Recent Publications

[1].Yonggang Wang, Qiang Cao and Chong Liu, “A Multi-chain Merged Tapped Delay Line for High Precision Time-to-Digital Converters in FPGAs”, IEEE Transactions on Circuits and Systems II: Express Briefs, Vol. 65, No.1, January 2018, pp96-100.

[2].Qiang Cao, Xin Li*, Liwei Wang, Jie Kuang, Yonggang Wang* and Cheng Li, “FPGA Based Pico-second Time Measurement System for a DIRC-like TOF Detector”, RT2018

[3].Zhengqi Song, Yonggang Wang*, Yong Xiao, and Qiang Cao, “Nuclear Pulse Charge Measurement with a Method of Time over Linear Threshold”, RT2018

[4].Jie Kuang and Yonggang Wang*, “A 5.5 ps Time-interval RMS Precision Time-to-Digital Convertor Implemented in Intel Arria 10 FPGA”, RT2018

[5].Xiaoguang Kong, Yonggang Wang*, Liwei Wang, Yong Xiao, and Jie Kuang, “An FPGA Based Fast Linear Discharge Method for Nuclear Pulse Digitization”, RT2018

[6].Liwei Wang, Yonggang Wang*, Qiang Cao, Yong Xiao and Chong Liu, “Study on timing performance of a readout circuit for SiPM”, RT2018

[7].Jie Kuang, Yonggang Wang*, Qiang Cao and Chong Liu, “Implementation of a high precision multi-measurement time-to-digital convertor on a Kintex-7 FPGA”, Nuclear Inst. And Methods in Physics Research, A 891(2018) 37-41. (Vol. 891, 21 May 2018, Pages 37-41)

[8].Zhengqi Song, Yonggang Wang*, and Jie Kuang, “A 256-channel, High Throughput and Precision Time-to-Digital Converter with a Decomposition Encoding Scheme in a Kintex-7 FPGA” JINST

[9].Xiaoyu Zhou, Yonggang Wang* and Peng Kuang, “Prototype Design of a Time-of-Flight Camera Based on Xilinx Zynq7000 SoC Platform”, 2018 IEEE International Instrumentation and Measurement Technology (I2MTC2018), Houston, USA, May 14-17, 2018, pp xxx-xxx.

[10].Shuang Wang, Wei Chen, Zhenqiang Yin, et al, (13/15), “Practical gigahertz quantum key distribution robust against channel disturbance”, Optics Letters, Vol. 43, No. 9, pp2030-33, 1 May 2018.

[11].Yonggang Wang, Jie Kuang, Chong Liu, Qiang Cao and Deng. Li, “A Flexible 32-Channel Time-to-Digital Converter implemented in a Xilinx Zynq-7000 Field Programmable Gate Array”, Nuclear Instruments and Methods in Physics Research Section A 847(2017)61-66.

[12].Yonggang Wang, Jie Kuang, Chong Liu, and Qiang Cao，“A 3.9 ps RMS Precision Time-to-Digital Converter Using Ones Counter Encoding Scheme in a Kintex-7 FPGA”， IEEE Transactions on Nuclear Science, Vol.64, No.10, Oct. 2017, pp2713-18.

[13].Jie Kuang, Yonggang Wang, Chong Liu，“A 128-Channel High Performance Time-to-Digital Converter Implemented in an UltraScale FPGA”，2017 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2017), pp1-4, N27-1, Atlanta, USA, Oct. 21- 29, 2017.

[14].匡鹏，刘冲，王永纲，“基于FPGA和USB3.0的通用数据传输系统设计”，微型机与应用，2017，35（7）：26-28，34.

[15].Yonggang Wang, Yong Xiao, Xinyi Cheng, Deng Li, and Liwei Wang，“An FPGA-Based Real-Time Maximum Likelihood 3D Position Estimation for a Continuous Crystal PET Detector”， IEEE Transactions on Nuclear Science, Vol.63, No.1, Feb. 2016, pp37-43.

[16].Yonggang Wang, Cong Hui, Chong Liu, and Chao Xu, “Theory and implementation of a very high throughput true random number generator in field programmable gate array”, Review of Scientific Instruments, 87, 044704 (2016)。

[17].Yonggang Wang, Peng Kuang, Chong Liu, “A 256-channel Multi-phase Clock Sampling-Based Time-to-Digital Converter Implemented in a Kintex-7 FPGA”, 2016 IEEE International Instrumentation and Measurement Technology (I2MTC2016), Taipei, Taiwan, May 23-26, 2016, pp 429-433.

[18].Chong Liu, Yonggang Wang, Peng Kuang, Deng Li, Xinyi Cheng, “A 3.9 ps RMS Resolution Time-to-Digital Converter Using Dual-sampling Method on Kintex UltraScale FPGA” IEEE 20th Real Time Conference (RT2016), Padova, Italy, June 2016, pp xx-xx。

[19].Xiao Yong, Cheng Xinyi and Wang Yonggang, “Preliminary Performance of a Continuous Crystal PET Detector with TODT Readout Scheme” IEEE 20th Real Time Conference (RT2016), Padova, Italy, June 2016, pp xx-xx.

[20].徐超，刘冲, 王永纲．“基于FPGA和USB2.0协议的通用数据传输设计［J］． 微型机与应用，2016，35( 16) : 41-43．

[21].Y. Wang and C. Liu, “A 3.9 ps Time-Interval RMS Precision Time-to-Digital Converter Using a Dual-Sampling Method in an UltraScale FPGA”, IEEE Transactions on Nuclear Science, Vol.63, No.5, Oct. 2016, pp2617-21.

[22].Y. Wang and C. Liu, “A 4.2 ps Time-Interval RMS Resolution Time-to-Digital Converter Using a Bin Decimation Method in an UltraScale FPGA”, IEEE Transactions on Nuclear Science, Vol.63, No.5, Oct. 2016, pp2632-38.

[23].Qiang Cao, Yonggang Wang and Chong Liu, “A combination of multiple channels of FPGA based time-to-digital converter for high time precision”, 2016 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2016), pp1-4, N05-2, Strasbourg, France, Oct. 29- Nov.5, 2016.

[24].Yong Xiao, Yonggang Wang and Xinyi Cheng, “Photon Interaction Position-Dependent Time Walk Measurement for PET Detectors based on Continuous Crystal Coupled to a Multi-anode PMT”, 2016 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2016), pp1-4, M04B-4, Strasbourg, France, Oct. 29- Nov.5, 2016.

[25].Cong Hui, Yonggang Wang and Xiaoming Lu, “Implementation of a High Throughput LDPC Codec in FPGA for QKD System”, 2016 13th IEEE International Conference on Solid-State and Integrated Circuit Technology (ICSICT), Oct.25-28, 2016, Hangzhou, China.

[26].Chong Liu, Yonggang Wang, “A 128-Channel, 710 MS/s Throughput, and Less than 10 ps RMS Resolution Time-to-Digital Converter Implemented in a Kintex-7 FPGA”, IEEE Transactions on Nuclear Science, Vol.62, No.3, JUNE 2015, pp773-783.

[27].Yonggang Wang, Liwei Wang, Deng Li, Xinyi Cheng, Yong Xiao, “Self-Organizing Map Neural Network-Based Depth-of-Interaction Determination for Continuous Crystal PET Detectors”, IEEE Transactions on Nuclear Science, Vol.62, No.3, JUNE 2015, pp766-772.

[28].Yonggang Wang and Chong Liu, “A Nonlinearity Minimization-Oriented Resource-Saving Time-to-Digital Converter Implemented in a 28 nm Xilinx FPGA” IEEE Transactions on Nuclear Science, Vol.62, No.5, October 2015, pp2003-09.

[29].LU XiaoMing, Zhang LiJun*, WANG YongGang*, CHEN Wei, HUANG DaJun, LI Deng, WANG Shuang, HE DeYong, YIN ZhenQiang, ZHOU Yu, HUI Cong & HAN ZhengFu “FPGA based digital phase-coding quantum key distribution system”, SCIENCE CHINA, Physics, Mechanics & Astronomy, December 2015, Vol. 58, No. 12, pp120301-8。

[30].Yonggang Wang, Chong Liu and Xinyi Cheng, Deng Li “Spartan-6 FPGA Based 8-Channel Time-to-Digital Converters for TOF-PET Systems”, 2015 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2015), pp1-4, M3CP-5, San Diego, Oct. 31- Nov.7, 2015.

[31].Wang Yonggang, Cheng Xinyi, Li Deng, Zhu Wensong, Liu Chong, “A linear time-over-threshold digitizing scheme and its 64-channel DAQ prototype design on FPGA for a continuous crystal PET detector”, IEEE Transactions on Nuclear Science, Vol. 61, No.1, Feb. 2014, pp99-106.

[32].Yonggang Wang, Deng Li, Xiaoming Lu, Xinyi Cheng, Liwei Wang, “Self-Organizing Map Neural Network-Based Nearest Neighbor Position Estimation Scheme for Continuous Crystal PET Detectors”, IEEE Transactions on Nuclear Science, Vol. 61, No.5, October 2014, pp2446-2455.

[33].Yonggang Wang, Yong Xiao, Wensong Zhu, “A Method Generating a Time-Varying Threshold to Keep the Time-over-Threshold Linear with Nuclear Pulse Amplitudes”, 2014 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2014), pp 1-4, N03-1, Seattle, Nov. 2014.

[34].Yonggang Wang, Liwei Wang, Deng Li, Xinyi Cheng “A New Method of Depth-of-Interaction Determination for Continuous Crystal PET Detectors”, 2014 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2014), pp 1-4, M06-1, Seattle, Nov. 2014.

[35].Xinyi Cheng, Yong Xiao, Yonggang Wang, “Design of a High Speed Online Maximum Likelihood Positioning Algorithm Using FPGA”, 2014 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2014), pp 1-4, M18-66, Seattle, Nov. 2014.

[36].Deng Li, Yonggang Wang, Liwei Wang, Xinyi Cheng, “Implementation of Self-Organizing Map Based Positioning Scheme on FPGA”, 2014 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS-MIC2014), pp 1-4, M18-67, Seattle, Nov. 2014.

[37].Xiaoming LU, Yonggang WANG and Yang YANG, “A High-Speed Quantum Key Distribution System Based on Faraday-Michelson Interferometers”, Proceedings of the 7th IEEE/International Conference on Advanced Infocomm Technology, pp148-154, Fuzhou, China, Nov. 2014.