基本信息Publication
Basics about me
硕士生导师 助理研究员；哈尔滨工业大学电子与信息工程学院微波工程系教师。

Assistant professor in the Department of Microwave Engineering




Welcome CSC master students to join my team! If you have the same interest of my research, please contact me by emails.



Professional career
时间工作经历
Dec, 2014- NowAssistant prof, Department of Microwave Engineering, Harbin Institute of Technology
Jan,2012 - Dec, 2013Department of Radio Science and Engineering, Aalto University

u000F Team leader of a Cubesat spacescraft avionics systemu000F Primary rapporteur for avionics system protocol specifcations.u000F Theoretical research in energy eu000Eciency network pathing and routing protocols design in the mobile wireless sensor swarm formation.
Apr, 2008 - Nov, 2014Research Center of Satellite Technology, Harbin Insititute of Technology

u000F HW development manager for a spacecraft redundant ERC 32 safety control system.u000F System design engineer for a spacecraft reconfgurable safety control system.u000F System design engineer for Hardware-in-loop simulations for multi-agency system.u000F Theoretical research on pulsar navigation and sensor design.u000F Working on the spacecraft HW&SW development for an ARM7 embedded system.u000F Working on system simulation


Education career
Sep 2001 - Jul 2005, BS. Electronic Engineering, Harbin Insititute of TechnologySep 2005 - Jun 2011, PHD, Information and communication Engineering, Harbin Insititute of Technology


Current Interest
Automobile radar signal processing;

UWB radar signal processing;

Deep learning in the microwave fields for sensing and medical applications;

Design of satellite Avionics and embedded systems.

Publications



[1]Kai Yao, Shengchang Lan, Chao Tan, etc. The Front-End Design of a Hydrogen Spectral Line Receiver for Micro Satellite Navigation , 2018 IEEE AP-S/URSI Conference. 2018, Boston, July 9-14.

[2]Kai Yao, Shengchang Lan, Meng Xia, Lijia Chen. Active Countermeasure using EMI Honeypot against TEMPEST Eavesdropping in High-Speed Signalling. 2018 IEEE AP-S/URSI Conference. 2018, Boston, July 9-14.

[3]Kai Yao, Shengchang Lan, Haoyu Tang, etc. A 24GHz micropatch antenna array for human hand

gestures detection. 2018 IEEE AP-S/URSI Conference. 2018, Boston, July 9-14.

[4]Shengchang Lan, Zonglong He, Weichu Chen, Lijia Chen. Hand Gesture Recognition using Convolutional Neural Networks, 2018 IEEE AP-S/URSI Conference. 2018, Boston, July 9-14.

[5]Shengchang Lan, Zonglong He, Kai Yao, Weichu Chen. Hand Gesture Recognition using a three-dimensional 24GHz Radar Array. International Microwave Symposium, 2018, Philadelphia, June 10-15.

[6]Lan Shengchang, He Zonglong, Haoyu Tang, Kai Yao, Wenshuang Yuan. A hand gesture recognition system based on 24GHz radars . 2017 International Symposium on Antennas and Propagation (ISAP), 1-2

[7]Kai Yao; Shengchang Lan; Lingfei Xu. A high gain Fabry-Perot cavity antenna with a double-layered partially reflecting frequency selective surface structure. 2017 International Symposium on Antennas and Propagation (ISAP),1-2

[8]Kai Yao; Shengchang Lan; Chaofan Xu; Runbing Su; Xuechun Liu. A wearable EEG-based control network and emergency medical assistance system. 2017 International Symposium on Antennas and Propagation (ISAP),1-2

[9]Hao Li; Lijia Chen; Jinghui Qiu; Shengchang Lan; Caitian Yang. Half space radiation antenna for UWB ranging and localization application. 2017 International Symposium on Antennas and Propagation (ISAP),1-2

[10]Lijia Chen; Changlei Wang; Hao Li; Shengchang Lan, A miniaturized antipodal vivaldi antenna for microwave imaging. 2017 International Symposium on Antennas and Propagation (ISAP),1-2

[11]Li Jionghui, Lan Shengchang, et al. A novel superposed frame descriptor structure for VCM LEO satellite-ground communications. International Astronautical Congress 2017, Adelaide, Australia.

[12]Lan Shengchang, et al. Investigation on Traffic Flow Control by Using A Millimeter Wave Radiometric Imaging Syste, 2017 IEEE AP-S/URSI Conference.

[13]Lan Shengchang, Li Hao, Tang Haoyu, He Zonglong,Yang Caitian, Ma Jing. A time domain RCS measurement system by using an ultra-wide band radar, 2016 IEEE Asia-Pacific Conference on Applied Electromagnetics, APACE 2016, p 384-387, 2016.

[14]Alexander Denisov, Qiu Jinghui, Lan, Shengchang, et al. In THz band Josephson junction can work as the super wide receiver, the frequency-meter and the tuner of generators. Infrared, Millimeter, and Terahertz waves (IRMMW-THz), 2016 41st International Conference.

[15]Chu Hongjun, Lan Shengchang, et al. Design and investigation of a compact slot antenna with WLAN band rejection for UWB systems, 2016 IEEE AP-S/URSI Conference.

[16]Liu Beijia, Qiu Jinghui; Lan Shengchang, Alexander Denisov, Novel design of dual-band conical dielectric resonator antenna with circular patch feed, 2016 IEEE AP-S/URSI Conference.

[17]Lin Shu, Liu Guanjun, Zhang Yuwei, Zong Hua, Qiu Shuang, Lan Shengchang, Alexander Denisov, A low-profile vertical polarized omnidirectional radiated and broadband printed antenna, 2016 IEEE AP-S/URSI Conference.

[18]Lan, Shengchang; Duan, Lei; He, Zonglong; Yang, Caitian; Denisov, Alexander; Ivashov, Sergey; Anishchenko, Lesya，A 77GHz Bioradar antenna module design using microstrip arrays, 2016 IEEE Antennas and Propagation Society International Symposium, APSURSI 2016 - Proceedings, p 1177-1178, October 25, 2016, 2016 IEEE Antennas and Propagation Society International Symposium, APSURSI 2016 - Proceedings.

[19]Lan Shengchang, Caitian Yang, Beijia Liu, Jinghui Qiu, Alexander Denisov et al. Indoor Real-time Multiple Moving Targets Detection and Tracking Using UWB Antenna Arrays, 2015 International Symposium on Antennas and Propagation.

[20]Lan Shengchang, Yang Xu, et al. A Novel 24GHz Microstrip Array Module Design for Bioradars, 2015 International Symposium on Antennas and Propagation.

[21]Liu Beijia, Qiu Jinghui, Lin Shu, Wang Nannan, Lan Shengchang, Oleksandr Denisov, Ultra-wideband dielectric resonator antenna with circular patch feed, 2015 International Symposium on Antennas and Propagation, ISAP 2015.

[22]Alexander Denisov, Qiu Jinghui, Lan Shengchang, et al, About single block with receiver and frequency-meter in Terahertz band at the base of Josephson junction, 2015 IEEE 15th Mediterranean Microwave Symposium, MMS 2015

[23]Alexander Denisov, Qiu Jinghui, Lan Shengchang, Some minding about the creation of multi-spectrum passive terahertz imaging system. Proceedings of SPIE-international society for optical engineering 2015.

[24]Lan Shengchang, Denisov, Alexander; Qiu, Jinghui; Chu, Hongjun; Denisova, Kateryna Josephson junction as the pixel with voltage tuning of frequency in matrix passive imaging system, 2015 IEEE 4th Asia-Pacific Conference on Antennas and Propagation, APCAP 2015

[25]Qiu Jing Hui, Lan Shengchang, Alexander Denisov, Francesco Soldovieri, Ming He, Josephson generation is good for pixel in the array of passive imaging system, 2015 IEEE International Conference on Microwaves, Communications, Antennas and Electronic Systems, COMCAS 2015

[26]Lan Shengchang, Wang Nannan, et al, A new method towards traffic flow control by millimeter wave radiometers, 2015 IEEE MTT-S International conference on microwaves for intelligent mobility.

[27]Xu Yang, Qiu Jinghui, Yang Caitian, Chu Hongjun Lan Shengchang Alexander Denisov, A novel millimeter-wave antenna module design for automotive radar sensors, 2015 IEEE MTT-S International conference on microwaves for intelligent mobility.

[28]Alexander Denisov, Qiu Jinghui, Lan Shengchang, Some opinion about matrix terahertz imaging system based on Josephson junctions, SPIE Defense+security 2015.

[29]丁玉叶，兰盛昌，华伊，李梦立，潘瑞，徐国栋，小卫星PD 姿态控制器IP 核的FPGA 实现 哈尔滨工业大学学报，2012,44（3）,23-28

[30]兰盛昌,王松,徐国栋,一种面向任务优化的多核心星务管理系统设计 哈尔滨工业大学学报，2012,11（9），40-45。

[31]兰盛昌, 叶东, 林杰, 徐国栋, 曹星慧. X射线脉冲星矢量多平面观测的姿态测量. 光学精密工程. 2010, 18(2):397~406.

[32]兰盛昌, 徐国栋, 张锦绣.基于脉冲星相关的编队航天器间相对距离确定. 系统工程与电子技术. 2010，32(3): 57~61.

[33]LAN Shengchang, PAN Rui, et al. Synchronization of Spacecraft in Formation Flying by Pulsar Timing. International Aerospace Congress, 2010, Prague.

[34]LAN Shengchang, WANG Jihe, SUN Rui and XU Guodong. Intersatellite Range Determination Using Multi-detector Observation of Pulsars. ISIT, 2009. Japan.

[35]LAN Shengchang, PAN Rui, et al. A Method to Calibrate the On-Board Timing Based on Pulsar Observation. 2011 7th IEEE Conference on Industrial Electronics and Applications,Beijing.

[36]LAN Shengchang, PAN Rui, et al. A Triple-Plane Attitude Measurement Method based on X-Ray Pulsar Observation. 2011 7th IEEE Conference on Industrial Electronics and Applications, Beijing.

[37]兰盛昌, 孙蕊, 邬树楠, 王继河, 徐国栋. 基于SoC的“微型核”星载电子系统设计. 哈尔滨工业大学学报. 2008, 40(7): 1026~1031.

[38]Lan Shengchang, Rui Sun, Jin-xiu Zhang, Ji-he Wang, Guo-dong Xu. Satellite Position Calibration in Distributed Spacecraft System by Multi-Dimensional Scaling. 2nd International Symposium on Systems and Control in Aerospace and Astronautics, ISSCAA 2008 .

[39]Lan Shengchang, Wang Jihe, Wang Feng, and Xu Guodong. Applications of General Cell Platform in Satellite Design for Formation Flying. 2007 Second IEEE Conference on Industrial Electronics and Applications .

[40]兰盛昌, 赵丹, 徐国栋. 星载电子系统数字化设计仿真平台. 系统仿真学报. 2007, 8(8): 15~22.




代表性已授权专利

[1]一种多信息融合编队航天器自主相对导航系统设计：中国，ZL**9.0. 2010.07.26，排名第1.

[2]一种模拟航天器上大型推力器的方法及其装置：中国，ZL**3.6，**，排名第4；

[3]基于气动力姿态控制的低轨飞行器及其姿态控制方法：中国，ZL**7.8，2012.11.21，排名第6；

[4]一种基于单粒子效应的X射线脉冲星探测器设计：中国，ZL**4.5. 2011.01.25，排名第2

[5]一种双处理器星载计算机：中国，ZL**3.8.2011-1-31，排名第1

[6]可重构星载计算机的正余弦函数IP核：中国，ZL**7.9. 2011.4.27，排名第3

[7]一种集群飞行模块航天器系统及其控制方法：中国，ZL**1.5. 2012.12.19，排名第4

[8]一种分布式航天器地面仿真系统及其实现方法：中国，ZL**1.9，2010.12.08排名第3

[9]一种可重构星载计算机永久性故障电路的在线修复方法 ：中国，ZL**0.1，2011.12.28排名第6

[10]一种用于可重构星载计算机的具有抗辐射功能的有限状态机：中国，ZL**4.3，2011.12.28，排名第4

[11]一种基于FPGA的多核心星载计算机：中国，ZL**5.9 **，排名第3

[12]一种基于PD控制律的姿态控制IP核的卫星姿态控制力矩计算系统：中国，ZL**3.3 2011.5.27排名第4

[13]基于星间信息交换的星间相对距离测量装置：中国，ZL**3.4. 2012.1.25 排名第3

[14]一种基于FPGA的自适应星载计算机及应用所述计算机实现内部资源动态分配的方法：中国，ZL**3.5. 2012.8.1，排名第4

[15]三维低温超导薄膜线圈超导特性测试设备与测试方法：中国，ZL**9.0. 2012.11.21，排名第6

[16]试验卫星用RS485双总线通信方法：中国，ZL**3.3. 2013.5.8，排名第3

[17]激光防护布料：中国，ZL**8.2 2009.9.2，排名第5

[18]一种时变计算机及其实现方法：中国，ZL**6.7. 2011.10.12排名第6

[19]一种卫星姿态定向系统及方法：中国，ZL**3.X, 2010.10.13 排名第8

[20]一种太阳矢量测量方法及其装置：中国，ZL**6.7, 2009.7.29 排名第6

[21]用飞轮等效模拟柔性附件振动对卫星产生干扰力矩的方法：中国，ZL**5.5, 2010/9/15，排名第5