YAO Zheng
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- Supervisor of Doctorate Candidates
- Supervisor of Master's Candidates
- Name (Simplified Chinese):YAO Zheng
- Name (English):YAO Zheng
- School/Department:Department of Electronic Engineering, Tsinghua University
- Alma Mater:Tsinghua University
- Teacher College:DZGCX
- Discipline:Communications and Information Systems
Contact Information
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- Scientific Research
Selected Journal Papers
[1] Yao Z. A new unambiguous tracking technique for sine-BOC(2n,n) signals. Proc. of ION GNSS, Savannah, GA. 2008: 2432-2438.
[2] Yao Z, and Lu M. Side-peaks cancellation analytic design framework with applications in BOC signals unambiguous processing. Proc. of ION ITM, San Diego, CA. 2011: 775-785.
[3] Yao Z, and Lu M, Optimized modulation for Compass B1-C signal with multiple processing modes, Proc. of ION GNSS, Portland, OR. 2011: 1234-1242.
[4] Huang B, Yao Z, Guo F, Deng S, Cui X, and Lu M, STARx – A GPU Based Multi-System Full-Band Real-Time GNSS Software Receiver, Proc. of ION GNSS+ 2013, Nashville, TN, 2013: 1549-1559.
[5] Yao Z, and Lu M, Design, Implementation, and Performance Analysis of ACE-BOC Modulation, Proc. of ION GNSS+ 2013, Nashville, TN, 2013: 1549-1559.
[6] Yao Z, and Lu M. Constant envelope combination for components on different carrier frequencies with unequal power allocation. Proc. of ION ITM, San Diego, CA. 2013.
[7] Yao Z, and Lu M. Quasi-coherent joint processing of modernized GNSS multiplexing signals. Proc. of ION PPNT, Honolulu, HI. 2013: 98-105.
[8] Huang B, Yao Z, Lu M, and Feng Z. A code phase measurement method for snap-shot GNSS receiver, Lecture Notes in Electrical Engineering, v 243 LNEE, p 641-651, 2013.
[9] Lv P, Lu M, and Yao Z. Dual-update rate INS aided carrier phase lock loop for new generation global navigation satellite signals. Lecture Notes in Electrical Engineering, v 243 LNEE, p 715-724, 2013.
[10] Zhang J, Yao Z, and Lu M. Applications and low-complex implementations of ACE-BOC multiplexing. Proc. of ION ITM, San Diego, CA. 2014: 781-791.
[11] Zhang J, Yao Z, and Lu M. Optimized asymmetric dual-frequency constant envelope multiplexing technique, Lecture Notes in Electrical Engineering, v 304 LNEE, n VOL. 2, p 103-113, 2014.
[12] Zhu Y, Yao Z, Cui X, Lu M. Comparative analysis of dual-frequency constant envelop multiplexing techniques for ARNS band. Proc. of ION ITM, San Diego, CA. 2014: 792-801.
[13] Gao Y, Yao Z, Zhu Y, and Lu M. A two-dimension tracking based multipath mitigation method for BOC signals. Proc. of ION ITM, San Diego, CA. 2014: 876-883.
[14] Chen Q, Yao Z, and Lu M. Implementation of a GNSS receiver with an unambiguous acquisition and tracking technique. Proc. of ION ITM, San Diego, CA. 2011: 989-996.
[15] Zhang X, Zhang X, Yao Z, Lu M. Implementations of Constant Envelope Multiplexing based on Extended Interplex and Inter-Modulation Construction Method. Proc. of ION GNSS, Nashville TN. 2012: 893-900.
[16] Zhang X, Yao Z, Zhang X, and Lu M, A method to optimize the spreading code chip waveform in sense of Gabor bandwidth, Proc. of ION GNSS, Portland, OR. 2011: 1299-1304.
[17] Jin L, Yao Z, Cui X, Lu M, and Feng Z, Dual update-rate FLL-assisted phase lock loop of novel robust receivers for new generation global navigation satellite signals, Proc. of ION GNSS, Portland, OR. 2011: 3652-3659.
[18] Teng D, Yao Z, Cui X, Lu M, and Feng Z, Weighting adjustment acquisition method for the DSSS signal. Proc. of NSWCTC, Wuhan, China. 2010: 336 – 339.
Selected Conference Proceedings
[1] Yao Z. A new unambiguous tracking technique for sine-BOC(2n,n) signals. Proc. of ION GNSS, Savannah, GA. 2008: 2432-2438.
[2] Yao Z, and Lu M. Side-peaks cancellation analytic design framework with applications in BOC signals unambiguous processing. Proc. of ION ITM, San Diego, CA. 2011: 775-785.
[3] Yao Z, and Lu M, Optimized modulation for Compass B1-C signal with multiple processing modes, Proc. of ION GNSS, Portland, OR. 2011: 1234-1242.
[4] Huang B, Yao Z, Guo F, Deng S, Cui X, and Lu M, STARx – A GPU Based Multi-System Full-Band Real-Time GNSS Software Receiver, Proc. of ION GNSS+ 2013, Nashville, TN, 2013: 1549-1559.
[5] Yao Z, and Lu M, Design, Implementation, and Performance Analysis of ACE-BOC Modulation, Proc. of ION GNSS+ 2013, Nashville, TN, 2013: 1549-1559.
[6] Yao Z, and Lu M. Constant envelope combination for components on different carrier frequencies with unequal power allocation. Proc. of ION ITM, San Diego, CA. 2013.
[7] Yao Z, and Lu M. Quasi-coherent joint processing of modernized GNSS multiplexing signals. Proc. of ION PPNT, Honolulu, HI. 2013: 98-105.
[8] Huang B, Yao Z, Lu M, and Feng Z. A code phase measurement method for snap-shot GNSS receiver, Lecture Notes in Electrical Engineering, v 243 LNEE, p 641-651, 2013.
[9] Lv P, Lu M, and Yao Z. Dual-update rate INS aided carrier phase lock loop for new generation global navigation satellite signals. Lecture Notes in Electrical Engineering, v 243 LNEE, p 715-724, 2013.
[10] Zhang J, Yao Z, and Lu M. Applications and low-complex implementations of ACE-BOC multiplexing. Proc. of ION ITM, San Diego, CA. 2014: 781-791.
[11] Zhang J, Yao Z, and Lu M. Optimized asymmetric dual-frequency constant envelope multiplexing technique, Lecture Notes in Electrical Engineering, v 304 LNEE, n VOL. 2, p 103-113, 2014.
[12] Zhu Y, Yao Z, Cui X, Lu M. Comparative analysis of dual-frequency constant envelop multiplexing techniques for ARNS band. Proc. of ION ITM, San Diego, CA. 2014: 792-801.
[13] Gao Y, Yao Z, Zhu Y, and Lu M. A two-dimension tracking based multipath mitigation method for BOC signals. Proc. of ION ITM, San Diego, CA. 2014: 876-883.
[14] Chen Q, Yao Z, and Lu M. Implementation of a GNSS receiver with an unambiguous acquisition and tracking technique. Proc. of ION ITM, San Diego, CA. 2011: 989-996.
[15] Zhang X, Zhang X, Yao Z, Lu M. Implementations of Constant Envelope Multiplexing based on Extended Interplex and Inter-Modulation Construction Method. Proc. of ION GNSS, Nashville TN. 2012: 893-900.
[16] Zhang X, Yao Z, Zhang X, and Lu M, A method to optimize the spreading code chip waveform in sense of Gabor bandwidth, Proc. of ION GNSS, Portland, OR. 2011: 1299-1304.
[17] Jin L, Yao Z, Cui X, Lu M, and Feng Z, Dual update-rate FLL-assisted phase lock loop of novel robust receivers for new generation global navigation satellite signals, Proc. of ION GNSS, Portland, OR. 2011: 3652-3659.
[18] Teng D, Yao Z, Cui X, Lu M, and Feng Z, Weighting adjustment acquisition method for the DSSS signal. Proc. of NSWCTC, Wuhan, China. 2010: 336 – 339.
Patents
[1] Zheng Yao, Xiaowei Cui, Mingquan Lu, and Zhenming Feng, “Dual Update Rate Carrier Tracking Loop,” Chinese Patent ZL200710178904.3.
[2] Zheng Yao, Xiaowei Cui, Mingquan Lu, and Zhenming Feng, “Method and Apparatus for Spreading Spectrum Signal Tracking,” Chinese Patent ZL200710304686.3.
[3] Zheng Yao, Mingquan Lu, and Zhenming Feng, “Signal Modulation and Demodulation Method,” Chinese Patent ZL201010184771.2.
[4] Zheng Yao, Mingquan Lu, and Zhenming Feng, “Method and Apparatus for Subcarrier Generating, Modulating, Demodulating, Transmitting and Receiving,” Patent Pending.
[5] Zheng Yao, and Mingquan Lu, “Signal Modulation and Demodulation Method for Navigation Signals,” Patent Pending.
Dr. Yao’s research focuses on using signal processing techniques to tackle satellite navigation and positioning problems. It mainly targets new GNSS signals design, optimization, and processing, but also investigates personal and vehicular positioning in challenging environments such as urban canyons and strong multipath environments. The domains of research and expertise are:
• Spreading modulation and multiplexing techniques for GNSS;
• Software-defined multi-GNSS real-time receiver
• Split-spectrum DSSS signals unambiguous acquisition and tracking;
• Ground-based high precision navigation system;
• GNSS signals multipath mitigation techniques;
• Cooperative positioning in signal level;
Selected recent publications can be found in:
https://www.researchgate.net/profile/Zheng_Yao/contributions
• GNSS System-wide Satellite Navigation Test Analyzer, National Special Fund for the Development of Major Research Equipment and Instruments, Technical Director and Sub-project Principle Investigator
• The Research of Multi-System Receiving and Interoperation Technical, Sub-project of National 863 Project Major Project, Principle Investigator.
• The Research of Dual-frequency Modulation and Multiplexing Joint Design Method for GNSS Signals, supported by the National Science Foundation of China (NSFC), Principle Investigator.
• The Research of Multipath Modeling and Mitigation in New Generation of GNSS, supported by the Research Fund for the Doctoral Program of Higher Education of China (RFDP), Principle Investigator.
• The Research of Multipath Mitigation Technique in New Generation of GNSS based on Parameter Estimation, supported by the National Key Laboratory Foundation, Principle Investigator.
- Ma J, Yao Z, Lu M, Guo N. Band-limited dual-frequency multiplexing technique for GNSS signals, GPS Solutions, 25 (2), pp. 1-10, 2021.
- Liu X, Yao Z, Lu M. Robust time-hopping pseudolite signal acquisition method based on dynamic Bayesian network, GPS Solutions, 25 (2), pp. 1-14, 2021.
- Zhou H, Yao Z, Lu M, Lidar/UWB Fusion Based SLAM With Anti-Degeneration Capability, Vehicular Technology IEEE Transactions on, vol. 70, no. 1, pp. 820-830, 2021.
- Zhou H, Yao Z, Lu M, UWB/Lidar Coordinate Matching Method With Anti-Degeneration Capability, IEEE Sensors Journal, vol. 21, no. 3, pp. 3344 - 3352, 2021.
- Gao Y, Yao Z, Lu M, High-precision unambiguous tracking technique for BDS B1 wideband composite signal, Navigation, Journal of the Institute of Navigation, 2020, 67(3), pp.633-650.
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