Ph.D., Electronic Engineering, Jan. 2005Tsinghua University, Beijing, China

Bachelor of Engineering, Electrical Engineering, June 1999Tsinghua University, Beijing, China

03/2005--present Lecturer and Assistant Professor, Dept. of Electronic Engineering,

Tsinghua Univ.

05/2004-09/2004 Senior Research Associate,

Dept. of Electrical and Electronic Engineering,

City University of Hong Kong.

12/2002-10/2003 Research Associate,

Dept. of Electrical and Electronic Engineering,

City University of Hong Kong.

UndergraduateSignal Processing Laboratory Experiments and Design (2008~2010)

ACADEMIC ORGANIZATIONReviewer, IEEE Transactions on Comm. /VTC / Wireless Comm.

Satellite Navigation

Signal Processing

Data Fusion

Wireless Communication

PC-based GPS/Galileo Software Receiver, 2007-2009, Principle Investigator

Supported by and used in the China Galileo Test Range (CGTR) project. Main Features include:

Multi-mode: GPS, Galileo compatible (Compass ready)

Tri-frequency with 6 signal: GPS L1, L2, L5, Galileo E1, E5a/E5b

Wide band antenna: cover the all navigation band, including lower L band and upper L band

Four channels, central frequency configurable versatile wide band RF segment: four parallel down-convention channels with central frequency configurable over L band and ± 12MHz IF bandwidth

PC (single Intel Xeon 2.8GHz/Windows XP) based architecture for baseband signal processing and PVT solution

BD-2/GPS Receiver Baseband IC Design, 2008-2009, Principle Investigator        Main Features include:

multi-mode: Compass-2, GPS

tri-frequency: Compass B1, GPS/Galileo L1/E1

FPGA (Altera Cyclone EP3C120) architecture for baseband signal processing and PVT solution

36 real time tracking channels

[1] X.W. Cui, Q.T. Zhang, Zh.M. Feng, “Generic procedure for tightly bounding the capacity of MIMO correlated Rician fading channels,” IEEE Transactions on Communications, May 2005, 53(5):890-898.

[2] X.W. Cui, Q.T. Zhang, Zh.M. Feng, “Outage probability for maximal ratio combining of arbitrarily correlated faded signals corrupted by multiple Rayleigh interferers, ” IEEE Transactions on Vehicular Technology, Jan. 2006, 55(1):383-387.

[3] Q.T. Zhang, X.W. Cui, A closed-form expression for the symbol-error rate of M-ary DPSK in fast Rayleigh fading, IEEE Transactions on Communications, Jul. 2005, 53(7):1085-1087.

[4] Li Hong, X.W. Cui, Lu Mingquan, Zh.M. Feng, “Dual-Folding based rapid search method for long PN-code acquisition,” IEEE Transactions on Wireless Communicaitons, Dec.2008, 7(12):5286-5296 Part 2.

[5] Yao Zheng, X.W. Cui, Lu Mingquan, Zh.M. Feng, “Dual update-rate carrier tracking technique for new generation GNSS signals in dynamic enviroments,” IET(IEE) Radar Sonar & Navigation, 2009, 3(1):81-92.

[6] Liu JiaXing, Lu Mingquan, X.W. Cui, Zh.M. Feng, Theoretical analysis of RAIM in the occurrence of simultaneous two-satellite faults, IET(IEE) Radar Sonar & Navigation, 2007, 1(2):92-97.

[7] Q.T. Zhang, X.W. Cui, “New performance results for MDPSK with noncoherent diversity in fast Rayleigh fading,” IEEE Communications Letters, Aug.2006, 10(8):605-607.

[8] Q.T. Zhang, X.W. Cui, X.M. Li, “Very tight capacity bounds for MIMO-correlated Rayleigh-fading channels,” IEEE Transactions on Wireless Communications, Mar.2005, 4(2):681-688.