Your search keyword '"Ning, Hailong"' showing total 9 results

1. Lightweight Structure-aware Transformer Network for VHR Remote Sensing Image Change Detection

Author

Lei, Tao, Xu, Yetong, Ning, Hailong, Lv, Zhiyong, Min, Chongdan, Jin, Yaochu, Nandi, Asoke K., Lei, Tao, Xu, Yetong, Ning, Hailong, Lv, Zhiyong, Min, Chongdan, Jin, Yaochu, and Nandi, Asoke K.

Abstract

Popular Transformer networks have been successfully applied to remote sensing (RS) image change detection (CD) identifications and achieve better results than most convolutional neural networks (CNNs), but they still suffer from two main problems. First, the computational complexity of the Transformer grows quadratically with the increase of image spatial resolution, which is unfavorable to very high-resolution (VHR) RS images. Second, these popular Transformer networks tend to ignore the importance of fine-grained features, which results in poor edge integrity and internal tightness for largely changed objects and leads to the loss of small changed objects. To address the above issues, this Letter proposes a Lightweight Structure-aware Transformer (LSAT) network for RS image CD. The proposed LSAT has two advantages. First, a Cross-dimension Interactive Self-attention (CISA) module with linear complexity is designed to replace the vanilla self-attention in visual Transformer, which effectively reduces the computational complexity while improving the feature representation ability of the proposed LSAT. Second, a Structure-aware Enhancement Module (SAEM) is designed to enhance difference features and edge detail information, which can achieve double enhancement by difference refinement and detail aggregation so as to obtain fine-grained features of bi-temporal RS images. Experimental results show that the proposed LSAT achieves significant improvement in detection accuracy and offers a better tradeoff between accuracy and computational costs than most state-of-the-art CD methods for VHR RS images.

Published

2023

2. Delving into Rectifiers in Style-Based Image Translation

Author

Zhang, Yipeng, Hu, Bingliang, Ning, Hailong, Wang, Quang, Zhang, Yipeng, Hu, Bingliang, Ning, Hailong, and Wang, Quang

Abstract

While modern image translation techniques can create photorealistic synthetic images, they have limited style controllability, thus could suffer from translation errors. In this work, we show that the activation function is one of the crucial components in controlling the direction of image synthesis. Specifically, we explicitly demonstrated that the slope parameters of the rectifier could change the data distribution and be used independently to control the direction of translation. To improve the style controllability, two simple but effective techniques are proposed, including Adaptive ReLU (AdaReLU) and structural adaptive function. The AdaReLU can dynamically adjust the slope parameters according to the target style and can be utilized to increase the controllability by combining with Adaptive Instance Normalization (AdaIN). Meanwhile, the structural adaptative function enables rectifiers to manipulate the structure of feature maps more effectively. It is composed of the proposed structural convolution (StruConv), an efficient convolutional module that can choose the area to be activated based on the mean and variance specified by AdaIN. Extensive experiments show that the proposed techniques can greatly increase the network controllability and output diversity in style-based image translation tasks., Comment: 14 pages,14 figures

Published

2021

3. Audio-Visual Collaborative Representation Learning for Dynamic Saliency Prediction

Author

Ning, Hailong, Zhao, Bin, Hu, Zhanxuan, He, Lang, Pei, Ercheng, Ning, Hailong, Zhao, Bin, Hu, Zhanxuan, He, Lang, and Pei, Ercheng

Abstract

The Dynamic Saliency Prediction (DSP) task simulates the human selective attention mechanism to perceive the dynamic scene, which is significant and imperative in many vision tasks. Most of existing methods only consider visual cues, while neglect the accompanied audio information, which can provide complementary information for the scene understanding. In fact, there exists a strong relation between auditory and visual cues, and humans generally perceive the surrounding scene by collaboratively sensing these cues. Motivated by this, an audio-visual collaborative representation learning method is proposed for the DSP task, which explores the audio modality to better predict the dynamic saliency map by assisting vision modality. The proposed method consists of three parts: 1) audio-visual encoding, 2) audio-visual location, and 3) collaborative integration parts. Firstly, a refined SoundNet architecture is adopted to encode audio modality for obtaining corresponding features, and a modified 3D ResNet-50 architecture is employed to learn visual features, containing both spatial location and temporal motion information. Secondly, an audio-visual location part is devised to locate the sound source in the visual scene by learning the correspondence between audio-visual information. Thirdly, a collaborative integration part is devised to adaptively aggregate audio-visual information and center-bias prior to generate the final saliency map. Extensive experiments are conducted on six challenging audiovisual eye-tracking datasets, including DIEM, AVAD, Coutrot1, Coutrot2, SumMe, and ETMD, which shows significant superiority over state-of-the-art DSP models.

Published

2021

4. Audio Description from Image by Modal Translation Network

Author

Ning, Hailong, Zheng, Xiangtao, Yuan, Yuan, Lu, Xiaoqiang, Ning, Hailong, Zheng, Xiangtao, Yuan, Yuan, and Lu, Xiaoqiang

Abstract

Audio is the main form for the visually impaired to obtain information. In reality, all kinds of visual data always exist, but audio data does not exist in many cases. In order to help the visually impaired people to better perceive the information around them, an image-to-audio-description (I2AD) task is proposed to generate audio descriptions from images in this paper. To complete this totally new task, a modal translation network (MT-Net) from visual to auditory sense is proposed. The proposed MT-Net includes three progressive sub-networks: 1) feature learning, 2) cross-modal mapping, and 3) audio generation. First, the feature learning sub-network aims to learn semantic features from image and audio, including image feature learning and audio feature learning. Second, the cross-modal mapping sub-network transforms the image feature into a cross-modal representation with the same semantic concept as the audio feature. In this way, the correlation of inter-modal data is effectively mined for easing the heterogeneous gap between image and audio. Finally, the audio generation sub-network is designed to generate the audio waveform from the cross-modal representation. The generated audio waveform is interpolated to obtain the corresponding audio file according to the sample frequency. Being the first attempt to explore the I2AD task, three large-scale datasets with plenty of manual audio descriptions are built. Experiments on the datasets verify the feasibility of generating intelligible audio from an image directly and the effectiveness of proposed method.

Published

2021

5. Semantics-Consistent Representation Learning for Remote Sensing Image-Voice Retrieval

Author

Ning, Hailong, Zhao, Bin, Yuan, Yuan, Ning, Hailong, Zhao, Bin, and Yuan, Yuan

Abstract

With the development of earth observation technology, massive amounts of remote sensing (RS) images are acquired. To find useful information from these images, cross-modal RS image-voice retrieval provides a new insight. This paper aims to study the task of RS image-voice retrieval so as to search effective information from massive amounts of RS data. Existing methods for RS image-voice retrieval rely primarily on the pairwise relationship to narrow the heterogeneous semantic gap between images and voices. However, apart from the pairwise relationship included in the datasets, the intra-modality and non-paired inter-modality relationships should also be taken into account simultaneously, since the semantic consistency among non-paired representations plays an important role in the RS image-voice retrieval task. Inspired by this, a semantics-consistent representation learning (SCRL) method is proposed for RS image-voice retrieval. The main novelty is that the proposed method takes the pairwise, intra-modality, and non-paired inter-modality relationships into account simultaneously, thereby improving the semantic consistency of the learned representations for the RS image-voice retrieval. The proposed SCRL method consists of two main steps: 1) semantics encoding and 2) semantics-consistent representation learning. Firstly, an image encoding network is adopted to extract high-level image features with a transfer learning strategy, and a voice encoding network with dilated convolution is devised to obtain high-level voice features. Secondly, a consistent representation space is conducted by modeling the three kinds of relationships to narrow the heterogeneous semantic gap and learn semantics-consistent representations across two modalities. Extensive experimental results on three challenging RS image-voice datasets show the effectiveness of the proposed method.

Published

2021

6. Bio-Inspired Representation Learning for Visual Attention Prediction

Author

Yuan, Yuan, Ning, Hailong, Lu, Xiaoqiang, Yuan, Yuan, Ning, Hailong, and Lu, Xiaoqiang

Abstract

Visual Attention Prediction (VAP) is a significant and imperative issue in the field of computer vision. Most of existing VAP methods are based on deep learning. However, they do not fully take advantage of the low-level contrast features while generating the visual attention map. In this paper, a novel VAP method is proposed to generate visual attention map via bio-inspired representation learning. The bio-inspired representation learning combines both low-level contrast and high-level semantic features simultaneously, which are developed by the fact that human eye is sensitive to the patches with high contrast and objects with high semantics. The proposed method is composed of three main steps: 1) feature extraction, 2) bio-inspired representation learning and 3) visual attention map generation. Firstly, the high-level semantic feature is extracted from the refined VGG16, while the low-level contrast feature is extracted by the proposed contrast feature extraction block in a deep network. Secondly, during bio-inspired representation learning, both the extracted low-level contrast and high-level semantic features are combined by the designed densely connected block, which is proposed to concatenate various features scale by scale. Finally, the weighted-fusion layer is exploited to generate the ultimate visual attention map based on the obtained representations after bio-inspired representation learning. Extensive experiments are performed to demonstrate the effectiveness of the proposed method.

Published

2021

7. Electroplating lithium transition metal oxides.

Author

Zhang, Huigang, Zhang, Huigang, Ning, Hailong, Busbee, John, Shen, Zihan, Kiggins, Chadd, Hua, Yuyan, Eaves, Janna, Davis, Jerome, Shi, Tan, Shao, Yu-Tsun, Zuo, Jian-Min, Hong, Xuhao, Chan, Yanbin, Wang, Shuangbao, Wang, Peng, Sun, Pengcheng, Xu, Sheng, Liu, Jinyun, Braun, Paul V, Zhang, Huigang, Zhang, Huigang, Ning, Hailong, Busbee, John, Shen, Zihan, Kiggins, Chadd, Hua, Yuyan, Eaves, Janna, Davis, Jerome, Shi, Tan, Shao, Yu-Tsun, Zuo, Jian-Min, Hong, Xuhao, Chan, Yanbin, Wang, Shuangbao, Wang, Peng, Sun, Pengcheng, Xu, Sheng, Liu, Jinyun, and Braun, Paul V

Abstract

Materials synthesis often provides opportunities for innovation. We demonstrate a general low-temperature (260°C) molten salt electrodeposition approach to directly electroplate the important lithium-ion (Li-ion) battery cathode materials LiCoO2, LiMn2O4, and Al-doped LiCoO2. The crystallinities and electrochemical capacities of the electroplated oxides are comparable to those of the powders synthesized at much higher temperatures (700° to 1000°C). This new growth method significantly broadens the scope of battery form factors and functionalities, enabling a variety of highly desirable battery properties, including high energy, high power, and unprecedented electrode flexibility.

Published

2017

8. Electroplating lithium transition metal oxides.

Author

Zhang, Huigang, Zhang, Huigang, Ning, Hailong, Busbee, John, Shen, Zihan, Kiggins, Chadd, Hua, Yuyan, Eaves, Janna, Davis, Jerome, Shi, Tan, Shao, Yu-Tsun, Zuo, Jian-Min, Hong, Xuhao, Chan, Yanbin, Wang, Shuangbao, Wang, Peng, Sun, Pengcheng, Xu, Sheng, Liu, Jinyun, Braun, Paul V, Zhang, Huigang, Zhang, Huigang, Ning, Hailong, Busbee, John, Shen, Zihan, Kiggins, Chadd, Hua, Yuyan, Eaves, Janna, Davis, Jerome, Shi, Tan, Shao, Yu-Tsun, Zuo, Jian-Min, Hong, Xuhao, Chan, Yanbin, Wang, Shuangbao, Wang, Peng, Sun, Pengcheng, Xu, Sheng, Liu, Jinyun, and Braun, Paul V

Abstract

Materials synthesis often provides opportunities for innovation. We demonstrate a general low-temperature (260°C) molten salt electrodeposition approach to directly electroplate the important lithium-ion (Li-ion) battery cathode materials LiCoO2, LiMn2O4, and Al-doped LiCoO2. The crystallinities and electrochemical capacities of the electroplated oxides are comparable to those of the powders synthesized at much higher temperatures (700° to 1000°C). This new growth method significantly broadens the scope of battery form factors and functionalities, enabling a variety of highly desirable battery properties, including high energy, high power, and unprecedented electrode flexibility.

Published

2017

9. Graphene sandwiched mesostructured Li-ion battery electrodes

Author

Liu, Jinyun, Zheng, Qiye, Goodman, Matthew D., Zhu, Haoyue, Kim, Jinwoo, Krueger, Neil A., Ning, Hailong, Huang, Xingjiu, Liu, Jinhuai, Terrones, Mauricio, Braun, Paul V., Liu, Jinyun, Zheng, Qiye, Goodman, Matthew D., Zhu, Haoyue, Kim, Jinwoo, Krueger, Neil A., Ning, Hailong, Huang, Xingjiu, Liu, Jinhuai, Terrones, Mauricio, and Braun, Paul V.

Abstract

A deterministic graphene-sandwiched Li-ion battery electrode consisting of an integrated 3D mesostructure of electrochemically active materials and graphene is presented. As demonstrations, electrodes with active nanomaterials that coat (V2O5@graphene@V2O5 cathode) or are coated by (graphene@Si@graphene anode) graphene are fabricated. These electrodes exhibit high capacities and ultralong cycle lives (the cathode can be cycled over 2000 times with minimal capacity fade).

Published

2016