登录  山东大学  English 
严发宝

教授 同专业博导 同专业硕导

主要任职:空间电磁探测技术实验室(LEAD)主任

性别:男

毕业院校:中南大学

学历:研究生(博士)毕业

学位:工学博士学位

在职信息:在职

所在单位:机电与信息工程学院

入职时间:2016-07-18

学科:控制科学与工程

办公地点:山东省威海市文化西路180号闻天楼南401

联系方式:hjc-8555@sdu.edu.cn yanfabao2022@163.com

学术荣誉:

2024-04-22曾获荣誉当选: 山东青年五四奖章

2023-12-17曾获荣誉当选: 山东省地球物理突出贡献奖

2023-10-13曾获荣誉当选: 第十四届刘光鼎地球物理青年科学技术奖

2022-12-18曾获荣誉当选: 中国新锐科技人物创新贡献奖

2022-09-28曾获荣誉当选: 青海省科技进步二等奖

2020-12-20曾获荣誉当选: 中国有色金属工业科学技术奖二等奖

2022-09-28曾获荣誉当选: 山东省地球物理科学技术一等奖

2019曾获荣誉当选: 山东大学青年教学能手

2022-01-14曾获荣誉当选: 山东省地球物理学会优秀科技工作者

2013-01-01曾获荣誉当选: 中国兵器装备集团公司科技进步二等奖

手机版

访问量:

最后更新时间:..

当前位置 中文主页 >> 科学研究

个人orcidhttps:/orcid.org/0000-0002-4451-7293


主要研究方向: 微波探测、智能信息处理与控制

     

所在科研团队:空间电磁探测技术实验室(LEAD)

   

主要学术论文(第一或通讯作者):

[31] ShuWang Chang (常树旺), Bing Wang (王冰), Guang Lu (路光), YuPeng Shen (申玉鹏), Yu Bai (白宇), ZiQian Shang (尚自乾), Lei Zhang (张磊), Zhao Wu (武昭), YanRui Su (苏艳蕊), Yao Chen (陈耀),  and FaBao Yan (严发宝)*. Development of a 90–600 MHz Meter-wave Solar Radio Spectrometer. The Astrophysical Journal Supplement Series, 2024, 272 21. https://iopscience.iop.org/article/10.3847/1538-4365/ad3de7.(2022IF:8.7)

[30]  Yuanyuan Zhang(张园园)), Lei Zhang(张磊), Zhao Wu(武昭), Yanrui Su(苏艳蕊), and FaBao Yan (严发宝)*. Design and FPGA implementation of an adaptive narrowband interference suppression filter.  IEEE Transactions on Instrumentation and Measurement, 2024, 73, 8002215.  https://doi.org/10.1109/TIM.2024.3372219.(2022IF:5.6)

[29]  Weidan Zhang, Bing Wang, Zhao Wu, Shuwang Chang, Yao Chen, and FaBao Yan*. An improved non-uniform fast Fourier transform method for radio imaging of coronal mass ejections. Astronomical Techniques and Instruments, 2024, 1(2): 117−127. https://doi.org/10.61977/ati2024006.

[28]  Weidan Zhang, Bing Wang, Zhao Wu, Yao Chen, and FaBao Yan*. Identification and extraction of type II and III radio bursts based on YOLOv7. Astronomy & Astrophysics, 2024, 683   A90.  https://doi.org/10.1051/0004-6361/202348026 .(2022IF:6.5)

[27]  ZiQian Shang (尚自乾), Zhao Wu (武昭), Yan Liu (刘岩), Yu Bai (白宇), Guang Lu (路光), YuanYuan Zhang (张园园), Lei Zhang (张磊), YanRui Su (苏艳蕊), Yao Chen (陈耀), and FaBao Yan (严发宝)*. The Calibration of the 35–40 GHz Solar Radio Spectrometer with the New Moon and a Noise Source. The Astrophysical Journal Supplement Series, 2023, 268 45. https://iopscience.iop.org/article/10.3847/1538-4365/acee00.(2022IF:8.7)

[26]  Lei Zhang (张磊), Yanrui Su (苏艳蕊), Zhao Wu (武昭), Shuwang Chang (常树旺), Yao Chen (陈耀), and Fabao Yan (严发宝)*. A New 6–15 GHz Solar Radio Observation System. The Astrophysical Journal Supplement Series, 2023, 268 27. https://doi.org/10.3847/1538-4365/ace7cc.(2022IF:8.7)

[25]  Fabao Yan*,  Yupeng Shen,  Tao Zou, Zhao Wu, Yanrui Su. A novel spectrogram visual security encryption algorithm based on block compressed sensing and Five-Dimensional chaotic system. Nonlinear Dynamics, 2023, 111: 9607–9628,  https://doi.org/10.1007/s11071-023-08317-w . (2022IF:5.6)

[24]  YongLin Yu (于永林), Shuo Xu (许硕), Lei Zhang (张磊), ZiQian Shang (尚自乾), ChengLong Qiao (乔成龙), ShuQi Li (李舒琪), Zhao Wu (武昭), YanRui Su (苏艳蕊), HongQiang Song (宋红强), Yao Chen (陈耀),and Fabao Yan(严发宝)*. A Two-element Interferometer for Millimeter-wave Solar Flare Observations. The Astrophysical Journal Supplement Series,  2023, 267 14. DOI: 10.3847/1538-4365/acd9af.(2022IF:8.7)

[23]   Tao Zou, Ziqian Shang, Yupeng Shen, Qiye Wen, Guang Lu, Zhao Wu, Yanrui Su, Haiwen Liu,and Fabao Yan*. Research on Calibration Sources for a 35-40 GHz Millimetre-Wave Solar Radio Observation System. IEEE Transactions on Antennas and Propagation, 2023, 71(5): 4094-4101. doi: 10.1109/TAP.2023.3253283.(2022IF:5.7)

[22]  Fabao Yan,  Zhao Wu,  Ziqian Shang,  Bing Wang,  Lei Zhang,  and Yao Chen*. The first flare observation with a new solar microwave spectrometer working in 35 - 40 GHz. The Astrophysical Journal Letters, 2023 942 L11.  https://iopscience.iop.org/article/10.3847/2041-8213/acad02(2022IF:7.9)

[21]  许丙强,白宇,路光,平劲松,王明远,杨文军,王震,严发宝*. 10-50 MHz地基低频射电天文数字接收机及上位机软件研制. 地球物理学报, 2023,66(3): 891-904, doi: 10.6038/cjg2022Q0015.  [XU BingQiang,  BAI Yu,  LU Guang,  PING JingSong,  WANG MingYuan,  YANG WenJun,  WANG Zhen,  YAN FaBao. Development of 10~50 MHz ground based low frequency radio astronomical digital receiver and PC software. Chinese Journal of Geophysics (in Chinese), 2023, 66(3): 891-904, doi: 10.6038/cjg2022Q0015](2022IF:1.4)

[20]  Yuxi Wang, Zhen Dong, Guang Lu, Zhao Wu, Yanrui Su, Yao Chen, and Fabao Yan*. Design of a high-resolution antenna array solar observing system for radio frequencies of 25-110 MHz. Publications of the Astronomical Society of Australia, Volume 39 , 2022 , e030.  https://www.doi.org/10.1017/pasa.2022.27. (2021IF:6.51

[19]  Yupeng Shen, Yu Bai, Tao Zou, Lei Zhang, Yanrui Su, Zhao Wu, Haiwen Liu and Fabao Yan*. Dynamical analysis of a new chaotic system and its application in ADC. Physica Scripta, 2022, 97, 085202.   https://iopscience.iop.org/article/10.1088/1402-4896/ac79d8(2021IF:3.081)

[18]  Yuanyuan Zhang (张园园), Lei Zhang (张磊), Ziqian Shang (尚自乾), Guang Lu (路光), Zhao Wu (武昭), Yanrui Su (苏艳蕊), Yao Chen (陈耀), Fabao Yan (严发宝)*. A 3 Giga sample per second 14-bit digital receiver with 9GHz input bandwidth for solar radio observation. Research in Astronomy and Astrophysics, 2022, 22(8), 085012.  https://doi.org/10.1088/1674-4527/ac7544(2021IF:1.889)

[17]  Yupeng Shen, Tao Zou, Lei Zhang, Zhao Wu, Yanrui SU and Fabao YAN*. A novel solar radio spectrogram encryption algorithm based on parameter variable chaotic systems and DNA dynamic encoding. Physica Scripta, 2022, 97, 055210.  https://doi.org/10.1088/1402-4896/ac65bf(2021IF:3.081)

[16]  Yuan Y. Zhang, Lei Zhang, Zi Q. Shang, Yan R. Su, Zhao Wu, and Fa B. Yan*. A New Multichannel Parallel Real-time FFT Algorithm for a Solar Radio Observation System Based on FPGA. Publications of the Astronomical Society of the Pacific, 2022, 134(1033), 034502.  https://doi.org/10.1088/1538-3873/ac5212(2021IF:5.842)

[15]  ZiQian Shang, Ke Xu, Yang Liu, Zhao Wu, Guang Lu, YuanYuan Zhang, Lei Zhang, YanRui Su, Yao Chen, and FaBao Yan*. A Broadband Solar Radio Dynamic Spectrometer Working in the Millimeter-wave Band. The Astrophysical Journal Supplement Series, 2022,258 25. https://doi.org/10.3847/1538-4365/ac4257  (2021IF:9.2)

[14]  Fabao Yan, Yang Liu, Ke Xu, Ziqian Shang, Yuanyuan Zhang, Lei Zhang, Yanrui Su, Guang Lu, Zhao Wu, Yao Chen. Study of the truncation strategy in the FPGA of a solar radio digital receiver. Publications of the Astronomical Society of Japan, Volume 73, Issue 2, April 2021, Pages 439–449.  https://doi.org/10.1093/pasj/psab010  (2020IF:5.071)

[13]  徐珂, 尚自乾,严发宝*, 刘洋, 武昭, 张园园, 张磊, 苏艳蕊, 陈耀. 毫米波宽带太阳射电观测系统的信号平坦度补偿方法. 中国科学:技术科学, 2021 51卷, 4期: 413-423.  https://doi.org/10.1360/SST-2020-0283   [Ke XU, ZiQian SHANG, FaBao YAN, Yang LIU, Zhao WU, YuanYuan ZHANG, Lei ZHANG, YanRui SU, Yao CHEN. Compensation method of signal flatness for a broadband solar millimeter radio observation system. SCIENTIA SINICA Technologica, 2021, 51(4): 413-423. https://doi.org/10.1360/SST-2020-0283](EI)

[12]  Fa-Bao Yan, Yang Liu, Ke Xu, Zi-Qian Shang, Yan-Rui Su, Guang Lu, Yao Chen, Zhao Wu. A broadband digital receiving system with large dynamic range for solar radio observation. Research in Astronomy and Astrophysics, 2020, 20(9):156.  https://doi.org/10.1088/1674–4527/20/9/156(2020IF:1.469)

[11]  Zhang W, Yan F*, Han F, He R, Li E, Wu Z and Chen Y. Auto Recognition of Solar Radio Bursts Using the C-DCGAN Method. Front. Phys. 2021, 9:646556.  doi: 10.3389/fphy.2021.646556(2020IF:3.56)

[10]  Su Y R (苏艳蕊),  Wang Q(王强),  Yan F B(严发宝)*, et al. Friction compensation for an m-Level telescope based on high-precision LuGre parameters identification. Research in Astronomy and Astrophysics, 2021, 21(1):019 (13pp).  https://doi.org/10.1088/1674-4527/21/1/19(2020IF:1.469)

[9]  Lu G*Yan F*, Zhang K, Zhao Y, Zhang L, Shang Z, Diao C, Zhou X. A Dual-Band High-Gain Subwavelength Cavity Antenna with Artificial Magnetic Conductor Metamaterial Microstructures. Micromachines. 2022; 13(1):58.  https://doi.org/10.3390/mi13010058(2021IF:3.523)

[8]  杜清府,程仁君,陈昌硕,李昕,张军蕊,冯士伟,苏艳蕊,陈耀,严发宝*.太阳射电观测系统多通道变频电路一致性补偿方法与实现. 中国科学:技术科学, 2019,49(08):901-909.  https://doi.org/10.1360/N092018-00408   [QingFu DU, RenJun CHENG, ChangShuo CHEN, Xin LI, JunRui ZHANG, ShiWei FENG, YanRui SU, Yao CHEN, FaBao YAN. A compensation method for the consistency of multi-channel mixing circuit for solar radio observation system. SCIENTIA SINICA Technologica, 2019, 49(8): 901-909(2019) https://doi.org/10.1360/N092018-00408 ](EI)

[7]  QF Du*,L Chen,YC Zhao,X Li,Y Zhou,JR Zhang,FB Yan*,SW Feng,CY Li,Y Chen. A solar radio dynamic spectrograph with flexible temporal-spectral resolution. Research in Astronomy and Astrophysics, 2017, 17(9):98.   DOI: 10.1088/1674-4527/17/9/98(2020IF:1.469)

[6]  严发宝, 苏艳蕊, 赵占锋, 左颢睿, 柳建新.基于GPU的小尺寸FFT在实时图像复原中的优化, 中南大学学报(自然科学版),2017,48(10):2691-2696.  DOI: 10.11817/j.issn.1672-7207.2017.10.019 [ Yan, F. and Su, Y. and Zhao, Z. and Zuo, H. and Liu, J. Optimization on FFT of small size in real-time image restoration based on GPU(in Chinese). Journal of Central South University (Science and Technology), 2017,48(10):2691-2696. DOI: 10.11817/j.issn.1672-7207.2017.10.019](EI)

[5]  严发宝, 柳建新, 苏艳蕊, 郑翾宇, 赵广东. 2017. 电磁法观测系统采样时钟不确定度及误差研究. 地球物理学报, 60(11): 4204-4211. doi:10.6038/cjg20171108     [YAN Fa-Bao, LIU Jian-Xin, SU Yan-Rui, ZHENG Xuan-Yu, ZHAO Guang-Dong. 2017. A study on uncertainty and error of sampling clock in electromagnetic prospecting systems. Chinese Journal of Geophysics (in Chinese), 60(11): 4204-4211, doi: 10.6038/cjg20171108](2020IF:0.847)

[4]  严发宝, 柳建新, 苏艳蕊, 韦艳刚, 郑翾宇. 2017. 用于电磁法观测系统开机自检的信号发生器实现方法. 地球物理学报, 60(11): 4341-4351.  doi: 10.6038/cjg20171122   [YAN Fa-Bao, LIU Jian-Xin, SU Yan-Rui, WEI Yan-Gang, ZHENG Xuan-Yu. 2017. A realization of signal generator used in boot-strap self-test of electromagnetic prospecting systems. Chinese Journal of Geophysics (in Chinese), 60(11): 4341-4351.  doi: 10.6038/cjg20171122](2020IF:0.847)

[3]  柳建新, 严发宝*, 苏艳蕊, 曹创华. 2017. 便携式近地表频率域电磁法仪器研究现状与发展趋势. 地球物理学报, 60(11): 4352-4363.  doi: 10.6038/cjg20171123   [LIU Jian-Xin, YAN Fa-Bao, SU Yan-Rui, CAO Chuang-Hua. 2017. Research status and development trend of the portable near-surface FDEM instrument. Chinese Journal of Geophysics (in Chinese), 60(11): 4352-4363, doi: 10.6038/cjg20171123](2020IF:0.847)

[2]  Lei Zhang, Yuanyuan Zhang, Ziqian Shang, Yanrui Su, Fabao Yan*, Zhao Wu. A generation and distribution system of clock signal source for signal acquisition system. Engineering Reports, 2022, 4(6):e12494.  doi: 10.1002/eng2.12494(EI)

[1]  Lu G , Li X , Zhao Y , Zhang K,Yan F*,Wu Z. Near-perfect transmission of a low-profile resonant structure with artificial magnetic conductor metamaterials. AIP Advances, 2021, 11(8):085106.  DOI: 10.1063/5.0050479(2020IF:1.548)


授权发明专利:

[21] 严发宝;于永林;尚自乾;张磊;陈耀,一种接收机射频链路非线性效应的模型筛选方法、平台,2021-08-09,中国,申请号:2021109083387;授权公告号:CN113591390B

[20] 严发宝;张磊;张园园;尚自乾;张卫丹;于永林;常树旺;武昭;苏艳蕊;路光;王冰;陈耀,基于多通道FFT算法的太阳射电频谱分析方法及系统,2020-11-30,中国,申请号:2020113711045;授权公告号:CN112446330B

[19] 严发宝;邹涛;申玉鹏;尚自乾;陈耀;苏艳蕊;武昭;路光,一种具有空腔的高发射率微波黑体源及定标测试方法,2021-09-27,中国,申请号:2021111360566;授权公告号:CN113739936B

[18] 严发宝;柳建新;赵广东;郑翾宇; 一种检测信号生成电路及自检系统,2016-05-06,中国,申请号:2016102970622;授权公告号:CN105929210B

[17] 严发宝;柳建新;苏艳蕊;郑翾宇;赵广东;一种线圈传感器谐振参数的测量方法及装置,2016-08-01,中国,申请号:2016106226212;授权公告号:CN106019200B

[16] 严发宝;柳建新;苏艳蕊;杜清府;武中臣;量化采样降噪方法,2016-12-13,中国,申请号:2016111443074;授权公告号:CN106788435B

[15] 严发宝;苏艳蕊;柳建新;杜清府;武中臣;复合式信号产生系统及方法,2016-12-16,中国,申请号:2016111675298;授权公告号:CN106774626B

[14] 严发宝;苏艳蕊;柳建新;赵广东;一种波形信号预判周期分析方法,2017-10-19,中国,申请号:2017109786545;授权公告号:CN107765100B

[13] 严发宝; 苏艳蕊;武昭;陈耀;杜清府;路光;杜桂强;射电接收机系统提高通道瞬时分辨率的观测方法,2018-07-10,中国,申请号:2018107516921;授权公告号:CN108809343B

[12] 严发宝;刘宇晴;陈耀;武昭;苏艳蕊;星形网络时间频率同步系统及同步方法,2019-05-27,中国,申请号:2019104469783;授权公告号:CN110166160B

[11] 严发宝; 王玉玺;路光;陈耀;武昭;苏艳蕊;王冰;一种基于均匀线阵宽带波束形成的栅瓣抑制方法及系统,2020-02-20,中国,申请号:2020101048037;授权公告号:CN111293438B

[10] 严发宝; 徐珂;陈耀;武昭;苏艳蕊;尚自乾;杨文超; 射电天文接收机的信号平坦度补偿方法及射电天文接收机, 2020-02-24,中国,申请号:2020101116388;授权公告号:CN111308224B

[9] 严发宝;王玉玺;武昭;路光;苏艳蕊;陈耀;王冰;一种实现均匀线阵宽带波束大角度扫描的方法,2020-03-02,中国,申请号:2020101354668;授权公告号:CN111224246B

[8] 严发宝;尚自乾;张园园;张磊;陈耀;武昭;苏艳蕊;路光;王冰;刘洋;徐珂;刘乾;许丙强;一种太阳射电辐射计及频谱观测系统与控制方法,2020-05-18,中国,申请号:2020104203852;授权公告号:CN111551784B

[7] 严发宝; 刘洋;尚自乾;徐珂;武昭;苏艳蕊;路光;陈耀; 一种太阳射电观测系统的信号自适应截位方法及系统, 2020-08-14,中国,申请号:202010818543X;授权公告号:CN111931669B

[6]  严发宝;尚自乾;许丙强;张园园;张磊;陈耀;武昭;苏艳蕊;路光;一种太阳射电观测仪器、系统及方法,2021-04-19,中国,申请号:2021104181487;授权公告号:CN113030596B

[5] 严发宝;申玉鹏;白宇;平劲松;张卫丹;许丙强;刘乾;王明远;路光;陈耀;苏艳蕊;武昭;一种VHF观测系统、阵列单机系统及方法,2021-04-21,中国,申请号:2021104317398;授权公告号:CN113156222B

[4] 严发宝;于永林;尚自乾;张磊;张园园;武昭;苏艳蕊;陈耀;一种接收机射频链路非线性效应的综合测试与建模平台,2021-05-27,中国,申请号:2021105843263;授权公告号:CN113472459B

[3] 严发宝;于永林;尚自乾;张磊;陈耀;一种接收机射频链路非线性效应多参数测试平台,2021-08-04,中国,申请号:2021108909309;授权公告号:CN113612553B

[2] 严发宝; 申玉鹏;邹涛;陈耀;苏艳蕊;武昭;路光;基于数字滤波的太阳射电爆发实时检测方法及系统,2021-09-18,中国,申请号:2021111019228;授权公告号:CN113804982B

[1]  严发宝;申玉鹏;刘晓伟;白宇;刘乾;邹涛;陈耀;苏艳蕊;武昭;路光;基于收发信号频域互相关的外部噪声抑制方法及系统,2021-09-24,中国,申请号:2021111204553;授权公告号:CN113640888B

 

主持科研项目:

[20]国家自然科学基金,专项项目,2024年微波探测关键技术与太阳射电爆发学术研讨会,8万元,2024.01-2024.07,在研

[19]国家自然科学基金,面上项目,太阳低频(70-110MHz)射电长基线相干频谱测量与抗扰研究,53万元,2024-2027,在研

[18]有色金属成矿预测与地质环境监测教育部重点实验室开放课题,100-400MHz 钻孔雷达天线研究,2023-2025,在研

[17]装发预研,xxx探测技术,47万元,2023.07-2025.6,在研

[16]国家重点研发子课题,太赫兹宽带波形参数溯源与量传关键技术研究,15万元,2023.04-2025.9,在研

[15]山东大学校内齐鲁青年学者支持,60万元,2023.01-2027.12,在研

[14]国家科技部高端外国专家引进计划,高性能XXX爆发研究,40万元,2022.07-2023.12,在研

[13]某部项目,xxx射电望远镜,390万元,2022.01-2023.07,通过验收

[12]中国电科54所所校合作项目,新信号体制下卫星微弱信号探测技术,20万元,2022.01-2022.12,通过验收

[11]国家自然科学基金,国家重大科研仪器研制项目课题,星载太阳耀斑毫米波辐射探测谱仪—关键技术突破与原型机研制,555万元,2022.01-2026.12,在研

[10]企业横向,新型海洋环境污染物检测装备中无线采集与通信模块研制,77万元,2021.03-2022.12,在研

[9]装发预研(国家级),射频xxx技术验证,45万元,2021.02-2021.07,结题

[8]国家天文台横向,LEAD低频射电天文数采接收机与天线,11.3万元,2020.01-2020.12,结题

[7]校青年学者未来计划支持,米波70-120MHz太阳射电谱相干抗扰研究,50万元,2020.01-2024.12,结题

[6]国家自然科学基金,青年项目,便携式近地表FDEM观测系统抑噪方法研究,27万元,2020.01-2022.12,结题

[5]中国博士后科学基金,基于互相关与redither的便携式近地表FDEM仪器降噪研究,8万元,2019.6-2022.4,结题

[4]中国科学院太阳活动重点实验室开放课题,低频太阳射电观测SMB数字波束合成与干涉实验,4万元,2019.01-2020.12,结题

[3]山东省自然科学基金培育项目,基于互相关抑噪的便携式近地表FDEM观测系统信号处理,4万元,2017.7-2018.12,结题

[2]中国博士后科学基金一等资助,便携式近地表FDEM观测系统实时性与一致性研究,8万元,2016.11-2018.4,结题

[1]企业横向,基于多源数据船用多通道高精度数据获取与处理系统,43万元,2017.01-2018.4,结题






相关科技新闻:

12.严发宝团队在毫米波太阳射电仪器绝对定标源研制方面取得新进展

11.严发宝团队建成高分辨率低频阵列太阳射电观测系统

10.2022年微波探测关键技术与射电爆发学术研讨会顺利召开

9.严发宝团队在新型射电天文数字接收机研制上取得进展

8.空间科学攀登团队在新型射电天文数字接收机研制上取得进展

7.严发宝团队教研成果被选为《中国现代教育装备》杂志封面

6.争先进位!威海校区最新学术进展速览

5.山东大学研制首套毫米波(35-40GHz) 太阳射电观测仪器

4.严发宝团队成功研制首套毫米波(35-40GHz)太阳射电仪器

3.空间科学攀登团队研制首套毫米波(35-40GHz)太阳射电观测仪器

2.我国科学家在太阳射电微波动态频谱观测系统研制方面取得进展

1.山东大学空间科学研究院太阳射电槎山观测站建成


版权所有   ©山东大学 地址:中国山东省济南市山大南路27号 邮编:250100 
查号台:(86)-0531-88395114
值班电话:(86)-0531-88364731 建设维护:山东大学信息化工作办公室