Rendering with concentric mosaics
Proceedings of the 26th annual conference on Computer graphics and interactive techniques
Mosaicing on Adaptive Manifolds
IEEE Transactions on Pattern Analysis and Machine Intelligence
Making 2D Map of Environments Based upon Routes Scenes
Autonomous Robots
Automated Mosaics via Topology Inference
IEEE Computer Graphics and Applications
VideoVR: A Real-Time System for Automatically Constructing Panoramic Images from Video Clips
CAPTECH '98 Proceedings of the International Workshop on Modelling and Motion Capture Techniques for Virtual Environments
Mosaics of Scenes with Moving Objects
CVPR '98 Proceedings of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition
Generalized Parallel-Perspective Stereo Mosaics from Airborne Video
IEEE Transactions on Pattern Analysis and Machine Intelligence
LAMP: 3D layered, adaptive-resolution, and multi-perspective panorama—a new scene representation
Computer Vision and Image Understanding - Model-based and image-based 3D scene representation for interactive visalization
Survey and analysis of multimodal sensor planning and integration for wide area surveillance
ACM Computing Surveys (CSUR)
An efficient image-mosaicing method based on multifeature matching
Machine Vision and Applications
International Journal of Computer Vision
Manifold Modeling and Its Application to Tubular Scene Manifold Mosaicing Algorithm
Journal of Mathematical Imaging and Vision
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Video mosaicing is commonly used to increase the visual field of view by pasting together many video frames. Existing mosaicing methods are effective only in very limited cases where the image motion is almost a uniform translation or the camera performs a pure pan. Forward camera motion or camera zoom are very problematic for traditional mosaicing.A mosaicing methodology to allow image mosaicing in the most general cases is presented, where frames in the video sequence are transformed such that the optical flow becomes parallel. This transformation is an oblique projection of the image into a "viewing pipe" whose central axis is the trajectory of the camera.The "pipe projection" enables to define high-quality mosaicing even for the most challenging cases of forward motion and of zoom. In addition, view interpolation, generating dense intermediate views, is used to overcome parallax effects.