姓名 曹长庆
副教授 博士生导师
博士学科:光学工程
硕士学科:光学工程
工作单位:西安电子科技大学 物理与光电工程学院
通信地址:西安电子科技大学 物理与光电工程学院 203信箱
电子邮箱:chqcao@mail.xidian.edu.cn
办公电话:029-88204698/88204691
办公室:西大楼3区211室
实验室:西大楼3区206室
QQ:2646390814
2001年毕业于西安电子科技大学光电子技术专业获学士学位,之后在西安电子科技大学技术物理学院任教,2010年先后毕业于西安电子科技大学光学工程专业获硕士、博士学位,师从曾晓东教授。从事光电子技术、电子科学与技术的教学和科研工作。主要研究方向为光电子技术、光电检测技术、光电信息处理与系统。
主讲“光电子技术”、“光电检测技术”、“光学传感与检测”等课程,合作出版本科生教材《光电子技术及应用》和《激光原理与技术》。参与省级精品课程和资源共享课程“光电子技术”、“激光原理与技术”申报和建设工作。
主持和参加国家自然基金、预研基金、共性技术基金项目等多项课题,申请、授权国家发明专利20余项,在国内外刊物上发表论文50余篇,出版专著2部。
主要研究方向:
1.光电检测、目标识别技术:相干探测技术、大型目标光电特性外场检测、光电特性多数据融合目标识别技术
2.光通信:星间、星地相干光通信技术
3.光电成像及人工智能图像处理
4.强激光:时空特性检测及机理研究
最新动态:
1、尚亚洁,“A using remodulation filterless scheme of generating frequency 32-tupling millimeter-wave based on two DPMZMs”,Optics and Laser Technology, 148,2022,DOI: 10.1016/j.optlastec.2021.107793,恭喜尚亚洁。
2、王婷,“Aircraft Detection in Remote Sensing Images Based on Lightweight Convolutional Neural Network”,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 录用,恭喜王婷。
学术论文:
2021年:
1、张文睿,“Research on Simulation Methods for Doppler Frequency Shift of a Coherent Inter-satellite Laser Link in a Ground Test System”,Infrared Physics and Technology,v 113, March 2021; DOI: 10.1016/j.infrared.2020.103627。
2、苏晰园,“Application of DBN and GWO-SVM in Analog Circuit Fault Diagnosis”,Scientific Reports,11:1,2021.4,DOI:10.1038/s41598-021-86916-6。
3、吴启凡,“Improved Mask R-CNN for Aircraft Detection in Remote Sensing Images”,Sensors,21:8,2021.4,DOI:10.3390/s21082618。
4、冯嵩盟,“Greedy algorithm-based compensation for target speckle phase in heterodyne detection”,Infrared Physics & Technology,116,2021.4,doi:j.infrared.2021.103753。
5、黄自强,“A Filterless Radio-Over-Fiber System that Generates 80 and 160 GHz Millimeter Waves Based on Two MZMs”,60:16(4871-4877)Applied Optics,2021.5,DOI:10.1364/AO.424180。
6、张文睿,“Heterodyne Coherent Tracking Technology for Inter-satellite Laser Link During Direct Sunlight”,Infrared Physics and Technology,116,2021.6, DOI:10.1016/j.infrared.2021.103817。
7、闫旭,“Wavefront Detection and Compensation Technology Based on Signal Light Nutation under Atmospheric Turbulence”,IEEE Communications Letters,25 (10) , pp.3340-3344,2021.7,DOI:10.1109/LCOMM.2021.3100701。
8、吴锦,“Ship Multiple Object Tracking in Remote Sensing Images Using Deep Learning”,Remote Sensing,13:18,2021.9,DOI:10.3390/rs13183601。
9、闫旭,“Wavefront Coherent Compensation Technology under Direct Sunlight in Free Space Optical Communication System”,IEEE Photonics Journal,13:5,2021.9,DOI:10.1109/JPHOT.2021.3112489。
10、耿金妮,“Spatial decoherence compensation algorithm for target speckle field in heterodyne detection based on frequency analysis and time translation”,Optics Express29 (24) , pp.39016-39026,2021.10,DOI:10.1364/OE.441960。
11、徐翔凯,“An Improved Swin Transformer-Based Model for Remote Sensing Object Detection and Instance Segmentation”,Remote Sensing,13:23,2021.11,DOI:10.3390/rs13234779。
2020年:
1、刘宇韬,“Compensation for target speckle phase by use of the combination of the adaptive particle swarm optimization algorithm and the array detector method in heterodyne detection” ,Optics Communications, v 458, 1 March 2020。
2、武增艳,“An MDPSK homodyne receiver with adaptive phase-diversity”,Journal of Modern Optics,67(3):234-241,2020,DOI: 10.1080/09500340.2020.1713410。
3、苏晰园,“Compensation for the Decoherence Effect in Heterodyne Detection of Rough Targets and a Target Vibration Characteristic Measurement System”,Scientific Reports发表https://doi.org/10.1038/s41598-020-62966-0,2020.4。
4、武增艳,“Filterless radio-over-fiber system based on polarization multiplexing to generate an 80 GHz millimeter-wave”,Applied Optics发表,doi.org/10.1364/AO.399792,59(24):7455-7461,2020.
5、闫旭,“Low-complexity carrier phase estimation for M-ary quadrature amplitude modulation real-time optical communication based on dichotomy”,Optics Express发表doi.org/10.1364/OE.394330 ,28(17):25263-25277,2020.
6、王婷,“An Aircraft Object Detection Algorithm based on Small Sample in Optical Remote Sensing Image”,Applied Sciences发表,doi:10.3390/app10175778,doi:10.3390/app10175778。
7、吴锦,“Research on Airplane and Ship detection of Aerial Remote Sensing Images Based on Convolutional Neural Network”,Sensors发表,20, 4696; doi:10.3390/s20174696 .
8、武增艳,“Filterless radio-over-fiber system to generate 40 and 80GHz millimeter-wave”,IEEE Photonics Journal.
2019年:
【1】樊爽林,“A RoF System Based on Polarization Multiplexing and Carrier Suppression to Generate Frequency Eightfold Millimeter-Wave” , DOI:10.1016/j.rinp.2019.01.052,Results in Physics。
【2】刘宇韬,“The quantitative relationship between the target surface speckle phase parameters and heterodyne efficiency” ,Optics Communications, v 440, p 171-176, 1 June 2019。
【3】申景诗,“Study on the influence of transverse effect on strain monitoring of space station” ,DOI: 10.1016/j.ijleo.2018.09.087,OPTIK, v 178, p 794-801, February 2019。
【4】刘宇韬,“Modeling the heterodyne efficiency of array detector systems in the presence of target speckle” ,DOI: 10.1109/JPHOT.2019.2925846,IEEE Photonics Journal, v 11, n 4, August 2019 。
【6】王婷,“Analysis of divergence angles of truncated and untruncated beams in collimation system” ,Optik, v 194, October 2019。
【6】王博,“An improved Faster R-CNN for small object detection” IEEE Access, v 7, p 106838-106846, 2019 。
【7】宁金娜,“Collimation of Laser Diode Beams for Free Space Optical Communications” , Infrared Physics and Technology, v 102, November 2019。
【8】刘宇韬,“Target speckle correction using an array detector in heterodyne detection” ,Optics Letters, v 44, n 24, p 5896-5899, December 15, 2019 。
2018年:
【1】闫旭,“Tracking error compensation technology for coherent tracking system” ,Infrared Physics & Technology。
【2】申景诗,“Research on Strain Measurements of Core Positions for the Chinese Space Station” DOI10.3390s18061834,Sensors 。
【3】曹长庆,王婷,曾晓东,Vectorial analysis of the collimated beam of a small Gaussian source. Infrared Physics & Technology ,https://doi.org/10.1016/j.infrared.2017.12.013 2018
【4】张晓兵,曹长庆,曾晓东,An identification technology for crude oil and lubricant onsimulated sea surface. DOI 10.1016j.ijleo.2017.11.167 157 :1194–1198, Optik, 2018.
【5】曹长庆,王婷,曾晓东,Accurate evaluation of the far field error of the semiconductor laserdoi.org10.1016j.ijleo.2017.10.172, Optik, 2018
【6】申景诗,曾晓东,曹长庆,Research on Strain Measurements of Core Positions for the Chinese Space StationDOI10.3390s18061834,Sensors, 2018
【7】张文睿,曹长庆,曾晓东,Disturbance Compensation Technology of Space Optical Communication Based on RLS Lattice Filtering Algorithm,AD HOC NETWORKS,2018
【8】张文睿,曹长庆,曾晓东,Photonic-assisted radio frequency waveform generation for high range resolution microwave radar, doi.org/10.1117/1.OE.57.11.114103在Optical Engineering 发表,2018
2017年:
【1】曹长庆,王婷,曾晓东,The analysis of divergence of collimated beams, Optik, 2017,135(4):305-307.WOS000396960600037DOI 10.1016j.ijleo.2017.01.095
【2】王香,曹长庆,曾晓东,A High-quality 120 GHz Millimeter-wave Generation without Laser Phase Noise,Journal of Modern Optics,2017,64(1):46-51。WOS000386204300006DOI 10.108009500340.2016.1206217
【3】王香,曹长庆,曾晓东,A millimeter wave system based on forward modulation and novel double sideband modulation,Journal of Modern Optics,2017,DOI:10.1080/09500340.2017.1343501
【4】陈堃,曹长庆,曾晓东,Tri-detector heterodyne receiver for noise suppression, Optik, 2017,DOI:org/10.1016/j.ijleo.2017.07.021.
【5】范照晋,曾晓东,曹长庆,Microwave generation with an inner-modulated laser and parallel Mach–Zehnder interferometers, Optics Communications, 2017, DOI:org/10.1016/j.optcom.2017.07.002.
2016年:
【1】曹长庆,王香,曾晓东,The problem with beam quality for semiconductor laser,Optik,2016,127(8):3701-3702。WOS000371559700001DOI 10.1016j.ijleo.2016.01.046
【2】曹长庆,王香,曾晓东,A new beam parameter product for the collimating and focusing lenses\' impact on semiconductor laser,Optik,2016,127:10926-10929。WOS000385596100082DOI 10.1016j.ijleo.2016.09.018
【3】范照晋,曾晓东,曹长庆,Novel structure of an ultra-narrow-bandwidth fibre laser based on cascade filters: PgFBG and SA,OpticsCommunications,2016,38:150-154。WOS000371132000025DOI 10.1016j.optcom.2016.02.013
2011-2015年:
【1】曹长庆,曾晓东.,半导体激光器光束质量评价方法探讨,红外与毫米波学报,2011,30(3):276-278。WOS000292578800020
【2】姚呈康,曾晓东,曹长庆.,Study on the output signal modulation for laser gyro with mechanical dither bias.,Applied Mechanics and Materials,,2013,303(6):1752-1758。
【3】姚呈康,曾晓东,曹长庆.,Polarization properties in prism laser gyro with mechanical dither bias,Chin. Phys.B,2012,21(12):124205。
【4】姚呈康,曾晓东,曹长庆.,机械抖动棱镜式激光陀螺出射光强度特性,物理学报,2012,61(9):094216。
【5】曹长庆 ,曾晓东,范照晋,Measurement and Analysis of Aircraft and Vehicle LRCS in Outfield Test,, Proc.SPIE 2014,952222-952225,2014.8.1。WOS000354371100072DOI 10.111712.2180322
【6】曹长庆 ,曾晓东,王香,Discussion of Beam Quality of Semiconductor Lasers,, Proc.SPIE 2014,8.1。 WOS000354371100066DOI 10.111712.2180240
申请专利:
[1]曹长庆,曾晓东,刘虎,激光目标退偏参数外场测试系统,2015.2.11,中国,ZL201310299006.9。
[2]曹长庆,曾晓东,刘虎,一种异形棱镜及半导体激光器列阵评定光束整形器,2015.8.5,中国,ZL201310299008.8。
[3]曹长庆,曾晓东,王香,一种舰载液面油污对比法测量系统,中国,ZL201410640916.3
[4]曹长庆,王香,曾晓东,一种用于集成的异形端面光纤耦合器,中国,ZL2015109895098
[5]曹长庆,王香,曾晓东,基于声光移频器的收发式一体逆合成孔径激光雷达系统,中国,ZL2015109926058。
[6]曹长庆,陈堃,曾晓东,基于相位差光栅和马赫增德尔滤波器超窄线宽激光器,中国,ZL2017105775861
[7]曹长庆,王香,曾晓东,一种基于马赫增德尔调制器8倍频产生120GHz毫米波的方法,中国,ZL201610268245.1。
[8]曹长庆,王香,曾晓东,基于新型双边带马赫增德尔调制器产生60GHz毫米波的方法,中国,ZL201610268256.x。
[9]曹长庆,张晓兵,曾晓东,基于自动相位分集的相位噪声消除系统及方法,中国,2017106682370
[10]曹长庆,宁金娜,曾晓东,一种高动态光通信多普勒频移模拟器,中国,2017110922540
[11]曹长庆,宋琦,曾晓东,一种高精度瞬时微波频率测量装置,中国,201711089047x
[12]曹长庆,樊爽林,曾晓东,基于内调制激光器和平行马赫增德尔干涉仪的微波系统,中国,201711091245x
[13]曹长庆,王香,曾晓东,一种利用宽带光源产生毫米波信号的装置,中国,201510371743.4。
[14]曹长庆,王香,曾晓东,一种利用双独立可调谐光纤激光器产生毫米波信号的装置,中国,201510386305.5。
[15]曹长庆,曾晓东,王香,一种舰载液面油污双光源测量系统,中国,CN201410641554.X。
[16]曹长庆,曾晓东,刘虎,一种收发分离式激光振动测量系统,中国,CN201410140731.6。
[17]曹长庆,曾晓东,刘虎,.一种DPL电流驱动保护电路,中国,CN201410140821.5。
[18]王蕊 曹长庆 曾晓东 。基于自由空间光通信的相干跟踪系统及补偿方法,CN201810998215.5。
[19]陈堃 曹长庆 吴晓鹏 .基于稀疏字典学习和剪切波的图像融合方法,CN201810998219.3.
[20]闫旭 曹长庆 曾晓东 .空间光通信的相干跟踪及视轴误差补偿系统,CN201810798534.1.
[21]王蕊 曹长庆 曾晓东 .基于微脉冲激光雷达测量云高的同轴光学系统,CN201810998205.1.
[22]刘宇韬 曹长庆 曾晓东.基于CCD相机的抑制外差探测中退相干效应的装置和方法,CN201810798530.3.
[23]申景诗 呼夏苗 曹长庆 ,亚微米量级的高精度探测系统及位置角度探测方法,CN201810371395.4.
[24]曹长庆 樊爽林 冯喆珺 .基于载波抑制产生八倍频毫米波的光载无线通信系统,CN201810362552.5.
[25]申景诗 陈堃 曹长庆 .多光谱复合检测系统,CN201810385267.5.