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1. Indoor Exploration and Simultaneous Trolley Collection Through Task-Oriented Environment Partitioning

Author

Gao, Junjie, Xie, Peijia, Gao, Xuheng, Sun, Zhirui, Wang, Jiankun, and Meng, Max Q. -H.

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

In this paper, we present a simultaneous exploration and object search framework for the application of autonomous trolley collection. For environment representation, a task-oriented environment partitioning algorithm is presented to extract diverse information for each sub-task. First, LiDAR data is classified as potential objects, walls, and obstacles after outlier removal. Segmented point clouds are then transformed into a hybrid map with the following functional components: object proposals to avoid missing trolleys during exploration; room layouts for semantic space segmentation; and polygonal obstacles containing geometry information for efficient motion planning. For exploration and simultaneous trolley collection, we propose an efficient exploration-based object search method. First, a traveling salesman problem with precedence constraints (TSP-PC) is formulated by grouping frontiers and object proposals. The next target is selected by prioritizing object search while avoiding excessive robot backtracking. Then, feasible trajectories with adequate obstacle clearance are generated by topological graph search. We validate the proposed framework through simulations and demonstrate the system with real-world autonomous trolley collection tasks.

Published
2023

2. Collaborative Trolley Transportation System with Autonomous Nonholonomic Robots

Author

Xia, Bingyi, Luan, Hao, Zhao, Ziqi, Gao, Xuheng, Xie, Peijia, Xiao, Anxing, Wang, Jiankun, and Meng, Max Q. -H.

Subjects
Computer Science - Robotics
Abstract

Cooperative object transportation using multiple robots has been intensively studied in the control and robotics literature, but most approaches are either only applicable to omnidirectional robots or lack a complete navigation and decision-making framework that operates in real time. This paper presents an autonomous nonholonomic multi-robot system and an end-to-end hierarchical autonomy framework for collaborative luggage trolley transportation. This framework finds kinematic-feasible paths, computes online motion plans, and provides feedback that enables the multi-robot system to handle long lines of luggage trolleys and navigate obstacles and pedestrians while dealing with multiple inherently complex and coupled constraints. We demonstrate the designed collaborative trolley transportation system through practical transportation tasks, and the experiment results reveal their effectiveness and reliability in complex and dynamic environments.

Published
2023

12. Autonomous Multiple-Trolley Collection System with Nonholonomic Robots: Design, Control, and Implementation

Author

Xie, Peijia, Xia, Bingyi, Hu, Anjun, Zhao, Ziqi, Meng, Lingxiao, Sun, Zhirui, Gao, Xuheng, Wang, Jiankun, Meng, Max Q. -H., Xie, Peijia, Xia, Bingyi, Hu, Anjun, Zhao, Ziqi, Meng, Lingxiao, Sun, Zhirui, Gao, Xuheng, Wang, Jiankun, and Meng, Max Q. -H.

Abstract

The intricate and multi-stage task in dynamic public spaces like luggage trolley collection in airports presents both a promising opportunity and an ongoing challenge for automated service robots. Previous research has primarily focused on handling a single trolley or individual functional components, creating a gap in providing cost-effective and efficient solutions for practical scenarios. In this paper, we propose a mobile manipulation robot incorporated with an autonomy framework for the collection and transportation of multiple trolleys that can significantly enhance operational efficiency. We address the key challenges in the trolley collection problem through the novel design of the mechanical system and the vision-based control strategy. We design a lightweight manipulator and docking mechanism, optimized for the sequential stacking and transportation of multiple trolleys. Additionally, based on the Control Lyapunov Function and Control Barrier Function, we propose a novel vision-based control with the online Quadratic Programming which significantly improves the accuracy and efficiency of the collection process. The practical application of our system is demonstrated in real world scenarios, where it successfully executes multiple-trolley collection tasks.

Published
2024

21. Resistant risk and resistance‐related point mutation in SdhC1 of pydiflumetofen in Fusarium pseudograminearum.

Author

Li, Yiwen, Wang, Yan, Li, Xinyue, Fan, Hengjun, Gao, Xuheng, Peng, Qin, Li, Feng, Lu, Liang, Miao, Jianqiang, and Liu, Xili

Subjects
FUSARIUM, SUCCINATE dehydrogenase, CARBENDAZIM, SEQUENCE alignment, MOLECULAR docking
Abstract

BACKGROUND: Fusarium pseudograminearum is one of the dominant pathogens of Fusarium crown rot (FCR) worldwide. Unfortunately, no fungicides have yet been registered for the control of FCR in wheat in China. Pydiflumetofen, a new‐generation succinate dehydrogenase inhibitor, exhibits excellent inhibitory activity to Fusarium spp. A resistance risk assessment of F. pseudograminearum to pydiflumetofen and the resistance mechanism involved have not yet been investigated. RESULTS: The median effective concentration (EC50) value of 103 F. pseudograminearum isolates to pydiflumetofen was 0.0162 μg mL−1, and the sensitivity exhibited a unimodal distribution. Four resistant mutants were generated by fungicide adaption, which possessed similar or impaired fitness compared to corresponding parental isolates based on the results of mycelial growth, conidiation, conidium germination rate, and virulence determination. Pydiflumetofen showed strong positive cross‐resistance with cyclobutrifluram and fluopyram but no cross‐resistance with carbendazim, phenamacril, tebuconazole, fludioxonil, or pyraclostrobin. Sequence alignment revealed that pydiflumetofen‐resistant F. pseudograminearum mutants had two single‐point mutations of A83V or R86K in FpSdhC1. Molecular docking further confirmed that point mutation of A83V or R86K in FpSdhC1 could confer resistance of F. pseudograminearum to pydiflumetofen. CONCLUSION: Fusarium pseudograminearum shows an overall moderate risk of developing resistance to pydiflumetofen, and point mutation FpSdhC1A83V or FpSdhC1R86K could confer pydiflumetofen resistance in F. pseudograminearum. This study provided vital data for monitoring the emergence of resistance and developing resistance management strategies for pydiflumetofen. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2023
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30. A Novel Multi-Domain Adaptation-Based Method for Blast Furnace Anomaly Detection

Author

Xia, Yunni, Xiao, Xuewen, Zhou, Jiang, Gao, Xuheng, and Peng, Qinglan

Abstract

In the steelmaking process, ensuring stable and reliable furnace plays a vital role for guaranteeing production quality of steel products. Traditional methods for detecting furnace anomalies in blast furnaces rely on operator judgment models built upon expert knowledge that can be limited by human experience. Moreover, data generated in blast furnace ironmaking process can be multidimensional, non-Gaussian distributed, and periodical, which can be easily affected by environmental and human factors and thus resulting in low accuracy of anomaly detection. Therefore, an online intelligent framework for detecting furnace anomalies is in high need. In this paper, the authors propose a novel anomaly detection method based on a furnace condition parameter-characterization model, a mining model of periodic patterns in the ironmaking process, and a multi-domain adaptive anomaly detection algorithm. They conduct extensive numerical analysis based on real-world production datasets as well to evaluate the effectiveness and accuracy of the method.

Published
2023
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31. Multiple Mutations in SDHB and SDHC2Subunits Confer Resistance to the Succinate Dehydrogenase Inhibitor Cyclobutrifluram in Fusarium fujikuroi

Author

Xue, Zhaolin, Zhong, Shan, Shen, Jinghuan, Sun, Ye, Gao, Xuheng, Wang, Xiangyang, Li, Feng, Lu, Liang, and Liu, Xili

Abstract

Fusarium fujikuroiis one of the dominant phytopathogenic fungi causing rice bakanae disease worldwide. Cyclobutrifluram is a novel succinate dehydrogenase inhibitor (SDHI), which shows strong inhibitory activity against F. fujikuroi. The baseline sensitivity of 112 F. fujikuroito cyclobutrifluram was determinated with a mean EC50value of 0.025 μg/mL. A total of 17 resistant mutants were obtained by fungicide adaptation and displayed equal or slightly weaker fitness than parental isolates, which suggests that the resistance risk of F. fujikuroito cyclobutrifluram is medium. A positive cross-resistance was detected between cyclobutrifluram and fluopyram. The amino acid substitutions H248L/Y of FfSdhB and G80R or A83V of FfSdhC2conferred cyclobutrifluram resistance in F. fujikuroi, which was validated by molecular docking and protoplast transformation. The results indicate that the affinity between cyclobutrifluram and FfSdhs obviously decreased after point mutations, causing the resistance of F. fujikuroi.

Published
2023
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32. Resistance Risk and Resistance-Related Point Mutation in SdhB and SdhC1of Cyclobutrifluram in Fusarium pseudograminearum

Author

Li, Yiwen, Tang, Yidong, Xue, Ziwei, Wang, Yan, Shi, Yifei, Gao, Xuheng, Li, Xiong, Li, Guixiang, Li, Feng, Lu, Liang, Miao, Jianqiang, and Liu, Xili

Abstract

Cyclobutrifluram is a novel succinate dehydrogenase inhibitor (SDHI) developed by Syngenta and helps to inhibit Fusarium pseudograminearum. Here, the potential for cyclobutrifluram resistance in F. pseudograminearumand the resistance mechanism involved were evaluated. Baseline sensitivity of F. pseudograminearumto cyclobutrifluram was determined with a mean EC50value of 0.0248 μg/mL. Fungicide adaption generated five resistant mutants, which possess a comparable or a slightly impaired fitness compared to corresponding parental isolates. This indicates that the resistance risk of F. pseudograminearumto cyclobutrifluram might be moderate. Cyclobutrifluram-resistant isolates also demonstrated resistance to pydiflumetofen but sensitivity to carbendazim, phenamacril, tebuconazole, fludioxonil, or pyraclostrobin. Additionally, point mutations H248Y in FpSdhB and A83V or R86K in FpSdhC1were found in cyclobutrifluram-resistant F. pseudograminearummutants. Molecular docking and overexpression transformation assay revealed that FpSdhBH248Yand FpSdhC1A83Vor FpSdhC1R86Kconfer the resistance of F. pseudograminearumto cyclobutrifluram.

Published
2023
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33. Three point-mutations in cytochrome b confer resistance to trifloxystrobin in Magnaporthe oryzae

Author

Gao Xuheng, Zhiwen Li, Jianqiang Miao, Bin Wang, Xili Liu, Can Zhang, Du Yixin, and Guosen Zhao

Subjects
0106 biological sciences, China, Mutant, Acetates, 01 natural sciences, chemistry.chemical_compound, Ascomycota, Magnaporthe grisea, Point Mutation, EC50, Plant Diseases, Chlorothalonil, biology, Carbendazim, Cytochrome b, Point mutation, food and beverages, Oryza, General Medicine, Cytochromes b, biology.organism_classification, Strobilurins, Molecular biology, 010602 entomology, Magnaporthe, chemistry, Azoxystrobin, Insect Science, Imines, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

Background Rice blast, caused by Magnaporthe oryzae, is the most devastating disease in rice. Recently, trifloxystrobin was registered for the control of M. oryzae in China. The resistance profile and mechanism of M. oryzae to trifloxystrobin were investigated in the present study, providing important data for the recommended use of trifloxystrobin. Results The baseline sensitivity was established at a half maximal effective concentration (EC50 ) of 0.024 μg mL-1 . Nine stable trifloxystrobin-resistant mutants were generated with EC50 values ranging from 12.75 to 171.49 μg mL-1 . The mutants exhibited strong adaptive traits in sporulation, conidial germination, and pathogenicity. Positive cross-resistance was only observed between trifloxystrobin and azoxystrobin, but not between trifloxystrobin and carbendazim, isoprothiolane, prochloraz, or chlorothalonil. The point mutation G143S in cytochrome b (cyt b) protein was found in eight high-resistance mutants with resistant factor ranging from 2295.16 to 13 200.00; and the double mutation G137R/M296V only occurred in Mg117-1 with resistance factor ≈ 900. The G143S mutation weakened hydrogen bond interactions, and G137R/M296V changed the conformation of trifloxystrobin in the cyt b binding pocket. A molecular detection method was established for the rapid detection of G143S mutants in M. oryzae. Conclusion The resistance risk of M. oryzae to trifloxystrobin could be moderate to high. Two genotypes with three point-mutations G143S, G137R, and M296V conferred resistance to trifloxystrobin in M. oryzae. © 2020 Society of Chemical Industry.

Published
2020

38. Resistance Risk Assessment for the New OSBP Inhibitor Y18501 in Pseudoperonospora cubensisand Point Mutations (G705V, L798W, and I812F) in PscORP1 that Confer Resistance

Author

Xue, Zhaolin, Wang, Bin, Li, Chengcheng, Yang, Huixin, Gao, Xuheng, Sun, Mingyou, Huang, Zhongqiao, Miao, Jianqiang, and Liu, Xili

Abstract

Y18501 is a new oxysterol-binding protein inhibitor (OSBPI) that shows strong inhibitory activity against Pseudoperonospora cubensis. In this study, the sensitivities of 159 Ps. cubensisisolates to Y18501 were determined, with EC50values ranging from 0.001 to 11.785 μg/mL, indicating that a Y18501-resistant subpopulation has appeared in the field. Ten Y18501-resistant mutants were obtained by fungicide adaptation and displayed fitness equal to or stronger than their parental isolates, which suggests that the resistance risk of Ps. cubensisto Y18501 is high. The consecutive applications of Y18501 in the field resulted in the rapid resistance of Ps. cubensisand decreased control efficacy of cucumber downy mildew (CDM), which could be alleviated by compounding with mancozeb. A positive cross-resistance was detected between Y18501 and oxathiapiprolin. The amino acid substitutions G705V, L798W, and I812F in PscORP1 conferred resistance to Y18501 in Ps. cubensis, which was validated by molecular docking and molecular dynamics simulations.

Published
2023
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39. Attributes of Cyazofamid-Resistant Phytophthora litchiiMutants and Its Impact on Quality of Litchi Fruits

Author

Gao, Xuheng, Li, Wenhao, Wang, Shuai, Xie, Bowen, Peng, Qin, Zhang, Can, Miao, Jianqiang, Dai, Tan, and Liu, Xili

Abstract

In this study, we determined the sensitivity of 148 Phytophthora litchiiisolates to cyazofamid, yielding a mean EC50value of 0.0091 ± 0.0028 μg/mL. Through fungicide adaptation, resistant mutants (RMs) carrying the F220L substitution in PlCyt b were derived from wild-type isolates. Notably, these RMs exhibited a lower fitness compared with the parental isolates. Molecular docking analysis further revealed that the F220L change contributed to a decrease in the binding energy between cyazofamid and PlCyt b. The total phenol and flavonoid contents in the litchi pericarp treated with cyazofamid on day 5 were significantly higher than in other treatments. Overall, the laboratory assessment indicated a moderate risk of cyazofamid resistance in P. litchii, but the emergence of the F220L change could lead to a high level of resistance. Thus, cyazofamid represents a promising agrochemical for controlling postharvest litchi downy blight and extending the shelf life of litchi fruits.

Published
2023
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40. Resistant risk and resistance-related point mutation in SdhC 1 of pydiflumetofen in Fusarium pseudograminearum.

Author

Li Y, Wang Y, Li X, Fan H, Gao X, Peng Q, Li F, Lu L, Miao J, and Liu X

Subjects
Point Mutation, Molecular Docking Simulation, Plant Diseases, Fusarium, Fungicides, Industrial pharmacology
Abstract

Background: Fusarium pseudograminearum is one of the dominant pathogens of Fusarium crown rot (FCR) worldwide. Unfortunately, no fungicides have yet been registered for the control of FCR in wheat in China. Pydiflumetofen, a new-generation succinate dehydrogenase inhibitor, exhibits excellent inhibitory activity to Fusarium spp. A resistance risk assessment of F. pseudograminearum to pydiflumetofen and the resistance mechanism involved have not yet been investigated., Results: The median effective concentration (EC 50 ) value of 103 F. pseudograminearum isolates to pydiflumetofen was 0.0162 μg mL -1 , and the sensitivity exhibited a unimodal distribution. Four resistant mutants were generated by fungicide adaption, which possessed similar or impaired fitness compared to corresponding parental isolates based on the results of mycelial growth, conidiation, conidium germination rate, and virulence determination. Pydiflumetofen showed strong positive cross-resistance with cyclobutrifluram and fluopyram but no cross-resistance with carbendazim, phenamacril, tebuconazole, fludioxonil, or pyraclostrobin. Sequence alignment revealed that pydiflumetofen-resistant F. pseudograminearum mutants had two single-point mutations of A83V or R86K in FpSdhC 1 . Molecular docking further confirmed that point mutation of A83V or R86K in FpSdhC 1 could confer resistance of F. pseudograminearum to pydiflumetofen., Conclusion: Fusarium pseudograminearum shows an overall moderate risk of developing resistance to pydiflumetofen, and point mutation FpSdhC 1 A83V or FpSdhC 1 R86K could confer pydiflumetofen resistance in F. pseudograminearum. This study provided vital data for monitoring the emergence of resistance and developing resistance management strategies for pydiflumetofen. © 2023 Society of Chemical Industry., (© 2023 Society of Chemical Industry.)

Published
2023
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41. Multiple Mutations in SDHB and SDHC 2 Subunits Confer Resistance to the Succinate Dehydrogenase Inhibitor Cyclobutrifluram in Fusarium fujikuroi .

Author

Xue Z, Zhong S, Shen J, Sun Y, Gao X, Wang X, Li F, Lu L, and Liu X

Subjects
Succinic Acid, Succinate Dehydrogenase genetics, Molecular Docking Simulation, Mutation, Plant Diseases microbiology, Fusarium genetics, Fungicides, Industrial pharmacology, Oryza microbiology
Abstract

Fusarium fujikuroi is one of the dominant phytopathogenic fungi causing rice bakanae disease worldwide. Cyclobutrifluram is a novel succinate dehydrogenase inhibitor (SDHI), which shows strong inhibitory activity against F. fujikuroi . The baseline sensitivity of 112 F. fujikuroi to cyclobutrifluram was determinated with a mean EC 50 value of 0.025 μg/mL. A total of 17 resistant mutants were obtained by fungicide adaptation and displayed equal or slightly weaker fitness than parental isolates, which suggests that the resistance risk of F. fujikuroi to cyclobutrifluram is medium. A positive cross-resistance was detected between cyclobutrifluram and fluopyram. The amino acid substitutions H248L/Y of FfSdhB and G80R or A83V of FfSdhC 2 conferred cyclobutrifluram resistance in F. fujikuroi , which was validated by molecular docking and protoplast transformation. The results indicate that the affinity between cyclobutrifluram and FfSdhs obviously decreased after point mutations, causing the resistance of F. fujikuroi .

Published
2023
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42. Resistance Risk and Resistance-Related Point Mutation in SdhB and SdhC 1 of Cyclobutrifluram in Fusarium pseudograminearum .

Author

Li Y, Tang Y, Xue Z, Wang Y, Shi Y, Gao X, Li X, Li G, Li F, Lu L, Miao J, and Liu X

Subjects
Point Mutation, Drug Resistance, Fungal genetics, Succinate Dehydrogenase genetics, Molecular Docking Simulation, Plant Diseases, Fungicides, Industrial pharmacology, Fusarium genetics
Abstract

Cyclobutrifluram is a novel succinate dehydrogenase inhibitor (SDHI) developed by Syngenta and helps to inhibit Fusarium pseudograminearum . Here, the potential for cyclobutrifluram resistance in F. pseudograminearum and the resistance mechanism involved were evaluated. Baseline sensitivity of F. pseudograminearum to cyclobutrifluram was determined with a mean EC 50 value of 0.0248 μg/mL. Fungicide adaption generated five resistant mutants, which possess a comparable or a slightly impaired fitness compared to corresponding parental isolates. This indicates that the resistance risk of F. pseudograminearum to cyclobutrifluram might be moderate. Cyclobutrifluram-resistant isolates also demonstrated resistance to pydiflumetofen but sensitivity to carbendazim, phenamacril, tebuconazole, fludioxonil, or pyraclostrobin. Additionally, point mutations H248Y in FpSdhB and A83V or R86K in FpSdhC 1 were found in cyclobutrifluram-resistant F. pseudograminearum mutants. Molecular docking and overexpression transformation assay revealed that FpSdhB H248Y and FpSdhC 1 A83V or FpSdhC 1 R86K confer the resistance of F. pseudograminearum to cyclobutrifluram.

Published
2023
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