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121 results on '"Jiang, Chenxing"'

1. WING: Wheel-Inertial Neural Odometry with Ground Manifold Constraints

Author

Jiang, Chenxing, Zhang, Kunyi, Yang, Sheng, Shen, Shaojie, Xu, Chao, and Gao, Fei

Subjects
Computer Science - Robotics
Abstract

In this paper, we propose an interoceptive-only odometry system for ground robots with neural network processing and soft constraints based on the assumption of a globally continuous ground manifold. Exteroceptive sensors such as cameras, GPS and LiDAR may encounter difficulties in scenarios with poor illumination, indoor environments, dusty areas and straight tunnels. Therefore, improving the pose estimation accuracy only using interoceptive sensors is important to enhance the reliability of navigation system even in degrading scenarios mentioned above. However, interoceptive sensors like IMU and wheel encoders suffer from large drift due to noisy measurements. To overcome these challenges, the proposed system trains deep neural networks to correct the measurements from IMU and wheel encoders, while considering their uncertainty. Moreover, because ground robots can only travel on the ground, we model the ground surface as a globally continuous manifold using a dual cubic B-spline manifold to further improve the estimation accuracy by this soft constraint. A novel space-based sliding-window filtering framework is proposed to fully exploit the $C^2$ continuity of ground manifold soft constraints and fuse all the information from raw measurements and neural networks in a yaw-independent attitude convention. Extensive experiments demonstrate that our proposed approach can outperform state-of-the-art learning-based interoceptive-only odometry methods.

Published
2024

2. H3-Mapping: Quasi-Heterogeneous Feature Grids for Real-time Dense Mapping Using Hierarchical Hybrid Representation

Author

Jiang, Chenxing, Luo, Yiming, Zhou, Boyu, and Shen, Shaojie

Subjects
Computer Science - Robotics
Abstract

In recent years, implicit online dense mapping methods have achieved high-quality reconstruction results, showcasing great potential in robotics, AR/VR, and digital twins applications. However, existing methods struggle with slow texture modeling which limits their real-time performance. To address these limitations, we propose a NeRF-based dense mapping method that enables faster and higher-quality reconstruction. To improve texture modeling, we introduce quasi-heterogeneous feature grids, which inherit the fast querying ability of uniform feature grids while adapting to varying levels of texture complexity. Besides, we present a gradient-aided coverage-maximizing strategy for keyframe selection that enables the selected keyframes to exhibit a closer focus on rich-textured regions and a broader scope for weak-textured areas. Experimental results demonstrate that our method surpasses existing NeRF-based approaches in texture fidelity, geometry accuracy, and time consumption. The code for our method will be available at: https://github.com/SYSU-STAR/H3-Mapping., Comment: Accepted by IEEE Robotics and Automation Letters

Published
2024

4. H2-Mapping: Real-time Dense Mapping Using Hierarchical Hybrid Representation

Author

Jiang, Chenxing, Zhang, Hanwen, Liu, Peize, Yu, Zehuan, Cheng, Hui, Zhou, Boyu, and Shen, Shaojie

Subjects
Computer Science - Robotics
Abstract

Constructing a high-quality dense map in real-time is essential for robotics, AR/VR, and digital twins applications. As Neural Radiance Field (NeRF) greatly improves the mapping performance, in this paper, we propose a NeRF-based mapping method that enables higher-quality reconstruction and real-time capability even on edge computers. Specifically, we propose a novel hierarchical hybrid representation that leverages implicit multiresolution hash encoding aided by explicit octree SDF priors, describing the scene at different levels of detail. This representation allows for fast scene geometry initialization and makes scene geometry easier to learn. Besides, we present a coverage-maximizing keyframe selection strategy to address the forgetting issue and enhance mapping quality, particularly in marginal areas. To the best of our knowledge, our method is the first to achieve high-quality NeRF-based mapping on edge computers of handheld devices and quadrotors in real-time. Experiments demonstrate that our method outperforms existing NeRF-based mapping methods in geometry accuracy, texture realism, and time consumption. The code will be released at: https://github.com/SYSU-STAR/H2-Mapping, Comment: Accepted by IEEE Robotics and Automation Letters

Published
2023
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5. DIDO: Deep Inertial Quadrotor Dynamical Odometry

Author

Zhang, Kunyi, Jiang, Chenxing, Li, Jinghang, Yang, Sheng, Ma, Teng, Xu, Chao, and Gao, Fei

Subjects
Computer Science - Robotics
Abstract

In this work, we propose an interoceptive-only state estimation system for a quadrotor with deep neural network processing, where the quadrotor dynamics is considered as a perceptive supplement of the inertial kinematics. To improve the precision of multi-sensor fusion, we train cascaded networks on real-world quadrotor flight data to learn IMU kinematic properties, quadrotor dynamic characteristics, and motion states of the quadrotor along with their uncertainty information, respectively. This encoded information empowers us to address the issues of IMU bias stability, quadrotor dynamics, and multi-sensor calibration during sensor fusion. The above multi-source information is fused into a two-stage Extended Kalman Filter (EKF) framework for better estimation. Experiments have demonstrated the advantages of our proposed work over several conventional and learning-based methods., Comment: 8 pages, 11 figures, accepted by IROS 2022 with RA-L

Published
2022

17. An Adaptive Behavior Under Uneven Terrains for Quadruped Robot

Author

Xu, Peng, Su, Bo, Jiang, Lei, Yao, Qichang, Dang, Ruina, Xu, Wei, Jiang, Chenxing, Lu, Yuchuan, Jiang, Yunfeng, Mu, Lindong, Barbosa, Simone Diniz Junqueira, Editorial Board Member, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Kotenko, Igor, Editorial Board Member, Yuan, Junsong, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Sun, Fuchun, editor, Liu, Huaping, editor, and Hu, Dewen, editor

Published
2019
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26. Back Cover: Atomic cerium modulated palladium nanoclusters exsolved ferrite catalysts for lean methane conversion (EXP2 6/2022)

Author

Yang, Yanling, primary, Wang, Si, additional, Tu, Xin, additional, Hu, Zhiwei, additional, Zhu, Yinlong, additional, Guo, Hongquan, additional, Li, Zhishan, additional, Zhang, Li, additional, Peng, Meilan, additional, Jia, Lichao, additional, Yang, Meiting, additional, Yang, Guangming, additional, Qiao, Xurong, additional, Sun, Jiahui, additional, Liang, Xiaolu, additional, Zhang, Zhen, additional, Zhu, Yanru, additional, Shi, Lei, additional, Jiang, Chenxing, additional, Zhao, Yingru, additional, Li, Jianhui, additional, Shao, Zongping, additional, Zhang, Xin, additional, and Sun, Yifei, additional

Published
2022
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27. Control of mitochondrial dynamics and apoptotic pathways by peroxisomes

Author

Jiang, Chenxing and Okazaki, Tomohiko

Subjects
Cell Biology, Developmental Biology
Abstract

Peroxisomes are organelles containing different enzymes that catalyze various metabolic pathways such as β-oxidation of very long-chain fatty acids and synthesis of plasmalogens. Peroxisome biogenesis is controlled by a family of proteins called peroxins, which are required for peroxisomal membrane formation, matrix protein transport, and division. Mutations of peroxins cause metabolic disorders called peroxisomal biogenesis disorders, among which Zellweger syndrome (ZS) is the most severe. Although patients with ZS exhibit severe pathology in multiple organs such as the liver, kidney, brain, muscle, and bone, the pathogenesis remains largely unknown. Recent findings indicate that peroxisomes regulate intrinsic apoptotic pathways and upstream fission-fusion processes, disruption of which causes multiple organ dysfunctions reminiscent of ZS. In this review, we summarize recent findings about peroxisome-mediated regulation of mitochondrial morphology and its possible relationship with the pathogenesis of ZS.

Published
2022

30. Hue Recognition Competitive Fluorescent Lateral Flow Immunoassay for Aflatoxin M1 Detection with Improved Visual and Quantitative Performance

Author

Wang, Jing, primary, Jiang, Chenxing, additional, Yuan, Jingrui, additional, Tong, Lu, additional, Wang, Yang, additional, Zhuo, Dinglv, additional, Huang, Liang, additional, Ni, Weihong, additional, Zhang, Jiafeng, additional, Huang, Mei, additional, Li, Daquan, additional, Su, Bin, additional, and Hu, Jun, additional

Published
2022
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31. Atomic cerium modulated palladium nanoclusters exsolved ferrite catalysts for lean methane conversion

Author

Yang, Yanling, primary, Wang, Si, additional, Tu, Xin, additional, Hu, Zhiwei, additional, Zhu, Yinlong, additional, Guo, Hongquan, additional, Li, Zhishan, additional, Zhang, Li, additional, Peng, Meilan, additional, Jia, Lichao, additional, Yang, Meiting, additional, Yang, Guangming, additional, Qiao, Xurong, additional, Sun, Jiahui, additional, Liang, Xiaolu, additional, Zhang, Zhen, additional, Zhu, Yanru, additional, Shi, Lei, additional, Jiang, Chenxing, additional, Zhao, Yingru, additional, Li, Jianhui, additional, Shao, Zongping, additional, Zhang, Xin, additional, and Sun, Yifei, additional

Published
2022
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32. Research on wake and potential flow effects of rotor–stator interaction in a centrifugal pump with guided vanes.

Author

Yu, Tao, Shuai, Zhijun, Wang, Xi, Jian, Jie, He, Jiaxuan, Li, Wanyou, and Jiang, Chenxing

Subjects
CENTRIFUGAL pumps, POTENTIAL flow, SOUND pressure, FAULT diagnosis, ORTHOGONALIZATION, PRESSURE drop (Fluid dynamics)
Abstract

In this paper, the wake and potential flow effects of the rotor–stator interaction in a centrifugal pump with guide vanes are investigated from the view of the separation of turbulent and acoustic pressure fluctuations. The highest vibration levels in pumps are, in general, originated in the potential flow and wake effects. However, it is challenging to distinguish their effects on flow evolution. The pellicular mode decomposition method is applied to innovatively separate potential flow and wake disturbances in a centrifugal pump. By pellicular, we mean an infinitely thin layer of air located on the monitoring surface. The pellicular modes are a set of acoustic modes, with which a set of normalized orthogonal basis can be constructed. The impacts of potential flow and wake disturbances are visualized and evaluated quantitatively. The results show that only a very limited region is where the potential flow disturbance works. The higher the harmonics, the smaller the disturbance range. The wake disturbance is responsible for the modal pressure field. Modal pressure fields with low diametrical nodes decay more slowly than those with low harmonics. In addition, special attention is paid to the impact of the geometric asymmetry of the volute on the impeller force. The circular volute with a two-stage pressure drop improves the radial force of the impeller. More deep understandings on the mechanism of the rotor–stator interaction are reached by decoupling the potential flow and wake disturbances. This work serves as a guide for further research in fault diagnosis and vibration control of centrifugal pumps. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Hue-Recognition Strategy-Based Immunoassay Using Functionalized Dendritic Silica Colloids and Gold Nanoclusters for Point-of-Care Testing of C‑Reactive Proteins.

Author

Huang, Liang, Shi, Ziyu, Li, Daquan, Jiang, Chenxing, Wang, Xuexue, Huang, Mei, Wang, Jing, and Su, Bin

Abstract

Considering that hue-recognition has drawn increasing research interests for visual detection because of its high accuracy and flexible analysis modalities, the exploration of a rational hue-recognition sensing system is highly demanded. Here, we report a hue-recognition-based lateral flow immunoassay (HLFIA) by ratiometric modulation of emission from two nanoprobes, in which red-emitting ruthenium-(II)-doped dendritic silica colloids and green-emitting gold nanoclusters function as reporter and reference, respectively. The HLFIA strip can generate a visually discernible green-to-orange-red color gradient alternation, enabling the naked-eye semiquantitative inspection of successive C-reactive protein (CRP) concentration and concentration intervals (0–50, 50–150, and 150–500 ng mL–1) with a visual detection limit of 10 ng mL–1. By integrating with a customized smartphone-based portable imaging device and RGB color space recognition, the precise quantification of CRP can be achieved with a linear range of 0–100 ng mL–1 and a limit of detection of 0.64 ng mL–1. The HLFIA strip is robust and validated for CRP detection in real serum, holding great promise for noninstrumental and deprofessionalized point-of-care immunoassay of biomarkers. [ABSTRACT FROM AUTHOR]

Published
2023
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41. High Configuration Entropy Activated Lattice Oxygen for O2 Formation on Perovskite Electrocatalyst.

Author

Tang, Lina, Yang, Yanling, Guo, Hongquan, Wang, Yue, Wang, Mengjie, Liu, Zuoqing, Yang, Guangming, Fu, Xianzhu, Luo, Yang, Jiang, Chenxing, Zhao, Yingru, Shao, Zongping, and Sun, Yifei

Subjects
HYDROGEN evolution reactions, ENTROPY, PEROVSKITE, OXYGEN evolution reactions, SURFACE reconstruction, OXYGEN
Abstract

The single‐phase oxides with elemental complexity and compositional diversity, usually named high entropy oxides, feature homogeneously dispersed multi‐metallic elements in equiatomic concentration. The unusual properties of high entropy oxides endow their potential application in clean‐energy‐related electrocatalysis. However, the possible fundamental relationship between configuration entropy and the underlying catalytic mechanism is still not well understood and established. Herein, a high entropy perovskite cobaltate consisting of five equimolar metals in the B‐site (Mg, Mn, Fe, Co, and Ni) is employed as an electrocatalyst for oxygen evolution reaction (OER). The configuration entropy serves as an effective tool to promote the intrinsic activity of the Co reactive site and manipulate the OER mechanism. The high entropy cobaltate demonstrates a lower overpotential of 320 mV at a current density of 10 mA cm−2, outperforming other counterparts. The X‐ray spectroscopies disclose the synergistic charge‐exchange effect among different cations and the formation of a new oxygen hole state. Combinatorially computational and experimental results unveil the enigma that the high configuration entropy leads to the random occupation of cations, facilitates the surface reconstruction, and benefits the formation of stable surface oxygen vacancies. Owing to these merits, the O2 formation is found to be kinetically favorable via the lattice oxygen mechanism. [ABSTRACT FROM AUTHOR]

Published
2022
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44. Hue Recognition Competitive Fluorescent Lateral Flow Immunoassay for Aflatoxin M1Detection with Improved Visual and Quantitative Performance

Author

Wang, Jing, Jiang, Chenxing, Yuan, Jingrui, Tong, Lu, Wang, Yang, Zhuo, Dinglv, Huang, Liang, Ni, Weihong, Zhang, Jiafeng, Huang, Mei, Li, Daquan, Su, Bin, and Hu, Jun

Abstract

Immunological detection of small molecules in a point-of-care (POC) format is of great significance yet remains challenging for accurate visual discrimination and quantitative analysis. Here, we report a novel hue recognition competitive fluorescent lateral flow immunoassay (HCLFIA) strip that allows both visual and quantitative detection of aflatoxin M1(AFM1). The HCLFIA strip works on the basis of the ratiometric change of emission, arising from the overlap of fluorescence signals of two nanocomposites tagged with probe antibodies and coated antigens. A visually discernible orange-red-to-green fluorescence color change allows the naked eye semiquantitative readout of AFM1around the threshold concentration (0.05 ng mL–1), yielding a visible detection limit of 0.02 ng mL–1. Moreover, using a custom smartphone-based device and color chart analysis, ultrasensitive quantitative detection of AFM1can be achieved with a low limit of detection at 0.0012 ng mL–1, which is considerably better than those of the previously reported colorimetric and fluorescent strips. The accuracy performed in spiked milk samples ranged from 97.91 to 113.12% with a coefficient of variation below 7.8%, showing good consistency with the results from isotope dilution liquid chromatography–tandem mass spectrometry. Thanks to the unique hue recognition scheme, the HCLFIA strip holds great potential for POC detection of small molecules.

Published
2022
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45. The Analysis of Key Technologies for Advanced Intelligent Quadruped Robots

Author

Dang Ruina, Su Bo, Li Ning, Liang Zhenjie, Jiang Chenxing, and Zhao Honglei

Subjects
Computer science, Human–computer interaction, media_common.quotation_subject, Key (cryptography), Robot, Legged robot, Function (engineering), media_common
Abstract

As Boston Dynamics announces more and more technical details of its quadruped robots to the world, and ETH successfully applies artificial intelligence to ANYmal, the quadruped robot has attracted more and more attention of the researchers on robot and artificial intelligence all over the world. Taken the famous quadruped robots in the world as the research objects, this paper analyzes the key technologies of advanced intelligent quadruped robots. The integration of function and structure is introduced for the dexterous mechanism, the typical gaits and jumping motion is introduced for the advanced mobile ability, perceptual and navigation is introduced for the autonomous walking. By analyzing the key technologies of advanced intelligent quadruped robots, the paper could provide abundant theoretical reference for the technical development of the legged robot.

Published
2019

46. An Adaptive Behavior Under Uneven Terrains for Quadruped Robot

Author

Xu Wei, Jiang Yunfeng, Yao Qichang, Jiang Lei, Xu Peng, Su Bo, Jiang Chenxing, Dang Ruina, Lu Yuchuan, and Mu Lindong

Subjects
Adaptive behavior, Gait (human), Control theory, Computer science, Position (vector), Body posture, Trajectory, Robot, Terrain, Balance (ability)
Abstract

In order to improve the adaptive behavior performance of the quadruped robot under uneven terrains, based on the locomotion characteristic of the trot gait, the robot is simplified as the model of the body and virtual leg. The virtual leg dynamics is established and analyzed. Also, on the basis of the dynamic model, the foothold and the trajectory during the stance duration are planned. Combined with the extern force exerted on the robot, the contact compliance control model is established to map to multi-DOF joints. The body posture balance could be achieved by compensating the foot position. The experiment is built in the uneven terrain with the trot gait, and the experimental result validates the feasibility of the method.

Published
2019

47. A Strategy to Climb Vertical Cliffs for the Quadruped Robot Imitating Goat

Author

Mu Lindong, Deng Qindan, Jiang Chenxing, Xu Peng, Liang Zhenjie, Su Bo, and Dang Ruina

Subjects
Mechanism (engineering), Computer science, Control theory, Climbing, Torque, Climb, Robot, Connecting rod, Clamping
Abstract

Based on the principle of goats climbing cliffs, this paper proposes a new quadruped robot climbing strategy from the aspects of mechanical structure and behavior modes. The characteristics of connecting rods are utilized to keep steady of robots between opposite cliffs, which eliminates the need of foot-end suction and clamping mechanism.

Published
2018

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