Your search keyword '"MeiLing Xu"' showing total 4 results

1. Short-Term Solar Irradiance Forecasting Based on a Hybrid Deep Learning Methodology

Author

Ke Yan, Hengle Shen, Lei Wang, Huiming Zhou, Meiling Xu, and Yuchang Mo

Subjects

short-term forecasting, solar irradiance, gated recurrent unit, attention mechanism, Information technology, T58.5-58.64

Abstract

Accurate prediction of solar irradiance is beneficial in reducing energy waste associated with photovoltaic power plants, preventing system damage caused by the severe fluctuation of solar irradiance, and stationarizing the power output integration between different power grids. Considering the randomness and multiple dimension of weather data, a hybrid deep learning model that combines a gated recurrent unit (GRU) neural network and an attention mechanism is proposed forecasting the solar irradiance changes in four different seasons. In the first step, the Inception neural network and ResNet are designed to extract features from the original dataset. Secondly, the extracted features are inputted into the recurrent neural network (RNN) network for model training. Experimental results show that the proposed hybrid deep learning model accurately predicts solar irradiance changes in a short-term manner. In addition, the forecasting performance of the model is better than traditional deep learning models (such as long short term memory and GRU).

Published

2020

2. Visual Saliency Based Just Noticeable Difference Estimation in DWT Domain

Author

Chunxing Wang, Xiaoyue Han, Wenbo Wan, Jing Li, Jiande Sun, and Meiling Xu

Subjects

just noticeable distortion (JND), visual saliency, discrete wavelet transform (DWT), Information technology, T58.5-58.64

Abstract

It has been known that human visual systems (HVSs) can be applied to describe the underlying masking properties for the image processing. In general, HVS can only perceive small changes in a scene when they are greater than the just noticeable distortion (JND) threshold. Recently, the cognitive resources of huma visual attention mechanisms are limited, which can not concentrate on all stimuli. To be specific, only more important stimuli will react from the mechanisms. When it comes to visual attention mechanisms, we need to introduce the visual saliency to model the human perception more accurately. In this paper, we presents a new wavelet-based JND estimation method that takes into account the interrelationship between visual saliency and JND threshold. In the experimental part, we verify it from both subjective and objective aspects. In addition, the experimental results show that extracting the saliency map of the image in the discrete wavelet transform (DWT) domain and then modulating its JND threshold is better than the non-modulated JND effect.

Published

2018

3. A Novel STDM Watermarking Using Visual Saliency-Based JND Model

Author

Chunxing Wang, Teng Zhang, Wenbo Wan, Xiaoyue Han, and Meiling Xu

Subjects

watermarking, JND, STDM, visual saliency, Information technology, T58.5-58.64

Abstract

The just noticeable distortion (JND) model plays an important role in measuring the visual visibility for spread transform dither modulation (STDM) watermarking. However, the existing JND model characterizes the suprathreshold distortions with an equal saliency level. Visual saliency (VS) has been widely studied by psychologists and computer scientists during the last decade, where the distortions are more likely to be noticeable to any viewer. With this consideration, we proposed a novel STDM watermarking method for a monochrome image by exploiting a visual saliency-based JND model. In our proposed JND model, a simple VS model is employed as a feature to reflect the importance of a local region and compute the final JND map. Extensive experiments performed on the classic image databases demonstrate that the proposed watermarking scheme works better in terms of the robustness than other related methods.

Published

2017

4. Visual Saliency Based Just Noticeable Difference Estimation in DWT Domain

Author

Jiande Sun, Meiling Xu, Chunxing Wang, Xiaoyue Han, Wenbo Wan, and Jing Li

Subjects

Discrete wavelet transform, Masking (art), Just-noticeable difference, Computer science, media_common.quotation_subject, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, 02 engineering and technology, Image (mathematics), visual saliency, Wavelet, Perception, Cognitive resource theory, 0202 electrical engineering, electronic engineering, information engineering, Computer vision, just noticeable distortion (JND), media_common, lcsh:T58.5-58.64, business.industry, lcsh:Information technology, 020206 networking & telecommunications, 020201 artificial intelligence & image processing, Artificial intelligence, discrete wavelet transform (DWT), business, Information Systems

Abstract

It has been known that human visual systems (HVSs) can be applied to describe the underlying masking properties for the image processing. In general, HVS can only perceive small changes in a scene when they are greater than the just noticeable distortion (JND) threshold. Recently, the cognitive resources of huma visual attention mechanisms are limited, which can not concentrate on all stimuli. To be specific, only more important stimuli will react from the mechanisms. When it comes to visual attention mechanisms, we need to introduce the visual saliency to model the human perception more accurately. In this paper, we presents a new wavelet-based JND estimation method that takes into account the interrelationship between visual saliency and JND threshold. In the experimental part, we verify it from both subjective and objective aspects. In addition, the experimental results show that extracting the saliency map of the image in the discrete wavelet transform (DWT) domain and then modulating its JND threshold is better than the non-modulated JND effect.

Published

2018