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Featured researches published by Biyang Wen.


Journal of Electromagnetic Waves and Applications | 2007

Measurement of River Surface Currents With UHF FMCW Radar Systems

Caijun Wang; Biyang Wen; Z. G. Ma; W. D. Yan; X. J. Huang

Three field experiments were conducted using a surface currents ultra-high frequency (UHF) radar system at fresh water during 2005. Two geometries for the transceiver antennas were examined: bistatic on a bank with an obstruction between them and backscatter on a bank. Echo Doppler spectra from a lake and two rivers were observed and interpreted. The first-order Bragg-echoes with Signal-to-Noise Ratios (SNR) of 20–50 dB were received and the maximum range was about 500 m with about 2∼3 w of transmitter power. Along-river surface currents have been measured using the UHF radar system. Comparisons with a conventional propeller-type current meter indicated that currents measured by UHF radar closely tracked in-situ current measurements.


IEICE Electronics Express | 2009

Design and FPGA implementation of digital pulse compression for chirp radar based on CORDIC

Zhisheng Yan; Biyang Wen; Caijun Wang; Chong Zhang

The paper presents a full digitized approach for the pulse compression implementation in chirp radars. The emphasis is to cancel the quadratic phase term of the echo using a coordinate rotation digital computer (CORDIC). This approach has been implemented on a field programmable gates array (FPGA) and the compressed output peak is 100dB larger than the noise.


IEICE Electronics Express | 2010

Aliasing radar receiver in FMICW system

Fan Ding; Xiaojing Huang; Biyang Wen; Zhisheng Yan

This paper analyses the lower bound of range resolution in Frequency Modulated Interrupted Continuous Wave (FMICW) radar, and presents a novel aliasing receiver theory. Through introducing a novel alias-removing algorithm, the receiver allows a certain degree of range aliasing, which leads to a much larger sweep bandwidth and an improved range resolution.


IEICE Electronics Express | 2010

Phase-coded interrupted continuous waves analysis, parameters design and processor design

Zhisheng Yan; Biyang Wen; Caijun Wang; Jian Huang; Xiaojing Huang

The paper presents the waveform analysis and parameters design involved with range resolution, maximum detect range, transmit interval and receive interval, in phase-code interrupted continuous wave (PCICW) radars. More attention is paid to the effect of transmit/receive gating. Range blinds are avoided by ensuring the pulse travels to and from the maximum detect range before the next pulse is emitted. It is shown that certain complementary sets with column orthogonality are adequate for our applications. Although the echo is partially suppressed by the gate, the compressed output retains zero range sidelobe performance. Simulation demonstrates that P4 codes are insentivity to Doppler effect in PCICW radars so it can simplify the receiver complexity, and the experiment shows that the sidelobes level are -90dB compared to the mainlobe.


IEICE Electronics Express | 2010

A bistatic HF radar for surface current mapping

Jing Yang; Biyang Wen; Chong Zhang; Xiaojing Huang; Zhisheng Yan; Wei Shen

This paper proposes a bistatic High Frequency Surface Wave Radar (HFSWR) system for ocean current mapping. This system is composed of two remote sites. Both receive backscattered echoes as well as bistatic echoes transmitted by the other. An experiment was conducted on the coast of the North China Sea during January 2010, which proved effectiveness of the radar system.


Journal of Electromagnetic Waves and Applications | 2014

Wind turbine clutter signature for maritime UHF radar

Jing Yang; Dapeng Jiang; Caijun Wang; Biyang Wen

Scattering signal variability due to wind turbine blade rotation usually degrades the performance of nearby radio systems, which severely inhibits the development of wind power installation. As for the maritime ultra-high frequency (UHF) radar, the wind turbine clutter (WTC) may mask small targets and increase the error of sea state measurement. In order to solve the problem from the radar side, a complete understanding of the WTC signature is needed. Using the data of a 10-day in-field experiment on the coast of Fujian Province of China, this paper studies the empirical characteristics of WTC in maritime UHF radar from several signal processing domains, including the time, frequency, space, and polarization domains. Several methods for detection and mitigation of WTC are proposed which are based on the unique characteristics of WTC, such as the time-periodicity, frequency expansion, space concentration, and much stronger magnitude than the ocean-scattered signals when both the transmitting and receiving antennas are horizontally polarized.


IEICE Electronics Express | 2010

Ship detection and tracking using multi-frequency HFSWR

Xiaojing Huang; Biyang Wen; Fan Ding


Archive | 2010

Multi-base radar synchronizing device

Xiaojing Huang; Caijun Wang; Biyang Wen; Jing Yang; Chong Zhang


Archive | 2010

Radar auxiliary system based on ship automatic identification system

Fan Ding; Xiaojing Huang; Dapeng Jiang; Biyang Wen; Zhisheng Yan


Archive | 2009

GPS-based radar synchronizer

Biyang Wen; Jing Yang; Wei Shen; Caijun Wang; Xiaojing Huang

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Jian Huang

Jiangxi University of Finance and Economics

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