Difference between revisions of "RCCamera"

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* [http://sourceforge.net/projects/unicap Sourceforge Unicap]
 
* [http://sourceforge.net/projects/unicap Sourceforge Unicap]
 
* [http://sourceforge.net/projects/iidcapi Sourceforge IEEE1394 Digital Camera API]
 
* [http://sourceforge.net/projects/iidcapi Sourceforge IEEE1394 Digital Camera API]
* [http://damien.douxchamps.net/ieee1394/libdc1394/v1.x/faq.php]
+
* [http://damien.douxchamps.net/ieee1394/libdc1394/v1.x/faq.php DMA info for reading from camera]
  
 
==Lens==
 
==Lens==
 
* 68 degree FOV (with one camera - not really practical)
 
* 68 degree FOV (with one camera - not really practical)
 
* 35 degree FOV (with two cameras)
 
* 35 degree FOV (with two cameras)

Revision as of 01:24, 1 February 2007

Camera

So, after speaking with the folks at the US Open, I have some information to report about the cameras used. The CMU team used two of the smallest Sony prosumer three chip cameras with wide angle lenses. They did not stream from firewire, but rather used S-Video and a capture card per camera. They used the deinterlaced frames to get a apparent speed of 60 FPS. Consequently, they need the enhanced color reproduction of the three chip cameras because they are using the deinterlaced frames which implies they have about half the resoloution (320 x 240) of interlaced frames (640 x 480). That is, the ball makes up only about 12 pixels with the deinterlaced frames, and accurate color reproduction is a necessity to be able to pick the ball out of the background noise.

So, with a quick enough camera, the color reproduction should not matter as much.

For professional machine vision cameras, the following look pretty good.

Pro Cameras

Camera We Have

Camera Resources

Lens

  • 68 degree FOV (with one camera - not really practical)
  • 35 degree FOV (with two cameras)