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Your search keyword '"Feng, Quanlong"' showing total 120 results
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120 results on '"Feng, Quanlong"'

1. Diagnose Like a Radiologist: Hybrid Neuro-Probabilistic Reasoning for Attribute-Based Medical Image Diagnosis

Author

Zhao, Gangming, Feng, Quanlong, Chen, Chaoqi, Zhou, Zhen, and Yu, Yizhou

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

During clinical practice, radiologists often use attributes, e.g. morphological and appearance characteristics of a lesion, to aid disease diagnosis. Effectively modeling attributes as well as all relationships involving attributes could boost the generalization ability and verifiability of medical image diagnosis algorithms. In this paper, we introduce a hybrid neuro-probabilistic reasoning algorithm for verifiable attribute-based medical image diagnosis. There are two parallel branches in our hybrid algorithm, a Bayesian network branch performing probabilistic causal relationship reasoning and a graph convolutional network branch performing more generic relational modeling and reasoning using a feature representation. Tight coupling between these two branches is achieved via a cross-network attention mechanism and the fusion of their classification results. We have successfully applied our hybrid reasoning algorithm to two challenging medical image diagnosis tasks. On the LIDC-IDRI benchmark dataset for benign-malignant classification of pulmonary nodules in CT images, our method achieves a new state-of-the-art accuracy of 95.36\% and an AUC of 96.54\%. Our method also achieves a 3.24\% accuracy improvement on an in-house chest X-ray image dataset for tuberculosis diagnosis. Our ablation study indicates that our hybrid algorithm achieves a much better generalization performance than a pure neural network architecture under very limited training data., Comment: To appear in IEEE Transactions on Pattern Analysis and Machine Intelligence (TPAMI)

Published
2022

7. Constraints and Coordinated Allocation Strategies of Water and Land Resources for Sustainable Use of Coastal Saline-Alkali Land in the Yellow River Delta

Author

Zuo Qiang, Wu Xun, Shi Jianchu, Wang Quanjiu, Liu Zhaohui, Zhu Anning, Yin Dongqin, Feng Quanlong, Ji Wenjun, and Kang Shaozhong

Subjects
Yellow River Delta, coastal saline-alkali cultivated land, management and utilization, water and land resources allocation, sustainable development of agriculture, Engineering (General). Civil engineering (General), TA1-2040
Abstract

To ensure national food and ecological security in China, it is essential to develop various reserve resources for cultivated land based on existing farmland advantages. Owing to abundant saline-alkali land reserves, the Yellow River Delta has enormous potentials for agriculture development. However, water scarcity and imbalance between water and land resources allocation have significantly limited the efficient utilization of saline-alkali land in this region. According to the development status regarding salinealkali soil amelioration and crop production, this study analyzes water and land resource conditions, clarifies major challenges for the sustainable development of local agriculture from the perspectives of water resource supply, groundwater table regulation, management and utilization system of saline-alkali land, technological innovation, and follow-up engineering maintenance, and proposes strategies for efficient use and coordinated allocation of water and land resources in the region. The strategies include: (1) increasing water supply from the Yellow River and connecting the coastal hydrographic net to make optimal allocation of regional water resources; (2) improving irrigation and drainage systems and auxiliary projects to enhance the quality of arable lands; and (3) accelerating demonstration and promotion of key technologies for saline-alkali soil amelioration to fully leverage the supporting function of sciences and technologies. The research results can provide a reference for comprehensive governance and utilization of saline-alkali land and agricultural sustainable development.

Published
2023
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26. Semantic segmentation for plastic-covered greenhouses and plastic-mulched farmlands from VHR imagery.

Author

Niu, Bowen, Feng, Quanlong, Su, Shuai, Yang, Zhi, Zhang, Sihang, Liu, Shaotong, Wang, Jiudong, Yang, Jianyu, and Gong, Jianhua

Subjects
*CONVOLUTIONAL neural networks, *REMOTE-sensing images, *LEARNING strategies, *GREENHOUSES, *SOIL moisture
Abstract

Due to their important role in maintaining temperature and soil moisture, agricultural plastic covers have been widely utilized around the globe for improving crop-growing conditions, which include both plastic-covered greenhouses (PCGs) and plastic-mulched farmlands (PMFs). However, it is a challenging and long-neglected issue to separate PCGs from PMFs due to their spectral similarity. The objective of this study is to propose a deep semantic segmentation model for accurate PCG and PMF mapping based on very high-resolution satellite images and to improve the model's spatial generalization capability using a transfer learning strategy. Specifically, the proposed semantic segmentation model has an encoder-decoder structure, where the encoder is composed of a new convolutional neural network for discriminative spatial feature learning, while the decoder utilizes a multi-task strategy to improve the predictions on the boundaries. Meanwhile, a transfer learning framework is adopted to increase mapping performance and generalization ability under limited samples. Experimental results in several typical regions across the Eurasian continent show that the proposed model could separate PCGs from PMFs accurately with a mean overall accuracy of 94.49% and an average mIoU of 0.8377. Ablation studies verify the role of encoder-decoder and transfer learning strategy in improving classification performance. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Mapping of land cover in semi-arid regions based on a multi-gate semi-supervised learning method – a case study of Zhangbei, China.

Author

Chen, Boan, Feng, Quanlong, Niu, Bowen, Yang, Jianyu, Gao, Bingbo, Liu, Jiantao, Wang, Weitao, Li, Chenxi, Zhao, Yuanyuan, Guo, Hao, and Ma, Qin

Subjects
*ARID regions, *SUPERVISED learning, *ECOLOGICAL zones, *DEEP learning, *CLIMATE change, *LAND cover
Abstract

Semi-arid regions belong to important ecological transitional zones with a high ecosystem vulnerability and sensitivity. In recent years, due to the influence of climate change and human activities, the land covers of semi-arid regions have experienced dramatic changes. Therefore, timely and accurate land cover mapping of semi-arid regions is of great significance. Deep learning has been a hotspot in land cover mapping; however, it requires a large number of labelled samples. To tackle this data-hunger issue, we resolve to a multi-gate semi-supervised learning (SSL) method that could use a huge number of unlabelled samples to improve the classification performance. Specifically, the proposed method consists of a probability gate, an uncertainty gate and a consistency gate, aiming to generate high-quality pseudo-labels from the unlabelled datasets. Experimental results from Zhangbei, China indicate that the proposed method yields a good performance with an overall accuracy of 90.31%, which is 4.31% higher than that of traditional supervised learning (SL) methods. Ablation studies also verify the effectiveness of the gated mechanism in selecting unlabelled data. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Supplementary File: Social Force Model-Based Group Behavior Simulation In Virtual Geographic Environments

Author

Huang, Lin, Gong, Jianhua, Li, Wenhang, Xu, Tao, Shen, Shen, Liang, Jianming, Feng, Quanlong, Zhang, Dong, and Sun, Jun

Subjects
coordinate behaviors, virtual geographic environments, social force model, crowd dynamics, avoiding behaviors
Abstract

Supplementary File: Social Force Model-Based Group Behavior Simulation in Virtual Geographic Environments

Published
2018
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45. Winter wheat mapping using a random forest classifier combined with multi-temporal and multi-sensor data.

Author

Liu, Jiantao, Feng, Quanlong, Gong, Jianhua, Zhou, Jieping, Liang, Jianming, and Li, Yi

Subjects
*WINTER wheat, *RANDOM forest algorithms, *PLANT phenology, *REMOTE sensing, *AGRICULTURAL mapping
Abstract

Wheat is a major staple food crop in China. Accurate and cost-effective wheat mapping is exceedingly critical for food production management, food security warnings, and food trade policy-making in China. To reduce confusion between wheat and non-wheat crops for accurate growth stage wheat mapping, we present a novel approach that combines a random forest (RF) classifier with multi-sensor and multi-temporal image data. This study aims to (1) determine whether an RF combined with multi-sensor and multi-temporal imagery can achieve accurate winter wheat mapping, (2) to find out whether the proposed approach can provide improved performance over the traditional classifiers, and (3) examine the feasibility of deriving reliable estimates of winter wheat-growing areas from medium-resolution remotely sensed data. Winter wheat mapping experiments were conducted in Boxing County. The experimental results suggest that the proposed method can achieve good performance, with an overall accuracy of 92.9% and a kappa coefficient (κ) of 0.858. The winter wheat acreage was estimated at 33,895.71 ha with a relative error of only 9.3%. The effectiveness and feasibility of the proposed approach has been evaluated through comparison with other image classification methods. We conclude that the proposed approach can provide accurate delineation of winter wheat areas. [ABSTRACT FROM AUTHOR]

Published
2018
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