Task. Video signal signals on Camera1 and Camera5 is to Camera 1 and Camera 5 must be digitized with an increased frame rate.

Initial data. The card has 4 four ADCs. They are matched to 4 four Video Capture Devicescapture device objects in the objects object tree. The video capture card may have up to 16 cameras connected to it. 12 cameras are actually connected to the video capture card. The objects matched to the remaining 4 four cameras are disabled. Each of 3 the three ADCs, matched to the Video Capture Device capture device 1, Video Capture Device 2 and Video Capture Device capture device 2, and Video capture device 4 objects, is configured to digitize the signals from 4 four cameras. The ADC, matched to the Video Capture Device capture device 3 object, is not isn't configured to digitize the signals from any camera. An example of the objects object tree is given in figure A.

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A. Initial data data                                            B. Result

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1. Select the Camera 1 object in the objects tree. The settings panel for the selected object is displayed.
2. Select the Video Capture Device 3 in capture device 3 value from the Video Capture Devicecapture device list.
3. Click the Apply button.
4. The Camera 1 object moves to a subdirectory of the Video Capture Device the child branch of the Video capture device 3 object (B).
5. Repeat (1) – (4) 1–4 steps for the Camera 5 object.
6. The frame rate on Camera1 Camera 1 and Camera5 Camera 5 increases twofold (for information on testing the frame rate change, see the Actual frame rate section).
7. Click the Apply button.

Allocation of the video capture card's resources is completeVideo capture card’s resources are now allocated.

Video signal processing priorities

The By default, the ADC resources are uniformly distributed to the assigned cameras by default.between cameras, video signals of which are digitized and processed by this ADC.

Reallocation of cameras between ADCs ADC resources reallocation allows increasing the frame rate for a camera some cameras by means of other camerasdecreasing it for others. Reallocation of resources from 1 of one ADC between to the cameras is much less effective than camera reallocation on of cameras between the ADC. Therefore it should only be done , you must do this only if camera reallocation on to the ADC is impossible or if it does not doesn't help. 

With reallocation of resources from 1 To reallocate resources of one ADC between the cameras, give one of the cameras is allocated with additional ADC resources for its video signal processing and digitization. Additional You can give additional ADC resources are formed by removing them from other cameras, video signals of which are processed by the ADC.

A camera is allocated with To give a camera additional ADC resources via the priority process queue, place it in the video signal processing queue, which has a higher priority than the other cameras.

Axxon PSIM™ software PSIM provides 1/2 and 1/3 process queues.

When a camera has a 1/2 process queue, its video signal is processed in every second frame. SoThus, the digitization frame rate on this camera is the half of the total frame rate of the considered ADC.

When a camera has a 1/3 process queue, its video signal is processed in every third frame. SoThus, the digitization frame rate on this camera is one-third of the total frame rate of the considered ADC.

Example 1. The ADC is configured to digitize video signal signals from 4 four cameras.

If all the cameras have a common queue, the ADC digitizes video signals in the following sequence:

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Let us suppose that Camera 1 has a 1/2 queue, and the rest of the cameras are in the common queue. Then the ADC digitizes video signals in the following sequence:

Camera 1, Camera 2, Camera 1, Camera 3, Camera 1, Camera 4, Camera 1…

SoThus, the frame rate on Camera 1 is increased by 2 two times and becomes the half of the total frame rate of the considered ADC. The frame rate of each of the remaining cameras becomes 1.5 times less and makes up 1/6 of the total frame rate of the considered ADC.

Example 2. The ADC is configured to digitize the video signal signals from 3 three cameras.

If all the cameras have a common queue, the ADC digitizes video signals in the following sequence:

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Camera 1, Camera 2, Camera 1, Camera 3, Camera 1, Camera 2…

SoThus, the frame rate of Camera 1 is increased by 1,.5 times and becomes the half of the total frame rate of the considered ADC. The frame rate of each of the remaining cameras becomes 1.33 times less and makes up 1/4 of the total frame rate of the considered ADC.

Example 3. The ADC is configured to digitize video signal signals from 4 four cameras.

If all the cameras have a common queue, the ADC digitizes video signals in the following sequence:

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Let us suppose that Camera 1 has a 1/3 queue, and the rest of the cameras are in the common queue. Then the ADC digitizes video signals in the following sequence:  

Camera 1, Camera 2, Camera 3, Camera 1, Camera 4, Camera 2, Camera 1…

SoThus, the frame rate of Camera 1 is increased by 1.33 times and becomes one-third of the total frame rate of the considered ADC. The frame rate of each of the remaining cameras becomes 1.125 times less and makes up 2/9 of the total frame rate of the considered ADC.

Example 4. The ADC is configured to digitize video signal signals from 4 four cameras.

If all the cameras have a common queue, the ADC digitizes video signals in the following sequence:

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Let us suppose that Camera 1 and Camera 2 have a 1/2 queue, and the rest of the cameras are in the common queue. Then the ADC digitizes video signals in the following sequence:

Camera 1, Camera 2, Camera 3, Camera 1, Camera 2, Camera 4, Camera 1…2, Camera 4, Camera 1…

Thus, the frame rate of Camera 1 is increased by 1.33 times and becomes equal to one-third of the total frame rate of the considered ADC. The frame rate of Camera 2 is also So, the frame rate of Camera 1 is increased by 1.33 times and becomes equal to one-third of the total frame rate of the considered ADC. The frame rate of each of the remaining cameras becomes 1.5 times less and makes up 1/6 of the total frame rate of the considered ADC.Note1.

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Reallocation of resources of 1 one ADC between the cameras is possible in two modes:

1. in In the processing mode, i.e. , that is, with video signal digitization and processing before it is displayed;prior to its display on the screen.
2. In in the recording mode, i.e. with video signal digitization and processing before it is recorded prior to its recording into the Server server archive. When cameras are switched to the recording mode, video signals are displayed with the rate , corresponding to the given ADC resources resource allocation.

Setting video processing priority

While processing video In video digitizing and processing mode, before displaying it on the screen, ADC resources are reallocated between the cameras by queueing one of the cameras with 1/2 or 1/3 priority.

This setting is relevant only for the following video capture cards: FS5, FS6, FS8, and FS16.

To change the order of processing video from the selected camera, do the following:

1. Go to the Hardware tab in the System settings dialog box (1) window.
2. Select the In the objects tree on the Hardware tab, select the Camera object , created before , corresponding to the camera, the ADC video processing queue of which is to be changed, in the Hardware tab in the objects tree (2). The settings panel for the selected object is displayed on the right of the Hardware tab.you want to change.
3. Go to the Advanced settings tab on the settings panel of the Camera object (3).
   Image RemovedIf it is necessary to queue the camera with 1/2 priority for ADC video processing, move the Processing Image Added
4. Set the processing slider in the Priority group to
the
5. the position:
   
   1. 1/2
position (4).If it is necessary
6. 1. to queue the camera with 1/
3
7. 1. 2 priority for ADC video processing
, move the Processing slider in the Priority group to the
8. 1. .
      
   2. 1/3 to queue the camera with 1/3
position
9. 1. priority for ADC video processing.
If
10. 1. Normal (default), if it is necessary to return the camera into the normal queue for ADC video processing
(set by default), move the Processing slider in the Priority group to the Normal position
11. 1. .
12. Click the Apply button (5).

Video Setting video processing priority is now setcomplete.

Setting video recording priority

While processesing the video signal In video digitizing and processing mode, before recording it to the video server archive, ADC resources are reallocated between the cameras by queueing one of the cameras with 1/2, 1/3, or the Real time priority.

If the camera with Real time priority switches into the recording mode, it will be is allocated with all ADC resources for its video processing and digitizing. SoThus, the frame rate on this camera becomes equal to the total frame rate of the considered video signals that are processed and digitized by this ADC. No video Video signals from other cameras, allocated to a given ADC, is aren't processed, displayed, and recorded to the disk. 

To change the processing queue of the video on from the selected camera in the recording mode, do the following:

1. Go to the Hardware tab in the System settings dialog box (1).Select the Camera object, created before, corresponding to the camera, ADC video processing queue of which is to be changed, in the objects tree of the Hardware tab (2). The settings panel for the selected object is displayed on the right of the Hardware tab window.
2. In the objects tree on the Hardware tab, select the Camera object created before corresponding to the camera, the ADC video processing queue of which you want to change.
3. Go to the Advanced settings tab on the settings panel of the Camera object (3).Image RemovedIf it is necessary
4. Set the recording slider in the Priority group to the position:
   1. 1/2 to queue the camera with 1/2 priority for ADC video processing
in the recording mode, move the Recording slider in the Priority group to the 1/2 position (4).
5. 1. .
   2. 1/3
If it is necessary
6. 1. to queue the camera with 1/3 priority for ADC video processing
in the recording mode, move the Recording slider in the Priority group to the 1/3 position.If it is necessary
7. 1. .
   2. Real time to queue the camera with the Real time priority for ADC video processing in the recording mode
, move the Recording slider in the Priority group to the Real time position.If
8. 1. .
      
   2. Normal (default), if it is necessary to return the camera into the normal queue for ADC video processing in the recording mode
(set by default), move the Recording slider in the Priority group to the Normal position
9. 1. .
10. Click the Apply button (5).

Video Setting video recording priority is now setcomplete.