Bio: R. Gayathri is an academic researcher from Annamalai University. The author has contributed to research in topics: Thresholding & Edge detection. The author has co-authored 2 publications.
TL;DR: A simple technique called alpha blending is used to hide the data in an image and its impact is analyzed for different alpha values using alpha blending in thermal images.
Abstract: Hiding data in an image become a very successful technique to communicate with end users, blinding the interpreter’s intention. Various algorithms have been analyzed on the basis of masking the content within the coordinates of the images or in the color of the images used. Few advanced developed complex algorithms to hide the content in the values of the colors to ensure or guarantee robustness of the data hidden. In this research, a simple technique called alpha blending is used to hide the data in an image and its impact is analyzed for different alpha values. The unavoidable impact of noise on the transmitted carrier image was formulated and studied by many researchers using various available algorithms. In this regard: the same is analyzed using alpha blending in thermal images.
TL;DR: Efficiency and performance of edge segmentation method and process is improved by proposed approach and intensity based thresholding method improves the System’s efficiency and performance.
Abstract: Edge detection, Contrast missing in texture, ROI (region of interest) selection and background are some of the problems in segmentation of region wise. Implementation of various segmentation methods recommended with improved results can overcome these issues. There are some drawbacks in this method such that envisaging the similar range of pixel intensity. Threshold technique with intensity based has been proposed in this paper. This technique chooses values of intensity that exist in the line of boundary and edges & corners of the finer and thinner layers in medical images of grayscale. There are five layers in the human eye’s cornea region which can look multiple intensities over layers of boundary. Deformation of boundary layers may result in diseases of keratoconus. K-means clustering algorithm is used to group layers intensity and thresholding method which is intensity based. Efficiency and performance of edge segmentation method and process is improved by proposed approach. With the help of Matlab software, results from current existing method are compared results of proposed approach. So, intensity based thresholding method improves the System’s efficiency and performance.
TL;DR: In this paper , a pre-trained Convolutional Neural Network (CNN) model was trained via transfer learning and tested to detect concrete defect indications, such as cracks, spalling, and potential subsurface defects.
Abstract: This study investigates the semantic segmentation of common concrete defects when using different imaging modalities. One pre-trained Convolutional Neural Network (CNN) model was trained via transfer learning and tested to detect concrete defect indications, such as cracks, spalling, and potential subsurface defects. We compared the model's performance using datasets of visible, thermal, and fused images. In addition, the impact of using different image enhancement techniques, such as histogram equalization and resolution improvement, was investigated. The data was collected from four different concrete structures using four infrared cameras with distinct sensitivities and resolutions, with imaging campaigns conducted during autumn, summer, and winter. Although specific defects can be detected in monomodal images, the results demonstrated that a larger number of defect classes could be detected using fused images with the same viewpoint and resolution as the single-sensor image without significant loss of information. In addition, the output of one hypothesis test showed that the image enhancement techniques provided no significant improvement in the CNN performance for this case of study, even though they resulted in enhanced images with higher information content (entropy) than the original images.