Motion Estimation for Fisheye Video With an Application to Temporal Resolution Enhancement
Andrea Eichenseer, Michel B\"atz, Andr\'e Kaup

TL;DR
This paper presents a novel fisheye-specific motion estimation technique that accounts for lens projection properties, improving accuracy and enabling better temporal resolution enhancement in fisheye videos.
Contribution
It introduces an adapted block-based motion estimation method that incorporates fisheye projection functions and calibration data, enhancing motion prediction accuracy.
Findings
Achieved 1.45 and 1.51 dB PSNR improvements over conventional methods.
Successfully applied to temporal resolution enhancement with around 0.77 dB gains.
Validated on synthetic and real-world fisheye video sequences.
Abstract
Surveying wide areas with only one camera is a typical scenario in surveillance and automotive applications. Ultra wide-angle fisheye cameras employed to that end produce video data with characteristics that differ significantly from conventional rectilinear imagery as obtained by perspective pinhole cameras. Those characteristics are not considered in typical image and video processing algorithms such as motion estimation, where translation is assumed to be the predominant kind of motion. This contribution introduces an adapted technique for use in block-based motion estimation that takes into the account the projection function of fisheye cameras and thus compensates for the non-perspective properties of fisheye videos. By including suitable projections, the translational motion model that would otherwise only hold for perspective material is exploited, leading to improved motion…
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Taxonomy
TopicsAdvanced Vision and Imaging · Advanced Image Processing Techniques · Image Enhancement Techniques
