Abstract
BackgroundA common registration problem for the application of consumer device is to align all the acquired image sequences into a complete scene. Image alignment requires a registration algorithm that will compensate as much as possible for geometric variability among images. However, images captured views from a real scene usually produce different distortions. Some are derived from the optic characteristics of image sensors, and others are caused by the specific scenes and objects.Methodology/Principal FindingsAn image registration algorithm considering the perspective projection is proposed for the application of consumer devices in this study. It exploits a multiresolution wavelet-based method to extract significant features. An analytic differential approach is then proposed to achieve fast convergence of point matching. Finally, the registration accuracy is further refined to obtain subpixel precision by a feature-based modified Levenberg-Marquardt method. Due to its feature-based and nonlinear characteristic, it converges considerably faster than most other methods. In addition, vignette compensation and color difference adjustment are also performed to further improve the quality of registration results.Conclusions/SignificanceThe performance of the proposed method is evaluated by testing the synthetic and real images acquired by a hand-held digital still camera and in comparison with two registration techniques in terms of the squared sum of intensity differences (SSD) and correlation coefficient (CC). The results indicate that the proposed method is promising in registration accuracy and quality, which are statistically significantly better than other two approaches.
Highlights
Image registration is a fundamental technology in a variety of fields and has been extensively investigated over the past few decades
Some are derived from the optic characteristics of image sensors, and others are caused by the specific scenes and objects
We propose an analytic algorithm, namely analytic robust point matching (RPM) (ARPM), to fast achieve image registration of perspective projection
Summary
Image registration is a fundamental technology in a variety of fields and has been extensively investigated over the past few decades. It has been applied to many areas, such as medical image analysis, surveillance operations, video representation and retrieval, remote sensing, and consumer device, with different registration techniques and performance requirements [1,2,3,4,5,6,7,8,9,10,11,12,13]. It is mainly the process of spatially registering acquired images so that corresponding features or pixels on them are consistent in geometry. Some are derived from the optic characteristics of image sensors, and others are caused by the specific scenes and objects
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