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Each track is viewed for the Follow Time, before the camera switches to the next Track. e.g. 10 seconds.
The tracks are viewed in order of their age: from oldest to youngest, and then cyclically. Age is defined by how long the tracks have been inside the Detection Area.
As tracks move in and out of the Detection Area, the age and therefore the order of track viewings will change.
The camera's views are labelled numerically in order of viewing.
If a track leaves the Detection Area, and then rejoins the Detection Area, its age will be refreshed.
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Each track is viewed for the Follow Time, before the camera switches to the next track. e.g. 10 seconds.
The tracks are viewed in order of their age: from oldest to youngest, and then cyclically. Age is defined by how long the tracks have been inside the Detection Area.
As tracks move in and out of the Detection Area, the age and therefore the order of track viewings will change.
The cameras' views are labelled numerically in order of viewing e.g. 1 for 10 seconds, 2 for 10 seconds, 3 for 10 seconds, 1 for 10 seconds etc.
As each camera is in a separate group, they will both perform the same actions, regardless of different camera positions.
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Each track is viewed for the Follow Time, before the camera switches to the next track. e.g. 10 seconds.
The tracks are viewed in order of their age: from oldest to youngest, and then cyclically. Age is defined by how long the tracks have been inside the Detection Area.
The Cameras' views are labelled numerically in order of tracking.
As both cameras are in the same group, they will not view the same track simultaneously. Instead, each camera will view tracks in order of age and track availability:
Camera 1 views the oldest track (green),
So Camera 2 views the second oldest (aqua).
When the Follow Time ends, Camera 1 will switch to viewing the next oldest track: the third oldest (blue).
So Camera 2 will switch to the fourth oldest (indigo).
This 'alternate track' cycle will continue unless a track or tracks move in or out of the Detection Area.
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As above, the Timeshare camera views each track for a defined amount of time, before the camera switches to the next track. e.g. 10 seconds.
The tracks are viewed in order of their age: from oldest to youngest, and then cyclically. Age is defined by how long the tracks have been inside the Detection Area.
The Timeshare camera's views are labelled numerically in order of track viewing.
However, whilst the youngest track (purple) is the last to be viewed by the Timeshare camera, it is continuously viewed by the Closest camera due its proximity.
You cannot put two cameras with different modes in the same group.
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As above, the Timeshare camera views each track for a defined amount of time, before the camera switches to the next track. e.g. 10 seconds.
When a Detection Area is given Priority, only tracks within the Priority Area (red) will be viewed.
The tracks are viewed in order of their age: from oldest to youngest, and then cyclically. Age is defined by how long the tracks have been inside the Priority Detection Area.
The Timeshare camera's views are labelled numerically in order of track viewing.
However, whilst the youngest track in the Priority Detection Area (indigo) is the last to be viewed by the Timeshare camera, it is continuously viewed by the Closest camera due its proximity.
You cannot put two camera's with different modes in the same group.
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