Rongchen Sun scite author profile

Rongchen Sun

5Publications

13Citation Statements Received

53Citation Statements Given

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Affiliations

Beijing Jiaotong University, Southeast University, Harbin Engineering University

Publications

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Investigation of MIMO Channel Characteristics in a Two-Section Tunnel at 1.4725 GHz

Sun¹,

Matolak²,

Tao³

et al. 2017

International Journal of Antennas and Propagation

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This paper presents results from a wide band single-input-single-output (SISO) and 16 × 16 virtual multiple-input-multiple-output (MIMO) measurement campaign at a center frequency of 1.4725 GHz in a 100-meter long tunnel laboratory which is terminated by a vertical wall with a metallic door. The path loss, root-mean-square delay spread (RMS-DS) characteristics, and power delay profiles (PDPs) are described. In addition, we provide results for the MIMO channel amplitude matrix, which offers a new perspective in understanding MIMO characteristics in tunnel scenarios. Our measurement results are analyzed and compared to ray tracing simulations. The relationships among the angle spread, channel matrix singular values, and MIMO capacity at various link distances are illustrated, and these provide insights into MIMO system deployment.

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Nonisotropic Scattering Characteristic in an Alternant Tree-Blocked Viaduct Scenario on High-Speed Railway at 2.35 GHz

Sun

Tao

Liu

et al. 2014

International Journal of Antennas and Propagation

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This paper presents the nonisotropic scattering characteristic of the mobile radio channel in an alternant tree-blocked viaduct scenario on high-speed railway (HSR) by real field measuring at 2.35 GHz. An angle of arrival (AOA) probability density function (PDF) is proposed for the nonuniform AOA at the mobile caused by stochastically distributed scatterers. Two Von Mises angular distributions with broad applicability are used to represent the line of sight (LOS) component and part of the scattering component in the AOA model. Based on such a PDF statistical characteristics of Ricean factor,κ, and AOA of the scattering component are modeled in LOS and obstructed line of sight (OLOS) cases, respectively. The results may give a meaningful and accurate channel model and could be utilized in HSR viaduct scenario evaluation.

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Two Novel Spectrum Sensing Algorithms Based On Eigenvalue under Different Noise

Chen

Wang

Sun

et al. 2020

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Investigation of MIMO Channel Characteristics in Tunnel at 1.4725 and 6 GHz

et al. 2020

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In recent years, high-speed railway and subway are being built rapidly in China. Tunnel scenario is a major scenario in some of the high-speed railways and most of the subways. Channel characteristic is the decisive condition of wireless communication system design in tunnel. The availability of multiple-input multiple-output (MIMO) in tunnel is an important issue in the next generation communication network. This paper presents results from a wideband measurement campaign at center frequency of 1.4725 and 6 GHz in a tunnel laboratory. The path loss, root-mean-square delay spread (RMS-DS) characteristics by single-input single-output (SISO) measurement and the angle spread, channel matrix singular values, and MIMO capacity at various link distances by MIMO measurement are illustrated. and these provide insights for MIMO system deployment. And also, the threshold of singular value for channel matrix rank reduction is given.

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A novel zero-IF binary FSK demodulation scheme

Chen

Cheng

Sun

et al. 2020

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Rongchen Sun

Investigation of MIMO Channel Characteristics in a Two-Section Tunnel at 1.4725 GHz

Nonisotropic Scattering Characteristic in an Alternant Tree-Blocked Viaduct Scenario on High-Speed Railway at 2.35 GHz

Two Novel Spectrum Sensing Algorithms Based On Eigenvalue under Different Noise

Investigation of MIMO Channel Characteristics in Tunnel at 1.4725 and 6 GHz

A novel zero-IF binary FSK demodulation scheme

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