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31 results on '"Yang, Yee-Hong"'

1. Blind Non-Uniform Motion Deblurring using Atrous Spatial Pyramid Deformable Convolution and Deblurring-Reblurring Consistency

Author

Huo, Dong, Masoumzadeh, Abbas, and Yang, Yee-Hong

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer Science - Computer Vision and Pattern Recognition
Abstract

Many deep learning based methods are designed to remove non-uniform (spatially variant) motion blur caused by object motion and camera shake without knowing the blur kernel. Some methods directly output the latent sharp image in one stage, while others utilize a multi-stage strategy (\eg multi-scale, multi-patch, or multi-temporal) to gradually restore the sharp image. However, these methods have the following two main issues: 1) The computational cost of multi-stage is high; 2) The same convolution kernel is applied in different regions, which is not an ideal choice for non-uniform blur. Hence, non-uniform motion deblurring is still a challenging and open problem. In this paper, we propose a new architecture which consists of multiple Atrous Spatial Pyramid Deformable Convolution (ASPDC) modules to deblur an image end-to-end with more flexibility. Multiple ASPDC modules implicitly learn the pixel-specific motion with different dilation rates in the same layer to handle movements of different magnitude. To improve the training, we also propose a reblurring network to map the deblurred output back to the blurred input, which constrains the solution space. Our experimental results show that the proposed method outperforms state-of-the-art methods on the benchmark datasets. The code is available at https://github.com/Dong-Huo/ASPDC., CVPRW 2022

Published
2022

3. TDPN: Texture and Detail-Preserving Network for Single Image Super-Resolution.

Author

Cai, Qing, Li, Jinxing, Li, Huafeng, Yang, Yee-Hong, Wu, Feng, and Zhang, David

Subjects
HIGH resolution imaging, CONVOLUTIONAL neural networks, GENERATIVE adversarial networks, SIGNAL-to-noise ratio
Abstract

Single image super-resolution (SISR) using deep convolutional neural networks (CNNs) achieves the state-of-the-art performance. Most existing SISR models mainly focus on pursuing high peak signal-to-noise ratio (PSNR) and neglect textures and details. As a result, the recovered images are often perceptually unpleasant. To address this issue, in this paper, we propose a texture and detail-preserving network (TDPN), which focuses not only on local region feature recovery but also on preserving textures and details. Specifically, the high-resolution image is recovered from its corresponding low-resolution input in two branches. First, a multi-reception field based branch is designed to let the network fully learn local region features by adaptively selecting local region features in different reception fields. Then, a texture and detail-learning branch supervised by the textures and details decomposed from the ground-truth high resolution image is proposed to provide additional textures and details for the super-resolution process to improve the perceptual quality. Finally, we introduce a gradient loss into the SISR field and define a novel hybrid loss to strengthen boundary information recovery and to avoid overly smooth boundary in the final recovered high-resolution image caused by using only the MAE loss. More importantly, the proposed method is model-agnostic, which can be applied to most off-the-shelf SISR networks. The experimental results on public datasets demonstrate the superiority of our TDPN on most state-of-the-art SISR methods in PSNR, SSIM and perceptual quality. We will share our code on https://github.com/tocaiqing/TDPN. [ABSTRACT FROM AUTHOR]

Published
2022
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5. A Novel Hybrid Level Set Model for Non-Rigid Object Contour Tracking.

Author

Cai, Qing, Liu, Huiying, Qian, Yiming, Zhou, Sanping, Wang, Jinjun, and Yang, Yee-Hong

Subjects
IMAGE converters
Abstract

Most existing trackers use bounding boxes for object tracking. However, the background contained in the bounding box inevitably decreases the accuracy of the target model, which affects the performance of the tracker and is particularly pronounced for non-rigid objects. To address the above issue, this paper proposes a novel hybrid level set model, which can robustly address the issue of topology changing, occlusions and abrupt motion in non-rigid object tracking by accurately tracking the object contour. In particular, an appearance model is first obtained by repeatedly training and relabeling the initial labeled frame using competing one-class SVMs. Then, by integrating the trained appearance model, an edge detector and image spatial information into the level set model, a new hybrid level set model is presented, which accurately locates the object contour and feeds back to the competing one-class SVMs to update the appearance model of the next frame. In addition, a motion model is defined to predict the accurate location of the object when occlusion and abrupt motion occur in the next frame. Finally, the experimental results on state-of-the-art benchmarks demonstrate the feasibility and effectiveness of the proposed model and the superiority of the proposed method over existing trackers in terms of accuracy and robustness. [ABSTRACT FROM AUTHOR]

Published
2021
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6. AVLSM: Adaptive Variational Level Set Model for Image Segmentation in the Presence of Severe Intensity Inhomogeneity and High Noise.

Author

Cai, Qing, Qian, Yiming, Zhou, Sanping, Li, Jinxing, Yang, Yee-Hong, Wu, Feng, and Zhang, David

Subjects
IMAGE segmentation, IMAGE denoising, NOISE, DIAGNOSTIC imaging, MARKOV random fields
Abstract

Intensity inhomogeneity and noise are two common issues in images but inevitably lead to significant challenges for image segmentation and is particularly pronounced when the two issues simultaneously appear in one image. As a result, most existing level set models yield poor performance when applied to this images. To this end, this paper proposes a novel hybrid level set model, named adaptive variational level set model (AVLSM) by integrating an adaptive scale bias field correction term and a denoising term into one level set framework, which can simultaneously correct the severe inhomogeneous intensity and denoise in segmentation. Specifically, an adaptive scale bias field correction term is first defined to correct the severe inhomogeneous intensity by adaptively adjusting the scale according to the degree of intensity inhomogeneity while segmentation. More importantly, the proposed adaptive scale truncation function in the term is model-agnostic, which can be applied to most off-the-shelf models and improves their performance for image segmentation with severe intensity inhomogeneity. Then, a denoising energy term is constructed based on the variational model, which can remove not only common additive noise but also multiplicative noise often occurred in medical image during segmentation. Finally, by integrating the two proposed energy terms into a variational level set framework, the AVLSM is proposed. The experimental results on synthetic and real images demonstrate the superiority of AVLSM over most state-of-the-art level set models in terms of accuracy, robustness and running time. [ABSTRACT FROM AUTHOR]

Published
2021
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7. Automated Colorization of a Grayscale Image With Seed Points Propagation.

Author

Wan, Shaohua, Xia, Yu, Qi, Lianyong, Yang, Yee-Hong, and Atiquzzaman, Mohammed

Abstract

In this paper, we propose a fully automatic image colorization method for grayscale images using neural network and optimization. For a determined training set including the gray images and its corresponding color images, our method segments grayscale images into superpixels and then extracts features of particular points of interest in each superpixel. The obtained features and their RGB values are given as input for, the training colorization neural network of each pixel. To achieve a better image colorization effect in shorter running time, our method further propagates the resulting color points to neighboring pixels for improved colorization results. In the propagation of color, we present a cost function to formalize the premise that neighboring pixels should have the maximum positive similarity of intensities and colors; we then propose our solution to solving the optimization problem. At last, a guided image filter is employed to refine the colorized image. Experiments on a wide variety of images show that the proposed algorithms can achieve superior performance over the state-of-the-art algorithms. [ABSTRACT FROM AUTHOR]

Published
2020
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13. All-In-Focus Synthetic Aperture Imaging Using Image Matting.

Author

Pei, Zhao, Chen, Xida, and Yang, Yee-Hong

Subjects
SYNTHETIC apertures, IMAGE quality analysis, IMAGING systems, COMPUTER vision, FOCAL planes
Abstract

“Seeing through” occluders is one of the most important effects that can be achieved with synthetic aperture imaging. As well, the occlusion problem, a challenging task for many computer vision applications, can be easily handled. Synthetic aperture imaging takes advantage of the property that only objects on the focal plane are sharp. The resulting image that is obtained by averaging images from different views consists of blurry objects away from the focal plane and sharp objects on the focal plane. Removing the blurriness caused by defocusing in synthetic aperture images to achieve an all-in-focus “seeing through” image is a challenging research problem. In this paper, we propose a novel method to improve the image quality of synthetic aperture imaging using image matting via energy minimization by estimating the foreground and the background. In particular, we first estimate the out-of-focus region by focusing on the background objects in each camera view using energy minimization. Next, we utilize a labeling method to create a sharp “see through” synthetic aperture image of the hidden objects. Then, image matting is used to extract the alpha matte of the hidden objects. Finally, by compositing the hidden objects with the estimated background regions, a sharp “see through” synthetic aperture image is created. The experimental results show that the proposed method outperforms the traditional synthetic aperture imaging method [1] as well as its improved versions [2][4], which simply dim and blur the area in the image that is out of focus, and a recent all-in-focus method [5]. We show that both the occluded objects and the background can be combined using our method to create a sharp synthetic aperture image. [ABSTRACT FROM PUBLISHER]

Published
2018
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28. Fast Unambiguous Stereo Matching Using Reliability-Based Dynamic Programming.

Author

Gong, Minglun and Yang, Yee-Hong

Subjects
*DYNAMIC programming, *SYSTEMS engineering, *MATHEMATICAL optimization, *MATHEMATICAL programming, *LINEAR programming, *ALGORITHMS
Abstract

An efficient unambiguous stereo matching technique is presented in this paper. Our main contribution is to introduce a new reliability measure to dynamic programming approaches in general. For stereo vision application, the reliability of a proposed match on a scanline is defined as the cost difference between the globally best disparity assignment that includes the match and the globally best assignment that does not include the match. A reliability-based dynamic programming algorithm is derived accordingly, which can selectively assign disparities to pixels when the corresponding reliabilities exceed a given threshold. The experimental results show that the new approach can produce dense (>70 percent of the unoccluded pixels) and reliable (error rate <0.5 percent) matches efficiently (<0.2 sec on a 2GHz P4) for the four Middlebury stereo data sets. [ABSTRACT FROM AUTHOR]

Published
2005
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29. Multiple Illuminant Direction Detection with Application to Image Synthesis.

Author

Zhang, Yufei and Yang, Yee-Hong

Subjects
*LIGHT sources, *IMAGE processing
Abstract

Deals with a study which discussed the theoretical shading of a Lambertian sphere of known size in a multiple distant light source environment and derived its intensity function. Information on multiple illuminant direction analysis; Performance evaluation; Comparison with other techniques in determining single light source; Conclusions.

Published
2001
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30. Three-deminsional surface reconstruction using optical flow for medical imaging.

Author

Weng, Nan and Yang, Yee-Hong

Subjects
*DIAGNOSTIC imaging
Abstract

Presents a study which use optical flow to proposed a three-dimensional (3D) surface rendering method for medical imaging. Information on medical imaging; What is optical flow; How the 3D motion of an object can be recovered from teh optical flow field; Detailed information on the method proposed.

Published
1997
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31. A Component-Wise Analysis of Constructible Match Cost Functions for Global Stereopsis.

Author

Neilson, Daniel and Yang, Yee-Hong

Subjects
*SMOOTHING (Numerical analysis), *HEURISTIC algorithms, *PIXELS, *MATHEMATICAL functions, *MATHEMATICAL mappings, *VARIANCES, *MATCHING theory
Abstract

Match cost functions are common elements of every stereopsis algorithm that are used to provide a dissimilarity measure between pixels in different images. Global stereopsis algorithms incorporate assumptions about the smoothness of the resulting distance map that can interact with match cost functions in unpredictable ways. In this paper, we present a large-scale study on the relative performance of a structured set of match cost functions within several global stereopsis frameworks. We compare 272 match cost functions that are built from component parts in the context of four global stereopsis frameworks with a data set consisting of 57 stereo image pairs at three different variances of synthetic sensor noise. From our analysis, we infer a set of general rules that can be used to guide derivation of match cost functions for use in global stereopsis algorithms. [ABSTRACT FROM AUTHOR]

Published
2011
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