Automatic Calibration of a Multiple-Projector Spherical Fish Tank VR Display
- Resource Type
- Conference
- Authors
- Zhou, Qian; Miller, Gregor; Wu, Kai; Correa, Daniela; Fels, Sidney
- Source
- 2017 IEEE Winter Conference on Applications of Computer Vision (WACV) WACV Applications of Computer Vision (WACV), 2017 IEEE Winter Conference on. :1072-1081 Mar, 2017
- Subject
- Computing and Processing
Cameras
Calibration
Three-dimensional displays
Shape
Image reconstruction
Distortion
Image resolution
- Language
We describe a novel automatic calibration method using a single camera for a multiple-projector spherical Fish Tank Virtual Reality (FTVR) display. Modeling the projector as an inverse camera, we estimate the intrinsic and extrinsic projector parameters automatically using a set of projected images on the spherical screen. A calibrated camera is placed beneath to observe partially visible projected patterns. Using the correspondence between the observed pattern and the projected pattern, we reconstruct the shape of the spherical display and finally recover the 3D position of each projected pixel on the display. Additionally we present a practical calibration evaluation method that estimates on-surface accuracy using the single camera. We use point mismatch as a metric to describe misalignment and line mismatch to describe distortion. We demonstrate our automatic approach can achieve an on-surface point mismatch less than 1mm and line mismatch less than 1 on a 30cm diameter spherical screen. Taken together, our calibration approach and evaluation method are automatic and accurate for a desktop spherical FTVR and can be applied to other multiple-projector displays with curved screens.