Your search keyword '"Yachao Wang"' showing total 345 results

1. A proteomics and transcriptome analysis provides insight into the molecular mechanisms of tea tree oil against Aeromonas hydrophila

Author

Yachao Wang, Yilei Liang, Qing Jiang, Mao Hu, Bo Liu, Cunxin Sun, Qunlan Zhou, Mange Kaunda, and Jiang Li

Subjects

Transcriptomics, Proteomics, Tea tree oil, A. hydrophila, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Aeromonas hydrophila is a widespread fish pathogen. However, due to the extensive use of antibiotics in aquaculture, this bacterium has developed drug resistance. In recent years, tea tree oil, extracted from Melaleuca alternifolia, has gained widespread application in antibacterial research. Nevertheless, the underlying mechanism of action of tea tree oil on A. hydrophila remains unclear. In this study, the inhibitory effect of tea tree oil on A. hydrophila was analyzed, and its mechanism of action was elucidated through a combination of transcriptome and proteome analyses. In the current work, tea tree oil (0.039 mg/mL) significantly inhibited the growth of A. hydrophila and changed the permeability of the cell membrane. A total of 109 differentially expressed genes (DEGs) were identified by the combined analysis of the transcriptome and the proteome, of which 46 were upregulated and 63 were downregulated. These co-regulated DEGs were primarily enriched in metabolic pathways such as bacterial chemotaxis, pyrimidine metabolism, and the two-component system. Simultaneously, it was found that the target proteins of tea tree oil, such as secB, yajC, rpsP, rplL, and rpsT were significantly downregulated. These findings suggested that the potential of tea tree oil as an alternative to antibiotics in inhibiting the growth of A. hydrophila. It provides new insights into the molecular mechanisms underlying the antimicrobial activity of tea tree oil against A. hydrophila.

Published

2024

2. Ethyl acetate extract of Nymphaea candida Presl: A potential anti-depressant and neuroprotective treatment strategy

Author

Huixia Hong, Ming Gao, Min Zhou, Ao Wang, Ruimao Hua, Ziwei Ma, Yachao Wang, Yanwen Xu, Yu Bai, Guodong Huang, Yuming Yu, and Hui Tan

Subjects

Nymphaea candida Presl, depression, lipopolysaccharide, hippocampus, neuroprotection, PC12, Therapeutics. Pharmacology, RM1-950

Abstract

Nymphaea candida Presl (NC), traditionally used in medicine for heat syndrome-related ailments, possesses antioxidative, anti-inflammatory, hepatoprotective, and neuroprotective properties. This research investigates the antidepressant and neuroprotective effects and mechanisms of Nymphaea candida Presl ethyl acetate (NCEA). Primary components of NCEA were identified as phenolic acids and flavonoids through UPLC-MS/MS analysis. The depression mouse model was induced via intracerebroventricular injection of Lipopolysaccharide (LPS), followed by oral administration of fluoxetine and NCEA for one week. Biochemical assays and HE staining confirmed NCEA's non-toxicity and protective effects on the liver and lungs. NCEA administration mitigated LPS-induced depressive behaviors, decreased IL-1β, TNF-α levels in the hippocampus, suppressed microglial activation, reduced Iba-1 expression, and increased NA, brain-derived neurotrophic factor (BDNF), and dendritic spine density in the hippocampus. Furthermore, NCEA enhanced cell viability in a CORT-induced PC12 cell model, decreased lactate dehydrogenase (LDH) release rate, total superoxide dismutase (SOD) inhibition rate, intracellular nitric oxide (NO) release, and reduced reactive oxygen species (ROS) production. Our research findings suggest that NCEA exhibits significant antidepressant effects, which may be attributed to its reduction of neuroinflammation, improvement in neurotransmitter levels, neuronal protection, and antioxidative stress properties.

Published

2024

3. A network pharmacology and transcriptome analysis of the therapeutic effects of tea tree oil on the lungs of chicks exposed to hydrogen sulfide

Author

Yachao Wang, Yilei Liang, Li Jiang, Xuegang Luo, Tingting Cheng, and Xiaoyan Long

Subjects

H2S, tea tree oil, apoptosis, lung, network pharmacology, Animal culture, SF1-1100

Abstract

ABSTRACT: This study investigated the use of tea tree oil (TTO) in the treatment of H2S-induced lung injury in chickens, focusing on the detoxification mechanism. H2S can damage the respiratory system and reduce growth performance. TTO can improve immune inflammation and growth performance. The mechanism by which TTO mitigates the harmful effects of H2S on chicken lungs remains unclear. Therefore, the experimental model was established by H2S exposure and TTO addition in drinking water. The 240 one-day-old Roman pink chicks were selected for the experiment. The trial was divided into control group (CON), treatment group (TTG, 0.02 mL/L TTO+H2S) and H2S exposure group (AVG, H2S). There were 4 replicates in each group and the trial lasted for 42 d. The therapeutic effect of TTO on lung injury in chickens were determined by growth performance evaluation, transcription sequencing and network pharmacology analysis. The results showed that in the test's third week, the body weights of the chickens in the CON were higher than those in the AVG and TTG (P < 0.05). Pathological sections showed that TTO alleviated the symptoms of lung inflammation and bleeding caused by ROS. As showed by transcriptional sequencing, the mRNA expression of apoptosis-related genes Caspase-9, BAK-1, BCL-2 and BAX were significantly altered (P < 0.05). Meanwhile, the mRNA expression of inflammation-related genes IL-2, IL-6, and IL-17 were downregulated (P < 0.05). Network pharmacological analysis showed that CA2, CA4, GABRA5 and ADH1C were the key targets of TTO. The TTO treatment significantly altered these targets (P < 0.05). Molecular docking confirmed the strong binding ability between the active component and the targets. This study showed that TTO inhibits H2S-induced oxidative damage to the lungs, thereby improving their health status. This provides a new solution for the prevention of harmful gas in the poultry industry.

Published

2024

4. Microstructure and property enhancement of 7075 aluminium alloy via laser metal deposition augmented by in-situ ultrasonic vibration

Author

Yutai Su, Roman Savinov, Yachao Wang, Dong Lin, and Jing Shi

Subjects

Directed energy deposition, AA7075 alloy, ultrasonic vibration, grain refinement, mechanical properties, Science, Manufactures, TS1-2301

Abstract

ABSTRACTThis study employed laser directed energy deposition (DED) with in-situ ultrasonic vibration to obtain AA7075 deposits. The results showed that with ultrasonic treatment, the grain morphology of DED produced AA7075 was changed from columnar grains with an average area of 1751 µm2 to equiaxed grains of 118.2 µm2, representing a reduction of about 93%. Also, the application of ultrasonic treatment led to the increase of average hardness from 93.1 HV to 110.2 HV, and the increase of average ultimate tensile strength from 226.8 MPa to 314.7 MPa, representing relative increases of 18.36% and 38%, respectively. However, it did not result in a significant reduction of ductility. It is believed that ultrasonic vibration promotes the formation of additional nucleation sites due to cavitation and acoustic streaming, as well as the formation of secondary phase particles at grain boundaries. Both mechanisms effectively augment the mechanical properties of DED produced AA7075.

Published

2024

5. Cadmium stress induces gut microbiota imbalance and consequent activation of the gut–liver axis leading to liver injury and inflammation response in largemouth bass (Micropterus salmoides)

Author

Li Jiang, Qiuhong Wu, Songsong Bao, Guang Fan, Zhiwen Yang, Pan Zhou, Xiaofei Yang, Xinyue Liu, Xinhong Zhou, and Yachao Wang

Subjects

cadmium, largemouth bass, gut-liver axis, intestinal microbiota, inflammatory response, hepatotoxicity, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

IntroductionIn recent years, cadmium pollution has increasingly serious impacts on aquatic environments, directly threatening the health and growth of freshwater fish and causing significant economic losses to the aquaculture industry. However, there is limited research on the effects of cadmium on the gut-liver axis and hepatotoxicity in freshwater fish. Therefore, this study investigated the potential toxic effects of cadmium induction through the gut-liver axis on largemouth bass.MethodsThis experiment was divided into four groups, each with different concentrations of cadmium solution added to the water (0.00 mg/L, 1.024 mg/L, 1.537 mg/L, 2.306 mg/L), with three replicates per group, and a feeding period of 42 days. Results and discussionThe research findings indicate a significant decline in the growth performance of largemouth bass under cadmium stress (P

Published

2024

6. Tea tree oil inhibits hydrogen sulfide-induced oxidative damage in chicken lungs through CYP450s/ROS pathway

Author

Yilei Liang, Li Jiang, Mao Hu, Xuegang Luo, Tingting Cheng, and Yachao Wang

Subjects

CYP450s, H2S, oxidative stress, tea tree oil, Animal culture, SF1-1100

Abstract

ABSTRACT: A large amount of hydrogen sulfide (H2S) is produced in the process of chicken breeding, which can cause serious inflammation and oxidative damage to the respiratory system of chickens. Tea tree oil (TTO) has antioxidant and anti-inflammatory properties. No studies have been reported on the use of TTO in H2S-induced lung injury in chickens. Therefore, in this study, 240 one-day-old Roman pink laying hens were randomly and equally divided into 3 groups: control group (CON), H2S exposure group (AVG, containing H2S), and TTO treatment group (TTG, containing H2S and 0.02 mL/L TTO) to establish an experimental model of TTO treatment with H2S exposure for a period of 42 d. Hematoxylin and eosin (H&E) staining was used to detect lung histopathology. Gene expression profiles were analyzed using transcriptomics. The underlying mechanism of the amelioration of lung injury by TTO was further revealed by antioxidant enzyme assays and qRT-PCR. The results showed that H2S exposure induced significant gene expression of CYP450s (CYP1B1 and CYP1C1) (P < 0.05), and caused intense oxidative stress, apoptosis and inflammation compared with CON. TTO could reduce ROS production and enhance antioxidant capacity (SOD, CAT, T-AOC, and GSH-PX) by regulating the CYP450s/ROS pathway (P < 0.05). Compared with the control group, the treatment group showed significantly decreased expression of apoptotic (Caspase-8, Caspase-3, Bid and Fas) (P < 0.05) and inflammatory (IL-4, IL-16, NF-κB, TNF-α and IFN-γ) (P < 0.05) factors in the lung. This study revealed that TTO regulated CYP450s/ROS pathway to alleviate H2S-induced lung injury in chickens. These results enrich the theory of the action mechanism of TTO on H2S-exposed chicken lungs and are of great value for the treatment of H2S-exposed animals.

Published

2024

7. Decelerating catalyst aging of natural gas engines using organic Rankine cycle under road conditions

Author

Chongyao Wang, Xin Wang, Yunshan Ge, Yonghong Xu, Lijun Hao, Jianwei Tan, Ruonan Li, Miao Wen, and Yachao Wang

Subjects

NG engine, Waste heat recovery, Organic rankine cycle, Road condition, Three-way catalyst, Thermal aging, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

High exhaust temperature is an intrinsic nature of natural gas engines which underlies power de-rating and thermal aging of after-treatment system; therefore, this study integrates an organic Rankine cycle (ORC) system between engine and it's three-way catalyst (TWC) to address these challenges. ORC facilitates power output enhancement through exhaust energy recovery and alleviates thermal aging by reducing exhaust temperature. To estimate the effectiveness of this hypothesized system, a simulation-based investigation is performed. First, simulation models, including engine, TWC, and vehicle dynamic models, are built and validated by experimental data. According to the temperature characteristics of different TWCs, three scenarios, representing old, current, and prospective TWC technology, are formulated to estimate the ORC performance under Worldwide Harmonized Light Vehicles Test Cycle. Results show that ORC system can substantially alleviate the thermal damage caused by high exhaust temperature and extend TWC lifespan. It is estimated that over 98.5 % of thermal damage can be decreased by proper ORC setting, and the average TWC lifespan extension can be at least 55.4, making a reduced noble metal usage and cost of TWC. Meanwhile, with the decrease of the working temperature of TWC, ORC can recover exhaust energy under more road conditions, further improving the net power and shortening the payback period of extra ORC hardware costs. A reduction in the working temperature of TWC from 770.5 K to 618 K yields a 109 % enhancement in maximum power, coupled with a 62.30 % reduction in the payback period. These findings fully reflect the advantage of ORC-TWC coupling and indicate that ORC is supposed to be used more for the TWC with a low working temperature to maximize economic effectiveness. This study provides a novel pathway for thermal aging alleviation of TWC and a valuable reference for prospective studies on matching ORC with TWC under road conditions.

Published

2024

8. Phylogenomics reveal Populus gonggaensis as a hybrid between P. lasiocarpa and P. cathayana (Salicaceae)

Author

Wenyan Du, Yachao Wang, Dajun Xie, Enze Li, Yuran Bai, Ce Shang, and Zhixiang Zhang

Subjects

Botany, QK1-989

Abstract

High levels of intra-specific polymorphism and frequent hybridisation make it difficult to define species and correctly apply their scientific names. Populus L. is a challenging genus with plentiful natural and artificial hybrids. This study is a part of the project ‘Flora of Pan-Himalaya’ and aims to determine the taxonomic identity of P. gonggaensis N. Chao & J.R. He and to find out whether it is of hybrid origin. Whole-genome sequencing data were obtained from 57 samples. The SNP matrix was developed for phylogenetic reconstruction, ABBA-BABA statistics, PCA and ADMIXTURE analysis. The results indicate that P. gonggaensis is a spontaneous hybrid between P. lasiocarpa and P. cathayana. This study points out the importance of SNP data and comprehensive analyses for discovering the potential interspecific hybridisation and clarifies the usage of the name. In addition, the lectotype of P. gonggaensis was designated.

Published

2024

9. Different Optical Behaviors Revealed by Electroluminescence and Photoluminescence of InGaN/GaN Coupled Quantum Wells

Author

Huan Xu, Yachao Wang, Xin Hou, Wei Ou, Tao Yang, Yang Mei, and Baoping Zhang

Subjects

coupled quantum well, photoluminescence, electroluminescence, Chemistry, QD1-999

Abstract

The optical properties of wurtzite violet InGaN/GaN coupled quantum well (QW) structures are experimentally studied using photoluminescence (PL) and electroluminescence (EL) spectroscopy. Two emission peaks, referred to as Peak H and Peak L, are observed in both PL and EL spectra, due to the ground state splitting induced by the well coupling. Experimental PL and EL results reveal that coupled QWs show different optical responses due to the different variation in the electric field inside the QW structure. Since the direction of the polarization electric field of the as-grown well/barrier layers is different, the external electric field applied by electrodes can change the energy band alignment between the well and the barrier layers, thus adjusting the coupling between the wells. Our results provide relevant information to improve our understanding of the optical properties of InGaN/GaN QWs and to develop novel optoelectronic devices.

Published

2024

10. Interferometric Calibration Model for the LuTan-1 Mission: Enhancing Digital Elevation Model Accuracy

Author

Jingwen Mou, Yu Wang, Jun Hong, Yachao Wang, Aichun Wang, Shiyu Sun, and Guikun Liu

Subjects

digital elevation model, synthetic aperture radar, interferometric calibration, bistatic system, LuTan-1, Science

Abstract

The LuTan-1 (LT-1) mission, China’s first civilian bistatic spaceborne Synthetic Aperture Radar (SAR) mission, comprises two L-band SAR satellites. These satellites operate in bistatic InSAR strip map mode, maintaining a formation flight with an adjustable baseline to generate global digital elevation models (DEMs) with high accuracy and spatial resolution. This research introduces a dedicated interferometric calibration model for LT-1, tackling the unique challenges of the bistatic system, such as interferometric parameter coupling and the π-ambiguity problem caused by synchronization phase errors. This study validates the model using SAR images from LT-1 and Xinjiang corner reflector data, achieving interferometric phase accuracy better than 0.1 rad and baseline accuracy better than 2 mm, thereby producing high-precision DEMs with a height accuracy meeting the 5 m requirement.

Published

2024

11. Recycling cenospheres to construct chitosan bonded-ammonium polyphosphate/dipentaerythritol hybrid geopolymer coatings for flame-retarding plywood

Author

Fan Li, YaChao Wang, MengYao Lai, HongJi Zhang, and JiangPing Zhao

Subjects

Industrial solid waste, Cenospheres, Flame retardant, Chitosan, Ammonium polyphosphate, Pyrolysis kinetics, Mining engineering. Metallurgy, TN1-997

Abstract

Cenosphere is an industrial solid waste produced by coal-fired power plants. Its large discharge has resulted in significant environmental problems, and how to solve this problem has become a top priority. In this research, chitosan (CS) bonded-ammonium polyphosphate (APP)/dipentaerythritol (DPER) are employed to construct cenospheres-based geopolymer coatings using the sol-gel method for flame-retarding plywood. The experimental results indicate that an appropriate pretreatment of APP with CS (0.40 wt%) facilitates the formation of geopolymer coatings, resulting in non-combustible resilient residues during combustion, its effectively block heat and fire sources, significantly decreasing the peak heat release rate from 108.89 to 90.61 kW m−2 and reducing about 80% of smoke production. Meanwhile, the three-level chemical reaction model is identified to govern the hybrid coatings’ pyrolysis. The calculations clarify that an appropriate CS increases its Eα from 266.03 to 345.16 kJ mol−1 at 727–1000 °C, corresponding to enhanced thermal stability. Furthermore, the yielded residues exhibit a formaldehyde adsorption rate of 71.6%, attributed to the formation of interpenetrating networks. Incorporating CS-pretreated APP in cenospheres-based coatings for designing Si–C–P hybrid coatings provides an effective method for recycling cenospheres and promotes the development of sustainable building materials.

Published

2023

12. Review on modeling and control of megawatt liquid flow energy storage system

Author

Yuxin Liu, Yachao Wang, Xuefeng Bai, Xinlong Li, Yongchuan Ning, Yang Song, Xin Li, and Donglei Mu

Subjects

Flow batteries, Energy storage system, Modeling, Control strategy, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Flow battery has recently drawn great attention due to its unique characteristics, such as safety, long life cycle, independent energy capacity and power output. It is especially suitable for large-scale storage system and has a good application prospect. In this paper, the overall structure of the megawatt-level flow battery energy storage system is introduced, and the topology structure of the bidirectional DC converter and the energy storage converter is analyzed. Secondly, the influence of single battery on energy storage system is analyzed, and a simulation model of flow battery energy storage system suitable for large power grid simulation is summarized. The model of the whole system of flow battery is summarized from the grid-connected side and the energy storage system itself. The model of flow battery energy storage system should not only accurately reflect the operation characteristics of flow battery itself, but also meet the simulation requirements of large power grid in terms of simulation accuracy and speed. Finally, the control technology of the flow battery energy storage system is discussed and analyzed. The multi-DC/DC control strategy on the DC side and the parallel operation control strategy of the energy storage converter on the AC side are compared and analyzed. The advantages and disadvantages of each control method are analyzed accurately, which can provide reference for the modeling and control strategy of the megawatt flow battery energy storage system.

Published

2023

13. Airborne Platform Three-Dimensional Positioning Method Based on Interferometric Synthetic Aperture Radar Interferogram Matching

Author

Lanyu Li, Yachao Wang, Bingnan Wang, and Maosheng Xiang

Subjects

InSAR, interferogram matching, three-dimensional positioning, Science

Abstract

As the demand for precise navigation of aircraft increases in modern society, researching high-precision, high-autonomy navigation systems is both theoretically valuable and practically significant. Because the inertial navigation system (INS) has systematic and random errors, its output information diverges. Therefore, it is necessary to combine them with other navigation systems for real-time compensation and correction of these errors. The SAR matching positioning and navigation system uses synthetic aperture radar (SAR) image matching for platform positioning and compensates for the drift caused by errors in the inertial measurement unit (IMU). Images obtained by SAR are matched with digital landmark data, and the platform’s position is calculated based on the SAR imaging geometry. However, SAR matching positioning faces challenges due to seasonal variations in SAR images, the need for typical landmarks for matching, and the lack of elevation information in two-dimensional SAR image matching. This paper proposes an airborne platform positioning method based on interferometric SAR (InSAR) interferogram matching. InSAR interferograms contain terrain elevation information, are less affected by seasonal changes, and provide higher positioning accuracy and robustness. By matching real-time InSAR-processed interferograms with simulated interferograms using a digital elevation model (DEM), three-dimensional position information about the matching points has been obtained. Subsequently, a three-dimensional positioning model for the platform has bene established using the unit line-of-sight vector decomposition method. In actual flight experiments using an FMCW Ku-band Interferometric SAR system, the proposed platform positioning framework demonstrated its ability to achieve precise positioning in the absence of signals from the global navigation satellite system (GNSS).

Published

2024

14. China 6 EGR gasoline vehicles without a GPF may struggle to meet the potential SPN10 limit

Author

Yachao Wang, Sheng Su, Yitu Lai, Wanyou Luo, Pan Hou, Tao Lyu, and Yunshan Ge

Subjects

Exhaust gas recirculation (EGR), SPN10, China 6 vehicles, GPF, Environmental sciences, GE1-350

Abstract

Particles larger than 10 nm from engine exhaust are gaining global concerns. In light of this, to investigate how EGR affects gasoline vehicle SPN10 (solid particles larger than 10 nm) emissions, seven gasoline vehicles (hybrid or conventional) were studied experimentally. The results revealed that EGR vehicles risk failing the current limit (6 * 1011 #/km) more than those without EGR if the cut-off size was tightened from 23 nm to 10 nm. More specifically, during the WLTC test, EGR increased the SPN10 emission factors by 2 ∼ 3 times depending on vehicle powertrains (conventional or hybrid). Notably, SPN10 emissions increased significantly when EGR was actively engaged but showed a decrease when the EGR rate remained constant. EGR and the enriched fuel–air mixture are the critical reasons for the increased SPN10.

Published

2023

15. Effect of chemical clogging on the permeability of weakly consolidated sandstone due to reinjection at different temperatures

Author

Tao Zhong, Hong Tian, Jun Zheng, Bin Dou, Yachao Wang, Zhongyan Yang, Peng Li, and Peng Xiao

Subjects

chemical clogging, geothermal reinjection, permeability, weakly consolidated sandstone, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

While utilizing hydrothermal resources, it is necessary to reinject wastewater into the reservoir through reinjection wells to extract heat without mining groundwater. Chemical clogging is a serious problem in the process of reinjection. The precipitation of minerals can lead to reservoir clogging and the reduction of permeability. Therefore, to study the effect of chemical clogging on permeability, the weakly consolidated sandstone of the Neogene Guantao Formation geothermal reservoir in northern Shandong (Eastern China) was taken as the research object. A long-term thermal-hydro-mechanical-chemistry (THMC) coupling reinjection experiment was carried out. The results showed that when the temperature of wastewater was higher than 45 °C, there was a temporary phase of permeability enhancement in the first 10 min of reinjection. However, wastewater with higher temperatures would cause more chemical clogging eventually. XRD and ion analysis results showed that the precipitation of minerals was mainly potash feldspar, illite, calcite, and other carbonate minerals during reinjection. According to the characteristics of low-TDS wastewater in the Guantao Formation, it is recommended to adopt low-temperature wastewater reinjection and reduce the concentration of Ca2+ and Mg2+ in wastewater before reinjection. HIGHLIGHTS Water–rock chemical reactions cause the precipitation of minerals.; Permeability is an important parameter to characterize blockage.; XRD and ion concentration were used to analyze chemical blockage.; There was a temporary phase of permeability enhancement in the first 10 min of reinjection.; Tailwater with higher temperatures will cause more blockage eventually.;

Published

2023

16. Research on emergency distribution optimization of mobile power for electric vehicle in photovoltaic-energy storage-charging supply chain under the energy blockchain

Author

Sixiang Zhao, Yachao Wang, Zhenyu Jiang, Tianshu Hu, and Fengming Chu

Subjects

Energy blockchain, Photovoltaic-energy storage-charging supply chain, Electric vehicle, Distribution optimization of mobile power, NSGA-II, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

As a representative of clean energy, photovoltaic is expected to become a major supplier of electricity in the future. The combination of electric vehicle (EV) battery and charging station provides a feasible way to promote the effective consumption of photovoltaic. However, the efficiency of mobile power supply is limited by information asymmetry and security problems, and it is urgent to optimize the distribution process. Firstly, the article introduces the energy blockchain to improve the security level of electricity transaction, and designs the photovoltaic-energy storage-charging supply chain. Secondly, based on the selected road network and the actual situation of EV mobile power emergency distribution, the distribution logistics network with 50 distribution points is built. Thirdly, taking the delivery time and comprehensive cost as objective functions, the mathematical model of emergency distribution route optimization for EV mobile power supply is established, and the adaptive NSGA-II algorithm is adopted for example analysis. Finally, the parameter variation of NSGA-II and comparison with two algorithms of GA and MOPSO are carried out to validate the feasibility and applicability of proposed method. The purpose of the research is to quickly and effectively select the optimal distribution route of mobile power supply from many roads by maximizing customer demands and reducing costs, so as to promote the photovoltaic consumption.

Published

2022

17. Use of fermented tea residues as a feed additive and effects on growth performance, body composition, intestinal enzyme activities, and inflammatory biomarkers in juvenile largemouth bass (Micropterus salmoides)

Author

Mao Hu, Xinhong Zhou, Yachao Wang, Jin Li, Qiuhong Wu, Songsong Bao, Li Jiang, and Bo Liu

Subjects

Digestive enzymes, Fermented tea residues, Growth performance, Immunity, Micropterus salmoides, Aquaculture. Fisheries. Angling, SH1-691

Abstract

This study evaluated the effects of fermented tea residues (TF) on growth capacity, body composition, digestive enzyme activity, intestinal immunity, and inflammatory biomarkers in juvenile largemouth bass (Micropterus salmoides). For the study, four diets were produced: T0 (basal diet), T1, T2 and T3 replaced 2 %, 4 % and 6 % of the basal diet with TF, respectively. All fish were classified into four treatments at random, each of which included 20 fish and three duplicates and reared for 56 days. The results of our trials are as follows: 1) Supplementation with 2 % TF increased the weight gain rate (WGR), final body length (FL) and final body weight (FW) of juvenile largemouth bass (p

Published

2023

18. ROS-responsive exogenous functional mitochondria can rescue neural cells post-ischemic stroke

Author

Yanjiao Li, Yachao Wang, Weiqi Yang, Zhen Wu, Daiping Ma, Jianxiu Sun, Huixian Tao, Qinlian Ye, Jingnan Liu, Zhaoxia Ma, Lihua Qiu, Weiping Li, Liyan Li, and Min Hu

Subjects

mitochondria internalization, mitochondria transplantation, ischemic stroke, exogenous functional mitochondria, ROS, neuroprotection, Biology (General), QH301-705.5

Abstract

Background: The transfer of mitochondria from healthy mesenchymal stem cells (MSCs) to injured MSCs has been shown to have potential therapeutic benefits for neural cell post-ischemic stroke. Specifically, functional mitochondria can perform their normal functions after being internalized by stressed cells, leading to host cell survival. However, while this approach shows promise, there is still a lack of understanding regarding which neural cells can internalize functional mitochondria and the regulatory mechanisms involved. To address this gap, we investigated the ability of different neural cells to internalize exogenous functional mitochondria extracted from MSCs.Methods: Functional mitochondria (F-Mito) isolated from umbilical cord derived-MSCs (UCMSCs) were labeled with lentivirus of HBLV-mito-dsred-Null-PURO vector. The ability of stressed cells to internalize F-Mito was analyzed using a mouse (C57BL/6 J) middle cerebral artery occlusion (MCAO) model and an oxygen-glucose deprivation/reoxygenation (OGD/R) cell model. The cell viability was measured by CCK-8 kit. Time-course of intracellular ROS levels in stressed cells were analyzed by DCFH-DA staining after OGD/R and F-Mito treatment. MitoSOX, Mitotracker and WGA labeling were used to assess the relationship between ROS levels and the uptake of F-Mito at the single-cell level. Pharmacological modulation of ROS was performed using acetylcysteine (ROS inhibitor).Results: Our findings demonstrate that neurons and endothelial cells are more effective at internalizing mitochondria than astrocytes, both in vitro and in vivo, using an ischemia-reperfusion model. Additionally, internalized F-Mito decreases host cell reactive oxygen species (ROS) levels and rescues survival. Importantly, we found that the ROS response in stressed cells after ischemia is a crucial determinant in positively mediating the internalization of F-Mito by host cells, and inhibiting the generation of ROS chemicals in host cells may decrease the internalization of F-Mito. These results offer insight into how exogenous mitochondria rescue neural cells via ROS response in an ischemic stroke model. Overall, our study provides solid evidence for the translational application of MSC-derived mitochondria as a promising treatment for ischemic stroke.

Published

2023

19. Fixed-Time Sliding Mode Control for Linear Motor Traction Systems with Prescribed Performance

Author

Chunguang Yang, Guanyang Hu, Qichao Song, Yachao Wang, and Weilin Yang

Subjects

fixed-time sliding mode controller, prescribed performance, linear motor traction systems, permanent magnet linear synchronous motors, Technology

Abstract

In this research, we propose a fixed-time sliding mode controller using a prescribed performance control approach to address the speed tracking problem in linear motor traction systems, which are powered by high-power permanent magnet linear synchronous motors (PMLSMs). Initially, to tackle the issue of the convergence time and dynamic response associated with traditional finite-time sliding mode controllers, we introduce a fixed-time sliding mode controller. This controller guarantees that the system state converges to the origin within a specified upper time limit. Subsequently, to enhance the dynamic response of the PMLSM and minimize speed errors, we integrate the prescribed performance control strategy with a fixed-time sliding mode controller. This effectively limits the motor’s speed error within the predefined function boundaries, reduces system overshoo, and mitigates system jitter to a certain degree. Finally, simulation results are presented to validate that the proposed control strategy significantly enhances precision of speed tracking in PMLSMs.

Published

2024

20. The consumption of fermented Chinese herbs has resulted in better intestinal health and increased resistance to Aeromonas hydrophila in juvenile largemouth bass (Micropterus salmoides)

Author

Li Jiang, Xinhong Zhou, Songsong Bao, Qiuhong Wu, Jin Li, Yachao Wang, and Bo Liu

Subjects

fermented Chinese herbs, largemouth bass, intestinal health, immunity parameters, A.ydrophila, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

IntroductionThis research aimed to assess the impact of Fermented Chinese herbs (FCHM) on the intestinal barrier, immunity, and protection against Aeromonas hydrophila (A. hydrophila) infection in largemouth bass (Micropterus salmoides).MethodsFour experimental diets were formulated, including H0 (basal diet), H1, H2, and H3, which contained 1%, 3%, and 5% FCHM added to the basal diet, respectively. The fish were randomly allocated to four treatment groups, each with 3 parallel per treatment, consisting of 20 fish per replicate and were raised for 56 days.Results and discussionThe experiment revealed that: compared with the control group, adding 1% FCHM significantly improved the weight gain rate (WGR) and specific growth rate (SGR) of the juvenile largemouth bass (P< 0.05). The ingestion of FCHM substantially elevated the activities of CAT, SOD, GSH-PX, APK, ACP, and LZM, and T-AOC level in the gut region of largemouth bass, while decreasing the MDA content in intestine (P< 0.05). Supplementation with FCHM enhanced the intestinal villus height and relative mRNA expression of intestinal barrier genes ZO-1, Claudin, and Occludin in juvenile largemouth bass. After injecting A.hydrophila, all groups of largemouth bass experienced mortality, but the consumption of FCHM resulted in a decrease in cumulative mortality. After infected with A.hydrophila, the antioxidant enzymes and immune enzymes activities of all test groups were enhanced compared to those before infection, and the antioxidant enzymes and immune enzymes activities of all groups were considerably higher than the control after feeding FCHM (P< 0.05). After infected with A.hydrophila, the intestinal MDA content of largemouth bass was higher compared with that before infection in all cases (P< 0.05), but after feeding FCHM, the MDA content was lower than the control (P< 0.05). Upon consuming FCHM, the mRNA relative expressions of pro-inflammatory biomarkers IL-1β, TNF-α, IL-15 and IL-8 in largemouth bass infected with A.hydrophila were decreased in comparison to the control group. In contrast, the mRNA expression of the anti-inflammatory biomarkers TGF-β and IL-10 were significantly elevated (P< 0.05). In summary, FCHM could improve the intestinal morphology, immunity, and antioxidant capacity of juvenile largemouth bass, and enhance it against A.hydrophila, with a better effect at 1% addition.

Published

2023

21. Sanghuangporus sanghuang extract extended the lifespan and healthspan of Caenorhabditis elegans via DAF-16/SIR-2.1

Author

Zhenghan Dong, Yachao Wang, Cuiting Hao, Yuan Cheng, Xi Guo, Yanyu He, Yueyue Shi, Shuang Wang, Yunqi Li, and Wei Shi

Subjects

Sanghuangporus sanghuang, antiaging, Caenorhabditis elegans, antistress, daf-16, sir-2.1, Therapeutics. Pharmacology, RM1-950

Abstract

Sanghuangporus Sanghuang is a fungus species. As a traditional Chinese medicine, it is known for antitumor, antioxidant and anti-inflammatory properties. However, the antiaging effect of S. Sanghuang has not been deeply studied. In this study, the effects of S. Sanghuang extract (SSE) supernatants on the changes of nematode indicators were investigated. The results showed that different concentrations of SSE prolonged the lifespans of nematodes and substantially increased these by 26.41%. In addition, accumulations of lipofuscin were also visibly reduced. The treatment using SSE also played a role in increasing stress resistance, decreasing ROS accumulations and obesity, and enhancing the physique. RT–PCR analysis showed that the SSE treatment upregulated the transcription of daf-16, sir-2.1, daf-2, sod-3 and hsp-16.2, increased the expression of these genes in the insulin/IGF-1 signalling pathway and prolonged the lifespans of nematodes. This study reveals the new role of S. Sanghuang in promoting longevity and inhibiting stress and provides a theoretical basis for the application of S. Sanghuang in anti-ageing treatments.

Published

2023

22. Experimental study on Brazilian split test and acoustic emission characteristics of high temperature granite under different cooling methods

Author

Yachao Wang, Bin Dou, Yong Yu, Jun Zheng, Hong Tian, and Hejuan Liu

Subjects

high temperature granite, cooling mehtod, brazilian split test, acoustic emission, thermal damage, Geology, QE1-996.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

High-temperature rock cooling can occur in the whole process of the drilling, fracturing, and heat exchange during the geothermal energy exploitation in hot dry rock. To reveal the evolution law of rock damage, based on the Brazilian splitting test and acoustic emission technology, the effects of different high temperatures and cooling methods on the tensile properties of granite were studied. The results showed that: ①The tensile strength of granite decreases with increasing temperature from 25℃ to 600℃, and the temperature threshold, at which it decreases greatly, is advanced to 200℃ after cooling with water. After 500℃, the tensile strength is more sensitive to water cooling. ②When the load reaches the peak value, the cumulative ringing count of acoustic emission suddenly increases, and the fracture zone forms in the rock sample. Under the influence of water cooling, the ringing count peak value and energy peak value of the rock sample decrease, which indirectly reflects that the internal cracks of the rock are more developed, and both of their decrease range is larger at 200~300℃. The granite is more sensitive to heat treatment at 300℃ and after 500℃. ③With the increase in temperature, the fracture surface of granite changes from flat to rough and tortuous, from brittle to ductile; Cooling in water promotes rock fracture and advances the temperature range from brittleness to ductility. The research results provide a theoretical reference for the stability evaluation of high-temperature rocks in geothermal exploitation.

Published

2022

23. Thermal Stability Analysis and Design for Electrical Product in Short-Circuit Fault

Author

Jing Hao, Jungang Zhou, and Yachao Wang

Subjects

short-circuit fault, metal conductor, electrical product design, thermal stability, short-time withstand current test, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In short-circuit faults, the thermal stability of the metal conductor is an important factor for electrical products, which directly affects the safe use of the products. Because it is dangerous to test the thermal stability under short circuit, it is difficult to obtain the required power supply in a conventional laboratory, so at present, the research on thermal stability is mostly based on the theoretical analysis of the finite element method. In this paper, a short-circuit fault is studied. The short-time withstand current test is adopted, in which the current and time can be controlled. First, the results compare three formulas for calculating the current density and verify them. The temperature and current variation of the conductor are calculated and tested. The theoretical results are compared with the experimental results, and the current variation model I is established. Then, the short-time withstand current test is carried out to verify the theoretical calculation, and model II is designed, which is a modification of model I. Finally, a product design method is proposed and verified by experiments. This basic research is the verification test of the theoretical literature, and the research results can be applied to the design of electrical products under short-circuit fault.

Published

2022

24. Combustion Performance of Various Polylactic Acid Plastics with Different Porous Structures Constructed by 3D Printing

Author

Chao Yuan and Yachao Wang

Subjects

pore structure, combustion performance, 3D printing, polylactic acid plastics, Physics, QC1-999

Abstract

Polylactic acid (PLA) has intrigued widespread attention as a biodegradable and environmentally friendly polymer, and recent research has revealed that the use of porous PLA in heat sinks for thermal management materials offers promising development potential. However, the heat transfer performance is closely related to its structure theoretically, whether it is virgin, and how the pore structure affects its heat transfer. Therefore, a novel approach is proposed to address this issue by preparing porous PLA through 3D printing at low complexity and cost, the combustion performance is employed to evaluate the heat transfer indirectly, and the higher burning speed represents higher efficient heat transfer. A new framework is developed to investigate combustion performance and three series of PLA with different pore structures in pore shape, size, and interval are studied by combining experimental tests, respectively. It demonstrates that adjusting the pore structure of PLA significantly alters its combustion performance, evidenced by significant variations in flame growth index, which are 83% better for the 2 mm holes than the largest holes and 71% better for the 2 mm interval than for the sparsest pore structure. Generally, it provides some experimental basis for designing porous thermal management materials; the various pore structures generate different combustion performances, corresponding to various heat transfer.

Published

2023

25. Complete Chloroplast Genome of Hypericum perforatum and Dynamic Evolution in Hypericum (Hypericaceae)

Author

Xinyu Liu, Yuran Bai, Yachao Wang, Yifeng Chen, Wenpan Dong, and Zhixiang Zhang

Subjects

St. John’s wort, phylogeny, codon usage, substitution rate, intron loss, rearrangement, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Hypericum perforatum (St. John’s Wort) is a medicinal plant from the Hypericaceae family. Here, we sequenced the whole chloroplast genome of H. perforatum and compared the genome variation among five Hypericum species to discover dynamic changes and elucidate the mechanisms that lead to genome rearrangements in the Hypericum chloroplast genomes. The H. perforatum chloroplast genome is 139,725 bp, exhibiting a circular quadripartite structure with two copies of inverted repeats (IRs) separating a large single-copy region and a small single-copy region. The H. perforatum chloroplast genome encodes 106 unique genes, including 73 protein-coding genes, 29 tRNAs, and 4 rRNAs. Hypericum chloroplast genomes exhibit genome rearrangement and significant variations among species. The genome size variation among the five Hypericum species was remarkably associated with the expansion or contraction of IR regions and gene losses. Three genes—trnK-UUU, infA, and rps16—were lost, and three genes—rps7, rpl23, and rpl32—were pseudogenized in Hypericum. All the Hypericum chloroplast genomes lost the two introns in clpP, the intron in rps12, and the second intron in ycf3. Hypericum chloroplast genomes contain many long repeat sequences, suggesting a role in facilitating rearrangements. Most genes, according to molecular evolution assessments, are under purifying selection.

Published

2023

26. First Assessment of Bistatic Geometric Calibration and Geolocation Accuracy of Innovative Spaceborne Synthetic Aperture Radar LuTan-1

Author

Jingwen Mou, Yu Wang, Jun Hong, Yachao Wang, Aichun Wang, Shiyu Sun, and Guikun Liu

Subjects

bistatic synthetic aperture radar, geometric calibration, LuTan-1, bistatic mode, geolocation, Science

Abstract

LuTan-1 (LT-1) is a bistatic synthetic aperture radar (BiSAR) system consisting of two identical L-band SAR satellites. The bistatic mode of LT-1 plays a critical role in generating high-precision digital elevation models (DEMs), which requires precise geometric calibration of initial range and azimuth times for both SARs to ensure the reliability and quality of geolocation. However, existing geometric calibration methods predominantly focus on monostatic SAR systems, with limited literature on slave SAR calibration in bistatic systems. This research addresses this gap by establishing geometric calibration models for both SARs based on signal echo history and the range–Doppler model. The geometric errors are effectively resolved using corner reflector data from Xinjiang, China. Through statistical analysis of LT-1 SAR images acquired between July and November in bistatic mode, this paper has demonstrated range delay accuracy of better than 5 ns and azimuth time accuracy of better than 0.1 ms. This level of precision translates into a positional accuracy better than 0.8 m. The proposed models have been successfully applied to geometric calibration, providing precise geolocation for LT-1, thus enhancing its utility for a wide range of Earth observation applications. This paper is the first endeavor to present the assessment of the geometric calibration and geolocation accuracy of LT-1 and discuss the results of the bistatic geometric calibration of the master and slave SARs in a BiSAR formation.

Published

2023

27. Interferometric Calibration Based on a Constrained Evolutionary Algorithm without Ground Control Points for a Tiangong-2 Interferometric Imaging Radar Altimeter

Author

Lanyu Li, Hong Tan, Bingnan Wang, Maosheng Xiang, Ke Wang, and Yachao Wang

Subjects

InIRA, interferometric calibration, interferometric parameter coupling, interferometric calibration optimization model, evolution algorithm, inland lake elevation, Science

Abstract

The interferometric imaging radar altimeter (InIRA), mounted on the Tiangong-2 space laboratory, utilizes a small incidence and a short interferometric baseline to achieve altimetry for wide swathes of ocean surface topography and inland water surface elevation. To obtain a high-precision digital elevation model (DEM), calibration of the interferometric system parameters is necessary. Because InIRA utilizes the small-incidence interference system design, serious coupling occurs between the interferometric parameters. Commonly used interferometric calibration methods tend to fall into the local optimal solution for InIRA. Because evolutionary algorithms have a stronger robustness and global search ability, they are better suited to handling the solution space structure under the coupling of complex interferometric parameters. This article establishes an interferometric calibration optimization model for InIRA by utilizing the relative flatness of the lake surface as an inequality constraint. Furthermore, an adaptive penalty coefficient constraint evolutionary algorithm is designed to solve the model. The proposed method was tested on actual InIRA data, and the results indicate that it efficiently adjusts interferometric parameters, enhancing the precision of measurements for Qinghai Lake elevation.

Published

2023

28. Assessment of Heavy-Duty Diesel Vehicle NOx and CO2 Emissions Based on OBD Data

Author

Lijun Hao, Yanxu Ren, Wenhui Lu, Nan Jiang, Yunshan Ge, and Yachao Wang

Subjects

heavy-duty diesel vehicle, NOx, CO2, on-board diagnostics, on-board emission testing, Meteorology. Climatology, QC851-999

Abstract

Controlling NOx and CO2 emissions from heavy-duty diesel vehicles (HDDVs) is receiving increasing attention. Accurate measurement of HDDV NOx and CO2 emissions is the prerequisite for HDDV emission control. Vehicle emission regulations srecommend the measurement of NOx and CO2 emissions from vehicles using an emission analyzer, which is expensive and unsuitable to measure a large number of vehicles in a short time. The on-board diagnostics (OBD) data stream of HDDVs provides great convenience for calculating vehicle NOx and CO2 emissions by providing the engine fuel flow rate, NOx sensor output, and air mass flow. The calculated vehicle NOx and CO2 emissions based on the OBD data were validated by testing a heavy-duty truck’s emissions on the chassis dynamometer over the CHTC-HT driving cycle, showing that the calculated NOx and CO2 emissions based on the OBD data are consistent with the measured results by the emission analyzer. The calculated vehicle fuel consumptions based on the OBD data were close to the calculated results based on the carbon balance method and the measured results by the fuel flowmeter. The experimental results show that accessing vehicle NOx and CO2 emissions based on the OBD data is a convenient and applicable method.

Published

2023

29. Transcriptome-based variations effectively untangling the intraspecific relationships and selection signals in Xinyang Maojian tea population

Author

Lin Cheng, Mengge Li, Yachao Wang, Qunwei Han, Yanlin Hao, Zhen Qiao, Wei Zhang, Lin Qiu, Andong Gong, Zhihan Zhang, Tao Li, Shanshan Luo, Linshuang Tang, Daliang Liu, Hao Yin, Song Lu, Tiago Santana Balbuena, and Yiyong Zhao

Subjects

Camellia sinensis, tea, transcriptome, SNPs, phylogeny, population genetics, Plant culture, SB1-1110

Abstract

As one of the world’s top three popular non-alcoholic beverages, tea is economically and culturally valuable. Xinyang Maojian, this elegant green tea, is one of the top ten famous tea in China and has gained prominence for thousands of years. However, the cultivation history of Xinyang Maojian tea population and selection signals of differentiation from the other major variety Camellia sinensis var. assamica (CSA) remain unclear. We newly generated 94 Camellia sinensis (C. sinensis) transcriptomes including 59 samples in the Xinyang area and 35 samples collected from 13 other major tea planting provinces in China. Comparing the very low resolution of phylogeny inferred from 1785 low-copy nuclear genes with 94 C. sinensis samples, we successfully resolved the phylogeny of C. sinensis samples by 99,115 high-quality SNPs from the coding region. The sources of tea planted in the Xinyang area were extensive and complex. Specifically, Shihe District and Gushi County were the two earliest tea planting areas in Xinyang, reflecting a long history of tea planting. Furthermore, we identified numerous selection sweeps during the differentiation of CSA and CSS and these positive selection genes are involved in many aspects such as regulation of secondary metabolites synthesis, amino acid metabolism, photosynthesis, etc. Numerous specific selective sweeps of modern cultivars were annotated with functions in various different aspects, indicating the CSS and CSA populations possibly underwent independent specific domestication processes. Our study indicated that transcriptome-based SNP-calling is an efficient and cost-effective method in untangling intraspecific phylogenetic relationships. This study provides a significant understanding of the cultivation history of the famous Chinese tea Xinyang Maojian and unravels the genetic basis of physiological and ecological differences between the two major tea subspecies.

Published

2023

30. Properties of CF3SO2F under the influence of external electric field: A DFT study

Author

Yachao Wang, Xiaoran Lin, Mei Wang, and Xiaojuan Li

Subjects

Density functional theory, Gas dielectric, External electric field, Frontier orbital, Discharge mechanism, Excited state, Physics, QC1-999

Abstract

With the deterioration of global greenhouse effect, CF3SO2F (Trifluoromethanesulphonyl Fluoride) has become an alternative gas of SF6 (Sulfur Hexafluoride). CF3SO2F has environmentally friendly characteristics and has been widely concerned. In this work, we analyze the electric field level of the discharge in the dielectric and the direction of the molecular intrinsic dipole moment. Density functional theory and time-dependent density functional theory are used to calculate the molecular structure parameters, dipole moments, frontier orbitals and excited states at corresponding electric field levels and in specific electric field directions. C2F5SO2F and C3F7SO2F, as by-products in the synthesis of CF3SO2F, are studied together to explore the influence of carbon atom number on molecular properties. As a result, the molecular structure is clearly changed under the electric field and the molecular bond length strongly depended on the electric field. The HOMO is mainly contributed by O atoms and the LUMO is mainly contributed by S atoms. When the electric field in the -z-axis direction is applied, the HOMO energies of molecules increase, especially for C3F7SO2F molecule, and the ionization potentials decrease correspondingly. The reduced ionization potentials facilitate the liberation of electrons from the molecule and the propagation of the streamer. The excitation energy of each molecule in each excited state decreases with the increasing of electric field intensity. Therefore, during the preparation process of CF3SO2F molecule, C3F7SO2F molecule should be reduced or removed as much as possible to prevent the reduction of dielectric insulation strength. The finding of this study is beneficial to the performance improvement and application research of CF3SO2F.

Published

2023

31. Benign design intumescent flame-retarding aliphatic waterborne polyester coatings modified by precipitated silica aerogel and aluminum powder

Author

YaChao Wang, Jun Deng, JiangPing Zhao, and Hongxing Shi

Subjects

Intumescent flame retardant, Silica aerogel, Organic-inorganic hybrid, Coatings, Cone calorimeter, Mining engineering. Metallurgy, TN1-997

Abstract

The organic-inorganic hybrid intumescent flame retardant coatings (IFRCs) is an efficient and ecological strategy to obtain excellent fireproof performance. The benign design on aliphatic waterborne polyester (AWP)-based IFRCs is modified by silicon-based aerogels and aluminum powder simultaneously, which is characterized by various techniques to explore the flame retardant mechanism. The results show that an appropriate precipitated silica aerogel (0.45 wt%) and aluminum powder (0.8 wt%) impart synergetic flame-retarding and smoke suppression effect to the AWP-based IFRCs, evidenced by the reduced fire growth index of 0.50 from 0.63 kW m−2 s−1, as well as the raised flame retardancy index of 2.52 from 1. Because the labyrinth barrier effect of amorphous silica-alumina gels derives from the in-situ cross-linking between the active Si(OH)4 and AlOOH or Al(OH)3, as well as the enhanced adhesive property between silanols and plywood surface, which facilitates the ceramic-like charring of AWP-based IFRCs, leading to the formation of continuous and tortuous char. It expands the design methods and flame-retarding mechanism of ecological organic-inorganic hybrid IFRCs.

Published

2021

32. Microstructure Evaluation of Fly Ash Geopolymers Alkali-Activated by Binary Composite Activators

Author

Jiangping Zhao and Yachao Wang

Subjects

alkali-activated, microstructure, fly ash, binary activator, crosslinking, Mineralogy, QE351-399.2

Abstract

An efficient fabrication of fly-ash-based geopolymer is urgent and necessary to develop solid waste recycling techniques. Herein, an attempt to investigate the effect of binary composite activators on the microstructure of fly-ash-based geopolymers is conducted through the comparison of 24 experiments, which consisted of Na2SiO3·9H2O, Na2CO3, K2CO3, NaOH, and KOH through a facile preparation technique. The results demonstrate that the activator of Na2SiO3·9H2O + KOH presents the highest mechanical strength, due to the synergy activation between the inherent ≡Si-O-Si≡ silicon-chain precursor derived from the Na2SiO3 and K+’s catalysis. It reveals that the K+ plays a crucial role in the Na2SiO3-activated fly ash geopolymer, which is the rate-determining step of the enhanced crosslinking and propagation of N-(C)-A-S-H chains, leading to an increase in weight loss temperatures of specimens from TG/DTG results. Furthermore, the adding silica fume facilitates as-formed amorphous silicates, which also could fill into the pores of N-(C)-A-S-H amorphous gels and present a uniform and compact morphology, leading to an increase in the pore volume of the pore diameter less than 100 nm. It explores an efficient and cost-effective preparation of fly-ash-based geopolymer for developing solid waste recycling techniques.

Published

2023

33. Doping Silica Fume Enhances the Mechanical Strength of Slag/Fly Ash Geopolymer Paste under Frost Attack

Author

Sen Wang, Yuqing Liang, Duosi Mo, Chonghui Zhang, Jiwei Xue, Xuewen Song, and Yachao Wang

Subjects

alkali-activated, freezing–thawing, fly ash, geopolymer, silica fume, Mineralogy, QE351-399.2

Abstract

Benign design of alkali-activated slag/FA geopolymer paste has attracted increasing attention for optimizing its service performance. Therefore, the replacement of fly ash (FA) with 10 wt% silica fume (SF) is investigated by mechanical strength after freeze–thawing cycles and microstructure characterization. The results show that an appropriate dosage (30 wt%) of slag is necessary to prepare heat-free curing alkali-activated slag/FA geopolymer paste with excellent mechanical performance. The SF/slag/FA (SF:slag:FA = 10:30:60, wt%) geopolymer paste exerts an enhanced compressive and flexural strength of 95.2 and 3.2 MPa, respectively. Meanwhile, the doped 10 wt% SF facilitates the propagation of (N, C)-A-S-H chains, rather than the formation of C-S-H gels. It is evidenced by the absent exothermic peak at about 861 °C from the differential scanning calorimetry (DSC) curves. The pores volume and tortuosity also rise for the pore diameter < 20 nm from mercury intrusion porosimeter (MIP) results, corresponding to an improved freezing–thawing resistance with the residual compressive strength of 52.8 MPa and the weight loss of 10.5% after 300 freeze–thawing cycles. It explores a cost-effective and benign facile approach to designing heat-free curing alkali-activated slag/FA geopolymer paste with good freezing–thawing resistance.

Published

2023

34. Silica Fume Enhances the Mechanical Strength of Alkali-Activated Slag/Fly Ash Pastes Subjected to Elevated Temperatures

Author

Weidong Dai and Yachao Wang

Subjects

alkali activated, silica fume, elevated temperatures, slag, fly ash, Physics, QC1-999

Abstract

The fireproof design of geopolymers through adjusting multi-component metallurgical solid wastes has attracted increasing attention, due to their potential low carbon emission, cost effectiveness, and role in environmental conservation. Herein, the effects of silica fume (SF) on the microstructure and mechanical properties of alkali-activated slag/FA (fly ash) pastes subjected to elevated temperatures (150, 500, 850, and 1200 °C) are investigated to clarify whether or not SF has a positive role in the mechanical strength of the slag/FA (slag/FA = 30:70, wt.%) geopolymer during building fires. The results show that the replacement of FA with 10 wt.% SF (silica fume) promotes the increasing pore volume with a diameter of 0.2~3 μm, leading to an increase in the compressive or flexural strength below 850 °C, “right shifts” of the endothermic peak, and uniform and compact fracture surfaces. Meanwhile, gehlenite and labradorite are generated after exposure above 850 °C. The bloating effect of the SF-containing sample occurs at 1200 °C, leading to a greater deformation due to the further restructuring of the amorphous geopolymer chain N–A–S–H or N–(Ca)–A–S–H composed of [SiO4]4− and [AlO4]5−. This paper explores an effective approach to improving geopolymers’ fireproof performance by adjusting the formulation of solid waste.

Published

2023

35. Baseline Calibration of L-Band Spaceborne Bistatic SAR TwinSAR-L for DEM Generation

Author

Jingwen Mou, Yu Wang, Jun Hong, Yachao Wang, and Aichun Wang

Subjects

synthetic aperture radar (SAR), bistatic SAR, TwinSAR-L, baseline model, baseline calibration, digital elevation model (DEM), Science

Abstract

The Terrain Wide-swath Interferometric L-band Synthetic Aperture Radar (TwinSAR-L) mission is a spaceborne bistatic synthetic aperture radar (SAR) mission to derive a high-quality global digital elevation model (DEM). The prerequisite of the high-accuracy DEM is knowing the interferometric baseline with high precision. The challenging problem is that the baseline of the bistatic system is highly dynamic due to the fast relative motion between the two satellites. In this paper, a pixel-related baseline model based on the geometrical shift is proposed to accurately reflect the position change of satellites. The baseline error is then calibrated using height gradient information and a small number of point targets with a slight incidence angle difference, eliminating the need for low-frequency corner reflectors and avoiding the difficulty of selecting a calibration site. The proposed method has been successfully exploited during the initial Commissioning Phase of TwinSAR-L, demonstrating its effectiveness in evaluating the precise baseline and supporting the generation of high-precision DEM.

Published

2023

36. Combined Analysis of Surface Protein Profile and microRNA Expression Profile of Exosomes Derived from Brain Microvascular Endothelial Cells in Early Cerebral Ischemia

Author

Dexin Yang, Zongyang Li, Guoqing Gao, Xiaofeng Li, Zijun Liao, Yachao Wang, Weiping Li, Yuan Zhang, and Wenlan Liu

Subjects

Chemistry, QD1-999

Published

2021

37. Effects of dietary fermented Chinese herbal medicines on growth performance, digestive enzyme activity, liver antioxidant capacity, and intestinal inflammatory gene expression of juvenile largemouth bass (Micropterus salmoides)

Author

Xinhong Zhou, Yachao Wang, Jing Yu, Jin Li, Qiuhong Wu, Songsong Bao, Li Jiang, and Bo Liu

Subjects

Fermented Chinese herbal medicines, Largemouth bass, Growth performance, Digestive enzymes, Immune capacity, Aquaculture. Fisheries. Angling, SH1-691

Abstract

This study aimed to evaluate the effects of fermented Chinese herbal medicines (FCHM) on growth performance, digestive enzyme activity, antioxidant capacity and intestinal inflammatory gene expression of juvenile largemouth bass (Micropterus salmoides). Four trial diets H0 (basal diet), H1, H2, and H3 (added 1 %, 3 %, and 5 % FCHM to the basal diet, respectively) were prepared. Fish were randomly divided into 4 treatment groups of 3 replicates per treatment (20 fish/replicate) and reared for 8 weeks. The results of the test showed that: 1) Feeding 1 % FCHM significantly increased the weight gain rate (P 0.05) but could result in an overall decreasing trend in muscle drip loss, steaming loss, and freezing loss. 3) FCHM significantly increased the activity of SOD, GSH-PX and CAT in the liver of juvenile largemouth bass and decreased the MDA compared to that of the control group (P

Published

2022

38. Fermented tea residue improved growth performance, liver antioxidant capacity, intestinal morphology and resistance to Aeromonas hydrophila infection in juvenile largemouth bass (Micropterus salmoides)

Author

Li Jiang, Xinhong Zhou, Jing Yu, Songsong Bao, Jin Li, Qiuhong Wu, Mengjia Wu, Yachao Wang, and Bo Liu

Subjects

tea residue, largemouth bass, growth performance, immune capacity, A. hydrophila, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The study aimed to evaluate the effects of fermented tea residue (FT) on growth performance, intestinal morphology, liver antioxidant capacity and Aeromonas hydrophila infection in juvenile Largemouth bass. A total of 240 fish were randomly distributed in 12 tanks with 20 fish per tank (4 treatments with 3 replications) and fed with diets FT at the rate of 0 (control), 2, 4 and 6%. The weight gain rate (WGR), specific growth rate (SGR) and intestinal villi height (VH) of juvenile largemouth bass were significantly higher than those of the control group after feeding FT (P< 0.05); meanwhile, the liver superoxide dismutase (SOD), glutathione peroxidase (GSH-PX) and catalase (CAT) activities of juvenile largemouth bass were significantly higher and the malondialdehyde (MDA) levels were significantly lower than those of the control group after feeding FT (P< 0.05). Mortality occurred in all groups of largemouth bass after the injection of A.hydrophila, but feeding FT reduced the cumulative mortality compared with the control group (P< 0.05). In juvenile largemouth bass infected with A.hydrophila, the relative mRNA expression of the intestinal anti-inflammatory factors IL-10 and TGF-α was significantly higher and that of the pro-inflammatory factors IL-1, IL-15, IL-8, and TNF-α was significantly lower (P< 0.05). In summary, it can be seen that a 2% FT addition can improve the liver antioxidant capacity of juvenile largemouth bass, enhance the resistance to A.hydrophila and increase the growth of largemouth bass.

Published

2022

39. Deoxythymidylate Kinase as a Promising Marker for Predicting Prognosis and Immune Cell Infiltration of Pan-cancer

Author

Tianfeng Lan, Yachao Wang, Jinxin Miao, Haoran Guo, Zheng Wang, Jianyao Wang, Chunyang Zhang, Panpan Yang, Zhongxian Zhang, Louisa Chard Dunmall, and Yaohe Wang

Subjects

deoxythymidylate kinase, expression profile, prognosis, immune infiltration, pancancer, Biology (General), QH301-705.5

Abstract

Background: Deoxythymidylate kinase (DTYMK) serves as a pyrimidine metabolic rate-limiting enzyme that catalyzes deoxythymidine monophosphate (dTMP) to generate deoxythymidine diphosphate (dTDP). It remains unclear whether DTYMK expression has the potential to predict outcome and immune cell infiltration in cancers.Methods: DTYMK expression profile was analyzed using Oncomine, TIMER, GEPIA and UALCAN databases. The influence of DTYMK on immune infiltration was examined using TIMER and TISIDB databases. DTYMK interactive gene hub and co-expressing genes were obtained and analyzed by STRING and Linkedomics, respectively. The relationship between DTYMK expression and patient prognosis was validated using GEPIA, Kaplan-Meier plotter, and PrognoScan databases. The functions of DTYMK in cancer cells were also biologically validated in vitro.Results: DTYMK expression was elevated in tumor tissues compared with their control counterparts. DTYMK expression varied in different stages and discriminatorily distributed in different immune and molecular subtypes. Higher expression of DTYMK predicted worse outcome in several cancer types such as liver hepatocellular carcinoma (LIHC) and lung adenocarcinoma (LUAD). High DTYMK expression was positively or negatively correlated with immune cell infiltration, including B cell, CD8+ cell, CD4+ T cell, macrophage, neutrophil and dendritic cell, depending on the type of cancers. Additionally, DTYMK co-expressing genes participated in pyrimidine metabolism as well as in T helper cell differentiation in LIHC and LUAD. In vitro, knockdown of DTYMK suppressed cell migration of liver and lung cancer cells.Conclusion: DTYMK might be taken as an useful prognostic and immunological marker in cancers and further investigation is warrented.

Published

2022

40. Evaluating the Measurement Uncertainty of On-Road NOx Using a Portable Emission Measurement System (PEMS) Based on Real Testing Data in China

Author

Sheng Su, Pan Hou, Xin Wang, Liqun Lyu, Yang Ge, Tao Lyu, Yitu Lai, Wanyou Luo, and Yachao Wang

Subjects

PEMS, type B uncertainty, NOx, petrol vehicles, zero drift, span drift, Meteorology. Climatology, QC851-999

Abstract

An evaluation of the measurement uncertainty of on-road NOx emissions using portable emission measurement system (PEMS) based on real local testing data collected in China was carried out as per the type B method defined in the EN 17507 standard. The aim of this work was to quantify the “absolute” measurement uncertainty of PEMSs, which excluded “PEMS relative to laboratory constant volume sampler (CVS)” uncertainty from the calculation of on-road NOx measurement uncertainty using PEMSs. PEMS instruments from three mainstream manufacturers were employed. The zero drift of the NOx analyzers was evaluated periodically during the real driving emissions (RDE) test, and it was noticed that there was neither a linear nor step model of zero drift, with no correlation with the boundary conditions or measurement principle. Additionally, from the 256 valid RDE tests, the zero drift always ranged from 3.8 ppm to −3.8 ppm, and more than 95% of the span drifts were within a range of 1.5%. Based on the laboratory testing of ten vehicles using the worldwide harmonized light-duty vehicle test cycle (WLTC), the type B uncertainty of PEMS NOx measurements corresponding to China-6a and China-6b limits was assessed. An uncertainty of 26.5% for China-6a was found (NOx limit = 60 mg/km over the WLTC), which is very close to the 22.5% from the EU evaluation results (NOx limit = 80 mg/km over the WLTC); the uncertainty with respect to China-6b was found to be 42.8% because the type-I limit was tuned down to 35 mg/km. This result indicates that, with the ever-tightening regulatory limits of vehicle NOx emissions, big challenges will be posed in terms of the reliability of PEMS measurements, which requires PEMS manufacturers to improve the performance of the instruments and policymakers to refine the test procedures and/or result calculation method to minimize the impacts.

Published

2023

41. Nitriding Behaviour and Microstructure of High-Nitrogen Stainless Steel during Selective Laser Melting

Author

Xin Sun, Jianbiao Ren, Yachao Wang, Dingguo Zhao, Shuhuan Wang, Xiaojing Xiong, and Jeremy Heng Rao

Subjects

high-nitrogen stainless steel, selective laser melting, nitrogen content, microstructure, microhardness, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

High-nitrogen stainless steels are widely used due to their excellent comprehensive performance. In this study, the effects of process parameters (laser power, scanning speed, and cavity pressure) on the formation of high-nitrogen stainless steels were studied by using conventional selective laser melting and high-pressure selective laser melting (HPSLM). The nitrogen content, nitrogen emission, phase composition, microstructure, and microhardness of the high-nitrogen stainless steel samples obtained through selective laser melting (SLM) were analysed by using an oxygen/nitrogen/hydrogen analyser, X-ray diffraction, scanning electron microscopy, energy-dispersive X-ray spectroscopy, and electron backscatter diffraction. The results showed that the maximum nitrogen emission in the SLM sample was 0.175 wt.%, the emission rate reached up to 54.7%, and the maximum nitrogen content in the HPSLM sample was 1.07 wt.%. There was no significant difference between the phase peak positions of the SLM samples with different laser powers and the original powder. The main phase of the HPSLM sample changed at 0.3 MPa (from α-Fe to γ-Fe phase); the microstructure of the SLM sample was mainly composed of columnar and cellular crystals, and columnar crystal bands formed along the direction of heat flow. The HPSLM sample was mainly composed of equiaxed crystals with a grain size of 10–15 μm. At an energy density of 136 J/mm3, the microhardness and relative density reached their peak values of 409 HV and 98.85%, respectively.

Published

2023

42. An InSAR Interference Fringe-Matching Algorithm Based on Mountain Branch Points

Author

Gen Sun, Ning Liu, Bingnan Wang, Maosheng Xiang, Ruihua Shi, Lanyu Li, and Yachao Wang

Subjects

interference fringe, image matching, matching navigation, mountain feature, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Interferometric synthetic aperture radar (InSAR) is an integrated navigation technique that can be used for aircraft positioning and attitude retrieval, regardless of weather conditions. The key aspect of the entire system is interference fringe matching, which has not been extensively researched in existing literature. To address this gap, this paper proposes a terrain-feature-based interference fringe-matching algorithm. The proposed algorithm first extracts mountain line features from the interference fringes and identifies mountain branch points as key points for feature matching. A threshold is set to eliminate false detections of mountain branch points caused by phase mutation. Matching is then carried out by combining the mountain line features and curvature design feature descriptors of the area around a branch point. The proposed algorithm is verified using interference fringe data obtained from an actual flight experiment in Inner Mongolia, China, compared to a reference interference fringe dataset with errors. The results show that, under the condition of position error, the proposed algorithm yields 72 matching inliers with a precision of 0.103, a recall of 0.128, and an F1-Score of 0.144. Compared to traditional algorithms, our proposed algorithm significantly improves the problem of mismatch and opens up new possibilities for downstream interference fringe matching navigation technology. Furthermore, the proposed algorithm provides a new approach for remote sensing image matching using terrain features.

Published

2023

43. Efficient 3D Image Reconstruction of Airborne TomoSAR Based on Back Projection and Improved Adaptive ISTA

Author

Dong Han, Liangjiang Zhou, Zekun Jiao, Bingnan Wang, Yachao Wang, and Yirong Wu

Subjects

Airborne SAR tomography (TomoSAR), 3D image reconstruction, compressed sensing (CS), iterative shrinkage-thresholding algorithm (ISTA), back projection (BP) algorithm, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Airborne SAR tomography (TomoSAR) 3D image reconstruction can be realized with combination of 2D imaging algorithms and compressed sensing (CS) algorithms. However, most typical CS algorithms cannot achieve a balance between algorithm efficiency and 3D reconstruction accuracy. Due to difficulties in flight path control of airborne SAR, it is hard to realize registration of SAR images with frequency-domain imaging algorithms because of time-varying baseline. To address these problems, an efficient 3D image reconstruction method for airborne TomoSAR based on back projection (BP) algorithm and improved adaptive iterative shrinkage-thresholding algorithm (IA-ISTA) is proposed. First, 2D images are achieved with BP algorithm on the ground plane. After registration of SAR images, 3D image reconstruction results in the elevation direction are realized with IA-ISTA. Selection criterion of IA-ISTA parameters are given in this paper. At last, final 3D image reconstruction results are achieved after geometrical transformation based on geometric relationship. Both simulated data and measured data of a P-band airborne TomoSAR system are used. 3D image reconstruction results show that the proposed method outperforms traditional methods regarding efficiency and accuracy, which proves the validity and practicality of the proposed method.

Published

2021

44. Actuator fault-tolerant load frequency control for interconnected power systems with hybrid energy storage system

Author

Xichao Zhou, Yachao Wang, Weiming Zhang, Weilin Yang, Yiwei Zhang, and Dezhi Xu

Subjects

Power system, Load frequency control (LFC), Fault-tolerant control (FTC), Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Aiming at the problem of hybrid energy storage faults in large interconnected power systems, an integrated fault-tolerant control scheme is proposed to deal with actuator faults and external disturbances. Firstly, the hybrid energy storage system is introduced based on the traditional interconnected power system, and a new topological structure is given. Secondly, the state-space model of each area in the given topological structure is established considering the external disturbance and actuator fault of the power system. Then the sliding mode observer is designed and the fault-tolerant control of interconnected power systems is realized according to the estimated value and sliding mode technology. Finally, the simulation results on the model of four-area interconnected power system show that the proposed observer can realize fault estimation in a short time, and the fault-tolerant control effect is satisfied with nearly 30% reduction of regional control error compared with the traditional method.

Published

2020

45. Phylogenomics and Biogeography of Populus Based on Comprehensive Sampling Reveal Deep-Level Relationships and Multiple Intercontinental Dispersals

Author

Yachao Wang, Jin Huang, Enze Li, Shenjian Xu, Zhenfeng Zhan, Xuejiao Zhang, Zhiqi Yang, Feiyi Guo, Kangjia Liu, Dong Liu, Xueli Shen, Ce Shang, and Zhixiang Zhang

Subjects

phylogenomics, biogeography, Populus, cytonuclear discordance, species complex, subgenus Abaso, Plant culture, SB1-1110

Abstract

Populus not only has significant economic and ecological values, but also serves as a model tree that is widely used in the basic research of tree growth, physiology, and genetics. However, high levels of morphological variation and extensive interspecific hybridization of Populus pose an obstacle for taxonomy, and also to the understanding of phylogenetic interspecific relationships and biogeographical history. In this study, a total of 103 accessions representing almost all the wild species of Populus were collected and whole-genome re-sequenced to examine the phylogenetic relationships and biogeography history. On the basis of 12,916,788 nuclear single nucleotide polymorphisms (SNPs), we reconstructed backbone phylogenies using concatenate and coalescent methods, we highly disentangled the species relationships of Populus, and several problematic taxa were treated as species complexes. Furthermore, the phylogeny of the chloroplast genome showed extensive discordance with the trees from the nuclear genome data, and due to extensive chloroplast capture and hybridization of Populus species, plastomes could not accurately evaluate interspecies relationships. Ancient gene flow between clades and some hybridization events were also identified by ABBA–BABA analysis. The reconstruction of chronogram and ancestral distributions suggested that North America was the original region of this genus, and subsequent long dispersal and migration across land bridges were contributed to the modern range of Populus. The diversification of Populus mainly occurred in East Asia in recent 15 Ma, possibly promoted by the uplift of the Tibetan Plateau. This study provided comprehensive evidence on the phylogeny of Populus and proposed a four-subgeneric classification and a new status, subgenus Abaso. Meanwhile, ancestral distribution reconstruction with nuclear data advanced the understanding of the biogeographic history of Populus.

Published

2022

46. The combinations of sulfur and molybdenum fertilizations improved antioxidant capacity of grazing Guizhou semi-fine wool sheep under copper and cadmium stress

Author

Yuanfeng Li, Yachao Wang, Xiaoyun Shen, and Fuyuan Liu

Subjects

Guizhou semi-fine wool sheep, Copper and cadmium pollution, Sulfur and molybdenum fertilization, Antioxidant capacity, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Mineral development and metal smelting are the main sources of heavy metal pollution, and copper (Cu) and cadmium (Cd) are the most serious mineral elements in heavy metal pollution. Food chain is the main channel for Cu and Cd to enter human body. Excessive accumulation of Cu and Cd can lead to a variety of diseases and threaten human health. Therefore, it is urgent to repair Cu and Cd-contaminated soil. Previous several studies found that sulfur (S) and molybdenum (Mo) had the effect of alleviating the decrease of antioxidant capacity caused by heavy metal poisoning. To investigate the co-combinations of S and Mo fertilizations on antioxidant capacity of grazing Guizhou semi-fine wool sheep in Cu and Cd-contaminated meadow, and explore the control methods of co-pollutions of Cu and Cd in natural pastures, fertilizing and grazing experiments were carried out in the Wumeng Prairie in the northwest of Guizhou Province, Southwest China. 24 hm2 Cu and Cd-polluted meadows were fenced, and were randomly divided into four groups with 3 replications per group and 2 hm2 per replication. The tested groups included the control group (no fertilizer) and the three treatment groups, applied 40 kg S + 1 kg Mo, 80 kg S + 2 kg Mo, and 120 kg S + 3 kg Mo per hectare for group I, group II, and group III, respectively. 72 healthy Guizhou semi-fine wool sheep (one year old, 33.9 ± 1.2 kg) were randomly assigned to the tested pastures with 18 sheep per group. The grazing experiment lasted for 60 days. The results showed that the contents of Mn, Zn, Mo, and S in herbage in fertilized pastures were higher than that in the control group (P

Published

2021

47. Ground Moving Target Detection and Estimation for Airborne Multichannel Radar Based on Coherent Difference Processing

Author

Chong Song, Bingnan Wang, Maosheng Xiang, Weidi Xu, Zhongbin Wang, Yachao Wang, and Xiaofan Sun

Subjects

coherent difference processing (CDP), matched filter bank, ground moving target indication (GMTI), airborne multichannel radar, Science

Abstract

Ground moving targets with slow velocity and low radar cross-section (RCS) are usually embedded in the clutter Doppler spectrum. To achieve the detection and estimation of such targets, a novel method operating in the range-Doppler domain is developed for airborne multichannel radar systems. The interferometric phases that are sensitive to moving targets are obtained by coherent difference processing (CDP) for target detection. Moreover, the amplitude is utilized as complementary information to improve the detection performance. Then, a matched filter bank is designed and applied to the CDP processed data to complete the parameter estimation. The proposed method provides the benefits of high efficiency and robustness, since it does not involve matrix inversion, and it does not require homogeneous clutter assumption unlike adaptive algorithms. Experiments on real data acquired by an airborne X-band four-channel radar system demonstrate its effectiveness.

Published

2022

48. Image Denoising of Adaptive Fractional Operator Based on Atangana–Baleanu Derivatives

Author

Xiaoran Lin, Yachao Wang, Guohao Wu, and Jing Hao

Subjects

Mathematics, QA1-939

Abstract

A fractional integral operator can preserve an image edge and texture details as a denoising filter. Recently, a newly defined fractional-order integral, Atangana–Baleanu derivatives (ABC), has been used successfully in image denoising. However, determining the appropriate order requires numerous experiments, and different image regions using the same order may cause too much smoothing or insufficient denoising. Thus, we propose an adaptive fractional integral operator based on the Atangana–Baleanu derivatives. Edge intensity, global entropy, local entropy, and local variance weights are used to construct an adaptive order function that can adapt to changes in different regions of an image. Then, we use the adaptive order function to improve the masks based on the Grumwald–Letnikov scheme (GL_ABC) and Toufik–Atangana scheme (TA_ABC), namely, Ada_GL_ABC and Ada_TA_ABC, respectively. Finally, multiple evaluation indicators are used to assess the proposed masks. The experimental results demonstrate that the proposed adaptive operator can better preserve texture details when denoising than other similar operators. Furthermore, the image processed by the Ada_TA_ABC operator has less noise and more detail, which means the proposed adaptive function has universality.

Published

2021

49. Multi-Frequency Interferometric Coherence Characteristics Analysis of Typical Objects for Coherent Change Detection

Author

Zhongbin Wang, Yachao Wang, Bingnan Wang, Maosheng Xiang, Rongrong Wang, Weidi Xu, and Chong Song

Subjects

multi-frequency, synthetic aperture radar, coherence characteristics, coherent change detection, Science

Abstract

This paper focuses on the study of a multi-frequency interferometric coherence characteristics analysis of typical objects for coherent change detection. Coherent change detection utilizes the phase difference between two or more SAR images to detect potential changes in the scene. It makes a difference in civilian and military applications. However, the relationship between the coherence of typical objects and SAR frequency has not been fully studied, which restricts the quality of the detection results. To address this problem, this paper conducts research on the relationship between the coherence of typical objects and SAR frequency, and the coherence characteristics are obtained through statistical analysis. In order to illustrate the relationship more clearly, the actual experimental data obtained by the DVD-InSAR system developed by the Aerospace Information Research Institute, Chinese Academy of Sciences, are utilized. The experimental results show that the coherence characteristics of typical objects are different, and this finding can provide strong support for developing change-detection applications.

Published

2022

50. A Novel Detection Scheme in Image Domain for Multichannel Circular SAR Ground-Moving-Target Indication

Author

Qinghai Dong, Bingnan Wang, Maosheng Xiang, Zhongbin Wang, Yachao Wang, and Chong Song

Subjects

multichannel circular SAR, ground-moving-target indication (GMTI), clutter suppression, along-track interferometry (ATI), the heterogeneous clutter environment, Chemical technology, TP1-1185

Abstract

Circular synthetic aperture radar (CSAR), which can observe the region of interest for a long time and from multiple angles, offers the opportunity for moving-target detection (MTD). However, traditional MTD methods cannot effectively solve the problem of high probability of false alarm (PFA) caused by strong clutter. To mitigate this, a novel, three-step scheme combining clutter background extraction, multichannel clutter suppression, and the degree of linear consistency of radial velocity interferometric phase (DLRVP) test is proposed. In the first step, the spatial similarity of the scatterers and the correlation between sub-aperture images are fused to extract the strong clutter mask prior to clutter suppression. In the second step, using the data remaining after elimination of the background clutter in Step 1, an amplitude-based detector with higher processing gain is utilized to detect potential moving targets. In the third step, a novel test model based on DLRVP is proposed to further reduce the PFA caused by isolated strong scatterers. After the above processing, almost all false alarms are excluded. Measured data verified that the PFA of the proposed method is only 20% that of the comparison method, with improved detection of slow and weakly moving targets and with better robustness.

Published

2022