Your search keyword '"Xie, Wenhan"' showing total 10 results

1. Research on characteristics of the pantograph arc under the action of magnetic field

Author

Wenfu Wei, Guoqiang Gao, Guangning Wu, Zefeng Yang, and Xie Wenhan

Subjects

010302 applied physics, Materials science, Mechanics, Plasma, 01 natural sciences, 010305 fluids & plasmas, Magnetic field, Arc (geometry), symbols.namesake, Traction power network, 0103 physical sciences, Catenary, Electrode, symbols, Pantograph, Lorentz force

Abstract

With the increase of high-speed railway speed and traction power, bouncing separation between pantograph and catenary, and arcs are frequent. The high temperature and high energy of the pantograph arc has become a key factor threatening the safety of the system. In this paper, a combination of experiment and simulation was used to establish a pantograph arc ablation model, and the pantograph arc behavior was regulated by means of an external magnetic field. The study found that the arc produces directional movement under the action of the Lorentz force of the magnetic field, and disperses the energy, which can effectively reduce the ablation of the catenary wire. At the same time, as the strength of the magnetic field increased, the arc motion behavior accelerated, and the degree of electrode erosion was further dispersed. Finally, from the perspective of arc root transfer, the reason for arc energy dispersion was explained. The results of the study provide a reference basis for preventing catenary wire disconnection.

Published

2020

2. Research on characteristics of the pantograph arc under the action of magnetic field

Author

Xie, Wenhan, primary, Wu, Guangning, additional, Wei, Wenfu, additional, Yang, Zefeng, additional, and Gao, Guoqiang, additional

Published

2020

3. The application of analysis techniques based on DEM and GIS in airborne radar signal simulation

Author

Lu Jian, Xie Wenhan, and Miao Yumei

Subjects

business.industry, Computer science, law.invention, Man-portable radar, Radar engineering details, law, Radar altimeter, Radar imaging, TERCOM, Global Positioning System, 3D radar, Altimeter, Radar, Radar remote sensing, business, Radar configurations and types, Inertial navigation system, Remote sensing

Abstract

Airborne radar altimetry sometimes records abnormal phenomenon. In this case, information of real terrain must be incorporated to analyze the abnormality region. This paper applies terrain information of a test area organized by a spatial geographical information system (GIS) to the radar signal analysis. With the support of Global Positioning System (GPS) and Inertial Navigation System (INS), we can simulate the radar altimeter data by organizing and analyzing three-dimensional terrain information inside of the radar beam.

Published

2003

4. Land Cover Mapping with Landsat Data: The Tasmania Case Study

Author

Zhai, Liang, primary, Xie, Wenhan, additional, Sang, Huiyong, additional, Sun, Jinping, additional, Yang, Gang, additional, and Jia, Yi, additional

Published

2011

5. Long Focal Lens Camera Calibration Applied for Level-of-Detail Terrain Texture Fusion

Author

Xie, Wenhan, primary, Yin, Jie, additional, and Zhai, Liang, additional

Published

2011

6. Approach for Calibration of Digital Camera Distortion Based on Non-Control Field

Author

Ding, Hao, primary, Xie, Wenhan, additional, and Zhang, Jixian, additional

Published

2010

7. High-accuracy of orthorectification model with self-geometric constraint for high buildings in urban area

Author

Xie, Wenhan, primary and Zhou, Guoqing, additional

Published

2009

8. Accurate pose and location estimation of uncalibrated camera in urban area

Author

Xie, Wenhan, primary, Zhang, Li, additional, Zhou, Guoqing, additional, and Xue, Yucai, additional

Published

2009

9. The application of analysis techniques based on DEM and GIS in airborne radar signal simulation.

Author

Xie Wenhan, Lu Jian, and Miao Yumei

Published

2002

10. Influences of Leaf-Specular Reflection on Canopy BRF Characteristics: A Case Study of Real Maize Canopies With a 3-D Scene BRDF Model.

Author

Xie, Donghui, Qin, Wenhan, Wang, Peijuan, Shuai, Yanmin, Zhou, Yuyu, and Zhu, Qijiang

Subjects

RADIOSITY, NUCLEAR optical models, SPECTROPHOTOMETERS, ISOTROPIC properties, SPECULAR reflectance

Abstract

The diffuse and specular components of leaf reflection are both important to determine the leaf optical properties as well as to describe the leaf bidirectional reflectance distribution function (BRDF). However, the specular component is usually ignored in practice in numerous canopy reflectance models that describe the interaction between solar light and vegetated scene components. To evaluate the impact of leaf-specular reflection on canopy bidirectional reflectance factor (BRF) characteristics, we introduce a leaf BRDF model into the radiosity-graphics combined model (RGM; a 3-D scene model) to calculate canopy BRFs with nondiffuse leaves. The modified RGM is validated by comparing simulated BRFs against in situ measured BRFs over real maize canopies. The results show that ignorance of leaf-specular reflection can result in up to 50% of relative error in the blue band (435.8 nm). A series of maize canopies with different leaf angle distributions (LADs) is reconstructed to investigate the effect of five major biophysical/geometrical parameters such as leaf area index, LAD, leaf surface property, view direction, and solar zenith angle on leaf-specular reflection contributions to the canopy BRF. It is demonstrated that increasing the incident solar zenith angle and decreasing the mean leaf angle impact the angular distribution of the canopy BRF more significantly than other factors. The cumulative hemispherical relative and absolute errors of canopy BRF caused by the leaf-specular reflection are often too large to be ignored, even for canopies with rough surface leaves. Moreover, the relative error of BRF in visible waveband shows that, in general, leaf-specular reflection has a large impact than that in near-infrared waveband. However, such impact can be sufficiently accounted for by even just consideration of the first-order leaf-specular reflection in canopy reflectance calculation, leading to a substantial improvement in simulation accuracy for most vegetation canopies. [ABSTRACT FROM PUBLISHER]

Published

2017