Hello! I’m Fangzhou

Ph.D. Candidate, Peking University
Department of Electronics, School of Electronics Engineering and Computer Science

Research Interests
(1) Satellite navigation and positioning, inertial/intergated navigation, simultaneous localization and mapping;
(2) Communication, millimeter-wave(MMW)/terahertz(THz) imaging technology;
(3) Image processing and electromagnetic computing.

Date of Birth: Feb. 04 1996
Email: fangzhou_tang@126.com / tangfz@hust.edu.cn / tangfz@stu.pku.edu.cn
Address: No. 5 Yiheyuan Rd., Haidian Dist., Beijing, P.R.China

Education

I received my B.S. degree in Electronic and Information Engineering from School of Microelectronics and Communication Engineering, Chongqing University(CQU), Jun. 2017 and M.S. degree in Electromagnetic Field and Microwave Technology, Department of Electronic Engineering, School of Electronic Information and Communications, Huazhong University of Science and Technology(HUST), Aug. 2020. The main research interests are target detection, image processing and millimeter-wave technology. At present, I’m a research assistant of Department of Electronic Engineering in HUST. From Sep. 2021 to Jun. 2025. I will persue my Ph.D. degree in Electromagnetic Field and Microwave Technology, Department of Electronics, School of Electronics Engineering and Computer Science, Peking University(PKU). The research interest in Satellite Navigation and Positioning.

Peking University ,Beijing China

Ph.D. student in Electromagnetic and Microwave Technology

Research Interest: Satellite Navigation and Positioning

Department of Electronics, School of Electronics Engineering and Computer Science

Advisor: Prof.Bocheng Zhu

Sep. 2021-Jun. 2025

Huazhong University of Science and Technology ,Wuhan China

M.S. in Electromagnetic and Microwave Technology

Research Interest: Millimeter Wave (MMW)/ Terahertz (THz) imaging technology

Department of Electronic Engineering, School of Electronic Information and Communications

Advisor: Prof.Liangqi Gui

Sep. 2017-Jun. 2020

GPA: 3.32/4.0

Chongqing University ,Chongqing China

B.S. in Electronic Information Engineering

School of Microelectronics and Communication Engineering

Sep. 2013-Jun. 2017

GPA: 3.12/4.0

Work Experience

Huazhong University of Science and Technology ,Wuhan China

Research Assistant in National Key Laboratory of Science and Technology on Multi-Spectral Information Processing, School of Electronic Information and Communications.

Sep. 2020-Jun. 2021

Publications

• Fangzhou Tang, Liangqi Gui * , Jinbang Liu, Ke Chen, Liang Lang, and Yayun Cheng. Metal Target Detection Method Using Passive Millimeter-wave Polarimetric Imagery[J]. Optics Express, 2020, 28(9):13336-13351. (SCI&EI) [PDF]

• Fangzhou Tang. Research on characteristics analysis and target detection method in millimeter-wave radiation image of ship target on sea surface[D]. Huazhong University of Science and Technology, 2020. (Master’s Thesis) [in Publishing]

• Fangzhou Tang, Liangqi Gui * , Shuaidan Yan, Yu Ding, Bo Huang, Ke Chen and Liang Lang. Passive Millimeter-Wave Imaging Experiment and Simulation of Bubbles in Ship Wakes[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Guangzhou, China, May. 2019. (EI) [PDF]

• Fangzhou Tang, Liangqi Gui * , Kaixin Deng, Ziwei Li, Ke Chen and Liang Lang. Analysis of Shadow in Passive Millimeter-Wave Radiation Image[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Shanghai, China, Sep. 2020. (EI) [PDF]

• Xinling Liu, Liangqi Gui * , Fangzhou Tang, Yubin Jin, Ke Chen, Liang Lang. Impact of Zooplankton on Underwater Wireless Optical Channel Transmission[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, May. 2021. (EI) [in Publishing]

• Kaixin Deng, Liangqi Gui * , Wenning Xu, Fangzhou Tang, Ke Chen and Liang Lang. Target Detection Method Based on Reflection in Passive Millimeter-Wave Radiation Image[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, May. 2021. (EI) [in Publishing]

• Xiaobao Gui, Liangqi Gui * , Kai Leng, Xin Chen, Lixing Liu, Fangzhou Tang, Ke Chen, Liang Lang. Phase Gradient Metasurface Wall Structure For Antenna Array Decoupling[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, May. 2021. (EI) [in Publishing]

• Shuaidan Yan, Liangqi Gui * , Fangzhou Tang, Jinbang Liu, Ke Chen, and Liang Lang. Passive Millimeter-Wave Radiation Characteristic Analysis of Kelvin Wake[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Shanghai, China, Sep. 2020. (EI) [PDF]

• Yu Ding, Liangqi Gui * , Xiong Chen, Feng Zhao, Fangzhou Tang, Bo Huang, Chongbin Yao, Zhe Zhang. Simulation and Experiment of Millimeter Wave Radiation of Non-uniform Temperature Stealth Coating[C]. National Conference on Microwave Millimeter Wave (NCMMW), Shanghai, China, Sep. 2020：1081-1083. (CNKI) [PDF]

• Xin You, Liangqi Gui * , Xiaobao Gui, Ke Chen, Liang Lang, Fangzhou Tang. A Metamaterial-Corrugated Antipodal Linearly Tapered Slot Antenna for MMW Applications[C]. National Conference on Microwave Millimeter Wave (NCMMW), Guangzhou, China, May. 2019:971-974. (CNKI) [PDF]

• Bo Huang, Liangqi Gui * , Yayun Cheng, Jinlong Su, Zhuoting Han, Fangzhou Tang. Millimeter-wave radiation characteristics of the coating-stealth material with inhomogeneous temperature distributions [C]. National Conference on Microwave Millimeter Wave (NCMMW), Chengdu, China, May. 2018:588-591. (CNKI) [PDF]

• Zhuoting Han, Liangqi Gui * , Yayun Cheng, Jinlong Su, Bo Huang, Fangzhou Tang. The Influence of Moving on the Radiation Characteristics of the Target [C]. National Conference on Microwave Millimeter Wave (NCMMW), Chengdu, China, May. 2018:1016-1019. (CNKI) [PDF]

• Yan Zhenghang, Guan Xiaoling, Tang Fangzhou, Yin Yong * . A Method of Measuring Vehicle Speed Real-Timely Based on Grabbing Non-uniform Video Image Frame[J]. Electronics World, 2016, 38(13):177-178,. (CNKI) [PDF]

• Yin Yong, Yan Zhenghang, Guan Xiaoling, Tang Fangzhou. A Method of Measuring Vehicle Speed Real-Timely Based on Grabbing Non-uniform Video Image Frame. National Invention Patent, China. Patent Number: ZL 2016 1 0327118.4. Patent received May, 17, 2016; accepted February, 09, 2018. [PDF]

Research & Project Experience

Project 1: Research on target polarization characteristics—Target Classification Method based on Polarization Theory [Group Research]

Advisor: Prof. Liangqi Gui
Jan./2019-Apr./2020

• The polarization theory was used to analyze the millimeter-wave radiation characteristics of materials with different electromagnetic parameters and roughness characteristics under different polarization modes, and an image fusion method based on orthogonal polarization differences was proposed using this characteristic.

• Performed a histogram analysis on the fused image and designed an adaptive threshold classification algorithm to obtain the threshold for distinguishing the target from the background.

• Evaluated the fused image from the frequency domain, gradient, statistical characteristics, and entropy information, and selected the best image for target detection.

• The accuracy and feasibility of the target detection method are verified through simulations and actual experiments.

Project 2: Characteristics of Moving Target[Group Research]

Advisor: Prof. Liangqi Gui
Jan./2018-Dec./2019

• Aimed to study the millimeter wave radiation characteristics of stealth aircraft and stealth coatings in motion.

• Established a radiation calculation model for typical moving targets in the general environment by using the theory of radiation measurement.

• Used 3D modeling software such as Soildwork to establish a surface element model for the shape and structure of a typical target aircraft, optimized the mesh, and set the parameters of the materials for different targets.

• Established the temperature change effect caused by the friction between the target and the air at different speeds using the heat conduction theory, and added the temperature change to the calculation process to optimize the model.

• Combined the radiation model with different target modeling in MATLAB to, compared and analyzed the results under different conditions to verify the theory.

Project 3: Characteristics of Aircraft Plume Group Research[Group Research]

Advisor: Prof. Liangqi Gui
Sep./2017-Sep./2018

• Used Ansys Fluent to simulate the flow field of aircraft tail flames with different fuels and thrusts, including temperature field, electron density distribution, pressure field, etc.

• U.S. HITRAN spectral database was used to calculate the absorption coefficients in the millimeter wave band for CO₂, HCL, H₂0, O₂ and other gases and used to calculate the electromagnetic radiation intensity.

• Plasma theory was used to analyze the plasma distribution in the tail flame. Combined with the bremsstrahlung theory, the plasma radiation intensity of the tail flame was calculated.

• Described the change in radiation intensity and detectability of moving targets due to tail flames in practical situations.

Project 4: Characteristics of Ship’s Wake[Independent Research]

Advisor: Prof. Liang Lang Sep./2018-Dec./2019

• Used the method of moment, Kirchhoff approximation, small slope approximation and other electromagnetic scattering calculation methods and rough surface theory to establish a radiation calculation model of wake foam

• Applied mature Kelvin wake modeling methods to simulate wakes and compare data changes under different parameters.

• Used radiation measurement theory to calculate the radiation intensity of foam-bearing Kelvin wakes.

• The polarization theory was used to demonstrate the feasibility of ship wake detection, and the detection accuracy under different polarization modes was compared.

Project 5: Study on Millimeter Wave Radiation Image Processing Group Research[Independent Research]

Advisor: Prof. Liangqi Gui
Sep.Seo/2019-Sep./2018

• Used basic image filtering, super-resolution, and image registration methods to improve image accuracy and make targets clearer.

• The Faster R-CNN method was applied to target detection of radiation images, which verifies its accuracy and feasibility.

• Used radiation theory to give real experimental images that have been lost or replenished with image information before processing.

Project 6: Vehicle Speed Measurement based on Video, National University Student Innovation Training Program[Group Research]

Advisor: Prof. Yong Yin
Jun./2015-Jul./2016

• Set up the VS 2010 environment platform, learn the use of opencv open source library functions, and master basic image processing methods.

• Proposed innovative method of non-uniform video frames to realize program design and complete the system design and verification of the entire hardware and group price.

• Obtained real data through experimental methods and give detailed analysis of the results to verify the correctness of the method.

Project 7: Design and Research of Video Ranging System[Undergraduate Thesis]

Advisor: Prof. Yangfan Huang
Sep./2016-jun./2017

• Used MATLAB to complete the image processing methods, including image graying, equalization, filtering, edge detection, dilation corrosion and other image processing methods

• Established a license plate recognition algorithm through morphological processing and pixel statistics, and use the character library to match characters to identify characters.

• Modeled the relationship between the size and distance of license plates at different distances through experiments, and then established a ranging method based on license plate detection and designed ranging experiments to prove the effectiveness and robustness of the method.

Skills

• Programming Skills: MATLAB, Java, C, Python, HTML, MySQL.

• Professional Platform: Visual Studio, OpenCV, CST, HFSS, ADS, Hyperlynx, Windows, Ubuntu, Raspberry-Pi, OpenMP.

• English Level: Toefl/iBT: 89/96, Gre: 312.

Awards

Chongqing University

• Academic Scholarship in 2013-2015

• Excellent Undergraduate in 2016-2017

• Excellent Bachelor of Science in Engineering in 2017

Huazhong University of Science and Technology

• Excellent Post-Graduate in 2017-2018

• Academic Scholarship in 2017-2019

• Social Activist in 2018-2019

• Excellent Master of Science in Engineering in 2020 (Summer)

Contacts

Peking University: Link in Schloar@Peking University

Research Gate: Link in Research Gate

Linkedin: Link in Linkedin

Sina Weibo: Link in Sina Weibo

【中文简历】

唐 方 舟

北京大学 博士研究生

1996.02.04 汉 湖北省石首市 共青团员

研究方向
(1) 卫星导航与定位, 惯性/组合导航;
(2) 通信, 毫米波/太赫兹成像;
(3) 图像处理，电磁计算.

邮箱: fangzhou_tang@126.com

地址:北京市海淀区颐和园路5号北京大学

主页: https://fangzhoutang.github.io

教育背景

北京大学 博士研究生(全日制学术型) 01/2021-06/2025

信息科学与技术学院 电子学系 应用电子学研究所

专业：电磁场与微波技术 研究方向：卫星导航与定位

华中科技大学 工学硕士(全日制学术型) 09/2017-08/2020

电子信息与通信学院 电子工程系 多谱信息处理技术国家重点实验室

专业：电磁场与微波技术 研究方向：毫米波/太赫兹成像技术

GPA: 3.28(9/28) Toefl: 89/96 GRE: 312

重庆大学 工学学士(全日制) 09/2013-06/2017

微电子与通信工程学院

专业：电子信息工程

GPA: 3.23(7/30) CET4: 542 CET6: 485

工作经历

华中科技大学 电子信息与通信学院 电子工程系 09/2020-01/2021

工作岗位: 科研助理

科研团队: 多谱信息处理技术国家重点实验室

科研成果

学术论文：

• Fangzhou Tang, Liangqi Gui * , Jinbang Liu, Ke Chen, Liang Lang, and Yayun Cheng. Metal Target Detection Method Using Passive Millimeter-wave Polarimetric Imagery[J]. Optics Express, 2020, 28(9):13336-13351. (SCI&EI) [PDF]

• 唐方舟. 海面舰船毫米波辐射图像特征分析与目标检测方法研究[D]. 华中科技大学, 2020. [in Publishing]

• Fangzhou Tang, Liangqi Gui * , Shuaidan Yan, Yu Ding, Bo Huang, Ke Chen and Liang Lang Passive Millimeter-Wave Imaging Experiment and Simulation of Bubbles in Ship Wakes. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Guangzhou, China, May. 2019. (EI) [PDF]

• Fangzhou Tang, Liangqi Gui * , Kaixin Deng, Ziwei Li, Ke Chen and Liang Lang. Mechanism and Analysis of Object Projected Shadow in Passive Millimeter-Wave Radiation Image. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Shanghai, China, May. 2020. (EI) [PDF]

• Xinling Liu, Liangqi Gui * , Fangzhou Tang, Yubin Jin, Ke Chen, Liang Lang. Impact of Zooplankton on Underwater Wireless Optical Channel Transmission[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, May. 2021. (EI) [in Publishing]

• Kaixin Deng, Liangqi Gui * , Wenning Xu, Fangzhou Tang, Ke Chen and Liang Lang. Target Detection Method Based on Reflection in Passive Millimeter-Wave Radiation Image[C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, May. 2021. (EI) [in Publishing]

• Xiaobao Gui, Liangqi Gui, Kai Leng, Xin Chen, Lixing Liu, Fangzhou Tang, Ke Chen, Liang Lang. Phase Gradient Metasurface Wall Structure For Antenna Array Decoupling[C]. *IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, May. 2021. (EI) [in Publishing]

• Shuaidan Yan, Liangqi Gui * , Fangzhou Tang, Jinbang Liu, Ke Chen and Liang Lang. Passive Millimeter-Wave Radiation Characteristic Analysis of Kelvin Wake [C]. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT), Shanghai, China, May. 2020. (EI) [PDF]

• 严正行，管晓玲，唐方舟，印勇 * . 一种基于非均匀视频帧的车辆视频测速方法[J]. 电子世界, 2016, 38(13):177-178. [PDF]

• 丁宇，桂良启 * ，陈雄，赵锋，唐方舟，黄博，姚崇斌，张喆. 非均匀温度隐身涂层毫米波辐射仿真与实验 [C]. 全国微波毫米波会议，上海，中国，2020 年 5 月. [in Publishing]

• 游鑫，桂良启 * ，桂小宝，陈柯，郎量，唐方舟. 一种加载超材料的低副瓣毫米波共轭直线渐变缝隙天线 [C]. 全国微波毫米波会议，广州，中国，2019 年 5 月：971-974. [PDF]

• 韩卓廷, 桂良启 * , 程亚运, 苏金龙, 黄博, 唐方舟. 运动对飞行器毫米波辐射特性的影响研究[C]. 全国微波毫米波会议, 成都, 中国, 2018 年 5 月: 1016-1019. [PDF]

• 黄博, 桂良启 * , 程亚运, 苏金龙, 韩卓廷, 唐方舟. 非均匀温度剖面隐身涂层材料的毫米波辐射特性[C]. 全国微波毫米波会议, 成都, 中国, 2018 年 5 月: 588-591. [PDF]

专利：

• 印勇，严正行，管晓玲，唐方舟. 一种基于非均匀视频帧的实时车辆视频测速系统. 中国发明专利. 专利号: ZL 201610327118.4. 专利公开时间：2018.02.09. [PDF]

科研项目

重庆大学：

• 国家大学生创新训练项目 ——基于视频的测速方法研究

• 本科毕业论文 ——视觉测距系统的设计与研究

• 课程综合设计 ——基于单片机的银行叫号系统设计

华中科技大学：

• 国家自然科学基金面上项目 ——目标毫米波辐射特性研究

• 强电磁与新技术国家重点实验室开放课题 ——尾焰毫米波辐射特性研究

• 尾迹辐射特性研究 ——舰船尾迹微波辐射特性与机理研究

• 目标极化特性研究 ——基于极化理论的目标探测方法

• 硕士学位论文 ——海面舰船毫米波辐射图像特征分析与目标检测方法研究

部分项目简介：

目标极化特性研究—基于极化理论的目标检测方法

导师: 桂良启 教授 01/2019-02/2020

• 利用极化理论分析了不同电磁参数和不同极化模式下的粗糙度特征的目标毫米波辐射特性，提出了利用该特性的基于正交极化差异的图像融合方法。

• 对融合后的图像进行直方图分析，设计一种自适应阈值分类算法，获取目标与背景的分割阈值。

• 从频域、梯度、统计特征和熵信息评估融合图像，并选择最佳图像进行目标检测。

• 通过仿真和实际实验验证了目标检测方法的准确性和可行性。

典型目标的毫米波辐射特性研究

项目 1: 运动目标特性

导师: 桂良启 教授 01/2018-02/2020

• 旨在研究隐身飞机和隐身涂层在运动中的毫米波辐射特性。

• 利用辐射测量理论，建立了一般环境下典型运动目标的辐射计算模型。

• 使用Soildwork等三维建模软件，建立典型目标飞行器的形状和结构的面元模型，优化网格，设置不同目标的材料参数。

• 利用热传导理论建立了不同速度下目标与空气摩擦引起的温度变化效应，并将温度变化加入到计算过程中，对模型进行优化。

• 在MATLAB中将辐射模型与不同目标建模相结合，对比分析不同条件下的结果，验证理论。

项目 2: 尾焰特性

导师: 桂良启 教授 09/2017-09/2018
• 利用Ansys Fluent对不同燃料和推力作用下的飞机尾焰流场进行了模拟，包括温度场、电子密度分布、压力场等。

• 美国HITRAN光谱数据库用于计算CO₂、HCL、H₂0、O₂等气体在毫米波波段的吸收系数，并用于计算电磁辐射强度。

• 等离子体理论用于分析尾焰中的等离子体分布。结合轫致辐射理论，计算了尾焰等离子体辐射强度。

• 描述了在实际情况下由于尾焰导致的辐射强度和移动目标可探测性的变化。

项目 3: 舰船尾迹特性（主持）

导师：郎量 副教授 09/2018-02/2019

• 利用矩量法、Kirchhoff近似、小斜率近似等电磁散射计算方法和粗糙表面理论，建立了尾迹泡沫辐射计算模型

• 应用成熟的开尔文尾迹建模方法模拟尾迹，比较不同参数下的数据变化。

• 利用辐射测量理论计算含泡沫的开尔文尾迹的辐射强度。

• 利用偏振理论论证了船舶尾迹检测的可行性，并比较了不同偏振模式下的检测精度。

毫米波辐射图像处理方法研究

导师: 桂良启 教授 09/2019-09/2018
• 使用基本图像滤波、超分辨率和图像配准方法，提高图像精度，使目标更清晰。

• 将快速R-CNN方法应用于辐射图像的目标检测，验证了其准确性和可行性。

• 使用辐射理论给出真实的实验图像，已经丢失或在处理前补充图像信息。

基于视频的车速测量，全国大学生创新训练项目

导师: 印勇 教授 06/2015-07/2016

• 搭建VS 2010环境平台，学习opencv开源库功能的使用，掌握基本的图像处理方法。

• 提出了非均匀视频帧的创新方法来实现程序设计，完成了整个硬件和集团价格的系统设计和验证。

• 通过实验方法获得真实数据，并对结果进行详细分析，验证方法的正确性。

视频测距系统的设计与研究，本科毕业论文

导师：黄扬帆 教授 09/2016-06/2017

• 用MATLAB完成了图像处理方法，包括图像灰度化、均衡化、滤波、边缘检测、膨胀腐蚀等图像处理方法

• 通过形态学处理和像素统计建立车牌识别算法，利用字符库匹配字符进行字符识别。

• 通过实验对不同距离下车牌尺寸与距离的关系进行建模，建立基于车牌检测的测距方法，并设计了测距实验，验证了该方法的有效性和鲁棒性。

科研报告:

1、华中科技大学强电磁与新技术开放课题-结题报告

2、国家自然科学基金面上项目-年度进展报告

3、舰船尾迹微波辐射特性与机理研究-申报书

荣誉奖励

重庆大学 全额学业奖学金 2013-2016

华中科技大学 全额学业奖学金 2017-2019

华中科技大学 三好研究生 2017-2018

华中科技大学 社会活动积极分子 2018-2019

华中科技大学 优秀毕业硕士研究生(暑期) 2020

主要技能

1通信原理，信号与系统，数字信号处理，现代通信网，数字图像处理等

2矩阵论，信号检测与估值，电磁兼容，微波遥感，泛函，数值分析，天线技术等

3 Matlab编程，HFSS、CST等电磁仿真软件，Opencv开源库等

个人评价

自我评价：本科时曾参加院辩论队，喜欢思辨与表达，同时勤奋科研，严格要求自己；硕士期间认真完成项目任务并担任了自然科学基金项目组组长，负责进度安排与任务分配，有较好的协同组织与交流能力。对于文献调研、综述等或实验、数据分析等工作都具有丰富经验。性格开朗，平时与老师同学朋友和谐相处，爱好运动与健身，心态积极向上。

业余爱好：曾担任过高中英语补习老师，担任过本科课程助教，热爱学习，爱好生活，性格开朗；与此同时，在生活中爱好广泛，喜欢羽毛球，游泳，音乐，旅行等。

科研目标：保持积极科研态度，学习计算机语言与算法。热爱祖国，希望在卫星导航领域内攻读并获得Ph.D.学位，为国家卫星导航事业贡献自己的力量。

其他主页

北大学者: Link in Scholar@Peking University

Research Gate: Link in Research Gate

领英: Link in Linkedin

新浪微博: Link in Sina Weibo