Gustaf Kylberg scite author profile

Gustaf Kylberg

4Publications

116Citation Statements Received

94Citation Statements Given

How they've been cited

184

116

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Affiliations

Vironova (Sweden), Uppsala University, Swedish University of Agricultural Sciences

Publications

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Evaluation of noise robustness for local binary pattern descriptors in texture classification

Kylberg

Sintorn

2013

J Image Video Proc

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Local binary pattern (LBP) operators have become commonly used texture descriptors in recent years. Several new LBP-based descriptors have been proposed, of which some aim at improving robustness to noise. To do this, the thresholding and encoding schemes used in the descriptors are modified. In this article, the robustness to noise for the eight following LBP-based descriptors are evaluated; improved LBP, median binary patterns (MBP), local ternary patterns (LTP), improved LTP (ILTP), local quinary patterns, robust LBP, and fuzzy LBP (FLBP). To put their performance into perspective they are compared to three well-known reference descriptors; the classic LBP, Gabor filter banks (GF), and standard descriptors derived from gray-level co-occurrence matrices. In addition, a roughly five times faster implementation of the FLBP descriptor is presented, and a new descriptor which we call shift LBP is introduced as an even faster approximation to the FLBP. The texture descriptors are compared and evaluated on six texture datasets; Brodatz, KTH-TIPS2b, Kylberg, Mondial Marmi, UIUC, and a Virus texture dataset. After optimizing all parameters for each dataset the descriptors are evaluated under increasing levels of additive Gaussian white noise. The discriminating power of the texture descriptors is assessed using tenfolded cross-validation of a nearest neighbor classifier. The results show that several of the descriptors perform well at low levels of noise while they all suffer, to different degrees, from higher levels of introduced noise. In our tests, ILTP and FLBP show an overall good performance on several datasets. The GF are often very noise robust compared to the LBP-family under moderate to high levels of noise but not necessarily the best descriptor under low levels of added noise. In our tests, MBP is neither a good texture descriptor nor stable to noise.

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Virus Texture Analysis Using Local Binary Patterns and Radial Density Profiles

Kylberg

Uppström

Sintorn

2011

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We investigate the discriminant power of two local and two global texture measures on virus images. The viruses are imaged using negative stain transmission electron microscopy. Local binary patterns and a multi scale extension are compared to radial density profiles in the spatial domain and in the Fourier domain. To assess the discriminant potential of the texture measures a Random Forest classifier is used. Our analysis shows that the multi scale extension performs better than the standard local binary patterns and that radial density profiles in comparison is a rather poor virus texture discriminating measure. Furthermore, we show that the multi scale extension and the profiles in Fourier domain are both good texture measures and that they complement each other well, that is, they seem to detect different texture properties. Combining the two, hence, improves the discrimination between virus textures.

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Segmentation of virus particle candidates in transmission electron microscopy images

Kylberg

Uppström

Hedlund

et al. 2011

Journal of Microscopy

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Summary In this paper, we present an automatic segmentation method that detects virus particles of various shapes in transmission electron microscopy images. The method is based on a statistical analysis of local neighbourhoods of all the pixels in the image followed by an object width discrimination and finally, for elongated objects, a border refinement step. It requires only one input parameter, the approximate width of the virus particles searched for. The proposed method is evaluated on a large number of viruses. It successfully segments viruses regardless of shape, from polyhedral to highly pleomorphic.

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Super-Resolution Reconstruction of Transmission Electron Microscopy Images Using Deep Learning

Suveer

Gupta

Kylberg

et al. 2019

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Gustaf Kylberg

Evaluation of noise robustness for local binary pattern descriptors in texture classification

Virus Texture Analysis Using Local Binary Patterns and Radial Density Profiles

Segmentation of virus particle candidates in transmission electron microscopy images

Super-Resolution Reconstruction of Transmission Electron Microscopy Images Using Deep Learning

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