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1,173 results on '"Li, Fangfei"'

1. Computer vision tasks for intelligent aerospace missions: An overview

Author

Chen, Huilin, Sun, Qiyu, Li, Fangfei, and Tang, Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Computer vision tasks are crucial for aerospace missions as they help spacecraft to understand and interpret the space environment, such as estimating position and orientation, reconstructing 3D models, and recognizing objects, which have been extensively studied to successfully carry out the missions. However, traditional methods like Kalman Filtering, Structure from Motion, and Multi-View Stereo are not robust enough to handle harsh conditions, leading to unreliable results. In recent years, deep learning (DL)-based perception technologies have shown great potential and outperformed traditional methods, especially in terms of their robustness to changing environments. To further advance DL-based aerospace perception, various frameworks, datasets, and strategies have been proposed, indicating significant potential for future applications. In this survey, we aim to explore the promising techniques used in perception tasks and emphasize the importance of DL-based aerospace perception. We begin by providing an overview of aerospace perception, including classical space programs developed in recent years, commonly used sensors, and traditional perception methods. Subsequently, we delve into three fundamental perception tasks in aerospace missions: pose estimation, 3D reconstruction, and recognition, as they are basic and crucial for subsequent decision-making and control. Finally, we discuss the limitations and possibilities in current research and provide an outlook on future developments, including the challenges of working with limited datasets, the need for improved algorithms, and the potential benefits of multi-source information fusion., Comment: 23 pages, 7 figures, journal

Published
2024

3. Enhanced Q-Learning Approach to Finite-Time Reachability with Maximum Probability for Probabilistic Boolean Control Networks

Author

Fan, Hongyue, Ni, Jingjie, and Li, Fangfei

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

In this paper, we investigate the problem of controlling probabilistic Boolean control networks (PBCNs) to achieve reachability with maximum probability in the finite time horizon. We address three questions: 1) finding control policies that achieve reachability with maximum probability under fixed, and particularly, varied finite time horizon, 2) leveraging prior knowledge to solve question 1) with faster convergence speed in scenarios where time is a variable framework, and 3) proposing an enhanced Q-learning (QL) method to efficiently address the aforementioned questions for large-scale PBCNs. For question 1), we demonstrate the applicability of QL method on the finite-time reachability problem. For question 2), considering the possibility of varied time frames, we incorporate transfer learning (TL) technique to leverage prior knowledge and enhance convergence speed. For question 3), an enhanced model-free QL approach that improves upon the traditional QL algorithm by introducing memory-efficient modifications to address these issues in large-scale PBCNs effectively. Finally, we apply the proposed method to two examples: a small-scale PBCN and a large-scale PBCN, demonstrating the effectiveness of our approach.

Published
2023

5. Targeting osteoblastic 11β-HSD1 to combat high-fat diet-induced bone loss and obesity

Author

Zhong, Chuanxin, Li, Nanxi, Wang, Shengzheng, Li, Dijie, Yang, Zhihua, Du, Lin, Huang, Guangxin, Li, Haitian, Yeung, Wing Sze, He, Shan, Ma, Shuting, Wang, Zhuqian, Jiang, Hewen, Zhang, Huarui, Li, Zhanghao, Wen, Xiaoxin, Xue, Song, Tao, Xiaohui, Li, Haorui, Xie, Duoli, Zhang, Yihao, Chen, Zefeng, Wang, Junqin, Yan, Jianfeng, Liang, Zhengming, Zhang, Zongkang, Zhong, Zhigang, Wu, Zeting, Wan, Chao, Liang, Chao, Wang, Luyao, Yu, Sifan, Ma, Yuan, Yu, Yuanyuan, Li, Fangfei, Chen, Yang, Zhang, Baoting, Lyu, Aiping, Ren, Fuzeng, Zhou, Hong, Liu, Jin, and Zhang, Ge

Published
2024
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8. Reinforcement Learning Based Minimum State-flipped Control for the Reachability of Boolean Control Networks

Author

Ni, Jingjie, Tang, Yang, and Li, Fangfei

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper proposes model-free reinforcement learning methods for minimum-cost state-flipped control in Boolean control networks (BCNs). We tackle two questions: 1) finding the flipping kernel, namely the flip set with the smallest cardinality ensuring reachability, and 2) deriving optimal policies to minimize the number of flipping actions for reachability based on the obtained flipping kernel. For question 1), Q-learning's capability in determining reachability is demonstrated. To expedite convergence, we incorporate two improvements: i) demonstrating that previously reachable states remain reachable after adding elements to the flip set, followed by employing transfer learning, and ii) initiating each episode with special initial states whose reachability to the target state set are currently unknown. Question 2) requires optimal control with terminal constraints, while Q-learning only handles unconstrained problems. To bridge the gap, we propose a BCN-characteristics-based reward scheme and prove its optimality. Questions 1) and 2) with large-scale BCNs are addressed by employing small memory Q-learning, which reduces memory usage by only recording visited action-values. An upper bound on memory usage is provided to assess the algorithm's feasibility. To expedite convergence for question 2) in large-scale BCNs, we introduce adaptive variable rewards based on the known maximum steps needed to reach the target state set without cycles. Finally, the effectiveness of the proposed methods is validated on both small- and large-scale BCNs.

Published
2023

9. Deep Reinforcement Learning Based Optimal Infinite-Horizon Control of Probabilistic Boolean Control Networks

Author

Ni, Jingjie, Li, Fangfei, and Wu, Zheng-Guang

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

In this paper, a deep reinforcement learning based method is proposed to obtain optimal policies for optimal infinite-horizon control of probabilistic Boolean control networks (PBCNs). Compared with the existing literatures, the proposed method is model-free, namely, the system model and the initial states needn't to be known. Meanwhile, it is suitable for large-scale PBCNs. First, we establish the connection between deep reinforcement learning and optimal infinite-horizon control, and structure the problem into the framework of the Markov decision process. Then, PBCNs are defined as large-scale or small-scale, depending on whether the memory of the action-values exceeds the RAM of the computer. Based on the newly introduced definition, Q-learning (QL) and double deep Q-network (DDQN) are applied to the optimal infinite-horizon control of small-scale and large-scale PBCNs, respectively. Meanwhile, the optimal state feedback controllers are designed. Finally, two examples are presented, which are a small-scale PBCN with 3 nodes, and a large-scale one with 28 nodes. To verify the convergence of QL and DDQN, the optimal control policy and the optimal action-values, which are obtained from both the algorithms, are compared with the ones based on a model-based method named policy iteration. Meanwhile, the performance of QL is compared with DDQN in the small-scale PBCN.

Published
2023

10. Feature Re-enhanced Meta-Contrastive Learning for Recommendation

Author

Li, Fangfei, Chen, Wulin, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Cao, Cungeng, editor, Chen, Huajun, editor, Zhao, Liang, editor, Arshad, Junaid, editor, Asyhari, Taufiq, editor, and Wang, Yonghao, editor

Published
2024
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24. Single-cell profile reveals the landscape of cardiac immunity and identifies a cardio-protective Ym-1hi neutrophil in myocardial ischemia–reperfusion injury

Author

Dong, Yalan, Kang, Zhenyu, Zhang, Zili, Zhang, Yongqiang, Zhou, Haifeng, Liu, Yanfei, Shuai, Xinxin, Li, Junyi, Yin, Liangqingqing, Wang, Xunxun, Ma, Yan, Fan, Heng, Jiang, Feng, Lin, Zhihao, Ding, Congzhu, Yun Jin, Kim, Sarapultsev, Alexey, Li, Fangfei, Zhang, Ge, Xie, Tian, Yin, Changjun, Cheng, Xiang, Luo, Shanshan, Liu, Yue, and Hu, Desheng

Published
2024
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30. Fluorescence pressure sensors: Calibration of ruby, Sm2+: SrB4O7, and Sm3+: YAG to 55 GPa and 850 K.

Author

Wei, Yingzhan, Zhou, Qiang, Zhang, Caizi, Li, Liang, Li, Xinyang, and Li, Fangfei

Subjects
SAMARIUM, PRESSURE sensors, ND-YAG lasers, YTTRIUM aluminum garnet, TEMPERATURE effect, FLUORESCENCE, CALIBRATION
Abstract

In this work, a calibration of ruby, samarium-doped strontium tetraborate (Sm2+: SrB4O7), and samarium-doped yttrium aluminum garnet (Sm3+: YAG) using Raman and fluorescence spectra was conducted within the temperature range of 296–850 K and pressure range of 0–55 GPa. The obtained calibration can be applied independently for high-temperature or high-pressure conditions and described as the unit form of P = (A′/B′) × [(λ/λT)B′ − 1] with A′ = A (296 K) + A1 × (T − 296) + A2 × (T − 296)2, B′ = B(296 K) + B1 × (T – 296), and λT = λT (296 K) + ΔλT, where the specific parameters are provided in the main text. It was observed that for the λ1 line (5D07F0 transition, about 685.2 nm under ambient conditions, also known as the 0-0 line) of Sm2+: SrB4O7, the neglect of the temperature effect on the pressure coefficient may lead to an underestimation of pressure above 35–40 GPa, with a maximum deviation of approximately 2.5 GPa within the range of 55 GPa and 850 K. For Sm3+: YAG, it may introduce significant errors under the whole high temperature and high pressure range if the effect of temperature is ignored, that is, about 3.9 GPa for Y1 line (4G5/26H7/2 transition, about 617.8 nm under ambient conditions) and 4.6 GPa for Y2 line (4G5/26H7/2 transition, about 616.0 nm under ambient conditions) at 850 K. Comparing the three fluorescence pressure sensors, the ruby has the strongest signal intensity and highest temperature sensitivity, and the Sm2+: SrB4O7 and the Sm3+: YAG possess lower temperature sensibility, wider used temperature range, and better spectral quality under high temperature and high pressure (HTHP), especially Sm2+: SrB4O7, which has a sharp high-intensity single peak λ1, perhaps the most promising sensor for high P–T experiments. Therefore, in view of the potential deflections of fluorescence peaks of each pressure sensor under HTHP, we recommend utilizing the HTHP-corrected relationships for pressure calibration. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Chinese Language and Literature Education and Humanistic Literacy Enhancement in Colleges and Universities under the Background of Education Informatization

Author

Li Fangfei

Subjects
natural language processing, cbow model, gradient descent algorithm, pedagogical analysis, chinese language and literature, 97b20, Mathematics, QA1-939
Abstract

Based on the background of education informatics, this paper uses natural language processing technology to analyze the teaching effect in the Chinese language and literature. By analyzing the basic methods of processing natural language, the CBOW model is constructed using text vectorization. Combined with the LDA model for Chinese language literature text, a keyword is automatically extracted. GRU is chosen as the master control unit of the information feature loop. The CBOW model is optimized using the gradient descent optimization algorithm, which improves the analysis efficiency of education and teaching. Relevant strategies for improving humanistic quality are proposed by analyzing the humanistic quality of Chinese language and literature majors in colleges and universities using natural language processing technology. The results show that the CBOW model performs better in analyzing the textual features of Chinese language and literature, and its MR value is 0.8007±0.0028 compared with the traditional neural network models such as RNN, CNN, etc. Among the strategies for improving humanistic qualities under the education of Chinese language and literature, the effect of strengthening the dissemination of cultural knowledge is 0.8. This study promotes the education of Chinese language and literature in colleges and universities to a certain degree, which is It is conducive to improving students’ humanistic literacy.

Published
2024
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42. Student Feedback Literacy in L2 Disciplinary Writing: Insights from International Graduate Students at a UK University

Author

Li, Fangfei and Han, Ye

Abstract

Although student feedback literacy has drawn increasing attention in higher education, how it is adapted in second language (L2) disciplinary writing discourse is still under-researched. Situated within an MA TESOL programme at a UK university, this paper reports on exploratory qualitative research into the components of student feedback literacy in L2 disciplinary writing. Data were collected through retrospective interviews with five Chinese students, stimulated recall sessions, and their essay drafts with course tutors' feedback. The qualitative data analysis was initially informed by two broad-stroke dimensions of student feedback literacy, i.e. students' cognitive and socio-affective readiness to engage with feedback. Within each dimension, specific categories that characterised the student feedback literacy in L2 disciplinary writing were identified, such as subject/disciplinary knowledge, linguistic and pragmatic competence, students' proactivity and attitudes towards using feedback. These components not only suggest the situated and multi-faceted nature of student feedback literacy, but highlight the necessity for course tutors to: (a) be fully aware of the challenges for international students in engaging with discipline-bounded feedback, and (b) adjust instruction and feedback practice accordingly, to develop these students' feedback literacy and foster their success in higher education.

Published
2022
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