Currently it seems that everything is loaded in to RAM, and while this is needed when analyzing, a computer with an NVMe SSD should be plenty capable of loading a 5-6 second capture (which doesn't take too much time when capturing BMX races starting every minute for example).
![kinovea rotate video kinovea rotate video](https://www.mdpi.com/forests/forests-11-01333/article_deploy/html/images/forests-11-01333-g001.png)
However with simple modifications to the CrossMgrVideo app, it should be possible to make use of these cameras with much lower hardware requirements. (and are of course inferior in resolution, about equal in performance, except for timing accuracy, which cannot be said to be in the millisecond range). A computer worth 3k will still make this solution cheaper than a professional line scan systems that start at 5k. I'm pretty sure this does work However currently I would recommend for "production" use to have a computer with at least 32GB of RAM (preferably more like 512GB of RAM, YES, RAM!), >2TB NVMe and a 32 core cpu (Ryzen.).
#KINOVEA ROTATE VIDEO DRIVER#
This would also most likely tremendeously reduce the memory consumption Could we get a feature where it would be possible to set any size of the frame? I understand the Basler Dshow driver doesn't most likely actually support this or make it possible, but it would be nice to test it. The only downside is that while the camera in question which would make the picture feed nicely display a continous line of images CrossMgrVideo would probably need some kind of support for the Basler SDK.
![kinovea rotate video kinovea rotate video](https://codecpack.co/images/SensArea.jpg)
#KINOVEA ROTATE VIDEO SOFTWARE#
I understand the current CrossMgrVideo software does lay the pictures in order by frame time, and thus should also be compatible with any camera resolution, but maybe someone (or even me) could get confirmation that it functions well with frame rates exceeding hundreds per second.īasically I got hold of one of these industrial cameras (It can output the size of the frames to say 1920x200, Basler acA1920-150um ~600$, also a better suited version coming) and tested it with CrossMgrVideo with What this would need however is the possibility for flipping the image from horizontal to vertical, since the camera can only be run significantly faster if you remove vertical and not horizontal pixels.Īlso of note is that all of these cameras work of a global shutter, so goodbye jello! Even that in itself is worth a couple hundred in my opinion. Respectively the 800圆00 camera can go much higher. The 1920x1080 camera at 1920圆4 can reach a nice equal 1000FPS in color mode. Furthermore the 510 FPS camera as all others can also be configured for even faster read rates, by decreasing the AOI (area of interest) height. All of these cameras are also global shutter, so can be used for very accurate timing.
![kinovea rotate video kinovea rotate video](https://i.ytimg.com/vi/NR32UL3UDF8/hqdefault.jpg)
#KINOVEA ROTATE VIDEO FULL#
Also full HD is possible for similar cost. There is a comprehensive list of at least Basler area scan cameras here:įor example you could get a 800圆00 USB3 Vision color camera capable of 510FPS for only ~400$. I see that at least the area scan cameras could work out of the box, at least at lower framerates. I haven't got such a camera at hand (yet), so I do not know whether they would already work out of the box with CrossMgrVideo, since at least Basler drivers/SDK have a video output for software called "Basler GenICam source".