Abstract
When mosaicking orthoimages, especially in urban areas with various obvious ground objects like buildings, roads, cars or trees, the detection of optimal seamlines is one of the key technologies for creating seamless and pleasant image mosaics. In this paper, we propose a new approach to detect optimal seamlines for orthoimage mosaicking with the use of deep convolutional neural network (CNN) and graph cuts. Deep CNNs have been widely used in many fields of computer vision and photogrammetry in recent years, and graph cuts is one of the most widely used energy optimization frameworks. We first propose a deep CNN for land cover semantic segmentation in overlap regions between two adjacent images. Then, the energy cost of each pixel in the overlap regions is defined based on the classification probabilities of belonging to each of the specified classes. To find the optimal seamlines globally, we fuse the CNN-classified energy costs of all pixels into the graph cuts energy minimization framework. The main advantage of our proposed method is that the pixel similarity energy costs between two images are defined using the classification results of the CNN based semantic segmentation instead of using the image informations of color, gradient or texture as traditional methods do. Another advantage of our proposed method is that the semantic informations are fully used to guide the process of optimal seamline detection, which is more reasonable than only using the hand designed features defined to represent the image differences. Finally, the experimental results on several groups of challenging orthoimages show that the proposed method is capable of finding high-quality seamlines among urban and non-urban orthoimages, and outperforms the state-of-the-art algorithms and the commercial software based on the visual comparison, statistical evaluation and quantitative evaluation based on the structural similarity (SSIM) index.
Highlights
Digital orthophoto map (DOM) is one of the most popularly used products in the field of photogrammetry, and it can provide both pleasant textures and accurate geometric properties of maps
We fuse the defined energy function into the graph cuts optimization framework to find the optimal seamlines with minimum energy cost, and we propose using the structural similarity (SSIM) index to quantitatively evaluate the qualities of detected seamlines
We proposed a novel optimal seamline detection approach with the use of the convolutional neural network (CNN)-based semantic image segmentation and a graph cuts energy minimization framework
Summary
Digital orthophoto map (DOM) is one of the most popularly used products in the field of photogrammetry, and it can provide both pleasant textures and accurate geometric properties of maps. Image mosaicking is one of the key technologies to generate a large-scale DOM It is an important and classical problem in the fields of photogrammetry [1,2,3,4,5], remote sensing [6,7] and computer vision [8,9,10], which is used to merge a set of geometrically aligned images into a single composite image as seamlessly as possible. In some cases, there exist photometric inconsistencies to different extents in overlap regions between images due to illumination variations and different exposure settings. Our work focuses on detecting the optimal seamlines between overlapped images to eliminate the influences of geometric misalignments
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