Your search keyword '"Ming, Zhang Jin"' showing total 5 results

1. Building Extraction Algorithm for Remote Sensing Images by Fusing Partial Convolution and Residual Refinement

Author

HOU Jiaxing, QI Xiangming, HAO Ming, ZHANG Jin

Subjects

high resolution remote sensing imagery, building extraction, boundary smoothing, multiscale features, u-net, partial convolution, Electronic computers. Computer science, QA75.5-76.95

Abstract

Due to the high similarity between background and buildings in high spatial resolution remote sensing images, which makes it difficult for the network to take into account buildings of different sizes, the pixels in the building boundary region are confused with the background, and the building boundaries are easily missed. In order to solve the above problems, the building extraction algorithm (UUNet) for remote sensing images fusing partial convolution and residual refinement is proposed. Using U-Net as the baseline network, firstly, this paper improves the encoder. It adds two Conv4×4 at the front end of the encoder to expand the sensing field at the beginning and capture more remote sensing image feature information. It utilizes the PC module constructed by partial convolution (PConv3×3) to enhance the ability of the encoder to extract multi-scale building features, and downsamples twice with Conv2×2 to reduce the loss of building feature information. Secondly, this paper reduces the number of parameters. It crops the three-layer structure of the U-Net network decoder to a UUNet network decoder. Lastly, it adds an improved residual refinement module. It constructs a U-shaped residual refinement module cropped to a three-layer structure at the output of the decoder, to further purify the rough building feature maps output from the decoder, so as to make the edge information of the buildings clearer. Decoder is jump-connected to the encoder of the U-shaped residual refinement module to preserve the initial features, and SimAM is embedded in the refinement module to improve the building focus, optimize the network to improve the boundary blurring, and enhance the quality of target boundary extraction. In the ablation experiment conducted on the Satellite dataset II (East Asia), UUNet shows improvements over U-Net, with IoUBuilding, IoUBackground, F1, OA and mIoU increased by 2.78 percentage points, 0.12 percentage points, 1.91 percentage points, 0.19 percentage points and 1.45 percentage points, respectively, indicating that UUNet outperforms the baseline network. Furthermore, comparative experiments on both Satellite dataset II (East Asia) and WHU dataset demonstrate that UUNet performs better than existing mainstream algorithms, significantly enhancing building extraction in high-resolution remote sensing images.

Published

2024

2. MIDAS: Multi-sensorial Immersive Dynamic Autonomous System Improves Motivation of Stroke Affected Patients for Hand Rehabilitation

Author

Kow, Fok-Chi-Seng Fok, Sinha, Anoop Kumar, Ming, Zhang Jin, Songyu, Bao, Kang, Jake Tan Jun, Jeffrey, Hong Yan Jack, Mihaleva, Galina, Thalmann, Nadia Magnenat, and Cai, Yiyu

Subjects

Computer Science - Robotics, Computer Science - Human-Computer Interaction

Abstract

Majority of stroke survivors are left with poorly functioning paretic hands. Current rehabilitation devices have failed to motivate the patients enough to continue rehabilitation exercises. The objective of this project, MIDAS (Multi-sensorial Immersive Dynamic Autonomous System) is a proof of concept by using an immersive system to improve motivation of stroke patients for hand rehabilitation. MIDAS is intended for stroke patients who suffer from light to mild stroke. MIDAS is lightweight and portable. It consists of a hand exoskeleton subsystem, a Virtual Reality (VR) subsystem, and an olfactory subsystem. Altogether, MIDAS engages four out of five senses during rehabilitation. To evaluate the efficacy of MIDAS a pilot study consisting of three sessions is carried out on five stroke affected patients. Subsystems of MIDAS are added progressively in each session. The game environment, sonic effects, and scent released is carefully chosen to enhance the immersive experience. 60% of the scores of user experience are above 40 (out of 56). 96% Self Rehabilitation Motivation Scale (SRMS) rating shows that the participants are motivated to use MIDAS and 87% rating shows that MIDAS is exciting for rehabilitation. Participants experienced elevated motivation to continue stroke rehabilitation using MIDAS and no undesired side effects were reported.

Published

2022

3. Pro-environment Cu2O facilitate stable low-wastage ultraviolet p-CuxO/n-GaN LEDs with virtual electron blocking nanolayer

Author

Wang, Hui, Fan Yang, Fei, Li, Rong, Jian Zhou, Yi, Bo Peng, Wen, Jiao Xiang, Guo, Ming Zhang, Jin, Liu, Yue, Hui Zhang, Jia, Zhao, Yang, and Feng Shi, Zhi

Published

2022

4. pH-sensitive nano-polyelectrolyte complexes with arthritic macrophage-targeting delivery of triptolide

Author

Xin Li, Jia, primary, Jiao Zhang, Meng, additional, Feng Shi, Jin, additional, Peng Wang, Sheng, additional, Mei Zhong, Xue, additional, Han Wu, Yi, additional, Qu, Yan, additional, Le Gao, Hui, additional, and Ming Zhang, Jin, additional

Published

2023

5. MIDAS: Multi-sensorial Immersive Dynamic Autonomous System Improves Motivation of Stroke Affected Patients for Hand Rehabilitation

Author

Sinha, Anoop Kumar, primary, Kow,, Fok-Chi-Seng Fok, primary, Ming, Zhang Jin, primary, Songyu, Bao, primary, Kang, Jake Tan Jun, primary, Jeffrey, Hong Yan Jack, primary, Mihaleva, Galina, primary, Thalmann, Nadia Magnenat, primary, and Cai, Yiyu, primary

Published

2021