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255 results on '"Yang, Yongkui"'

1. SpGesture: Source-Free Domain-adaptive sEMG-based Gesture Recognition with Jaccard Attentive Spiking Neural Network

Author

Guo, Weiyu, Sun, Ying, Xu, Yijie, Qiao, Ziyue, Yang, Yongkui, and Xiong, Hui

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Signal Processing
Abstract

Surface electromyography (sEMG) based gesture recognition offers a natural and intuitive interaction modality for wearable devices. Despite significant advancements in sEMG-based gesture-recognition models, existing methods often suffer from high computational latency and increased energy consumption. Additionally, the inherent instability of sEMG signals, combined with their sensitivity to distribution shifts in real-world settings, compromises model robustness. To tackle these challenges, we propose a novel SpGesture framework based on Spiking Neural Networks, which possesses several unique merits compared with existing methods: (1) Robustness: By utilizing membrane potential as a memory list, we pioneer the introduction of Source-Free Domain Adaptation into SNN for the first time. This enables SpGesture to mitigate the accuracy degradation caused by distribution shifts. (2) High Accuracy: With a novel Spiking Jaccard Attention, SpGesture enhances the SNNs' ability to represent sEMG features, leading to a notable rise in system accuracy. To validate SpGesture's performance, we collected a new sEMG gesture dataset which has different forearm postures, where SpGesture achieved the highest accuracy among the baselines ($89.26\%$). Moreover, the actual deployment on the CPU demonstrated a system latency below 100ms, well within real-time requirements. This impressive performance showcases SpGesture's potential to enhance the applicability of sEMG in real-world scenarios. The code is available at https://anonymous.4open.science/r/SpGesture.

Published
2024

2. Engineering application of ozone catalytic oxidation in the treatment of monocrystalline silicon cutting fluid wastewater

Author

WANG Xueliang and YANG Yongkui

Subjects
monocrystalline silicon cutting fluid, ozone catalytic oxidation, ozone dosage ratio, Environmental technology. Sanitary engineering, TD1-1066
Abstract

Monocrystalline silicon cutting fluid wastewater has the characteristics of high COD and poor biodegradability. For the wastewater from a certain monocrystalline silicon production enterprise, it was planned to adopt measures such as treating it through processes such as air flotation, biochemistry, and aerated biofilter within the enterprise until it met the takeover standards, and then mixing it with other wastewater to enter the sewage treatment plant for biochemical treatment. This posed a water quality impact problem on downstream sewage treatment plant and affected its stable operation. Therefore, an ozone catalytic oxidation treatment process section was added in front of the biochemical process section of the sewage treatment plant to pre treat the wastewater, in order to improve the inlet water quality of the biochemical section. Different ozone dosages were setted based on the COD of the wastewater discharged from the enterprise. After continuous operation for 15 days, the ozone consumption, effluent COD, and downstream wastewater treatment plant effluent COD were analyzed. The results showed that as the ozone dosage per unit mass of COD (ozone dosage ratio) increased, the effluent COD significantly decreased. However, excessive ozone dosage could cause high load operation and energy consumption of the ozone exhaust gas destruction device.Under experimental conditions, when the ozone dosage ratio varied between 0.98 mg/mg and 1.39 mg/mg, with an average of 1.20 mg/mg, the average COD of the ozone treated effluent was 83 mg/L, and the final COD of the downstream sewage treatment plant was 17 mg/L, achieving stable effluent compliance.

Published
2024
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3. Context-Enhanced Stereo Transformer

Author

Guo, Weiyu, Li, Zhaoshuo, Yang, Yongkui, Wang, Zheng, Taylor, Russell H., Unberath, Mathias, Yuille, Alan, and Li, Yingwei

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Stereo depth estimation is of great interest for computer vision research. However, existing methods struggles to generalize and predict reliably in hazardous regions, such as large uniform regions. To overcome these limitations, we propose Context Enhanced Path (CEP). CEP improves the generalization and robustness against common failure cases in existing solutions by capturing the long-range global information. We construct our stereo depth estimation model, Context Enhanced Stereo Transformer (CSTR), by plugging CEP into the state-of-the-art stereo depth estimation method Stereo Transformer. CSTR is examined on distinct public datasets, such as Scene Flow, Middlebury-2014, KITTI-2015, and MPI-Sintel. We find CSTR outperforms prior approaches by a large margin. For example, in the zero-shot synthetic-to-real setting, CSTR outperforms the best competing approaches on Middlebury-2014 dataset by 11%. Our extensive experiments demonstrate that the long-range information is critical for stereo matching task and CEP successfully captures such information., Comment: Accepted by ECCV2022

Published
2022

24. Context-Enhanced Stereo Transformer

Author

Guo, Weiyu, primary, Li, Zhaoshuo, additional, Yang, Yongkui, additional, Wang, Zheng, additional, Taylor, Russell H., additional, Unberath, Mathias, additional, Yuille, Alan, additional, and Li, Yingwei, additional

Published
2022
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34. AnchorCapsule: A Datastream-Serving Post-Processor for Object Detection in Embedded Vision SoC

Author

Peng, Yi, Yang, Yongkui, Wang, Zheng, and Chen, Chao

Abstract

We present AnchorCapsule, a post-processor for object detection to relieve the workload of CPUs with minimal cost in latency. The capsule takes advantage of a ‘datastream-serving’ architecture paradigm, where computing logic is built to cater for the throughput of DRAM datastreams and simultaneously minimize the usage of on-chip buffers. The implementation results show that AnchorCapsule has a tiny area of $0.038mm^{2}$ but achieves 1 order of magnitude faster than Intel Xeon and 2 orders of magnitude faster than ARM A53, resulting in an end-to-end system-level latency reduction of 46.7% and 16.7% for Yolo-v3-tiny and Yolo-v3 networks, respectively. The precision of AnchorCapsule has been validated on 1,500 samples from three prestige datasets, giving a promising result of 98%+ accuracy in the bounding box (BBox) coordinates, 99%+ in BBox sizes and 100% in object types. Compared with state-of-the-art, AnchorCapsule can filter 9,408 candidate BBoxes in a single run, which is $3.5\times $ in the processing capacity of best-known published work.

Published
2024
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38. Pyrolytic synthesis and performance efficacy comparison of biochar-supported nanoscale zero-valent iron on soil polluted with toxic metals.

Author

Aborisade, Moses Akintayo, Feng, Aixi, Oba, Belay Tafa, Kumar, Akash, Battamo, Ashenafi Yohannes, Huang, Menglu, Chen, Daying, Yang, Yongkui, Sun, Peizhe, and Zhao, Lin

Subjects
BIOCHAR, HEAVY metals, LEAD, SOILS, ENVIRONMENTAL security, WASTE products, PYROLYTIC graphite, IRON
Abstract

Toxic and hazardous metals such as cadmium (Cd) and Lead (Pb) can cause cancer in humans; hence, reducing their bioavailability in the soil is crucial for human health and environmental safety. In this study, biochar modified with nanoscale zero-valent iron (nZVI-BC) was synthesized from low-cost adsorbent waste materials and iron (iii) oxide (Fe2O3) via carbothermal reduction process for stabilization of Pb and Cd in the soil. Furthermore, an evaluation of treatment efficiency on exposure health hazards for both carcinogenic and non-carcinogenic risks was done. The results revealed that nZVI-modified eggshell biochar was able to reduce the concentration bioavailable of Pb and Cd in soil by (69–75%) and (62–65%), and reduce the toxicity leaching of Pb and Cd by (53–66%) and (68–75%), respectively. The treatments reduced carcinogenic risk (CR) and hazard index (HI) in children and adults by 35–47% for Pb and 25–36% for Cd, respectively. Hence, this study proposes a new way to reduce and modify environmental wastes to make nZVI-supported biochar that can remediate toxic metals from the soil, improve soil nutrients, reduce human exposure health risks, and enhance the environment's health. [ABSTRACT FROM AUTHOR]

Published
2023
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44. Carbothermal reduction synthesis of eggshell-biochar modified with nanoscale zerovalent iron/activated carbon for remediation of soil polluted with lead and cadmium

Author

Aborisade, Moses Akintayo, primary, Feng, Aixi, additional, Zheng, Xuehao, additional, Oba, Belay Tafa, additional, Kumar, Akash, additional, Battamo, Ashenafi Yohannes, additional, Kavwenje, Sheila, additional, Liu, Jiashu, additional, Chen, Daying, additional, Okimiji, Oluwaseun Princess, additional, Ojekunle, Oluwasheyi Zacchaeus, additional, Yang, Yongkui, additional, Sun, Peizhe, additional, and Zhao, Lin, additional

Published
2022
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