Your search keyword '"IMAGE processing"' showing total 5 results

1. Contextual Exemplar Classifier-Based Image Representation for Classification.

Author

Zhang, Chunjie, Huang, Qingming, and Tian, Qi

Subjects

*IMAGE representation, *CLASSIFICATION, *SENSORY perception, *FEATURE extraction, *COMPUTER vision

Abstract

The use of local features for image representation has become popular in recent years. Local features are often used in the bag-of-visual-words scheme. Although proven effective, this method still has two drawbacks. First, local regions from which local features are extracted are not discriminative enough for visual tasks. Hence, the combination of local features is necessary. Second, the semantic gap between visual features and human perception also hinders the performance. To address these two problems, in this paper, we propose a novel contextual exemplar classifier-based method for image representation and apply it for classification tasks. Each exemplar classifier is trained to separate one training image from the other images of different classes. We partition each image into a number of regions and use the responses of these exemplar classifiers as the image region’s representation. The contextual relationship is then modeled using mixture Dirichlet distributions. A bilayer model is used to predict image classes with L2 constraints. Experimental results on the Natural Scene, Caltech-101/256, Flower-17/102, and SUN-397 data sets show that the proposed method is able to outperform the state-of-the-art local feature-based methods for image classification. [ABSTRACT FROM PUBLISHER]

Published

2017

2. Audio Matters in Visual Attention.

Author

Chen, Yanxiang, Wang, Meng, Nguyen, Tam V., Kankanhalli, Mohan, Yuan, Jun, and Yan, Shuicheng

Subjects

*AUDITORY selective attention, *EYE movements, *COHERENCE (Physics), *IMAGE processing, *IMAGE analysis, *LIGHT scattering

Abstract

There is a dearth of information on how perceived auditory information guides image-viewing behavior. To investigate auditory-driven visual attention, we first generated a human eye-fixation database from a pool of 200 static images and 400 image-audio pairs viewed by 48 subjects. The eye tracking data for the image-audio pairs were captured while participants viewed images, which took place immediately after exposure to coherent/incoherent audio samples. The database was analyzed in terms of time to first fixation, fixation durations on the target object, entropy, AUC, and saliency ratio. It was found that coherent audio information is an important cue for enhancing the feature-specific response to the target object. Conversely, incoherent audio information attenuates this response. Finally, a system predicting the image-viewing with the influence of different audio sources was developed. The detailedly discussed top-down module in the system is composed of auditory estimation based on Gaussian mixture model-maximum a posteriori algorithm-universal background model structure, as well as visual estimation based on the conditional random field model and sparse latent variables. The evaluation experiments show that the proposed models in the system exhibit strong consistency with eye fixations. [ABSTRACT FROM PUBLISHER]

Published

2014

3. Spatiotemporal Saliency Detection Using Textural Contrast and Its Applications.

Author

Kim, Wonjun and Kim, Changick

Subjects

*COMPUTER vision, *SPATIOTEMPORAL processes, *ROBUST control, *VISUALIZATION, *IMAGE processing, *VISUAL programming languages (Computer science)

Abstract

Saliency detection has been extensively studied due to its promising contributions for various computer vision applications. However, most existing methods are easily biased toward edges or corners, which are statistically significant, but not necessarily relevant. Moreover, they often fail to find salient regions in complex scenes due to ambiguities between salient regions and highly textured backgrounds. In this paper, we present a novel unified framework for spatiotemporal saliency detection based on textural contrast. Our method is simple and robust, yet biologically plausible; thus, it can be easily extended to various applications, such as image retargeting, object segmentation, and video surveillance. Based on various datasets, we conduct comparative evaluations of 12 representative saliency detection models presented in the literature, and the results show that the proposed scheme outperforms other previously developed methods in detecting salient regions of the static and dynamic scenes. [ABSTRACT FROM AUTHOR]

Published

2014

4. A Video Saliency Detection Model in Compressed Domain.

Author

Fang, Yuming, Lin, Weisi, Chen, Zhenzhong, Tsai, Chia-Ming, and Lin, Chia-Wen

Subjects

*VIDEO coding, *MATHEMATICAL models, *VIDEO compression, *IMAGE processing, *PIXELS, *DISCRETE cosine transforms, *FEATURE extraction

Abstract

Saliency detection is widely used to extract regions of interest in images for various image processing applications. Recently, many saliency detection models have been proposed for video in uncompressed (pixel) domain. However, video over Internet is always stored in compressed domains, such as MPEG2, H.264, and MPEG4 Visual. In this paper, we propose a novel video saliency detection model based on feature contrast in compressed domain. Four types of features including luminance, color, texture, and motion are extracted from the discrete cosine transform coefficients and motion vectors in video bitstream. The static saliency map of unpredicted frames (I frames) is calculated on the basis of luminance, color, and texture features, while the motion saliency map of predicted frames (P and B frames) is computed by motion feature. A new fusion method is designed to combine the static saliency and motion saliency maps to get the final saliency map for each video frame. Due to the directly derived features in compressed domain, the proposed model can predict the salient regions efficiently for video frames. Experimental results on a public database show superior performance of the proposed video saliency detection model in compressed domain. [ABSTRACT FROM AUTHOR]

Published

2014

5. Visual Saliency by Selective Contrast.

Author

Wang, Qi, Yuan, and Yan, Pingkun

Subjects

*VISUAL perception, *CONTRAST effect, *IMAGE converters, *IMAGE processing, *COMPUTER algorithms, *DATA visualization

Abstract

Automatic detection of salient objects in visual media (e.g., videos and images) has been attracting much attention. The detected salient objects can be utilized for segmentation, recognition, and retrieval. However, the accuracy of saliency detection remains a challenge. The reason behind this challenge is mainly due to the lack of a well-defined model for interpreting saliency formulation. To tackle this problem, this letter proposes to detect salient objects based on selective contrast. Selective contrast intrinsically explores the most distinguishable component information in color, texture, and location. A large number of experiments are thereafter carried out upon a benchmark dataset, and the results are compared with those of 12 other popular state-of-the-art algorithms. In addition, the advantage of the proposed algorithm is also demonstrated in a retargeting application. [ABSTRACT FROM AUTHOR]

Published

2013