Your search keyword '"Image texture"' showing total 6 results

1. A Study of Digital Image Enlargement and Enhancement

Author

Hsueh-Yi Lin, Cheng-Yi Yu, Chi-Yuan Lin, Cheng-Jian Lin, and Sheng-Chih Yang

Subjects

Article Subject, business.industry, General Mathematics, Binary image, lcsh:Mathematics, General Engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, lcsh:QA1-939, Digital image, Image texture, lcsh:TA1-2040, Computer Science::Computer Vision and Pattern Recognition, Computer vision, Artificial intelligence, Image warping, business, lcsh:Engineering (General). Civil engineering (General), Image restoration, Smoothing, Interpolation, Mathematics, Feature detection (computer vision)

Abstract

Most image enlargement techniques suffer the problem of zigzagged edges and jagged images following enlargement. Humans are sensitive to the edges of objects; if the edges in the image are sharp, the visual is considered to be high quality. To solve this problem, this paper presents a new and effective method for image enlargement and enhancement based on adaptive inverse hyperbolic tangent (AIHT) algorithm. Conventional image enlargement and enhancement methods enlarge the image using interpolation, and subsequently enhance the image without considering image features. However, this study presents the method based on Adaptive Inverse Hyperbolic Tangent algorithm to enhance images according to image features before enlarging the image. Experimental results indicate that the proposed algorithm is capable of adaptively enhancing the image and extruding object details, thereby improving enlargements by smoothing the edge of the objects in the image.

Published

2014

2. Single Image Super-Resolution via L0 Image Smoothing

Author

Jian Li, Zhang Liu, Qi Huang, and Qi Wang

Subjects

Article Subject, business.industry, General Mathematics, Binary image, lcsh:Mathematics, General Engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, Edge-preserving smoothing, lcsh:QA1-939, Image texture, lcsh:TA1-2040, Computer Science::Computer Vision and Pattern Recognition, Computer vision, Artificial intelligence, business, lcsh:Engineering (General). Civil engineering (General), Image restoration, Smoothing, Image gradient, Feature detection (computer vision), Mathematics

Abstract

We propose a single image super-resolution method based on aL0smoothing approach. We consider a low-resolution image as two parts: one is the smooth image generated by theL0smoothing method and the other is the error image between the low-resolution image and the smoothing image. We get an intermediate high-resolution image via a classical interpolation and then generate a high-resolution smoothing image with sharp edges by theL0smoothing method. For the error image, a learning-based super-resolution approach, keeping image details well, is employed to obtain a high-resolution error image. The resulting high-resolution image is the sum of the high-resolution smoothing image and the high-resolution error image. Experimental results show the effectiveness of the proposed method.

Published

2014

3. Color-Texture-Based Image Retrieval System Using Gaussian Markov Random Field Model

Author

Meng-Hsiun Tsai, Yung-Kuan Chan, Shu-Wei Guo, Jiunn-Lin Wu, and Jiun-Shiang Wang

Subjects

Article Subject, Pixel, Computer science, business.industry, General Mathematics, lcsh:Mathematics, General Engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, lcsh:QA1-939, Image texture, Feature (computer vision), lcsh:TA1-2040, Distortion, Computer Science::Computer Vision and Pattern Recognition, Computer vision, Artificial intelligence, Hidden Markov model, business, lcsh:Engineering (General). Civil engineering (General), Image retrieval, Hue, Feature detection (computer vision)

Abstract

The techniques of -means algorithm and Gaussian Markov random field model are integrated to provide a Gaussian Markov random field model (GMRFM) feature which can describe the texture information of different pixel colors in an image. Based on this feature, an image retrieval method is also provided to seek the database images most similar to a given query image. In this paper, a genetic-based parameter detector is presented to decide the fittest parameters used by the proposed image retrieval method, as well. The experimental results manifested that the image retrieval method is insensitive to the rotation, translation, distortion, noise, scale, hue, light, and contrast variations, especially distortion, hue, and contrast variations.

Published

2009

4. Image Processing-Based Pitting Corrosion Detection Using Metaheuristic Optimized Multilevel Image Thresholding and Machine-Learning Approaches.

Author

Hoang, Nhat-Duc

Subjects

THRESHOLDING algorithms, PITTING corrosion, METAHEURISTIC algorithms, STRUCTURAL health monitoring, COMPUTER vision, STATISTICAL measurement

Abstract

Pitting corrosion can lead to critical failures of infrastructure elements. Therefore, accurate detection of corroded areas is crucial during the phase of structural health monitoring. This study aims at developing a computer vision and data-driven method for automatic detection of pitting corrosion. The proposed method is an integration of the history-based adaptive differential evolution with linear population size reduction (LSHADE), image processing techniques, and the support vector machine (SVM). The implementation of the LSHADE metaheuristic in this research is multifold. This optimization algorithm is employed in the task of multilevel image thresholding to extract regions of interest from the metal surface. Image texture analysis methods of statistical measurements of color channels, gray-level co-occurrence matrix, and local binary pattern are used to compute numerical features subsequently employed by the SVM-based pattern recognition phase. In addition, the LSHADE metaheuristic is also used to optimize the hyperparameters of the machine-learning approach. Experimental results supported by statistical test points out that the newly developed approach can attain a good predictive result with classification accurate rate = 91.80%, precision = 0.91, recall = 0.94, negative predictive value = 0.93, and F1 score = 0.92. Thus, the newly developed method can be a promising tool to be used in a periodic structural health survey. [ABSTRACT FROM AUTHOR]

Published

2020

5. Tunnel Lining Crack Recognition Based on Improved Multiscale Retinex and Sobel Edge Detection.

Author

Wang, Quanlei, Zhang, Ning, Jiang, Kun, Ma, Chao, Zhou, Zhaochen, and Dai, Chunquan

Subjects

TUNNEL lining, TUNNEL design & construction, AUTOMATIC identification, COMPUTER vision, TUNNEL ventilation, VALUE engineering

Abstract

China is gradually transitioning from the "tunnel construction era" to the "tunnel maintenance era," and more and more operating tunnels need to be inspected for diseases. With the continuous development of computer vision, the automatic identification of tunnel lining cracks with computers has gradually been applied in engineering. On the basis of summarizing the weaknesses and strengths of previous studies, this paper first uses the improved multiscale Retinex algorithm to filter the collected tunnel crack images and introduces the eight-direction Sobel edge detection operator to extract the edges of the cracks. Perform mathematical morphological operations on the image after edge extraction, and use the principle of the smallest enclosing rectangle to remove the isolated points of the image. Finally, the performance of the algorithm is judged by the objective evaluation index of the image, the accuracy of crack recognition, and the running time of the algorithm. The image filtering algorithm proposed in this paper can better preserve the edges of the image while enhancing the image. The objective evaluation indexes of the image have been improved significantly, and the main body of the crack can be accurately identified. The overall crack recognition accuracy rate can reach 97.5%, which is higher than the existing tunnel lining crack recognition algorithm, and the average calculation time for each image is shorter. This algorithm has high research significance and engineering application value. [ABSTRACT FROM AUTHOR]

Published

2021

6. Image Restoration Based on Adaptive Dual-Domain Filtering.

Author

He, Ruiqiang, Feng, Xiangchu, Zhao, Chenping, Chen, Huazhu, Zhu, Xiaolong, and Xu, Chen

Subjects

IMAGE reconstruction, COMPUTER vision, LAPLACE distribution, LEARNING, COMPUTER algorithms

Abstract

Image restoration is a long-standing problem in low-level computer vision. In this paper, we offer a simple but effective estimation paradigm for various image restoration problems. Specifically, we first propose a model-based Gaussian denoising method Adaptive Dual-Domain Filtering (ADDF) by learning the optimal confidence factors which are adjusted adaptively with Gaussian noise standard deviation. In addition, by generalizing this learning approach to Laplace noise, the learning algorithm of the optimum confidence factors in Laplace denoising is presented. Finally, the proposed ADDF is tactfully plugged into the method frameworks of off-the-shelf image deblurring and single image super-resolution (SISR). The approach, coining the name Plug-ADDF, achieves promising performance. Extensive experiments validate that the proposed ADDF for Gaussian and Laplace noise removals indeed results in visual and quantitative improvements over some existing state-of-the-art methods. Moreover, our Plug-ADDF for image deblurring and SISR also demonstrates superior performance objectively and subjectively. [ABSTRACT FROM AUTHOR]

Published

2018