Your search keyword '"Xiaofei Lu"' showing total 186 results

1. Coseismic deformation and fault slip distribution of the 2023 MW7.8 and MW7.6 earthquakes in TürkiyeKey points

Author

Weikang Li, Lijiang Zhao, Kai Tan, Xiaofei Lu, Caihong Zhang, Chengtao Li, and Shuaishuai Han

Subjects

2023 Türkiye earthquake, GNSS observation, coseismic deformation field, slip distribution, Geology, QE1-996.5

Abstract

On February 6, 2023, a devastating earthquake with a moment magnitude of MW7.8 struck the town of Pazarcik in south-central Türkiye, followed by another powerful earthquake with a moment magnitude of MW7.6 that struck the nearby city of Elbistan 9 h later. To study the characteristics of surface deformation caused by this event and the influence of fault rupture, this study calculated the static coseismic deformation of 56 stations and dynamic displacement waveforms of 15 stations using data from the Turkish national fixed global navigation satellite system (GNSS) network. A maximum static coseismic displacement of 0.38 m for the MW7.8 Kahramanmaras earthquake was observed at station ANTE, 36 km from the epicenter, and a maximum dynamic coseismic displacement of 4.4 m for the MW7.6 Elbistan earthquake was observed at station EKZ1, 5 km from the epicenter. The rupture-slip distributions of the two earthquakes were inverted using GNSS coseismic deformation as a constraint. The results showed that the Kahramanmaras earthquake rupture segment was distinct and exposed on the ground, resulting in significant rupture slip along the Amanos and Pazarcik fault segments of the East Anatolian Fault. The maximum slip in the Pazarcik fault segment was 10.7 m, and rupture occurred at depths of 0–15 km. In the Cardak fault region, the Elbistan earthquake caused significant ruptures at depths of 0–12 km, with the largest amount of slip reaching 11.6 m. The Coulomb stress change caused by the Kahramanmaras earthquake rupture along the Cardak fault segment was approximately 2 bars, and the area of increased Coulomb stress corresponded to the subsequent rupture region of the MW7.6 earthquake. Thus, it is likely that the MW7.8 earthquake triggered or promoted the MW7.6 earthquake. Based on the cumulative stress impact of the MW7.8 and MW7.6 events, the southwestern segment of the East Anatolian Fault, specifically the Amanos fault segment, experienced a Coulomb rupture stress change exceeding 2 bars, warranting further attention to assess its future seismic hazard risk.

Published

2024

2. IMD-Net: Interpretable multi-scale detection network for infrared dim and small objects

Author

Dawei Li, Suzhen Lin, Xiaofei Lu, Xingwang Zhang, Chenhui Cui, and Boran Yang

Subjects

multi-scale object enhancement module, global object response module, multilayer feature fusion module, multiple loss constraint module, dim and small object detection, Biotechnology, TP248.13-248.65, Mathematics, QA1-939

Abstract

This study proposed an interpretable multi-scale infrared small object detection network (IMD-Net) design method to improve the precision of infrared small object detection and contour segmentation in complex backgrounds. To this end, a multi-scale object enhancement module was constructed, which converted artificially designed features into network structures. The network structure was used to enhance actual objects and extract shallow detail and deep semantic features of images. Next, a global object response, channel attention, and multilayer feature fusion modules were introduced, combining context and channel information and aggregated information, selected data, and decoded objects. Finally, the multiple loss constraint module was constructed, which effectively constrained the network output using multiple losses and solved the problems of high false alarms and high missed detections. Experimental results showed that the proposed network model outperformed local energy factor (LEF), self-regularized weighted sparse model (SRWS), asymmetric contextual modulation (ACM), and other state of the art methods in the intersection-over-union (IoU) and Fmeasure values by 10.8% and 11.3%, respectively. The proposed method performed best on the currently available datasets, achieving accurate detection and effective segmentation of dim and small objects in various infrared complex background images.

Published

2024

3. Emergency decompression for patients with ureteral stones and SIRS: a prospective randomized clinical study

Author

Xiaofei Lu, Benzheng Zhou, Dechao Hu, and Yanting Ding

Subjects

Percutaneous nephrostomy, retrograde ureteral stent insertion, emergency decompression, ureteral stone, urosepsis, Medicine

Abstract

AbstractObjective Patients with ureteral calculi and systemic inflammatory response syndrome (SIRS) often require emergency drainage, and percutaneous nephrostomy (PCN) and retrograde ureteral stent insertion (RUSI) are the most commonly used methods. Our study aimed to identify the best choice (PCN or RUSI) for these patients and to examine the risk factors for progression to urosepsis after decompression.Methods A prospective, randomized clinical study was performed at our hospital from March 2017 to March 2022. Patients with ureteral stones and SIRS were enrolled and randomized to the PCN or RUSI group. Demographic information, clinical features and examination results were collected.Results Patients (n = 150) with ureteral stones and SIRS were enrolled into our study, with 78 (52%) patients in the PCN group and 72 (48%) patients in the RUSI group. Demographic information was not significantly different between the groups. The final treatment of calculi was significantly different between the two groups (p

Published

2023

4. Preoperative prediction of cervical cancer survival using a high-resolution MRI-based radiomics nomogram

Author

Jia Li, Hao Zhou, Xiaofei Lu, Yiren Wang, Haowen Pang, Daniel Cesar, Aiai Liu, and Ping Zhou

Subjects

Cervical cancer, Prediction, Nomogram, Magnetic resonance imaging (MRI), Medical technology, R855-855.5

Abstract

Abstract Background Cervical cancer patients receiving radiotherapy and chemotherapy require accurate survival prediction methods. The objective of this study was to develop a prognostic analysis model based on a radiomics score to predict overall survival (OS) in cervical cancer patients. Methods Predictive models were developed using data from 62 cervical cancer patients who underwent radical hysterectomy between June 2020 and June 2021. Radiological features were extracted from T2-weighted (T2W), T1-weighted (T1W), and diffusion-weighted (DW) magnetic resonance images prior to treatment. We obtained the radiomics score (rad-score) using least absolute shrinkage and selection operator (LASSO) regression and Cox’s proportional hazard model. We divided the patients into low- and high-risk groups according to the critical rad-score value, and generated a nomogram incorporating radiological features. We evaluated the model’s prediction performance using area under the receiver operating characteristic (ROC) curve (AUC) and classified the participants into high- and low-risk groups based on radiological characteristics. Results The 62 patients were divided into high-risk (n = 43) and low-risk (n = 19) groups based on the rad-score. Four feature parameters were selected via dimensionality reduction, and the scores were calculated after modeling. The AUC values of ROC curves for prediction of 3- and 5-year OS using the model were 0.84 and 0.93, respectively. Conclusion Our nomogram incorporating a combination of radiological features demonstrated good performance in predicting cervical cancer OS. This study highlights the potential of radiomics analysis in improving survival prediction for cervical cancer patients. However, further studies on a larger scale and external validation cohorts are necessary to validate its potential clinical utility.

Published

2023

5. Postsynthetically Tailoring Acid Properties and Pore Structures of ZnZrOx/MFI Catalysts for One-Pass CO2 Hydrogenation

Author

Duanxing Li, Xiaofei Lu, Hiroka Kinoshita, Masanori Takemoto, Anand Chokkalingam, Shohei Tada, and Kenta Iyoki

Subjects

Chemical engineering, TP155-156

Published

2023

6. Macrogenomics Reveals Effects on Marine Microbial Communities during Oplegnathus punctatus Enclosure Farming

Author

Lijun Wang, Xiaofei Lu, Zhikai Xing, Xindong Teng, Shuang Wang, Tianyi Liu, Li Zheng, Xumin Wang, and Jiangyong Qu

Subjects

microbial community, aquaculture, antibiotic resistance gene, metagenomes, Oplegnathus punctatus, Biology (General), QH301-705.5

Abstract

(1) Background: Laizhou Bay is an important aquaculture area in the north of China. Oplegnathus punctatus is one of the species with high economic benefits. In recent years, the water environment of Laizhou Bay has reached a mild eutrophication level, while microorganisms are an important group between the environment and species. In this study, we evaluated alterations in environmental elements, microbial populations, and antibiotic resistance genes (ARGs) along with their interconnections during Oplegnathus punctatus net culture. (2) Methods: A total of 142 samples from various water layers were gathered for metagenome assembly analysis. Mariculture increases the abundance of microorganisms in this culture area and makes the microbial community structure more complex. The change had more significant effects on sediment than on seawater. (3) Results: Certain populations of cyanobacteria and Candidatus Micrarchaecta in seawater, and Actinobacteria and Thaumarchaeota in sediments showed high abundance in the mariculture area. Antibiotic resistance genes in sediments were more sensitive to various environmental factors, especially oxygen solubility and salinity. (4) Conclusions: These findings highlight the complex and dynamic nature of microorganism–environment–ARG interactions, characterized by regional specificity and providing insights for a more rational use of marine resources.

Published

2024

7. Identification and Analysis of WRKY Transcription Factors in Response to Cowpea Fusarium Wilt in Cowpea

Author

Yali Hao, Rui Liu, Zhenchuan Mao, Qihong Yang, Shijie Zheng, Xiaofei Lu, Yuhong Yang, Bingyan Xie, Jianlong Zhao, Yan Li, Guohua Chen, and Jian Ling

Subjects

cowpea, cowpea Fusarium wilt, WRKY, Fusarium oxyporum, transcription regulation, expression profiling, Botany, QK1-989

Abstract

In plants, WRKY transcription factors play a crucial role in plant growth, development, and response to abiotic and biotic stress. Cowpea (Vigna unguiculata) is an important legume crop. However, cowpea Fusarium wilt (CFW), caused by Fusarium oxysporum f. sp. tracheiphilum (Fot), poses a serious threat to its production. In this study, we systematically identified members of the cowpea WRKY (VuWRKY) gene family and analyzed their expression patterns under CFW stress. A total of 91 WRKY transcription factors were identified in the cowpea genome. Phylogenetic and synteny analyses indicated that the expansion of VuWRKY genes in cowpea is primarily due to recent duplication events. Transcriptome analysis of cowpea inoculated with Fo revealed 31 differentially expressed VuWRKY genes, underscoring their role in the response to CFW infection. Four differentially expressed WRKY genes were selected for validation. Subcellular localization and Western blot assays showed their nuclear localization and normal expression in N. benthamiana. Additionally, yeast one-hybrid assays demonstrated that VuWRKY2 can bind to the promoter region of the Catalase (CAT) gene, indicating its potential role in transcriptional regulation. This study establishes a foundation for further exploration of the role and regulatory mechanisms of VuWRKY genes in response to CFW stress.

Published

2024

8. Mitochondrial Genomes of Streptopelia decaocto: Insights into Columbidae Phylogeny

Author

Jiangyong Qu, Xiaofei Lu, Xindong Teng, Zhikai Xing, Shuang Wang, Chunyu Feng, Xumin Wang, and Lijun Wang

Subjects

mitogenome, phylogeny, Streptopelia decaocto, Columbidae, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

In this research, the mitochondrial genome of the Streptopelia decaocto was sequenced and examined for the first time to enhance the comprehension of the phylogenetic relationships within the Columbidae. The complete mitochondrial genome of Streptopelia decaocto (17,160 bp) was structurally similar to the recognized members of the Columbidae family, but with minor differences in gene size and arrangement. The structural AT content was 54.12%. Additionally, 150 mitochondrial datasets, representing valid species, were amassed in this investigation. Maximum likelihood (ML) and Bayesian inference (BI) phylogenetic trees and evolutionary time relationships of species were reconstructed based on cytb gene sequences. The findings from the phylogenetic evaluations suggest that the S. decaocto was classified under the Columbinae subfamily, diverging from the Miocene approximately 8.1 million years ago, indicating intricate evolutionary connections with its close relatives, implying a history of species divergence and geographic isolation. The diversification of the Columbidae commenced during the Late Oligocene and extended into the Miocene. This exploration offers crucial molecular data for the S. decaocto, facilitating the systematic taxonomic examination of the Columbidae and Columbiformes, and establishing a scientific foundation for species preservation and genetic resource management.

Published

2024

9. MXene/Carbon Dots Nanozyme Composites for Glutathione Detection and Tumor Therapy

Author

Xiaofei Lu, Jingjing Jia, Zonghua Wang, and Wenjing Wang

Subjects

carbon dots, MXene, GSH detection, peroxidase-like activity, photothermal therapy, Chemistry, QD1-999

Abstract

Co-N-CDs-based MXene nanocomposites (MXene@PDA/Co-N-CDs) were constructed by decorating Co-N-CDs on polydopamine-functionalized MXene nanosheets. Both Co-N-CDs and MXene nanosheets have peroxidase-like activity; when the two materials are combined to form MXene@PDA/Co-N-CDs nanocomposites, the peroxide-like activity can be further enhanced. MXene@PDA/Co-N-CDs could oxidize the substrate 3,3′5,5′-tetramethylbenziline (TMB) to form ox-TMB, as confirmed by detecting the absorption of the blue products. A highly selective colorimetric biosensor was developed for the determination of glutathione (GSH) in the concentration range of 0.3 to 20 µM with a lower detection limit (LOD) of 0.12 µM, which realized the accurate detection of GSH in human serum and urine samples. Moreover, in the tumor microenvironment, MXene@PDA/Co-N-CDs could catalyze hydrogen peroxide to produce hydroxyl free radicals and produce a photothermal effect under the exposure of NIR-I irradiation. The catalytic activity of MXene@PDA/Co-N-CD nanocomposites was fully achieved for the death of cancer cells through photothermal/photodynamic synergistic therapy. The MXene@PDA/Co-N-CDs nanozyme offers multiple applications in GSH detection and tumor therapy.

Published

2024

10. Design of 3D Environment Combining Digital Image Processing Technology and Convolutional Neural Network

Author

Xiaofei Lu and Shouwang Li

Subjects

Electronic computers. Computer science, QA75.5-76.95

Abstract

As virtual reality technology advances, 3D environment design and modeling have garnered increasing attention. Applications in networked virtual environments span urban planning, industrial design, and manufacturing, among other fields. However, existing 3D modeling methods exhibit high reconstruction error precision, limiting their practicality in many domains, particularly environmental design. To enhance 3D reconstruction accuracy, this study proposes a digital image processing technology that combines binocular camera calibration, stereo correction, and a convolutional neural network (CNN) algorithm for optimization and improvement. By employing the refined stereo-matching algorithm, a 3D reconstruction model was developed to augment 3D environment design and reconstruction accuracy while optimizing the 3D reconstruction effect. An experiment using the ShapeNet dataset demonstrated that the evaluation indices—Chamfer distance (CD), Earth mover’s distance (EMD), and intersection over union—of the model constructed in this study outperformed those of alternative methods. After incorporating the CNN module in the ablation experiment, CD and EMD increased by an average of 0.1 and 0.06, respectively. This validates that the proposed CNN module effectively enhances point cloud reconstruction accuracy. Upon adding the CNN module, the CD index and EMD index in the dataset increased by an average of 0.34 and 0.54, respectively. These results indicate that the proposed CNN module exhibits strong predictive capabilities for point cloud coordinates. Furthermore, the model demonstrates good generalization performance.

Published

2024

11. Deep Unfolding Network for Multi-Band Images Synchronous Fusion

Author

Dong Yu, Suzhen Lin, Xiaofei Lu, Dawei Li, and Yanbo Wang

Subjects

Image fusion, multi-band images, total variation, optimization model, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This study proposes a new deep neural network to solve the multi-band image synchronous fusion problem (MBF-Net). Unlike other deep learning-based methods, our network architecture design combines the ideas of model-driven and data-driven methods, so it is more interpretable. First, a new multi-band image synchronous fusion model is proposed. The source image in the data fidelity terms and the prior regularization are implicitly represented by the deep learning network and jointly learned from the training data. The proposed model is then solved using a half quadratic splitting (HQS) algorithm and unfolded into a deep fusion network. In addition, a new saliency loss function is proposed to retain thermal radiation information to enhance the fusion effect. Finally, the experimental results on the TNO dataset demonstrated the effectiveness of the proposed MBF-Net.

Published

2023

12. Landscape planning and design and visual evaluation for landscape protection of geological environment

Author

Xiaofei Lu, Rui Liu, and Lijun Xia

Subjects

Geological environment landscape, Architectural landscape planning, Landscape planning and design, Visual evaluation of landscape, Science (General), Q1-390

Abstract

As an important carrier of science education, ecological landscape development and regional ecological civilization construction, the quality of geological landscape resources has a direct impact on its landscape charm, and the protection of landscape resources is directly related to its sustainable development ability and regional ecological civilization construction. To avoid or reduce the negative impact of architecture on the environment, the development of architectural landscape based on the perspective of geology and ecology is the top priority of healthy and sustainable development. In this paper, the visual sensitivity of the landscape was assessed by GIS (Geographic Information System, GIS) software technology, by calculating and analyzing the relative slope of the terrain, and visualizing the results through visual sensitivity classification. Based on summarizing and analyzing the previous research results, this paper expounds the geological landscape system and resource system, and introduces the architectural landscape features of environmental landscape protection. Combined with the geological environment planning architectural landscape, the concept of architectural planning and landscape design is integrated, the architectural landscape based on geological environment protection is constructed, and the spatial organization and layout of buildings in the environmental landscape is planned. Finally, landscape visual sensitivity was evaluated based on GIS. The research results show that the architectural landscape and geological environment protected by geological environment landscape can be organically combined, and the landscape has strong visual attraction. The research results of this paper solve the conflict between architecture and geological ecology and provide scientific basis for environmental landscape protection of geological ecology. The composite score of visual sensitivity was obtained by GIS calculation. The most visually sensitive place ranked 25th, while the most visually sensitive place ranked 13th.

Published

2023

13. Aggressive intraoperative warming and postoperative pulmonary complications in elderly patients recovering from esophageal cancer surgery: sub-analysis of a randomized trial

Author

Xiaofei Lu, Qiliang Jiang, Yuwei Qiu, Wei Tang, Daniel I. Sessler, and Jingxiang Wu

Subjects

anesthesia, surgery, elderly patients, body temperature management, postoperative pulmonary complications, Medicine (General), R5-920

Abstract

BackgroundElderly patients having esophagectomies often become hypothermic which may promote complications. We tested the hypothesis that aggressive warming to a core temperature of 37°C reduces postoperative pulmonary complications (PPCs) in elderly patients having esophageal cancer resections.MethodsThis study was a pre-defined sub-study of a multi-center, parallel group, superiority trial (PROTECT). Patients aged >65 years and having elective radical resection of esophageal cancer in a single center were randomly allocated into either aggressive warming group (target intraoperative core temperatures of 37°C) or routine thermal management group (target intraoperative core temperatures of 35.5°C). The primary endpoint was the incidence of PPCs. Secondary endpoints included duration of chest tube drainage and other postoperative complications.ResultsA total of 300 patients were included in the primary analysis. PPCs occurred in 27 (18%) of 150 patients in the aggressive warming group and 31 (21%) of 150 patients in the routine thermal management group. The relative risk (RR) of aggressive versus routine thermal management was 0.9 (95% CI: 0.5, 1.4; p = 0.56). The duration of chest drainage in patients assigned to aggressive warming was shorter than that assigned to routine thermal management: 4 (3, 5) days vs. 5 (4, 7) days; hazard ratio (HR) 1.4 [95% CI: 1.1, 1.7]; p = 0.001. Fewer aggressively warmed patients needed chest drainage for more than 5 days: 30/150 (20%) vs. 51/150 (34%); RR:0.6 (95% CI: 0.4, 0.9; p = 0.03). The incidence of other postoperative complications were similar between the two groups.ConclusionAggressive warming does not reduce the incidence of PPCs in elderly patients receiving esophagectomy. The duration of chest drainage was reduced by aggressive warming. But as a secondary analysis of a planned sub-group study, these results should be considered exploratory.Clinical trial registrationhttps://www.chictr.org.cn/showproj.aspx?proj=37099, ChiCTR1900022257.

Published

2023

14. Impact of diffuse radiation on the coupling of carbon and water fluxes in the grassland of northeastern China

Author

Jingchao Huang, Xu Yue, Bin Wang, Xiaofei Lu, and Gang Dong

Subjects

grassland, gross primary production, evapotranspiration, diffuse radiation, water use efficiency, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Solar radiation is a key driver of ecosystem carbon and water fluxes. However, the impacts of radiation quantity and quality on the carbon-water coupling are not well distinguished. In this study, we used simultaneous flux and radiation measurements at two grassland sites in northeastern China to explore the joint impacts of photosynthetically active radiation (PAR) and diffuse fraction ( K _d ) on carbon and water fluxes and their coupling relationships. Under the low to medium PAR levels (280 W m ^−2 ), the GPP continued to grow at the southern site but showed limited responses to K _d at the northern site, likely due to the temperature constraint in the latter. Meanwhile, the contribution of evaporation to ET increased under the high radiation conditions, resulting in a decreased ET due to the reduced direct radiation following K _d increment at both sites. Consequently, water use efficiency (WUE) increased with K _d for all radiation levels but showed low sensitivity to PAR changes due to the synchronized GPP and ET responses to PAR. This study unraveled the positive dependence of ecosystem WUE on the increased K _d though with varied sensitivities of GPP and ET under different PAR levels, highlighting the strong impacts of diffuse radiation on ecosystem fluxes over the regions with aerosol pollution and cloud variations.

Published

2024

15. Novel approach for shipborne‐passive bistatic imaging with DVB‐T signals based on MIAA–RID technique

Author

Yong Wang, Jiaxing Yang, Chunmao Yeh, and Xiaofei Lu

Subjects

radar imaging, radar signal processing, Telecommunication, TK5101-6720

Abstract

Abstract The shipborne‐passive bistatic inverse synthetic aperture radar system with digital video broadcasting terrestrial (DVB‐T) signals is very important in the fields of radar imaging, but it suffers from the problems of grating lobes caused by the spectral gaps when multiple DVB‐T channels are applied, and the non‐stationary echo signal for the complex motions of the ship. In this paper, a new algorithm based on the Missing Data Iterative Adaptive Approach (MIAA) combined with the Range Instantaneous Doppler (RID) technique is proposed to address these problems. First, the authors establish the imaging geometry and signal model. Based on these models, the range resolution and Doppler frequency are analysed. Then, the bandwidth synthesis in the frequency domain for the DVB‐T signal is derived. Finally, the MIAA method is used to recover the spectral gaps of the range profile for multiple DVB‐T channels, and the azimuth compression is carried out by the RID method after the translational motion compensation. Simulation results show the effectiveness of the algorithm proposed in this paper.

Published

2022

16. Comprehensive analysis of the WRKY gene family in Cucumis metuliferus and their expression profile in response to an early stage of root knot nematode infection

Author

Jian Ling, Rui Liu, Yali Hao, Yan Li, Xingxing Ping, Qihong Yang, Yuhong Yang, Xiaofei Lu, Bingyan Xie, Jianlong Zhao, and Zhenchuan Mao

Subjects

WRKY family, root knot nematode, cucumis crops, expression patterns, transcriptional regulation, Plant culture, SB1-1110

Abstract

Root-knot nematode (RKN) is a major factor that limits the growth and productivity of important Cucumis crops, such as cucumber and melon, which lack RKN-resistance genes in their genome. Cucumis metuliferus is a wild Cucumis species that displays a high degree of RKN-resistance. WRKY transcription factors were involved in plant response to biotic stresses. However, little is known on the function of WRKY genes in response to RKN infection in Cucumis crops. In this study, Cucumis metuliferus 60 WRKY genes (CmWRKY) were identified in the C. metuliferus genome, and their conserved domains were classified into three main groups based on multiple sequence alignment and phylogenetic analysis. Synteny analysis indicated that the WRKY genes were highly conserved in Cucumis crops. Transcriptome data from of C. metuliferus roots inoculated with RKN revealed that 16 CmWRKY genes showed differential expression, of which 13 genes were upregulated and three genes were downregulated, indicating that these CmWRKY genes are important to C. metuliferus response to RKN infection. Two differentially expression CmWRKY genes (CmWRKY10 and CmWRKY28) were selected for further functional analysis. Both CmWRKY genes were localized in nucleus, indicating they may play roles in transcriptional regulation. This study provides a foundation for further research on the function of CmWRKY genes in RKN stress resistance and elucidation of the regulatory mechanism.

Published

2023

17. Integrated analysis of the lncRNA/circRNA-miRNA-mRNA expression profiles reveals novel insights into potential mechanisms in response to root-knot nematodes in peanut

Author

Ping Xu, Hui Li, Xiaohua Wang, Ge Zhao, Xiaofei Lu, Shengjie Dai, Xiaoyu Cui, Mei Yuan, and Zhenning Liu

Subjects

Peanut, Root-knot nematode, Molecular mechanism, Competing endogenous RNA, Regulatory network, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Peanut is the most essential oil and food crop globally due to its high oil and protein content. Root-knot nematode infects peanut roots, causing poor development and severely limiting peanut yields worldwide. The discovery of peanut genome identified a considerable number of genetic loci controlling the peanut root-knot nematode; however, the molecular mechanism of root-knot nematode remains unknown. Results The heterogeneous response to root-knot nematode stress in peanut roots was identified using whole-transcriptome RNA-seq. A total of 430 mRNAs, 111 miRNAs, 4453 lncRNAs, and 123 circRNAs were found to have differential expression between infected and non-infected peanuts. The expression profiles of the lncRNA/circRNA-miRNA-mRNA network were developed to understand the potential pathways that lead to root-knot nematodes in peanut roots. During root-knot nematodes stress, a total of 10 lncRNAs, 4 circRNAs, 5 miRNAs, and 13 mRNAs can create competing endogenous RNA and participate in the oxidation–reduction process as well as other biological metabolism processes in peanuts. The findings will highlight the role of peanut ceRNAs in response to root-knot nematodes. Conclusion The GO classification and KEGG pathway enrichment study of core regulatory networks revealed that ceRNAs are involved in oxidation–reduction, peroxidase activity, lignin synthesis in the xylem, and flavonoid synthesis. Overall, these findings may help researchers better understand the role of non-coding RNAs in response to root-knot nematodes.

Published

2022

18. A Novel Optimal Time Window Determination Approach for ISAR Imaging of Ship Targets

Author

Rui Cao, Yong Wang, Chunmao Yeh, Yun Zhang, and Xiaofei Lu

Subjects

Doppler frequency analysis, imaging projection plane (IPP), inverse synthetic aperture radar (ISAR), optimal time window, sharpness analysis, ship imaging, Ocean engineering, TC1501-1800, Geophysics. Cosmic physics, QC801-809

Abstract

A well-focused and high-resolution inverse synthetic aperture radar (ISAR) image of ship target is appropriate to the target classification and recognition, especially for the ISAR image presenting the ship's top or side view. For this purpose, a novel optimal time window determination (OTWD) approach based on the imaging projection plane (IPP) selection is proposed in this article. First, the proposed OTWD approach determines the view of ship target in the ISAR image via the IPP selection. Then, the Doppler frequency is estimated via the time-frequency distribution (TFD) calculation for the azimuth signal of one scatterer. For the case of one range bin with multiple scatterers, a novel TFD extraction approach based on the clustering analysis is proposed. Afterward, the Doppler frequency is analyzed with sharpness to determine the optimal imaging time window, which can ensure the high image quality and optimal azimuth resolution. The proposed OTWD method is verified as accurate and effective with the experiments on simulated and real measured data.

Published

2022

19. The difficulty of oral speech act production tasks in second language pragmatics testing

Author

Weiying Huang and Xiaofei Lu

Subjects

pragmatic ability, speech acts, situational variables, task difficulty estimates, L2 pragmatics testing, Psychology, BF1-990

Abstract

This study examined the relative difficulty of oral speech act production tasks involving eight different types of speech acts for Chinese English as a foreign language (EFL) learners and the effects of three contextual variables, namely, power, social distance, and imposition, on such difficulty. Eight Oral Discourse Completion Task items, each representing a unique combination of the three contextual variables, were designed for each speech act. Eighty Chinese EFL learners responded to these items and their responses were rated for appropriateness by two native-speaking college English instructors. A Many-facet Rasch Measurement analysis suggested that the eight speech acts can be ordered by ascending difficulty as follows: Thank, Request, Suggestion, Disagreement, Invitation, Refusal, Offer, and Apology. Significant effects on performance scores were found for the interaction between each of the three contextual variables and speech act, and the specific effects observed varied by speech act. The implications of our findings for L2 pragmatics testing are discussed.

Published

2023

20. A novel wideband radar detector via Wiener filter

Author

Weijie Ma, Guoyong Tu, Zhenmiao Deng, Xiaofei Lu, Yishan Ye, and Yuhan Li

Subjects

Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Abstract To minimise the noise interference in the radar received echoes and optimise the detection issue for a wideband radar system, a novel wideband radar track‐before‐detect detector via Wiener Filter is proposed. The Wiener Filter can effectively remove the noise mixed in the echoes and make the filtered signal consistent with the original signal. After applying maximum likelihood estimation to the echoes, the authors can reconstruct the desired signal required for Wiener filtering by extracting the range information of each scatterer. Then Wiener Filtering is performed on the echo containing noise with the desired signal to complete the denoising. Subsequently, we exploit the correlation between the adjacent echoes for detection. The effectiveness of the detector can be verified by the numerical simulation results of synthetic and real radar data. The proposed detector is superior to the waveform contrast detector, inter‐period correlation processor and modified correlation matrix detector.

Published

2022

21. KDELR2 promotes breast cancer proliferation via HDAC3‐mediated cell cycle progression

Author

Haoran Wei, Wenhao Ma, Xiaofei Lu, Haiying Liu, Kashuai Lin, Yinghui Wang, Zijian Ye, Linchong Sun, Zhitong Huang, Tingting Pan, Zilong Zhou, Eric Y. Cheng, Huafeng Zhang, Ping Gao, and Xiuying Zhong

Subjects

breast cancer, histone deacetylase inhibitor, KDELR2, HADC3, CREB1, protein of centriole 5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Histone deacetylases (HDACs) engage in the regulation of various cellular processes by controlling global gene expression. The dysregulation of HDACs leads to carcinogenesis, making HDACs ideal targets for cancer therapy. However, the use of HDAC inhibitors (HDACi) as single agents has been shown to have limited success in treating solid tumors in clinical studies. This study aimed to identify a novel downstream effector of HDACs to provide a potential target for combination therapy. Methods Transcriptome sequencing and bioinformatics analysis were performed to screen for genes responsive to HDACi in breast cancer cells. The effects of HDACi on cell viability were detected using the MTT assay. The mRNA and protein levels of genes were determined by quantitative reverse transcription‐PCR (qRT‐PCR) and Western blotting. Cell cycle distribution and apoptosis were analyzed by flow cytometry. The binding of CREB1 (cAMP‐response element binding protein 1) to the promoter of the KDELR (The KDEL (Lys‐Asp‐Glu‐Leu) receptor) gene was validated by the ChIP (chromatin immunoprecipitation assay). The association between KDELR2 and protein of centriole 5 (POC5) was detected by immunoprecipitation. A breast cancer‐bearing mouse model was employed to analyze the effect of the HDAC3‐KDELR2 axis on tumor growth. Results KDELR2 was identified as a novel target of HDAC3, and its aberrant expression indicated the poor prognosis of breast cancer patients. We found a strong correlation between the protein expression patterns of HADC3 and KDELR2 in tumor tissues from breast cancer patients. The results of the ChIP assay and qRT‐PCR analysis validated that HDAC3 transactivated KDELR2 via CREB1. The HDAC3‐KDELR2 axis accelerated the cell cycle progression of cancer cells by protecting the centrosomal protein POC5 from proteasomal degradation. Moreover, the HDAC3‐KDELR2 axis promoted breast cancer cell proliferation and tumorigenesis in vitro and in vivo. Conclusion Our results uncovered a previously unappreciated function of KDELR2 in tumorigenesis, linking a critical Golgi‐the endoplasmic reticulum traffic transport protein to HDAC‐controlled cell cycle progression on the path of cancer development and thus revealing a potential therapeutical target for breast cancer.

Published

2021

22. Blue, Yellow, and Red Carbon Dots from Aromatic Precursors for Light-Emitting Diodes

Author

Zhenzhen Liu, Xiaofei Lu, Menglin Liu, and Wenjing Wang

Subjects

carbon dots, multicolor emission, fluorescence mechanism, light-emitting diodes, Organic chemistry, QD241-441

Abstract

In this work, multicolor fluorescent carbon dots with red (R-CDs), yellow (Y-CDs), and blue (B-CDs) emissions were prepared by choosing proper aromatic precursors with different amounts of benzene rings through a simple solvothermal method. The characterization showed that the prepared carbon dots were spherical with a size under 10 nm, rich surface functional groups, and good stability. The emission wavelengths were located at 440, 530, and 580 nm under the excitation of 370 nm. The relative fluorescence quantum yield (QY) of R-CDs, Y-CDs, and B-CDs was 11%, 59%, and 33%, respectively. The related characterization demonstrated that the redshift in the photoluminescence was caused by the synergistic effect of the increasing graphitic nitrogen content, quantum size effect and surface oxidation state. By mixing the three prepared CDs into a PVA matrix, the transparent and flexible films produced relucent blue, yellow, and red emissions under 365 nm UV light, and solid-state quenching was effectively avoided. LEDs were fabricated by using B-CDs, Y-CDs, and R-CDs/PVA with a semiconductor chip. These CDs-based LEDs produced bright blue, yellow, and red light with CIE color coordinates of (0.16, 0.02), (0.38, 0.58), and (0.50, 0.49) were successfully manufactured utilizing the prepared blue, yellow and red multicolor carbon dots as the solid luminescent materials. The results showed that the synthesized CDs can be potentially applied in multi-color monitors as a promising candidate for light-emitting diodes (LEDs). This work blazes a novel trail for the controllable preparation of multicolor fluorescent carbon dots.

Published

2023

23. Ship Target Imaging in Airborne SAR System Based on Automatic Image Segmentation and ISAR Technique

Author

Rui Cao, Yong Wang, Bin Zhao, and Xiaofei Lu

Subjects

Automatic image segmentation, clustering algorithm, hierarchical cluster algorithm (HCA), inverse synthetic aperture radar (ISAR) refocusing, ship target, synthetic aperture radar (SAR), Ocean engineering, TC1501-1800, Geophysics. Cosmic physics, QC801-809

Abstract

The airborne synthetic aperture radar (SAR) image of ship target will be blurred for the complex motion of the target, which will influence the performance of feature extraction and target classification. In this article, a refocusing method of ship target in airborne SAR image though the inverse synthetic aperture radar (ISAR) technique is presented. The novel contributions of this article can be summarized as follows: 1) the residual phase of processed signal is analyzed in detail to illustrate the necessity of adopting ISAR technique; 2) a valid, labor-saving, and automatic image segmentation approach via clustering algorithm is put forward for automatic data extraction and inverse mapping. The clustering algorithm we choose is the agglomerative hierarchical cluster algorithm, which does not require the number of categories in advance; 3) the refocused individual ISAR image of individual ship target is yielded though the range-instantaneous Doppler algorithm. Finally, the simulated and real measured data are processed, and imaging results verify the effectiveness of the novel algorithm presented in this article.

Published

2021

24. Confinement Effects in Well-Defined Metal–Organic Frameworks (MOFs) for Selective CO2 Hydrogenation: A Review

Author

Xiaofei Lu, Chuqiao Song, Xingyu Qi, Duanxing Li, and Lili Lin

Subjects

metal–organic frameworks, MOF-derived materials, confinement effects, selective CO2 hydrogenation, immobilization, encapsulation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Decarbonization has become an urgent affair to restrain global warming. CO2 hydrogenation coupled with H2 derived from water electrolysis is considered a promising route to mitigate the negative impact of carbon emission and also promote the application of hydrogen. It is of great significance to develop catalysts with excellent performance and large-scale implementation. In the past decades, metal–organic frameworks (MOFs) have been widely involved in the rational design of catalysts for CO2 hydrogenation due to their high surface areas, tunable porosities, well-ordered pore structures, and diversities in metals and functional groups. Confinement effects in MOFs or MOF-derived materials have been reported to promote the stability of CO2 hydrogenation catalysts, such as molecular complexes of immobilization effect, active sites in size effect, stabilization in the encapsulation effect, and electron transfer and interfacial catalysis in the synergistic effect. This review attempts to summarize the progress of MOF-based CO2 hydrogenation catalysts up to now, and demonstrate the synthetic strategies, unique features, and enhancement mechanisms compared with traditionally supported catalysts. Great emphasis will be placed on various confinement effects in CO2 hydrogenation. The challenges and opportunities in precise design, synthesis, and applications of MOF-confined catalysis for CO2 hydrogenation are also summarized.

Published

2023

25. Distinguishing the main climatic drivers to the variability of gross primary productivity at global FLUXNET sites

Author

Hao Zhou, Xu Yue, Bin Wang, Chenguang Tian, Xiaofei Lu, Jun Zhu, and Yang Cao

Subjects

diffuse radiation, timescales, gross primary productivity, variability, plant functional type, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Climate exerts both short-term and long-term impacts on the ecosystem carbon assimilation. However, the main climatic drivers for the variability of gross primary productivity (GPP) remain unclear across various timescales and vegetation types. Here, we combine the state-of-the-art machine learning algorithms with a well-established explanatory method to explore the impacts of climatic factors on long-term GPP variability at global FLUXNET sites across four timescales and six plant functional types. Results show that diffuse shortwave radiation (SWdif) dominates GPP variability at the sub-daily (half-hourly to three hourly) timescales especially for the tree species, and acts as the secondary contributor after air temperature at the daily or longer timescales. Attribution analyses further showed that the main effects of SWdif are much higher than their interactive effects with other climatic factors in regulating the GPP variability. By identifying the main climatic drivers, this study improves the understanding of the climate-driven GPP variability and provides important implications for the future projection of ecosystem carbon assimilation under global climate change.

Published

2023

26. The Genome of Fusarium oxysporum f. sp. phaseoli Provides Insight into the Evolution of Genomes and Effectors of Fusarium oxysporum Species

Author

Yali Hao, Yan Li, Xingxing Ping, Qihong Yang, Zhenchuan Mao, Jianlong Zhao, Xiaofei Lu, Bingyan Xie, Yuhong Yang, and Jian Ling

Subjects

cowpea fusarium wilt, Fusarium oxysporum f. sp. phaseoli, genomic comparisons, effector, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Fusarium oxysporum f. sp. phaseoli, the causal agent of cowpea fusarium wilt, is a serious threat to cowpea production in China. In this study, a sample of cowpea fusarium wilt was identified as Fusarium oxysporum f. sp. phaseoli using the methods of morphological characters and molecular detection. We further reported the first genome assembly for Fusarium oxysporum f. sp. phaseoli, with 53.7 Mb genome sequence comprising 14,694 genes. Comparative genomic analysis among five Fusarium oxysporum genomes showed that four accessory chromosomes in the five Fusarium oxysporum display similar characteristics, with low sequence similarity (55.35%, vs. overall average of 81.76%), low gene density (2.18 genes/10 kb vs. 3.02 genes/Mb) and highly transposable element density (TEs) (15.01/100 kb vs. 4.89/100 kb), indicating that variable accessory chromosomes are the main source of Fusarium oxysporum evolution. We identified a total of 100 Fusarium oxysporum f. sp. phaseoli-specific effectors in the genome and found 13 specific effector genes located in large insertion or deletion regions, suggesting that insertion or deletion events can cause the emergence of species-specific effectors in Fusarium oxysporum. Our genome assembly of Fusarium oxysporum f. sp. phaseoli provides a valuable resource for the study of cowpea fusarium wilt, and the comparative genomic study of Fusarium oxysporum could contribute to the knowledge of genome and effector-associated pathogenicity evolution in Fusarium oxysporum study.

Published

2023

27. Analysis of Immune Landscape Reveals Prognostic Significance of Cytotoxic CD4+ T Cells in the Central Region of pMMR CRC

Author

Jingwen Qi, Xiaoyan Liu, Peian Yan, Shangwen He, Yuhao Lin, Zhiwei Huang, Shenyan Zhang, Siyu Xie, Yanfeng Li, Xiaofei Lu, Yingjun Wu, Yangshu Zhou, Juanjuan Yuan, Ting Cai, Xiaojun Zheng, Yanqing Ding, and Wei Yang

Subjects

mismatch repair-proficient colorectal cancer, multiplex immunohistochemistry, tumor infiltrating lymphocytes, tumor immune microenvironment, neoadjuvant chemotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundMismatch repair proficient colorectal cancer (pMMR CRC) lacks effective treatments and has a poor prognosis, which can be attributed to the complexity of tumor microenvironment. The coordinated function of immune cells is vital to anti-tumor immunity. However, the spatial characteristics of immune cells in the pMMR CRC immune microenvironment and their relationship with clinical prognosis are not fully understood. Meanwhile, the immune modulatory effect of neoadjuvant chemotherapy (NCT), which is the first-line treatment of pMMR CRC, needs further investigation. Therefore, this study aims to explore the spatial dynamics of immune cells and its prognostic value in pMMR CRC.MethodsWe analyzed the various immune cells in formalin-fixed, paraffin-embedded tumor tissues which were collected from 77 patients with stage II/III of pMMR CRC, including 39 non-NCT treated and 38 NCT treated patients. We used the optimized multiplex immunohistochemistry (mIHC) to identify and quantify the density, type and location of immune cells in pMMR CRC. Multivariate survival analysis was performed to assess the relationship of immune profiles and clinical prognosis of pMMR CRC patients.ResultsThe densities of most T cell subsets, B cells and macrophages were higher in the central region of the pMMR CRC than in the invasion margin. Tumor infiltrating lymphocytes (TILs), especially the infiltration of CD4+ GzmB+ T cells in the central region of the tumor was identified to be positively correlated with the prognosis of the patients. Multivariate analysis confirmed that CD4+ GzmB+ T cells population was an independent predictor of disease-free survival (DFS) in non-NCT group. Meanwhile, NCT enhanced the infiltration of CD4+ GzmB+ T cells in the central region of the pMMR CRC, which was also identified as an independent protective factor of overall survival (OS) and DFS in NCT group.ConclusionWe demonstrated that the level of CD4+ GzmB+ T cells located in the center of tumor could provide great prognostic value for pMMR CRC patients. And the application of neoadjuvant chemotherapy further improves the infiltration of CD4+ GzmB+ T cells in the central compartment. Further studies into the application of CD4+ GzmB+ T cells in tumor immunotherapy are needed.

Published

2021

28. Assessing Lexical Psychological Properties in Second Language Production: A Dynamic Semantic Similarity Approach

Author

Kun Sun and Xiaofei Lu

Subjects

lexical psycholinguistic properties, word embeddings, semantic similarity, second language proficiency, dynamic approach, Psychology, BF1-990

Abstract

Previous studies of the lexical psycholinguistic properties (LPPs) in second language (L2) production have assessed the degree of an LPP dimension of an L2 corpus by computing the mean ratings of unique content words in the corpus for that dimension, without considering the possibility that learners at different proficiency levels may perceive the degree of that dimension of the same words differently. This study extended a dynamic semantic similarity algorithm to estimate the degree of five different LPP dimensions of several sub-corpora of the Education First-Cambridge Open Language Database representing L2 English learners at different proficiency levels. Our findings provide initial evidence for the validity of the algorithm for assessing the LPPs in L2 production and contribute useful insights into between-proficiency relationships and cross-proficiency differences in the LPPs in L2 production as well as the relationships among different LPP dimensions.

Published

2021

29. Genetic Diversity and Population Structure of Fusarium oxysporum f. sp. conglutinans Race 1 in Northern China Samples

Author

Jian Ling, Xin Dong, Xingxing Ping, Yan Li, Yuhong Yang, Jianlong Zhao, Xiaofei Lu, Bingyan Xie, and Zhenchuan Mao

Subjects

cabbage fusarium wilt, Fusarium oxysporum f. sp. conglutinans, genetic diversity, population structure, Biology (General), QH301-705.5

Abstract

Fusarium oxysporum f. sp. conglutinans (FOC), the causal agent of cabbage fusarium wilt, is a serious threat to cabbage production in northern China, and most Chinese FOC isolates were identified as FOC race 1 (FOC1). To better understand the genetic diversity of FOC1 in northern China, we collected FOC isolates from five provinces in northern China and identified them as FOC1 through pathogenicity and race test. To evaluate the genome-level diversity of FOC1, we performed a genome assembly for a FOC1 isolate (FoYQ-1) collected from Yanqing, Beijing, where cabbage fusarium wilt was first reported in China. Using resequencing data of FOC1 isolates, we conducted a genome-wide SNP (single nucleotide polymorphism) analysis to investigate the genetic diversity and population structure of FOC1 isolates in northern China. Our study indicated that Chinese FOC1 can be grouped into four populations and revealed that the genetic diversity of FOC1 were closely associated with geographical locations. Our study further suggests that genetic differentiation occurred when FOC1 spread to the northwest provinces from Beijing Province in China. The FOC1 genetic diversity based on whole-genome SNPs could deepen our understanding of FOC1 variation and provide clues for the control of cabbage fusarium wilt in China.

Published

2022

30. Sparse SAR Imaging Method for Ground Moving Target via GMTSI-Net

Author

Luwei Chen, Jiacheng Ni, Ying Luo, Qifang He, and Xiaofei Lu

Subjects

synthetic aperture radar (SAR), ground moving targets (GMT), sparse imaging, iterative soft threshold algorithm (ISTA), GMT sparse imaging network (GMTSI-Net), Science

Abstract

Ground moving targets (GMT), due to the existence of velocity in range and azimuth direction, will lead to the deviation from their true position and defocus in the azimuth direction during the synthetic aperture radar (SAR) imaging process. To address this problem and compress the amount of echo data, a sparse SAR imaging method for ground moving targets is proposed. Specifically, we first constructed a two-dimensional sparse observation model of the GMT based on matched filter operators. Then, the observation model was solved by a deep network, GMT sparse imaging network (GMTSI-Net), which was mainly obtained by unfolding an iterative soft threshold algorithm (ISTA)-based iterative solution. Furthermore, we designed an adaptive unfolding module in the imaging network to improve the adaptability of the network to the input of echo data with different sampling ratios. The proposed imaging network can achieve faster and more accurate SAR images of ground moving targets under a low sampling ratio and signal-to-noise ratio (SNR). Simulated and measured data experiments were conducted to demonstrate the performance of imaging quality of the proposed method.

Published

2022

31. Slip Model of the 2020 Yutian (Northwestern Tibetan Plateau) Earthquake Derived From Joint Inversion of InSAR and Teleseismic Data

Author

Qi Li, Chengtao Li, Kai Tan, Xiaofei Lu, and Xiao Zuo

Subjects

Yutian earthquake, joint inversion, interferometry, broadband seismograms, fault geometry, rupture process, Astronomy, QB1-991, Geology, QE1-996.5

Abstract

Abstract Interferometric synthetic aperture radar and teleseismic P‐wave data were combined to investigate the source rupture characteristics of the 2020 Mw 6.3 Yutian, China, earthquake. We first utilized the near‐field displacements together with 29 broadband teleseismic P waveforms to investigate the uniform slip model by using a Bayesian bootstrap optimization nonlinear inversion method to resolve the nucleation point location, origin time and fault geometrical parameters. Based on these results, the kinematic rupture process of the earthquake was inverted. We conclude that the 2020 Yutian earthquake occurred on a west‐dipping blind normal fault with a dip of ∼60° at the junction of Bayan Har block (BHB) and western Kunlun block (WKB). The rupture nucleation point was located at longitude = 82.435°E, latitude = 35.619°N, and a depth of 6.377 km, making it shallower than estimated from other point source inversions. The earthquake started at 21:05:20 UTC on June 25, 2020 and was delayed by ∼2.07 s compared with GeoForschungsZentrum. The rupture lasted for ∼12 s, with a total seismic moment of ∼3.28 × 1018 Nm, corresponding to a moment magnitude of 6.3. The slip was mainly confined between ∼3.0 and 9.0 km in depth and the peak slip was ∼1.40 m, which occurred at a depth of ∼6.377 km. The slip was predominantly normal slip with slight right‐lateral strike‐slip components, which agrees with the southeastward movement of the BHB relative to the WKB.

Published

2021

32. ISAR Resolution Enhancement Method Exploiting Generative Adversarial Network

Author

Haobo Wang, Kaiming Li, Xiaofei Lu, Qun Zhang, Ying Luo, and Le Kang

Subjects

inverse synthetic aperture radar (ISAR) imaging, generative adversarial network (GAN), resolution enhancement, detailed features, weak scattering points, Science

Abstract

Deep learning has been used in inverse synthetic aperture radar (ISAR) imaging to improve resolution performance, but there still exist some problems: the loss of weak scattering points, over-smoothed imaging results, and the universality and generalization. To address these problems, an ISAR resolution enhancement method of exploiting a generative adversarial network (GAN) is proposed in this paper. We adopt a relativistic average discriminator (RaD) to enhance the ability of the network to describe target details. The proposed loss function is composed of feature loss, adversarial loss, and absolute loss. The feature loss is used to get the main characteristics of the target. The adversarial loss ensures that the proposed GAN recovers more target details. The absolute loss is adopted to make the imaging results not over-smoothed. Experiments based on simulated and measured data under different conditions demonstrate that the proposed method has good imaging performance. In addition, the universality and generalization of the proposed GAN are also well verified.

Published

2022

33. A Fast and Robust Algorithm with Reinforcement Learning for Large UAV Cluster Mission Planning

Author

Lei Zuo, Shan Gao, Yachao Li, Lianghai Li, Ming Li, and Xiaofei Lu

Subjects

mission planning, UAV cluster, reinforcement learning, attention model, combinational optimization, Science

Abstract

Large Unmanned Aerial Vehicle (UAV) clusters, containing hundreds of UAVs, have widely been used in the modern world. Therein, mission planning is the core of large UAV cluster collaborative systems. In this paper, we propose a mission planning method by introducing the Simple Attention Model (SAM) into Dynamic Information Reinforcement Learning (DIRL), named DIRL-SAM. To reduce the computational complexity of the original attention model, we derive the SAM with a lightweight interactive model to rapidly extract high-dimensional features of the cluster information. In DIRL, dynamic training conditions are considered to simulate different mission environments. Meanwhile, the data expansion in DIRL guarantees the convergence of the model in these dynamic environments, which improves the robustness of the algorithm. Finally, the simulation experiment results show that the proposed method can adaptively provide feasible mission planning schemes with second-level solution speed and that it exhibits excellent generalization performance in large-scale cluster planning problems.

Published

2022

34. A case report of primary central nervous system lymphoma

Author

Xu Zeng, Xiaofei Lu, Xinlong Li, Lilei Peng, and Ligang Chen

Subjects

Medicine (General), R5-920

Abstract

Most patients with primary central system lymphoma (PCNSL) have immune dysfunction. PCNSL without immune dysfunction is rare and extremely challenging to diagnose. Here, we report the case of a 52-year-old woman without immune dysfunction who presented with PCNSL. The patient died a few months after diagnosis and during treatment. A review of this PCNSL patient’s case highlighted that poor interpretation of imaging features and the poor correlation of laboratory test results with clinical findings led to a difficulty in making a diagnosis and administering the best treatment. For an accurate diagnosis of early stage PCNSL, positron-emission tomography computed tomography and corticosteroids should be used cautiously before stereotactic biopsy.

Published

2020

35. Negative effects of canopy N addition on soil organic carbon in wet season are primarily detected in uppermost soils of a subtropical forest

Author

Xiaofei Lu, Wendan Ren, Enqing Hou, Lingling Zhang, Dazhi Wen, Zhanfeng Liu, Yongbiao Lin, Jun Wang, and Yuanwen Kuang

Subjects

Ecology, QH540-549.5

Abstract

The seasonal differences of soil organic carbon (SOC) responding to N deposition have rarely been considered. In this study, two levels of canopy addition of N (25 and 50 kg N ha−1 yr−1; i.e., CAN25 and CAN50, respectively) and one control (CK) were designed in a subtropical forest to investigate the seasonal effects on the content of SOC and its fractions. The results showed that soil pH, the content of SOC and N were not significantly altered after 3 years of canopy N addition. However, in 0–5 cm soils, significant variations were observed in the proportion of the micro-aggregates (53–250 μm) and the clay microstructures (250 μm), microbial biomass C, readily oxidized C, and recalcitrant organic C in the wet season. The findings implied that atmospheric N deposition may have negative and no effects on SOC in subtropical evergreen forest in the wet and the dry season, respectively. Although the effects were primarily detected in the uppermost soils, the different responses of SOC to atmospheric N deposition between the dry and the wet seasons should be considered in the future modeling research. Keywords: Atmospheric N deposition, Canopy N addition, Seasonal effect, Soil organic carbon, Subtropical forest

Published

2019

36. Thermodynamic Analysis of Methylcyclohexane Dehydrogenation and Solar Energy Storage via Solar-Driven Hydrogen Permeation Membrane Reactor

Author

Hongsheng Wang, Bingzheng Wang, Hui Kong, Xiaofei Lu, and Xuejiao Hu

Subjects

MCH dehydrogenation, thermodynamic analysis, hydrogen generation, membrane reactor, solar thermochemistry, Chemical technology, TP1-1185, Chemical engineering, TP155-156

Abstract

A novel methylcyclohexane (MCH) dehydrogenation system driven by solar energy with a hydrogen permeation membrane (HPM) reactor is proposed in this study. It is a promising method, via this novel system, to generate pure hydrogen and store intermittent solar energy. In this research, the thermodynamic analysis of MCH dehydrogenation via the HPM reactor was conducted based on numerical simulation. The conversion rates and thermodynamic efficiencies under different temperatures (150–350 °C), permeate pressures from 0.001 to 0.5 bar, and solar irradiation in the four seasons were studied and analyzed. Under a hydrogen partial pressure difference, HPM can separate hydrogen and shift the reaction equilibrium forward for a higher conversion rate of MCH, which can reach nearly 99.7% in this system. The first-law of thermodynamic efficiency, the solar-to-fuel efficiency, and the exergy efficiency are up to 95.58%, 38.65%, and 94.22%, respectively. This study exhibits the feasibility and potential of MCH dehydrogenation via the HPM reactor driven by solar energy and provides a novel approach for solar energy storage.

Published

2020

37. Instantaneous Frequency Estimation Based on Modified Kalman Filter for Cone-Shaped Target

Author

Ke Ren, Lan Du, Xiaofei Lu, Zhenyu Zhuo, and Lu Li

Subjects

instantaneous frequency estimation, Kalman filter, time-frequency analysis, space cone-shaped target, micro-Doppler, Science

Abstract

The instantaneous frequency (IF) is a vital parameter for the analysis of non-stationary multicomponent signals, and plays an important role in space cone-shaped target recognition. For a cone-shaped target, IF estimation is not a trivial issue due to the proximity of the energy of the IF components, the intersections among different IF components, and the existence of noise. Compared with the general parameterized time-frequency (GPTF), the traditional Kalman filter can perform better when the energy of different signal components is close. Nevertheless, the traditional Kalman filter usually makes association mistakes at the intersections of IF components and is sensitive to the noise. In this paper, a novel IF estimation method based on modified Kalman filter (MKF) is proposed, in which the MKF is used to associate the intersecting IF trajectories obtained by the synchroextracting transform (SET). The core of MKF is the introduction of trajectory correction strategy in which a trajectory survival rate is defined to judge the occurrence of association mistakes. When the trajectory survival rate is below the predetermined threshold, it means that an association mistakes occurs, and then the new trajectories generated by the random sample consensus algorithm are used to correct the wrong associations timely. The trajectory correction strategy can effectively obviate the association mistakes caused by the intersections of IF components and the noise. The windowing technique is also used in the trajectory correction strategy to improve computational speed. The experimental results based on the electromagnetic computation data show that the proposed method is more robust and precise than the traditional Kalman filter. Moreover, the proposed method has great performance advantages compared with other methods (i.e., the multiridge detection, the ant colony optimization, and the GPTF methods) especially in the case of low signal noise ratio (SNR).

Published

2020

38. Do Future Limitation Perspective in Cancer Patients Predict Fear of Cancer Recurrence, Mental Distress, and the Ventromedial Prefrontal Cortex Activity?

Author

Jia Zhou, Pan Feng, Xiaofei Lu, Xingping Han, Yanli Yang, Jingjing Song, Guangyu Jiang, and Yong Zheng

Subjects

cancer, future limitation perspective, fear of cancer recurrence, mental health status, resting-state fMRI, ventromedial prefrontal cortex, Psychology, BF1-990

Abstract

Life-threatening diseases (e.g., cancer) affect people’s future time perspective (FTP) and affect their mental health. When one’s lifetime is perceived as running out, the individual possesses a future limitation perspective (FLP), which is one of factors in FTP. In this study, we explored the structural relationship between FLP, fear of cancer recurrence (FCR), mental health status (MHS), and brain activity in patients with cancer. Cancer patients were divided into two groups using the FTP scale and Feelings About Life Scale: a strong FLP group (S-FLP) and a weak FLP group (W-FLP). For these groups, we measured cancer patients’ MHS using the Symptom Checklist (SCL-90) and FCR using the Cancer Acceptance Scale; brain activity was measured using resting-state functional magnetic resonance imaging (rs-fMRI). Behavioral results showed that the S-FLP group had higher mental symptoms and FCR scores than did the W-FLP group. Neuroimaging results revealed that spontaneous brain activity in the ventromedial prefrontal cortex (vmPFC) was stronger in the W-FLP group than in the S-FLP group. Moreover, brain activity in the vmPFC negatively correlated with FLP, FCR, and SCL-90 scores only in the S-FLP group, and the model constructed further indicated that FCR and SCL-90 scores fully mediated the relationship between FLP and vmPFC activities. These findings suggested that a strong FLP might lead to mental disorders and greater FCR, which might change the spontaneous activity of the vmPFC in cancer patients.

Published

2018

39. Influence of Temperature on Biogas Production Efficiency and Microbial Community in a Two-Phase Anaerobic Digestion System

Author

Shiwei Wang, Fang Ma, Weiwei Ma, Ping Wang, Guang Zhao, and Xiaofei Lu

Subjects

two-phase anaerobic digestion, temperature, biogas production, microbial community, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

In this study, the influence of temperature on biogas production efficiency and the microbial community structure was investigated in a two-phase anaerobic digestion reactor for co-digestion of cow manure and corn straw. The results illustrated that the contents of solluted chemical oxygen demand (SCOD) and volatile fatty acid (VFA) in the acidogenic phase and biogas production in the methanogenic phase maintained relatively higher levels at temperatures ranging from 35–25 °C. The methane content of biogas production could be maintained higher than 50% at temperatures above 25 °C. The microbial community structure analysis indicated that the dominant functional bacteria were Acinetobacter, Acetitomaculum, and Bacillus in the acidogenic phase and Cenarchaeum in the methanogenic phase at 35–25 °C. However, the performances of the acidogenic phase and the methanogenic phase could be significantly decreased at a lower temperature of 20 °C, and microbial activity was inhibited obviously. Accordingly, a low temperature was adverse for the performance of the acidogenic and methanogenic phases, while moderate temperatures above 25 °C were more conducive to high biogas production efficiency.

Published

2019

40. Clinical and Prognostic Significance of Preoperative Plasma Fibrinogen Levels in Patients with Operable Breast Cancer.

Author

Yu Mei, Song Zhao, Xiaofei Lu, Haixia Liu, Xiangyi Li, and Rong Ma

Subjects

Medicine, Science

Abstract

PURPOSE:Elevated plasma fibrinogen levels are associated with tumor progression and poor outcomes in different cancer patients. The objective of this study was to investigate the clinical and prognostic value of preoperative plasma fibrinogen levels in patients with operable breast cancer. METHODS:Two hundred and twenty-three patients diagnosed with breast cancer were retrospectively evaluated in this study. Plasma fibrinogen levels were examined before treatment and analyzed along with patient clinicopathological parameters, disease-free survival (DFS) and overall survival (OS). Both univariate and multivariate analyses were performed to identify the clinicopathological parameters associated with DFS and OS. RESULTS:Elevated preoperative plasma fibrinogen levels were directly associated with age of diagnose (≤47 vs. >47, p

Published

2016

41. Coseismic deformation and fault slip distribution of the 2023 MW7.8 and MW7.6 earthquakes in Türkiye.

Author

Weikang Li, Lijiang Zhao, Kai Tan, Xiaofei Lu, Caihong Zhang, Chengtao Li, and Shuaishuai Han

Subjects

GLOBAL Positioning System, EARTHQUAKE magnitude, EARTHQUAKE aftershocks, EARTHQUAKES, EARTHQUAKE hazard analysis, DEFORMATION of surfaces, ACCIDENTAL falls

Abstract

On February 6, 2023, a devastating earthquake with a moment magnitude of MW7.8 struck the town of Pazarcik in south-central Türkiye, followed by another powerful earthquake with a moment magnitude of MW7.6 that struck the nearby city of Elbistan 9 h later. To study the characteristics of surface deformation caused by this event and the influence of fault rupture, this study calculated the static coseismic deformation of 56 stations and dynamic displacement waveforms of 15 stations using data from the Turkish national fixed global navigation satellite system (GNSS) network. A maximum static coseismic displacement of 0.38 m for the MW7.8 Kahramanmaras earthquake was observed at station ANTE, 36 km from the epicenter, and a maximum dynamic coseismic displacement of 4.4 m for the MW7.6 Elbistan earthquake was observed at station EKZ1, 5 km from the epicenter. The rupture-slip distributions of the two earthquakes were inverted using GNSS coseismic deformation as a constraint. The results showed that the Kahramanmaras earthquake rupture segment was distinct and exposed on the ground, resulting in significant rupture slip along the Amanos and Pazarcik fault segments of the East Anatolian Fault. The maximum slip in the Pazarcik fault segment was 10.7 m, and rupture occurred at depths of 0-15 km. In the Cardak fault region, the Elbistan earthquake caused significant ruptures at depths of 0-12 km, with the largest amount of slip reaching 11.6 m. The Coulomb stress change caused by the Kahramanmaras earthquake rupture along the Cardak fault segment was approximately 2 bars, and the area of increased Coulomb stress corresponded to the subsequent rupture region of the MW7.6 earthquake. Thus, it is likely that the MW7.8 earthquake triggered or promoted the MW7.6 earthquake. Based on the cumulative stress impact of the MW7.8 and MW7.6 events, the southwestern segment of the East Anatolian Fault, specifically the Amanos fault segment, experienced a Coulomb rupture stress change exceeding 2 bars, warranting further attention to assess its future seismic hazard risk. [ABSTRACT FROM AUTHOR]

Published

2024

42. Global assessment of climatic responses to the ozone-vegetation interactions.

Author

Xinyi Zhou, Xu Yue, Chenguang Tian, and Xiaofei Lu

Abstract

The coupling between surface ozone (O3) and vegetation significantly influences regional to global climate. O3 uptake by plant stomata inhibits photosynthetic rate and stomatal conductance, impacting evapotranspiration through land surface ecosystems. Using the climate-vegetation-chemistry coupled ModelE2-YIBs model, we assess the global climatic responses to O3-vegetation interactions during boreal summer of 2010s (2005-2014). High O3 pollution reduces stomatal conductance, resulting in the warmer and drier conditions worldwide. The most significant responses are found in the eastern U.S. and eastern China, where local latent heat flux decreases by -8.17% and -9.48%, respectively. Consequently, surface air temperature rises by +0.33 °C and +0.56 °C, and sensible heat flux rises by +16.54% and +25.46% in the two hotspot regions. The O3-vegetation interaction also affects atmospheric pollutants. Surface O3 concentrations increase by +1.26 ppbv in eastern China and +0.98 ppbv in eastern U.S. due to the O3-induced inhibition of stomatal uptake. With reduced atmospheric stability following the warmer climate, increased cloudiness but decreased relative humidity jointly reduce aerosol optical depth (AOD) over eastern China. This study suggests that vegetation feedback should be considered for a more accurate assessment of climatic perturbations caused by tropospheric O3. [ABSTRACT FROM AUTHOR]

Published

2024

43. Precession Parameter Estimation of Warhead With Fins Based on Micro-Doppler Effect and Radar Network

Author

Rongzheng Zhang, Yong Wang, Chunmao Yeh, and Xiaofei Lu

Subjects

Aerospace Engineering, Electrical and Electronic Engineering

Published

2023

44. Product Distribution Control Guided by a Microkinetic Analysis for CO Reduction at High-Flux Electrocatalysis Using Gas-Diffusion Cu Electrodes

Author

Xiaofei Lu, Tatsuya Shinagawa, and Kazuhiro Takanabe

Subjects

General Chemistry, Catalysis

Published

2023

45. Sparse Aperture Autofocusing and Imaging Based on Fast Sparse Bayesian Learning From Gapped Data

Author

Yuanyuan Wang, Fengzhou Dai, Qian Liu, Ling Hong, and Xiaofei Lu

Subjects

General Earth and Planetary Sciences, Electrical and Electronic Engineering

Published

2023

46. Manganese-functionalized MXene theranostic nanoplatform for MRI-guided synergetic photothermal/chemodynamic therapy of cancer

Author

Dong An, Xin Wu, Yaolin Gong, Wenlu Li, Guidong Dai, Xiaofei Lu, Liangmin Yu, Wen Xiu Ren, Meng Qiu, and Jian Shu

Subjects

Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Biotechnology

Abstract

Two-dimensional transition metal carbides and nitrides (MXenes) nanosheets with high photothermal conversion efficiency as well as photothermal stability can efficiently generate remarkable hyperthermia for photothermal therapy (PTT) of cancer. However, mono-MXenes cannot exhibit precise diagnosis and treatment to complete ablation of cancer cells in the PTT process. To overcome this dilemma, an “all-in-one” nanoplatform of titanium carbide (Ti3C2) MXene-based composite nanosheets is developed for magnetic resonance imaging (MRI)-guided multi-modal hyperthermia and chemodynamic tumor ablation, which was achieved by bonding of manganese ion on the surface of Ti3C2, and then was the functionalized nanosheets was modified by biocompatible PEG (Mn-Ti3C2@PEG). Due to magnetic and Fenton-like catalytic properties of Mn components, Mn-Ti3C2@PEG not only acted as the contrast agents for T1-weighted MRI (relaxivity value of 1.05 mM−1 s−1), but also converted cellular H2O2 into highly toxic hydroxyl radicals (·OH) mediated chemodynamic therapy (CDT). Moreover, Furthermore, Mn-Ti3C2@PEG can efficiently suppressed tumor-growth by PTT, due to the high photothermal conversion capability and photothermal stability. As a proof-of-concept model, the as-designed Mn-Ti3C2@PEG nanoplatform shows simultaneous MRI and dual-modal treatment for effective suppression of tumor with minimized side effects both in vitro and in vivo, indicating the great potential for clinical cancer theranostics.

Published

2022

47. Embedding isolated iron into biomass-derived porous carbon as efficient electrocatalysts for O2 and CO2 reduction

Author

Yu Zhou, Xiaofei Lu, Hongsheng Wang, Luofu Min, and Yuxin Wang

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science

Published

2022

48. High current density microkinetic and electronic structure analysis of CO2 reduction using Co and Fe complexes on gas diffusion electrode

Author

Xiaofei Lu, Busra Dereli, Tatsuya Shinagawa, Mohamed Eddaoudi, Luigi Cavallo, and Kazuhiro Takanabe

Subjects

Chemistry (miscellaneous), Organic Chemistry, Physical and Theoretical Chemistry

Published

2022

49. Unraveling the Mfn2-Warburg effect nexus: a therapeutic strategy to combat pulmonary arterial hypertension arising from catch-up growth after IUGR

Author

Lingling Yan, Xiaofei Luo, Chengcheng Hang, YuWang, Ziming Zhang, Shanshan Xu, and Lizhong Du

Subjects

Intrauterine growth restriction, Catch-up growth, Pulmonary hypertension, Mfn2, Warburg effect, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background The interplay between intrauterine and early postnatal environments has been associated with an increased risk of cardiovascular diseases in adulthood, including pulmonary arterial hypertension (PAH). While emerging evidence highlights the crucial role of mitochondrial pathology in PAH, the specific mechanisms driving fetal-originated PAH remain elusive. Methods and results To elucidate the role of mitochondrial dynamics in the pathogenesis of fetal-originated PAH, we established a rat model of postnatal catch-up growth following intrauterine growth restriction (IUGR) to induce pulmonary arterial hypertension (PAH). RNA-seq analysis of pulmonary artery samples from the rats revealed dysregulated mitochondrial metabolic genes and pathways associated with increased pulmonary arterial pressure and pulmonary arterial remodeling in the RC group (postnatal catch-up growth following IUGR). In vitro experiments using pulmonary arterial smooth muscle cells (PASMCs) from the RC group demonstrated elevated proliferation, migration, and impaired mitochondrial functions. Notably, reduced expression of Mitofusion 2 (Mfn2), a mitochondrial outer membrane protein involved in mitochondrial fusion, was observed in the RC group. Reconstitution of Mfn2 resulted in enhanced mitochondrial fusion and improved mitochondrial functions in PASMCs of RC group, effectively reversing the Warburg effect. Importantly, Mfn2 reconstitution alleviated the PAH phenotype in the RC group rats. Conclusions Imbalanced mitochondrial dynamics, characterized by reduced Mfn2 expression, plays a critical role in the development of fetal-originated PAH following postnatal catch-up growth after IUGR. Mfn2 emerges as a promising therapeutic strategy for managing IUGR-catch-up growth induced PAH.

Published

2024

50. Ambiguity Function based High-Order Translational Motion Compensation

Author

Zhenyu Zhuo, Lan Du, Xiaofei Lu, Ke Ren, and Lu Li

Subjects

Aerospace Engineering, Electrical and Electronic Engineering

Published

2022