Subpixel rendering

About: Subpixel rendering is a research topic. Over the lifetime, 3885 publications have been published within this topic receiving 82789 citations.

SAR Image Registration Based on Multifeature Detection and Arborescence Network Matching

Abstract: In this letter, a novel synthetic aperture radar (SAR) image registration method, including two operators for feature detection and arborescence network matching (ANM) for feature matching, is proposed. The two operators, namely, SAR scale-invariant feature transform (SIFT) and R-SIFT, can detect corner points and texture points in SAR images, respectively. This process has an advantage of preserving two types of feature information in SAR images simultaneously. The ANM algorithm has a two-stage process for finding matching pairs. The backbone network and the branch network are successively built. This ANM algorithm combines feature constraints with spatial relations among feature points and possesses a larger number of matching pairs and higher subpixel matching precision than the original version. Experimental results on various SAR images show that the proposed method provides superior performance than other approaches investigated.

Subpixel microscopic deformation analysis using correlation and artificial neural networks.

Abstract: Microscopic deformation analysis has been performed using digital image correlation and artificial neural networks (ANNs). Cross-correlations of small image regions before and after deformation contain a peak, the position of which indicates the displacement to pixel accuracy. Subpixel resolution has been achieved here by nonintegral pixel shifting and by training ANNs to estimate the fractional part of the displacement. Results from displaced and thermally stressed microelectronic devices indicate these techniques can achieve comparable accuracies to other subpixel techniques and that the use of ANNs can facilitate very fast analysis without knowledge of the analytical form of the image correlation function.

Variable resolution virtual reality display system

Abstract: A virtual reality display system that renders images at different resolutions in different parts of a display. Reduces rendering latency by rendering at a lower resolution in selected regions, for example on the sides of a display where human vision has lower resolution than in the center. Pixels in low resolution regions are combined into grid elements, and rendering may generate grid element values rather than individual pixel values. Rendering may use ray casting, rasterization, or both. Variable resolution rendering may be combined with variable level of detail geometry models to further reduce rendering time. Selected objects may be designed as high resolution objects that are rendered at a high resolution even in low resolution display regions.

Super-resolving imaging system

Abstract: A super-resolving imaging apparatus employs diffractive optical elements placed on the imaging lens. This element, and the use of a modified Scheimpflug arrangement allow the conversion of degrees of freedom in one axis of a field of view to a larger degree of freedom in another axis in order to obtain a high resolution image with a wide depth of focus and large field of view. Replicas created by the diffractive elements are mutually shifted by subpixel amounts, and are combined using a Gabor transform, which is facilitated by a spatial mask placed over the detector array. The apparatus is suitable for performing distance estimation on an object within the field of view.