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1. Realm: Real-Time Line-of-Sight Maintenance in Multi-Robot Navigation with Unknown Obstacles

Author

Bai, Ruofei, Yuan, Shenghai, Li, Kun, Guo, Hongliang, Yau, Wei-Yun, and Xie, Lihua

Subjects
Computer Science - Robotics
Abstract

Multi-robot navigation in complex environments relies on inter-robot communication and mutual observations for coordination and situational awareness. This paper studies the multi-robot navigation problem in unknown environments with line-of-sight (LoS) connectivity constraints. While previous works are limited to known environment models to derive the LoS constraints, this paper eliminates such requirements by directly formulating the LoS constraints between robots from their real-time point cloud measurements, leveraging point cloud visibility analysis techniques. We propose a novel LoS-distance metric to quantify both the urgency and sensitivity of losing LoS between robots considering potential robot movements. Moreover, to address the imbalanced urgency of losing LoS between two robots, we design a fusion function to capture the overall urgency while generating gradients that facilitate robots' collaborative movement to maintain LoS. The LoS constraints are encoded into a potential function that preserves the positivity of the Fiedler eigenvalue of the robots' network graph to ensure connectivity. Finally, we establish a LoS-constrained exploration framework that integrates the proposed connectivity controller. We showcase its applications in multi-robot exploration in complex unknown environments, where robots can always maintain the LoS connectivity through distributed sensing and communication, while collaboratively mapping the unknown environment. The implementations are open-sourced at https://github.com/bairuofei/LoS_constrained_navigation., Comment: 8 pages, 9 figures, accepted by IEEE ICRA 2025

Published
2025

2. Multi-Robot Reliable Navigation in Uncertain Topological Environments with Graph Attention Networks

Author

Yu, Zhuoyuan, Guo, Hongliang, Adiwahono, Albertus Hendrawan, Chan, Jianle, Tynn, Brina Shong Wey, Chew, Chee-Meng, and Yau, Wei-Yun

Subjects
Computer Science - Robotics
Abstract

This paper studies the multi-robot reliable navigation problem in uncertain topological networks, which aims at maximizing the robot team's on-time arrival probabilities in the face of road network uncertainties. The uncertainty in these networks stems from the unknown edge traversability, which is only revealed to the robot upon its arrival at the edge's starting node. Existing approaches often struggle to adapt to real-time network topology changes, making them unsuitable for varying topological environments. To address the challenge, we reformulate the problem into a Partially Observable Markov Decision Process (POMDP) framework and introduce the Dynamic Adaptive Graph Embedding method to capture the evolving nature of the navigation task. We further enhance each robot's policy learning process by integrating deep reinforcement learning with Graph Attention Networks (GATs), leveraging self-attention to focus on critical graph features. The proposed approach, namely Multi-Agent Routing in Variable Environments with Learning (MARVEL) employs the generalized policy gradient algorithm to optimize the robots' real-time decision-making process iteratively. We compare the performance of MARVEL with state-of-the-art reliable navigation algorithms as well as Canadian traveller problem solutions in a range of canonical transportation networks, demonstrating improved adaptability and performance in uncertain topological networks. Additionally, real-world experiments with two robots navigating within a self-constructed indoor environment with uncertain topological structures demonstrate MARVEL's practicality., Comment: 8 pages, 5 figures

Published
2024

3. Collaborative Graph Exploration with Reduced Pose-SLAM Uncertainty via Submodular Optimization

Author

Bai, Ruofei, Yuan, Shenghai, Guo, Hongliang, Yin, Pengyu, Yau, Wei-Yun, and Xie, Lihua

Subjects
Computer Science - Robotics
Abstract

This paper considers the collaborative graph exploration problem in GPS-denied environments, where a group of robots are required to cover a graph environment while maintaining reliable pose estimations in collaborative simultaneous localization and mapping (SLAM). Considering both objectives presents challenges for multi-robot pathfinding, as it involves the expensive covariance inference for SLAM uncertainty evaluation, especially considering various combinations of robots' paths. To reduce the computational complexity, we propose an efficient two-stage strategy where exploration paths are first generated for quick coverage, and then enhanced by adding informative and distance-efficient loop-closing actions, called loop edges, along the paths for reliable pose estimation. We formulate the latter problem as a non-monotone submodular maximization problem by relating SLAM uncertainty with pose graph topology, which (1) facilitates more efficient evaluation of SLAM uncertainty than covariance inference, and (2) allows the application of approximation algorithms in submodular optimization to provide optimality guarantees. We further introduce the ordering heuristics to improve objective values while preserving the optimality bound. Simulation experiments over randomly generated graph environments verify the efficiency of our methods in finding paths for quick coverage and enhanced pose graph reliability, and benchmark the performance of the approximation algorithms and the greedy-based algorithm in the loop edge selection problem. Our implementations will be open-source at https://github.com/bairuofei/CGE., Comment: 9 pages, 13 figures, accepted by IEEE/RSJ IROS(2024)

Published
2024

4. Design of the Digital Controller for HIRFL-CSRm Dipole Magnet Pulse Power Supply

Author

Sun, Mengyan, Huang, Yuzhen, Zhu, Fangfang, Wang, Xiaojun, Guo, Hongliang, Li, Jiqiang, Wu, Fengjun, Han, Cheng, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Lv, Yanling, editor, Yang, Qiang, editor, Xiong, Liansong, editor, Sun, Dongyang, editor, and Liu, Yonghui, editor

Published
2025
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5. Graph-based SLAM-Aware Exploration with Prior Topo-Metric Information

Author

Bai, Ruofei, Guo, Hongliang, Yau, Wei-Yun, and Xie, Lihua

Subjects
Computer Science - Robotics
Abstract

Autonomous exploration requires a robot to explore an unknown environment while constructing an accurate map using Simultaneous Localization and Mapping (SLAM) techniques. Without prior information, the exploration performance is usually conservative due to the limited planning horizon. This paper exploits prior information about the environment, represented as a topo-metric graph, to benefit both the exploration efficiency and the pose graph reliability in SLAM. Based on the relationship between pose graph reliability and graph topology, we formulate a SLAM-aware path planning problem over the prior graph, which finds a fast exploration path enhanced with the globally informative loop-closing actions to stabilize the SLAM pose graph. A greedy algorithm is proposed to solve the problem, where theoretical thresholds are derived to significantly prune non-optimal loop-closing actions, without affecting the potential informative ones. Furthermore, we incorporate the proposed planner into a hierarchical exploration framework, with flexible features including path replanning, and online prior graph update that adds additional information to the prior graph. Simulation and real-world experiments indicate that the proposed method can reliably achieve higher mapping accuracy than compared methods when exploring environments with rich topologies, while maintaining comparable exploration efficiency. Our method has been open-sourced on GitHub., Comment: 8 pages, 6 figures. Accepted by IEEE RA-L for publication

Published
2023

6. Floating Cranes

Author

Yan, Bing, Guo, Hongliang, Li, Wenjie, Li, Chaoyang, Shen, Gang, Chen, Dong, Tao, Dexin, editor, Yan, Yunfu, editor, Dong, Dashan, editor, and Zhang, Dewen, editor

Published
2024
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11. Uniformity Control of Scanned Beam in 300 MeV Proton and Heavy Ion Accelerator Complex at SESRI

Author

HOU Lingxiao, YUAN Youjin, SHEN Guodong, RUAN Shuang, LIU Jie, ZHU Yunpeng, WANG Geng, GUO Hongliang, LYU Mingbang, GAO Daqing, XU Zhiguo, SHENG Lina, YANG Jiancheng

Subjects
heavy ion accelerator, beam uniformity, scanning magnet, mic, Nuclear engineering. Atomic power, TK9001-9401, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

In recent years, heavy ion accelerator technology has been rapidly developing worldwide and widely applied in the fields of space radiation simulation and particle therapy. Usually, a very high uniformity in the irradiation area is required for the extracted ion beams, which is crucial because it directly affects the experimental precision and therapeutic effect. Specifically, ultra-large-area and high-uniformity scanning are crucial requirements for spacecraft radiation effects assessment and serve as core specification for beamline terminal design. In the 300 MeV proton and heavy ion accelerator complex at the Space Environment Simulation and Research Infrastructure (SESRI), proton and heavy ion beams will be accelerated and ultimately delivered to three irradiation terminals. In order to achieve the required large irradiation area of 320 mm×320 mm, horizontal and vertical scanning magnets are used in the extraction beam line. However, considering the various requirements for beam species and energies, the tracking accuracy of power supplies (PSs), the eddy current effect of scanning magnets, and the fluctuation of ion bunch structure will reduce the irradiation uniformity. To mitigate these effects, a beam uniformity optimization method based on the measured beam distribution was proposed and applied in the accelerator complex at SESRI. In the experiment, the uniformity is successfully optimized from 75% to over 90% after five iterations of adjustment to the PS waveforms. In this paper, the method and experimental results were introduced.

Published
2024
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12. Efficient Neural Neighborhood Search for Pickup and Delivery Problems

Author

Ma, Yining, Li, Jingwen, Cao, Zhiguang, Song, Wen, Guo, Hongliang, Gong, Yuejiao, and Chee, Yeow Meng

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

We present an efficient Neural Neighborhood Search (N2S) approach for pickup and delivery problems (PDPs). In specific, we design a powerful Synthesis Attention that allows the vanilla self-attention to synthesize various types of features regarding a route solution. We also exploit two customized decoders that automatically learn to perform removal and reinsertion of a pickup-delivery node pair to tackle the precedence constraint. Additionally, a diversity enhancement scheme is leveraged to further ameliorate the performance. Our N2S is generic, and extensive experiments on two canonical PDP variants show that it can produce state-of-the-art results among existing neural methods. Moreover, it even outstrips the well-known LKH3 solver on the more constrained PDP variant. Our implementation for N2S is available online., Comment: Accepted at IJCAI 2022 (short oral)

Published
2022
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16. Multi-Scale Feature Aggregation by Cross-Scale Pixel-to-Region Relation Operation for Semantic Segmentation

Author

Bai, Yechao, Huang, Ziyuan, Shen, Lyuyu, Guo, Hongliang, Ang Jr, Marcelo H., and Rus, Daniela

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Exploiting multi-scale features has shown great potential in tackling semantic segmentation problems. The aggregation is commonly done with sum or concatenation (concat) followed by convolutional (conv) layers. However, it fully passes down the high-level context to the following hierarchy without considering their interrelation. In this work, we aim to enable the low-level feature to aggregate the complementary context from adjacent high-level feature maps by a cross-scale pixel-to-region relation operation. We leverage cross-scale context propagation to make the long-range dependency capturable even by the high-resolution low-level features. To this end, we employ an efficient feature pyramid network to obtain multi-scale features. We propose a Relational Semantics Extractor (RSE) and Relational Semantics Propagator (RSP) for context extraction and propagation respectively. Then we stack several RSP into an RSP head to achieve the progressive top-down distribution of the context. Experiment results on two challenging datasets Cityscapes and COCO demonstrate that the RSP head performs competitively on both semantic segmentation and panoptic segmentation with high efficiency. It outperforms DeeplabV3 [1] by 0.7% with 75% fewer FLOPs (multiply-adds) in the semantic segmentation task., Comment: Accepted to RA-L 2021. in IEEE Robotics and Automation Letters. The contents of this paper were also selected by the 2021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2021) Program Committee for presentation at the Conference

Published
2021
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23. Tunability and performance enhancement for planar microwave filters

Author

Guo, Hongliang and Hong, Jia-Sheng

Abstract

Radio-frequency (RF) spectrum is exploited as a valuable resource for wireless applications such as mobile and satellite communications. As a result, communication systems including satellite communication and emerging 5G are trending to have frequency-agility to adapt to highly complex RF environments. However, due to the nature of materials and components, electrically-tunable planar filters, which play essential roles in frequency agile RF systems, have their disadvantages of low-order, high-loss, and poor selectivity. This has limited the overall performances of the frequency agile RF systems. In the light of this scenario, the objective of this thesis is to develop efficient performance-enhancement techniques, including the lossy technique, and the active technique, into the high-selective tunable planar filters to boost the performances of tunable RF systems. First of all, an electrically reconfigurable microstrip dual-mode filter is demonstrated with nonuniform-quality-factor lossy technique. The 4-pole bandpass filter exhibits a continuously bandwidth tuning and centre frequency tuning capability. By making use of the doubly tuned resonant property of the dual-mode microstrip open-loop resonator, passband flatness can be improved by simply loading resistors on the even-odd mode symmetrical plane of resonators. Moreover, two intrinsic transmission zeros are in upper and lower stopbands enhancing the filter selectivity. The coupling matrix synthesis is introduced to describe the nonuniform-quality-factor distribution in a filter network. The experiment of this type of four-pole tunable lossy filter has presented a good agreement with the simulation. Then, the thesis reports a novel 5-pole lossy bandpass filter with the bandwidth tunability. In order to improve the filter selectivity, we choose a hybrid filter structure consist of hairpin resonators and dual behaviour resonators to produce two adjustable transmission zeros for high selective responses. A novel lossy technique named centre-loaded resistive cross-coupling is developed to efficiently reduce the insertion-loss variation of the tuned passband. The fabricated filter demonstrates an insertion loss variation of less than 1 dB for all bandwidth states. To compensate the loss within the varactor-tuned narrowband filter, a tunable 2-pole active filter is presented with a constant absolute bandwidth. The negative resistance generated from active circuits successfully cancels the loss within the varactor-loaded resonators resulting in high quality-factor resonator filter responses. With the transistor small-signal model, the value of the negative resistance of the active circuit can be predicted by network analysis. Experiments were carried out to validate the design.

Published
2021

28. Online Multi-Target Tracking for Maneuvering Vehicles in Dynamic Road Context

Author

Meng, Zehui, Ho, Qi Heng, Huang, Zefan, Guo, Hongliang, Ang Jr., Marcelo H., and Rus, Daniela

Subjects
Computer Science - Robotics
Abstract

Target detection and tracking provides crucial information for motion planning and decision making in autonomous driving. This paper proposes an online multi-object tracking (MOT) framework with tracking-by-detection for maneuvering vehicles under motion uncertainty in dynamic road context. We employ a point cloud based vehicle detector to provide real-time 3D bounding boxes of detected vehicles and conduct the online bipartite optimization of the maneuver-orientated data association between the detections and the targets. Kalman Filter (KF) is adopted as the backbone for multi-object tracking. In order to entertain the maneuvering uncertainty, we leverage the interacting multiple model (IMM) approach to obtain the \textit{a-posterior} residual as the cost for each association hypothesis, which is calculated with the hybrid model posterior (after mode-switch). Road context is integrated to conduct adjustments of the time varying transition probability matrix (TPM) of the IMM to regulate the maneuvers according to road segments and traffic sign/signals, with which the data association is performed in a unified spatial-temporal fashion. Experiments show our framework is able to effectively track multiple vehicles with maneuvers subject to dynamic road context and localization drift., Comment: Submitted to ICRA 2020

Published
2019

36. Effects of bioremediation on soil fertility and microbial communities of degraded grassland soil under dual petroleum contamination and saline-alkali stress: Effects of bioremediation on soil fertility and microbial communities of degraded grassland: J. Yu et al

Author

Yu, Jie, Zhang, Xiaoyuan, Zhang, Zijian, Guo, Hongliang, Noborio, Kosuke, and Han, Song

Abstract

Petroleum extraction and its organic pollutants have numerous negative consequences on the composition and ecological function of grasslands, such as vegetation degradation, reduction in species diversity, and salinization. Thus, finding a comprehensive method for polluted soil and restoring grasslands faces many challenges, and the mechanism to influence soil environments and microbial community composition remains unclear. In this study, container experiments explored the potential of sulfonic acid group (–SO3H groups) modified biochar combined with isolated bacterium (named Y-1, Acinetobacter-spp.) on physicochemical properties and microbial communities of polluted soil. The results show that modified biochar and Y-1 combined addition had the highest petroleum degradation rate (39.4%), and soil nutrients such as dissolved organic carbon (DOC), cation exchange capacity (CEC), available nitrogen, invertase and urease activities in CK were decreased by 35.4, 12.1, 30, 43.2 and 32.5% compared to treatments. The contents of available phosphorus in CM treatment were increased 2.4 times compared to CK. The –SO3H groups efficiently improve salinity by accumulating Ca2+ and Mg2+ and inhibiting the aggregation of Na+. The correlation heatmap indicated that soil organic carbon, total nitrogen and CEC markedly interact with microbial communities. High-throughput sequencing indicated that the biomarkers enriched by the present integrated treatment are crucial for stimulating nitrogen and phosphorus cycles. The results indicate that -SO3H groups modified biochar, and Y-1 has great potential to serve as a novel bioremediation technology to remediate soil from petroleum pollutants and alkalization and achieve better restoration of degradation grasslands. [ABSTRACT FROM AUTHOR]

Published
2025
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37. Porcellio scaber algorithm (PSA) for solving constrained optimization problems

Author

Zhang, Yinyan, Li, Shuai, and Guo, Hongliang

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

In this paper, we extend a bio-inspired algorithm called the porcellio scaber algorithm (PSA) to solve constrained optimization problems, including a constrained mixed discrete-continuous nonlinear optimization problem. Our extensive experiment results based on benchmark optimization problems show that the PSA has a better performance than many existing methods or algorithms. The results indicate that the PSA is a promising algorithm for constrained optimization., Comment: 6 pages, 1 figure

Published
2017

38. SNHG5/miR‐582‐5p/RUNX3 feedback loop regulates osteogenic differentiation and apoptosis of bone marrow mesenchymal stem cells.

Author

Zheng, Jiwei, Guo, Hongliang, Qin, Ying, Liu, Zongxiang, Ding, Zhijiang, Zhang, Lei, and Wang, Wanqing

Subjects
*MESENCHYMAL stem cells, *TRANSCRIPTION factors, *GENE expression, *NON-coding RNA, *BONE marrow
Abstract

Osteoporosis is one of the most prevailing orthopedic diseases that causes a heavy burden on public health. Given that bone marrow‐derived mesenchymal stem cells (BMSCs) are of immense importance in osteoporosis development, it is necessary to expound the mechanisms underlying BMSC osteoblastic differentiation. Although mounting research works have investigated the role of small nucleolar RNA host gene 5 (SNHG5) in various diseases, elucidations on its function in osteoporosis are still scarce. It was observed that SNHG5 and RUNX family transcription factor 3 (RUNX3) were remarkably elevated during osteogenic differentiation of human bone marrow mesenchymal stem cells (hBMSCs). Further, we disclosed that the silencing of SNHG5 suppressed osteogenic differentiation and induced apoptosis of hBMSCs. What's more, SNHG5 acted as a competing endogenous RNA to affect RUNX3 expression via competitively binding with microRNA (miR)‐582‐5p. RUNX3 was also confirmed to simulate the transcriptional activation of SNHG5. Finally, our findings manifested that the positive feedback loop of SNHG5/miR‐582‐5p/RUNX3 executed the promoting role in the development of osteoporosis, which shed light on specific molecular mechanism governing SNHG5 in osteogenic differentiation and apoptosis of hBMSCs and indicated that SNHG5 may represent a novel target for the improvement of osteoporosis therapy. [ABSTRACT FROM AUTHOR]

Published
2024
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49. A novel mutant 10Ala/Arg together with mutant 144Ser/Arg of hepatitis B virus X protein involved in hepatitis B virus-related hepatocarcinogenesis in HepG2 cell lines

Author

Shi, Ying, Wang, Junwei, Wang, Yuhe, Wang, Anna, Guo, Hongliang, Wei, Feili, Mehta, Sanjay R, Espitia, Stephen, Smith, Davey M, Liu, Longgen, Zhang, Yulin, and Chen, Dexi

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Digestive Diseases, Rare Diseases, Cancer, Infectious Diseases, Liver Disease, Genetics, Chronic Liver Disease and Cirrhosis, Hepatitis - B, Liver Cancer, Hepatitis, 2.1 Biological and endogenous factors, Good Health and Well Being, Adult, Aged, Apoptosis, Carcinoma, Hepatocellular, Cell Cycle, Cell Proliferation, Cell Transformation, Viral, Cyclin-Dependent Kinase Inhibitor p21, Female, Genotype, Hep G2 Cells, Hepatitis B, Hepatitis B virus, Humans, Liver Neoplasms, Male, Middle Aged, Mutation, Phenotype, Signal Transduction, Trans-Activators, Transfection, Tumor Suppressor Protein p53, Viral Regulatory and Accessory Proteins, Young Adult, bcl-2-Associated X Protein, Hepatocellular carcinoma, Oncology & Carcinogenesis, Oncology and carcinogenesis
Abstract

Hepatitis B virus (HBV) infection-related hepatocellular carcinoma (HCC) represents a major health problem worldwide. HBV X (HBx) protein is the most common open reading frame that may undergo mutations, resulting in the development of HCC. This study aimed to determine specific HBx mutations that differentiate the central- and para-tumor tissues, and identify their association with HCC development. HBx gene from HCC tumor and para-tumor tissues of 47 HCC patients was amplified, sequenced and statistically analyzed. A novel combination of 2 mutations at residues 10 and 144 was identified which might play a significant role in HCC development. Expression vectors carrying HBx with the specific mutations were constructed and transfected into HepG2 and p53-null HepG2 cells. Compared to wild type (WT) and single mutation of HBx at residue 10 or 144, the 10/144 double mutations strongly up-regulated p21 expression and prolonged G1/S transition in WT- and p53-null HepG2 cells. Apoptosis was also inhibited by HBx harboring 10/44 double-mutation. Binding of 10/144 double-mutant HBx to p53 was lower than WT HBx. Conclusively, the 10/144 double mutation of HBx might play a crucial role in HCC formation.

Published
2016

50. Prognostic Factors for Primary Localized Gastrointestinal Stromal Tumors After Radical Resection: Shandong Gastrointestinal Surgery Study Group, Study 1201

Author

Zhang, Xiaoqian, Ning, Liang, Hu, Yulong, Zhao, Shanfeng, Li, Zequn, Li, Leping, Dai, Yong, Jiang, Lixin, Wang, Ailiang, Chu, Xianqun, Li, Yuming, Yang, Daogui, Lu, Chunlei, Yao, Linguo, Cui, Gang, Lin, Huizhong, Chen, Gang, Cui, Qing, Guo, Hongliang, Zhang, Huanhu, Lun, Zengjun, Xia, Lijian, Su, Yingfeng, Han, Guoxin, Hui, Xizeng, Wei, Zhixin, Sun, Zuocheng, Shen, Shuai, and Zhou, Yanbing

Published
2020
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