Chenyin Qian scite author profile

Chenyin Qian

4Publications

160Citation Statements Received

145Citation Statements Given

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Affiliations

Zhejiang Normal University, Nanjing University of Information Science and Technology, Mississippi State University

Publications

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Verification of Tropical Cyclone–Related Satellite Precipitation Estimates in Mainland China

Chen

et al. 2009

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To evaluate the abilities of satellite retrievals in reflecting precipitation features related to tropical cyclones (TCs) affecting mainland China, four years of 6-and 24-h precipitation retrievals from three datasets, namely the Tropical Rainfall Measuring Mission satellite algorithm 3B42, version 6 (3B42), Climate Prediction Center morphed (CMORPH) product, and one based on the Geostationary Meteorological Satellite-5 infrared brightness temperature (GMS5-TBB), are compared statistically with direct measurements from surface gauge rainfall data during the periods affected by TCs. The GMS5-TBB dataset was set up by a method of considering the GMS5-TBB characteristics, hourly precipitation intensity, and horizontal distribution for landfalling TCs. The results show that in a general sense, all three satellite-retrieved rainfall datasets give quite reasonable 6-and 24-h rainfall distributions, with skill decreasing with the increase in both latitude and rainfall amount. The 3B42 has a little bit better skill than CMORPH, which is likely related to the fact that the 3B42 product has a rain gauge adjustment and CMORPH does not. Further analyses show that both 3B42 and CMORPH considerably underestimate the moderate and heavy rainfall and overestimate the very light precipitation. The overestimation of the GMS5-TBB data for the light rain is larger than that for 3B42 and CMORPH, probably due to the fact that the GMS5-TBB method considers stratiform and convective rainfall separately with a fixed stratiform rain rate of 2 mm h 21 . For the heavy rainfall events, the GMS5-TBB data perform much better than the 3B42 and CMORPH data with an almost halved bias, owing to the fact that the GMS5-TBB method adopted the adjustment of the convective rain rate by considering TBB characteristics of landfalling TCs and using hourly gauge rainfall in the setup process. Since the heavy rainfall events associated with landfalling TCs are of the most concern, the compared GMS5-TBB data could be useful as an operational/research reference.

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A three point boundary value problem for nonlinear fourth order differential equations

Graef

Qian

Yang

2003

Journal of Mathematical Analysis and Applications

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Illuminating Invisible Grain Boundaries in Coalesced Single-Orientation WS₂ Monolayer Films

et al. 2021

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Engineering atomic-scale defects is crucial for realizing wafer-scale, single-crystalline transition metal dichalcogenide monolayers for electronic devices. However, connecting atomic-scale defects to larger morphologies poses a significant challenge. Using electron microscopy and ReaxFF reactive force field-based molecular dynamics simulations, we provide insights into WS2 crystal growth mechanisms, providing a direct link between synthetic conditions and microstructure. Dark-field TEM imaging of coalesced monolayer WS2 films illuminates defect arrays that atomic-resolution STEM imaging identifies as translational grain boundaries. Electron diffraction and high-resolution imaging reveal that the films have nearly a single orientation with imperfectly stitched domains that tilt out-of-plane when released from the substrate. Imaging and ReaxFF simulations uncover two types of translational mismatch, and we discuss their origin related to relatively fast growth rates. Statistical analysis of >1300 facets demonstrates that microstructural features are constructed from nanometer-scale building blocks, describing the system across sub-Ångstrom to multimicrometer length scales.

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Polytopic LPV modeling and gain-scheduled switching control for a flexible air-breathing hypersonic vehicle

Huang

Sun

Qian

et al. 2013

J. of Syst. Eng. Electron.

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A novel gain-scheduled switching control method for the longitudinal motion of a flexible air-breathing hypersonic vehicle (FAHV) is proposed. Firstly, velocity and altitude are selected as scheduling variables, a polytopic linear parameter varying (LPV) model is developed to represent the complex nonlinear longitudinal dynamics of the FAHV. Secondly, based on the obtained polytopic LPV model, the flight envelope is divided into four smaller subregions, and four gain-scheduled controllers are designed for these parameter subregions. Then, by the defined switching characteristic function, these gain-scheduled controllers are switched in order to guarantee the closed-loop FAHV system to be asymptotically stable and satisfy a given tracking error performance criterion. The condition of gain-scheduled switching controller synthesis is given in terms of linear matrix inequalities (LMIs) which can be easily solved by using standard software packages. Finally, simulation results show the effectiveness of the presented method.

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Chenyin Qian

Verification of Tropical Cyclone–Related Satellite Precipitation Estimates in Mainland China

A three point boundary value problem for nonlinear fourth order differential equations

Illuminating Invisible Grain Boundaries in Coalesced Single-Orientation WS₂ Monolayer Films

Polytopic LPV modeling and gain-scheduled switching control for a flexible air-breathing hypersonic vehicle

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About

Chenyin Qian

Verification of Tropical Cyclone–Related Satellite Precipitation Estimates in Mainland China

A three point boundary value problem for nonlinear fourth order differential equations

Illuminating Invisible Grain Boundaries in Coalesced Single-Orientation WS2 Monolayer Films

Polytopic LPV modeling and gain-scheduled switching control for a flexible air-breathing hypersonic vehicle

Contact Info

Product

Resources

About

Illuminating Invisible Grain Boundaries in Coalesced Single-Orientation WS₂ Monolayer Films