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OSSIM: An Object-Based Multiview Stereo Algorithm Using SSIM Index Matching Cost

Fei, Liang ; Yan, Li ; Chen, Changhai ; Ye, Zhiyun ; Zhou, Jiantong

IEEE transactions on geoscience and remote sensing, 2017-12, Vol.55 (12), p.6937-6949 [Periódico revisado por pares]

New York: IEEE

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  • Título:
    OSSIM: An Object-Based Multiview Stereo Algorithm Using SSIM Index Matching Cost
  • Autor: Fei, Liang ; Yan, Li ; Chen, Changhai ; Ye, Zhiyun ; Zhou, Jiantong
  • Assuntos: Completeness ; Data ; Datasets ; Dense image matching ; depth locus image (DLI) ; Image processing ; Image quality ; Image reconstruction ; Matching ; Mathematical models ; Methods ; multiview stereo (MVS) ; object based ; Similarity ; Software algorithms ; structural similarity (SSIM) index ; Take-all disease ; Three-dimensional displays ; Workflow
  • É parte de: IEEE transactions on geoscience and remote sensing, 2017-12, Vol.55 (12), p.6937-6949
  • Descrição: Multiview stereo (MVS) is a crucial process in image-based automatic 3-D reconstruction and mapping applications. In a dense matching process, the matching cost is generally computed between image pairs, making the efficiency low due to the large number of stereo pairs. This paper presents a novel object-based MVS algorithm using structural similarity (SSIM) index matching cost in a coarse-to-fine workflow. As far as we know, this is the first time SSIM index is introduced to calculate the matching cost of MVS applications. In contrast to classical stereo methods, the proposed object-based structural similarity (OSSIM) method computes only a depth map for each image. Thus, the efficiency can be greatly improved when the overlap between images is large. To obtain an optimized depth map, the winner-take-all and semi-global matching strategies are implemented. Moreover, an object-based multiview consistency checking strategy is also proposed to eliminate wrong matches and perform pixelwise view selection. The proposed method was successfully applied on a close-range Fountain-P11 data set provided by EPFL and aerial data sets of Vaihingen and Zürich by the ISPRS. Experimental results demonstrate that the proposed method can deliver matches at high completeness and accuracy. For the Vaihingen data set, the correctness and completeness rate were 71.12% and 95.99% with an RMSE of 2.8 GSD. For the Foutain-P11 data set, the proposed method outperformed the other existing methods with the ratio of pixels less than 2 cm. Extensive comparison using Zürich data set shows that it can derive results comparable to the state-of-the-art software (PhotoScan, Pix4d, and Smart3D) in urban buildings areas.
  • Editor: New York: IEEE
  • Idioma: Inglês
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