Transfer Phenomena During the Drying of a Shrinkable Product: Modeling and Simulation

International audienc

A Rule-Based System For Region Segmentation Improvement In Stereovision

this paper, we have presented a method to improve the region segmentation of images. The method relies on the use of two rule-based systems. The first rule-based system performs the improvement of the segmentation by dealing with each image independently. The second rule-based system takes advantage of a cooperation between the matching and the segmentation processes ; it classifies the unmatched regions and merges the single regions to regions already matched. The similarity between the two segmentations is increased ; neverthless, the regions that cannot be treated are the regions which have not been detected correctly (bad lighting conditions for example) or the regions located where the results of the segmentation are very different on each image. Reference

Seamless Heterogeneous 3D Tessellation via DWT Domain Smoothing and Mosaicking

With todays geobrowsers, the tessellations are far from being smooth due to a variety of reasons: the principal being the light difference and resolution heterogeneity. Whilst the former has been extensively dealt with in the literature through classic mosaicking techniques, the latter has got little attention. We focus on this latter aspect and present two DWT domain methods to seamlessly stitch tiles of heterogeneous resolutions. The first method is local in that each of the tiles that constitute the view, is subjected to one of the three context-based smoothing functions proposed for horizontal, vertical, and radial smoothing, depending on its localization in the tessellation. These functions are applied at the DWT subband level and followed by an inverse DWT to give a smoothened tile. In the second method, though we assume the same tessellation scenario, the view field is thought to be of a sliding window which may contain parts of the tiles from the heterogeneous tessellation. The window is refined in the DWT domain through mosaicking and smoothing followed by a global inverse DWT. Rather than the traditional sense, the mosaicking employed over here targets the heterogeneous resolution. Perceptually, this second method has shown better results than the first one. The methods have been successfully applied to practical examples of both the texture and its corresponding DEM for seamless 3D terrain visualization