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籍贯:江西铅山 出生:1984-04 政治面貌:民盟 学历:博士 职称:教授 职务:副院长 联系地址:江西省南昌市华东交通大学beat365手机版官方网站10-414 电话:15979116779 电子邮件:zhuzhenmin1984@163.com |
个人简历:
2001/09-2005/06,南昌航空大学,测试与光电工程学院测试计量技术与仪器系,学士
2005/09-2008/06,兰州理工大学,机电工程学院测试计量技术与仪器系,硕士
2008/09 -2011/06,天津大学,精密仪器与光电子工程学院测试计量技术与仪器系,博士
2011/07-2014/07,华东交通大学,beat365手机版官方网站自动化系,讲师
2014/08-2015/07,江西省交通运输厅运输处,挂职
2015/01-2020/11,华东交通大学,beat365手机版官方网站自动化系,副教授
2015/09-2016/08,北京航空航天大学,仪器科学与光电工程学院,西部之光访问学者
2018/02-今,任beat365手机版官方网站副院长(2015/04任院长助理)
2018/03-2019/02 挂职江西省住建厅建筑监管处副处长
2020.12-今,华东交通大学,beat365手机版官方网站自动化系,教授
社会兼职:
[1]国家自然科学基金评审专家,
[2]中国自动化学会青年工作委员会委员
[3]江西省自动化学会常务理事,
[4]中国图形图像学会交通与视频专委会委员
[5]中国图形图像学会视觉检测专委会委员
[6]华东交通大学学报、自动化仪器仪表期刊编委
[7]国际著名期刊《IEEE transactions on industrial informatics》、《Optics Express》、《optics and laser in engineering》、《Measurement science and technology》、《Applied Optics》、《Optics communication》等的审稿人。
[8]民盟江西省委会青年委员会主任委员
[9]民盟华东交通大学委员会副主委
荣誉:
[1]2016年入选江西省杰出青年人才资助计划
[2]2021年入选青年井冈学者
[3]2016年入选中组部“西部之光”访问学者
[4]2018年入选“百人远航工程”
[5]2018年入选扬州市“绿扬金凤”计划-优秀博士
[6]2018年担任扬州华盟电子有限公司科技副总
[7]指导的2014级研究生获省优秀硕士论文,校研究生优秀毕业论文,省政府奖学金(刘辉)
[8]指导的2016级研究生获国家奖学金、曹建猷学生奖-研究生类、校十大学术之星、校研究生优秀毕业论文(孙翔、复旦大学攻读博士)
[9]2012、2013、2015指导的本科生获校优秀毕业设计论文
[10]指导的2017级研究生:袁杰(省、校研究生优秀毕业论文、上海交通大学攻读博士)、刘泉新(省、校研究生优秀毕业论文、国家奖学金)、彭勃(省政府奖学金)
[11]指导的2018级研究生:王心韵(省政府奖学金,北京航空航天大学攻读博士)、裴爽(省政府奖学金)、徐鑫(省政府奖学金)
[12]指导的2019级研究生:谢雨林(省政府奖学金)
[13]指导的2020级研究生:游朵朵(省政府奖学金)
研究方向:机器视觉检测,偏振结构光测量,LED应用光学设计
科研及成果:
[1]祝振敏,光学极端条件下工件偏振结构光视觉测量方法研究,国家自然科学基金(编号:52065024),2021.1-2024.12,35万元,依托单位负责人
[2]祝振敏,基于偏振与颜色信息的视觉测量图像融合、评价及应用研究,国家自然科学基金(编号:51305137),2014.1-2016.12,25万元,依托单位负责人
[3]祝振敏,基于坝体永久缝测点三维重构的变形分析与大坝稳定相关性研究,江西省水利水电开发有限公司,2021.5-2022.12,44.15万,依托单位负责人
[4]祝振敏,基于偏振结构光成像的接触网定点悬挂状态检测与分析,南昌中铁穗城轨道交通建设运营有限公司,2022.5-2023.12,37.26万,依托单位负责人
[5]祝振敏,江西省重点研发计划“揭榜挂帅”项目,20223BBE51010,激光剪切散斑无损检测系统技术研究,2023.1-2015.12,100万,依托单位负责人
[6]祝振敏,江西省重点研发计划项目,偏振结构光测量仪,20232BBE50012,2024.1-2026.12,120万,课题负责人
[7]祝振敏,江西省03专项,基于5G+无人机的光伏智能在线巡检的关键技术研究与系统研发,20232ABC03A03,120万,2024.1-2025.12,课题负责人
[8]祝振敏,江西省03专项,基于偏振视觉人工智能的线路板外观自动检测与识别技术研究,20232ABC03A08,1200万,2024.1-2025.12,课题负责人
[9]祝振敏, 产业链科技创新联合体(协同攻关),高均匀性、高光效、低成本红绿蓝Mini-LED芯片关键技术研发,20224BBC41002,2150万,子课题负责人
[10]祝振敏,江西省杰出青年资助计划项目(编号:20162BCB23047),2016.6-2019.12,15万元,依托单位负责人
[11]祝振敏,江西省重点研发计划,20202BBE53022,转镜式线阵激光扫描的桥梁应变检测方法研究,2020.1-2021.12,20万元,课题负责人
[12]祝振敏,江西省03专项,20212ABC03A20,5G+AI智慧公路隧道监测综合解决方案工程示范,2021.6-2022.12,300万元,课题负责人
[13]祝振敏,江西省发明专利产业化重点项目,20161BBM26037,基于漫反射自由曲面的均匀混光LED照明光源,10万元,依托单位负责人,2016/06-2018/11
[14]祝振敏,江西省科技支撑计划项目,20151BBE50116,基于漫反射自由曲面的均匀混光LED 照明光源设计的研究,2015/06-2019/06,5万元,依托单位负责人
[15]祝振敏,江西省交通厅科技计划项目,2017R0027,南昌龙头岗多式联运规划方案研究,2017/09-2019/08,8万元,课题负责人
[16]祝振敏,基于色度学理论的机器视觉在线检测技术研究,江西省教育厅自然科学基金一般项目(编号:GJJ14388),2014.1-2015.12,依托单位负责人
[17]祝振敏,基于偏振信息的彩色视觉检测图像融合、评价及应用研究,江西省自然科学基金(编号:20122BAB216025),2012.1-2014.12,依托单位负责人
[18]祝振敏,基于偏振与颜色信息的视觉检测关键技术研究,江西省教育厅科学基金项目(编号:GJJ12316),2012.1-2013.12,依托单位负责人
[19] 面向高速轮轨滚动系统安全预警的正则化辨识研究,国家自然科学基金(编号:61263010),2013.1-2016.12,第二完成人
[20] 彩色视觉测量、定位与校准关键技术研究,天津市应用基础及前沿技术重点项目(09JCZDJC23600),2009.12-2012.6,第二完成人
[21] 彩色视觉测量校准、评定及应用关键技术研究, 国家自然科学基金(50875185),2009.1-2011.12,第三完成人
发明专利:
[1]曲兴华,祝振敏,贾果欣. 基于多波段LED阵列与漫反射表面的均匀照明光源和设计方法.授权时间2012.11.28,中国,授权号ZL201010560439.1
[2]祝振敏,金小龙,衷路生.用于实现均匀照明的高漫反射率自由曲面的设计方法,授权时间2015.4.8,中国,授权号ZL201310153442.5
[3]祝振敏,宋瑞超,彭勃.一种用于实现优化场景光照估计的设计方法,授权时间:2019.5.14,中国,授权号ZL201610216480.4
[4]祝振敏,孙翔,彭勃。一种基于LED阵列的漫反射自由曲面离轴设计方法,授权时间:2020.5.15,中国,授权号:ZL201610961884.6
[5]祝振敏,王心韵,刘泉新。一种基于最优偏振角的相机高精度标定方法.申请时间:2018.10,申请号:201910393116.9
[6]祝振敏,王心韵,裴爽。基于偏振成像的强反射工件视觉测量方法,申请时间:2018.10,申请号:201910396592.6
[7]祝振敏,袁杰,徐鑫。用于实现高均匀度、高紧凑性LED反射双自由曲面照明系统的设计,申请时间:2020.7,申请号:202010677297.0
[8]祝振敏,袁杰,徐鑫。用于均匀照明的LED漫透射自由曲面设计,申请时间:2019.3.12,申请号或专利号:201910184038.1
[9]祝振敏,刘泉新,刘继承。一种基于变焦相机深度估计的参数标定方法,申请时间:2019.3.9,申请号:201910177596.5
[10]祝振敏,彭勃,徐鑫。基于折射与漫反射的双自由曲面透镜的设计方法。申请时间:2019.3.12,申请号:201910177231.2
[11]祝振敏,袁杰,徐鑫。基于人眼视觉的全范围照度均匀性评价新方法。申请时间:2022.4.29,授权号:ZL201910192550.0
[12]祝振敏,徐鑫,彭勃。基于漫透射与折射组合自由曲面均匀照明的手术灯设计申请时间:2019.3.15,申请号或专利号:201910198000.X
[13]祝振敏,徐鑫,姚佩琦。基于多次漫反射数学模型的照明光源设计方法。申请时间:2020.1.13,申请号:202010707851.5
[14]祝振敏,王心韵,郑卫华,刘继承,屈志坚。一种基于单圆柱3D靶标的线结构光视觉传感器的标定方法。申请时间:2020.1.14,申请号:202010035197.8
[15]祝振敏,谢雨林,项鹏。一种基于偏振态的单色黑白条纹结构光的图像质量提升方法。申请时间:2020.2.19,申请号:202010102271.3
[16]祝振敏,王心韵,孙翔。一种基于单圆柱靶标的线结构光视觉传感器的完全标定法。申请时间:2020.4.23,申请号:202010328488.6
[17]祝振敏,王胜,章海亮。一种基于偏振信息的相机-投影仪系统标定方法。申请时间:2020.4.23,申请号:202010328607.8
[18]祝振敏,项鹏,章海亮,孙翔。一种基于偏振原理的高反物体表面高光去除方法。授权时间:2022.10.11,授权号:ZL202010329143.2
[19]祝振敏,郑卫华,杨超,章海亮,张福民。一种基于颜色信息的结构光测量高反射率物体的方法。申请时间:2020.6.12,申请号:202010532218.7
[20]祝振敏,裴爽,郑卫华,屈志坚。一种基于三通道特征融合的光条纹中心提取方法。申请时间:2020.6.13,申请号:202010538596.6
[21]祝振敏,汪志钰,张福民,姚佩琦。基于准直透镜阵列的漫透射自由形式曲面的设计方法。申请时间:2020.12.29,申请号:202011588230.6
[22]祝振敏,姚佩琦,张福民,汪志钰。基于TIR与自由曲面微透镜阵列组合的光学系统设计方法。申请时间:2020.12.28,申请号:202011574781.7
[23]祝振敏,朱文韬,周富强,杨超。基于偏振的相机响应函数的三维测量方法。申请时间:2020.4.20,申请号:2021060900590350
[24]祝振敏,游朵朵。一种使用线性偏振度信息提高条纹质量的方法。申请时间:2020.9.27,申请号:2021107380067
[25]祝振敏,吴子伟,郑卫华,赖强。一种基于平面镜的非公共视场的双目相机标定方法。申请时间:2021.4.20,申请号:2021104214264。
[26]祝振敏,吴子伟,刘勇杰,王武,耿明。一种基于偏振信息的铁路钢轨磨耗视觉测量系统。申请时间:2021.11.27,申请号:2021229372718。
[27]祝振敏,吕梦楠。一种平面镜的无重叠视场的线结构光视觉传感器全局标定方法。申请时间:2021.5.21,申请号:2022105608516
[28]祝振敏,赵艳,乔硕。一种偏振分束同时成像的线结构光视觉传感器标定方法。申请时间:2021.5.18,申请号:2022105412214
[29]祝振敏,郑颖琦。一种基于刚性连接靶标的非公共视场完全标定方法。申请时间:2022.5.18,申请号:2022105412106
[30]祝振敏,赵艳,乔硕。一种偏振分束同时成像的线结构光视觉传感器标定方法。申请时间:2022.5.18,申请号:2022105412214
[31]祝振敏,吕梦楠。一种平面镜的无重叠视场的线结构光视觉传感器全局标定方法。申请时间:2022.5.21,申请号:2022105608516
[32]祝振敏,董雅雯。一种基于偏振离焦编码结构光的三维测量方法。申请时间:2022-05-18,申请号:2022105414760
[33]祝振敏,祝泰。一种基于偏振最佳投影强度的三维测量方法。申请时间:2022-05-09,申请号:2022104975448
[34]祝振敏,郑颖琦,何建华,吴子伟,郑卫华,蔡龙成。一种基于立体靶标的非重叠视场的线结构光平面标定方法。申请时间:2022-06-28,申请号:2022107467762
[35]祝振敏,李敏超,曾龙辉,祝泰,游朵朵。一种基于多偏振态叠加编码正弦结构光技术。申请时间:2022-06-28,申请号:2022107426851
[36]冯维,徐仕楠,汤少靖,周世奇,王恒辉,祝振敏,赵首博,翟中生.三维重建相位误差补偿方法.国家发明专利授权时间:2022.8.9.授权号:ZL202110617634.1,排名第六;
[37]冯维,曲通,高俊辉,程雄昊,周世奇,祝振敏,张福民,赵大兴.一种基于点云自适应修复的高反光表面结构光场三维重建方法.国家发明专利授权时间:2022.6.7,授权号:202110550649.0,排名第六 ;
[38]冯维,高俊辉,曲通,王恒辉,程雄昊,祝振敏,张福民,翟中生 王选择,赵大兴.一种基于相位相似性的光场三维重建方法及系.国家发明专利授权时间:2022.8.5授权号:ZL202110528612.8 ;
[39]夏桂锁,叶靖,伏燕军,祝振敏,管炳良。一种基于双目视觉的旋转轴标定方法,国家发明专利,授权时间:ZL202010889437.0
[40]陈广辉;祝振敏;刘令君;王新官;陈昭彰;李振宇;吴传洁,于大龙;陶强。一种无线通信的数据处理方法及车道预警方法。国家发明专利,授权时间:ZL 202310339669.2
获奖:
[1]“提高视觉成像对比度的关键技术与应用”项目成果获2020年江西省技术发明二等奖(排名第一)(祝振敏,张福民,赵首博,冯维,陈世明,郑卫华)
[2]“轨道交通基础设施非接触检测测量关键技术研究及工程应用”项目获2023年江西省科技进步二等奖(排名第一)(祝振敏,耿明,张福民,刘勇杰,王武,何杰,孙翔,姚道金,董文涛,唐良)
[3]“高铁供电生产调度指挥系统的关键技术及工程应用”,2022年江西省科技进步三等奖(排名第三)(刘仕兵,屈志坚,祝振敏,敖晓峰,邸荣光,程宏波,王健,王小明,陈秋琳,闫亮亮)
[4]“电力物联网多参量光纤传感技术及特高压输电通道智能感知应用”项目成果获2021年产学研合作创新成果奖优秀奖(20216226)(排名第二)(李伟,祝振敏,仝杰,陈忠斌,雷煜卿,何冰,屈志坚,甘甫烷,俞杰,裴蕴智)
[5]“数据驱动的建模理论与应用研究” 项目获2012-2013江西省高等学校科技成果二等奖(J13-2-043,排名第二)
[6]“控制科学与工程研究生创新能力培养探索与实践”项目获第十五批江西省高校研究生教学成果奖二等奖(排名第四)
[7] “超薄型计算机风扇转接柔性线路板”项目获扬州市科技进步三等奖,排名第二
论文
2023年:
[1]Zhenmin Zhu*,Suo Qiao, Jing Zhang,Duoduo You.An efficient polarization code-multiplexed 3D shape measurement method for high dynamic range objects. IEEE Transactions on Instrumentation & Measurement.2023(accepted)(IF:5.6)(JCR一区)
[2]Zhenmin Zhu*, Yinsong Ye, Mengyao Wang, Longcheng Cai, and Weihua Zheng.Three-dimensional measurement of fringe projection based on the camera response function of the quantified exposure time.Measurement Science and Technology. 2023.(accepted)doi:10.1088/1361-6501/acefef
[3]Zhenmin Zhu*,Minchao Li,Fuqiang Zhou,Duoduo You.Stable 3D measurement method for high dynamic range surfaces based on fringe projection profilometry .Optics and lasers in Engineering.166,2023,107542(IF:4.6)(JCR一区)
[4]Zhenmin Zhu, Haoran Liu, Jing Zhang, and Yumeng Zhou.Calibration method of line-structured light sensors based on a hinge- connected target with arbitrary pinch angles .Applied Optics. 62(7), 1695-1703 (2023) (IF:1.9)(JCR三区)
[5]Liqiang Xie, Haoran Liu, Quanxin Liu, Yongjie Liu, Wu Wang, Zhenmin Zhu * ,Weihua Zheng, and Longcheng Cai. Decoupling calibration method of long focal length
camera using vanishing point.Optical Engineering,62(3):034106,2023(IF:1.3)(JCR四区)
[6]Zhenmin Zhu,* Yawen Dong, Peng Xiang, Xiang Sun ,Guoping Zhou, Weihua Zheng ,Guanghui Chen and Chenglong Cai.Rapid exposure time estimation method for high-dynamic range surface.optik,2023,273:170467(IF:3.1)(JCR二区)
2022年以前:
[1]Zhenmin Zhu*,Duoduo you,Fuqiang Zhou,Sheng Wang,Yulin Xie.Rapid 3D reconstruction method based on the Polarization-enhanced fringe pattern of an HDR object.29(2):2162-2171,Optics Express.2021(SCI,IF:3.894)(JCR一区)
[2]Zhenmin Zhu*,Yan Zhao,Shibin Liu,Yongjiu Liu, Wang Wu,Liang Tang. Calibration of line-structured light vision sensors based on Simultaneous polarization imaging.Measurement Science and Technology,2022, 33,115202
[3]Zhenmin Zhu*,Tai Zhu, Xiang Sun,Fumin Zhang.Three-dimensional reconstruction method based on optimal projection intensity of the polarization system.2022 Applied Optics 61(34) 10290-10298 [Editors' Pick]
[4]Zhenmin Zhu*,Yawen Dong, Duoduo You, Xiang Sun. Accurate three-dimensional measurement based on polarization-defocused encoded structured light. Measurement,205, 2022, 112128.(IF:5.6)(JCR一区)
[5]Zhenmin Zhu*,Yingqi Zheng, Wei Li,Jing Zhang. Zhao, Yan,Wu, Zi Wei.Global calibration method for non-overlapping cameras based on rigidly connected stereo targets.2022 Applied Optics 61(24) 6985-6991
[6]Zhenmin zhu,Xuefei Li,Jing Zhang,Zhou, Yumeng, Zhao, Yan.Specular flare suppression method for reflective materials based on optimal polarizing angle.2022Applied Optics 61(27) 8034-8041
[7]Zhenmin Zhu*,Wentao Zhu,Fuqiang Zhou,Chao Yang.Three-dimensional measurement of fringe projection based on the camera response function of the polarization system.60(5):055105,Optical Engineering.2021.(SCI,IF:1.073)
[8]Zhenmin zhu*,minchao Li,Yulin Xie,fuqiang Zhou,Yongjie Liu,Wang Wu.The optimal projection intensities determination strategy for robust strip-edge detection in adaptive fringe pattern measurement.257:168771,2022,optik.(SCI,IF:2.443)
[9]Zhenmin Zhu, Ziwei Wu, Fuqiang Zhou, Peng Xiang, Sheng Wang, Yulin Xie, Calibration of binocular cameras with non-overlapping fields of view based on planar mirrors, Opt. Eng. 60(6), 064106 (2021).(SCI,IF:1.073)
[10]Zhenmin Zhu*, Yulin Xie,Yigang Cen. Polarized-state-based coding strategy and phase image estimation method for robust 3D measurement. 28(3):4307-4319.Optics Express.2020. (SCI,IF:3.894)(JCR一区)
[11]Xinyun Wang,Zhenmin Zhu*,Fuqiang Zhou,Fumin Zhang.Complete calibration of a structured light stripe vision sensor through a single cylindrical target.Optics and Lasers in Engineering. 131:106096,2020.(SCI,IF:4.836)(JCR一区)
[12]Zhemin Zhu,Sheng Wang,Hailiang Zhang*,Fumin Zhang.Camera-Projector System Calibration Method Based on Optimal Polarization Angle.Optical Engineering. 59(3), 035104 .2020.(SCI,IF:1.073)
[13]Sheng Wang,Zhenmin Zhu*,Hailiang Zhang,Fuqiang, Zhou.Suppression Method for Strong Interference from Stray Light in 3D Imaging System of Structured Light.Optical Engineering.59(10):105106.2020(SCI,IF:1.073)
[14]Zhenmin Zhu ,Peiqi Yao, Weihua Zheng. Design of Free-Form Surface Microlens Array
Optical System With High Efficiency and Uniformity.Applied Optics. 59(23), 6939-6944 2020).(SCI,IF:1.980)
[16]Zhenmin Zhu , Chao Yang , Hailiang Zhang ,Fumin Zhang , Xuemei Liu. Use of Color Information for Structured-light 3D Shape Measurement of Objects with Shiny Surfaces. Applied Optics.59(23), 6873-6880 ,2020.(SCI,IF:1.980)
[17]Zhemin Zhu*, Xin Xu, Xiang Sun,Xinyun Wang. Establishment and Solution for a Mathematical Model of Multiple Diffuse Reflection. IEEE Photonics Journal.12(4):6500917,2020 (SCI,IF:2.443)
[18]Zhemin Zhu*,Zhiyu Wang.Design method of diffuse transmission free-form Surface combined with collimation lens array. Lighting Research and Technology. 53(4):333-343 2021(SCI,IF:2.767)
[19]Zhenmin Zhu*, Peng Xiang, Fumin Zhang. Polarization-based Method of Highlight Removal of High Reflectivity Surface. Optik.2020,221:165345. (SCI,IF:2.443)
[20]Zhenmin Zhu,* Xin Xu, Bo Peng Jie Yuan.Modeling and Design of Diffuse Transmissive free-form Surface Based on LED Collimation Effect. Optics and laser technology.119:105628,2019(SCI,IF:3.867)
[21] Zhenmin Zhu,* Xin Xu,Yuan Jie.Surgical Lamp Design Based on LED Diffuse Transmission Illumination System. IEEE Access.7:183783-183789.2019 (SCI,IF:3.745)
[22]Zhenmin Zhu*,Xinyun Wang,Fuqiang Zhou,Yigang Cen. Calibration method for line-structured light vision sensor based on a single cylindrical target.Applied Optics. 59(5) :1376-1382,2020(SCI,IF:1.980)
[23]Zhenmin Zhu*, Quanxin Liu, Xinyun Wang, Shuang Pei, Fuqiang Zhou, Distortion correction method of a zoom lens based on the vanishing point geometric constraint. Measurement Science and Technology.30(10):105402,2019(SCI,IF:2.046)
[24]Zhenmin Zhu, Bo Peng, Design method of double freeform surface lens with diffuse reflection. Lighting Research and Technology.52(2):247-256,2020 (SCI,IF:2.767)
[25]Zhenmin Zhu, Bo Peng, Jie Yuan, Xin Xu. Design of a combined lens for rectangular illumination. Lighting Research and Technology.52(1):131-140,2020 (SCI,IF:2.767)
[36]Zhenmin Zhu*,Xinyun Wang, Quanxin Liu,Fumin Zhang.Camera Calibration Method Based on Optimal Polarization Angle. Optics and Lasers in Engineering. 112:128–135, 2019 (SCI,IF:4.836)
[27]Xiang Sun , Zhen-Min Zhu *, Jie Yuan and Bo Peng. Design of high-efficient TIR lens for tailored illumination with high contrast. Optics and laser technology.111:240–248 2019(SCI,IF:3.867)
[28]祝振敏,裴爽,陈世明,张福民.基于偏振信息的强反射工件高光去除及视觉测量方法研究.光学学报,2018.38(11):1112005
[29] Zhenmin Zhu*,Quan-xin Liu,Ruichao Song,Shiming Chen. The sparse least square support vector regression for estimating illumination chromaticity. Color research and application. 2018,43:517–526(SCI,IF:1.091)
[30] Zhen-Min Zhu*,Xiang Sun,Bo Peng. Rectangular illumination based on diffuse reflective off-axis surface. IEEE Photonics Journal.2017,9(4):1-8(SCI,IF:2.443)
[31]Zhen-Min Zhu*,Xiang Sun,Bo Peng. The design of diffuse reflective off-axis surface for non-circular LED arrays. IEEE Photonics Journal. 2017,9(1):1600210 (SCI,IF:2.443)
[32] Zhen-Min Zhu*,Hui Liu,Shiming Chen. The design of diffuse reflective freeform surface for indirect illuminant with high efficiency and uniformity. IEEE Photonics Journal,7(3):1600510,2015 (SCI,IF:2.443)
[33] Zhen-min Zhu*, Xiao-long Jin, Hui Yang, Lu-sheng Zhong Design of diffuse reflection freeform surface for uniform illumination, IEEE/OSA Journal of Display technology,2014,10(1),7-12(SCI,IF:2.241)
[34]Jun Xu*, Zhenmin Zhu,Chunxiao Liu,Zhidong Huang.The processing method of spectral data in Hadamard transforms spectral imager based on DMD. Optics Communication, 2014,325:122-128 (SCI,IF:2.125)
[35] Xu Jun, Liu ZhiWei, Jiang Nan, Zhu Zhen-min, Liu Haiwen, Li Bincheng. Hadamard Transform Spectral Imager of Adaptive Spectral Resolution Based on DMD. Spectroscopy and Spectral Analysis. 2013,33(7): 2006-2009 (SCI,IF:0.452)
[36] Zhu Zhen-Min ,Qu Xin-Ghua,Bi Chao,Jia Guo-Xin,Zhang Fu-Min,Study on colorimetric properties of LED array sources for color vision application,Acta Physica Sinica,2012,61(2):020702 (SCI,IF:0.732)
[37]Zhenmin zhu*,Xinghua qu, Guoxin jia,Jianfei Ouyang. Uniform illumination design by configuration of LED array and diffuse reflection surface for color vision application,IEEE/OSA Journal of Display technology,2011,7(2),84-89 (SCI,IF:1.928)
[38]Zhenmin zhu*,Xinghua qu,Guoxin jia. Wavelength intervals selection of illumination for separating objects from backgrounds in color vision application. Journal of modern optics, 2011,58(9): 777-785(SCI,IF:1.544)
[39] Zhu Zhen-Min, Qu Xinghua,Liang Haiyu, Jia Guoxin. Wavelength Intervals Selection of LED Illumination for Color Vision Application. Spectroscopy and Spectral Analysis. 2011,31(4),1025-1029. (SCI,IF:0.452)
[40]祝振敏, 曲兴华, 梁海昱,贾果欣. 基于LED环形阵列与漫反射表面的均匀照明光源研究.光学学报. 2011,31(1),0115001 1-6(EI)
[41]Zhenmin Zhu, Jie Yuan, Xiang Sun, Bo Peng,Xin Xu,Quanxin Liu. LED Diffused Transmission Freeform Surface Design for Uniform Illumination. Journal of Optics. 2019.doi:10.1007/s12596-018-0505-7(EI)
[42]Zhenmin Zhu,ruichao Song,Hui Luo,Jun Xu, Shiming Chen. color calibration for colorized vision system with digital sensor and LED array illuminator.Active and passive electronic components.2016 7467165 1-17(EI)
[43]祝振敏*,吕兆康,刘百芬。基于LS-SVR的图像矫正。大连理工大学学报。2016,56(1):86-91
[44] 祝振敏* ,衷路生 ,涂海燕 ,金小龙, 彩色视觉装置的颜色校正对比实验研究. 应用光学,2013, 34(6),
[45] 祝振敏,吕兆康,宋瑞超,李海文。基于机器视觉PCB焊点质量检测研究。控制工程2017 , 24 (4) :722-727
[46]祝振敏,罗慧。漫反射自由曲面的设计方法。激光与光电子学进展。2017,54(5):52201
[47]祝振敏,谢亮凯。基于相对位置不变性的接触网鸟巢识别检测。铁道科学与工程学报。2018,15(4):1043-1049
[48] 贾果欣,曲兴华,梁海昱,祝振敏. 彩色视觉测量中的照明系统设计.发光学报.2011,32(1)64-69(EI)
[49]周国平,陈聪,肖可洋,彭金华,赵艳,祝振敏*.基于三通道融合的结构光中心条纹提取算法.测控技术.2022,41(11):94-101;
[50]周国平,朱文韬,易传华,曾龙辉,黄舒欣,祝振敏*.基于投影强度的快速高动态范围三维形状测量.应用光学,2023,41(1):175-181;
[51]Chao Bi, Xinghua Qu, Zhenmin Zhu, Guoxin Jia, Fumin Zhang*. Comparision of Polynomial Regression and Artificial Neural Network in Color Calibration of Polarization Imaging System. Journal of Computational Information Systems. 2012,18(8):7475-7483,(EI)
[52]祝振敏*,张永贤,金小龙,涂海燕,光源光强对颜色对比度的影响研究.华东交通大学学报. 2013,30(2):1-4
[53] Zhenmin zhu, Xinghua qu,Guoxin jia. Effect of color illumination on color contrast in color vision application. Proc.SPIE. 2010785510. (ISTP:BTO95)(EI:20110213560654)
[54]Zhenmin Zhu*, Lusheng Zhong, Xiaolong Jin, Haiyan Tu, Baifen Liu. Color Illumination System Design for Vision Measurement. Proceedings of the 10th International Conference on Frontiers of Design and Manufacturing .140_1 1-5,2012.6.
[55] Zhenmin Zhu*, Yongxian Zhang, Haiyan Tu ,Xiaolong Jin. Color correction for color vision measurement system. 2013 5th International Conference on Digital Image Processing(ICDIP 2013),2013.4 (EI)
[56] Zhenmin Zhu*,Zhaokang Lv, Baifen Liu.An improved sparse LS-SVR for estimating illumination. 2015 7th International Conference on Digital Image Processing(ICDIP 2015),2015.4 (EI)
[57] Zhenmin Zhu, Ruichao Song and Shiming Chen.A Novel Method of Image Features Extraction and Application.2016 31st Youth Academic Annual conference of China Association of Automation(EI)
[58]Zhenmin Zhu,Xinyun Wang, Quanxin Liu, Fumin Zhang.Analysis of the Extraction Accuracy of the Corner Point of the Camera Using Polarization Imaging.10th International Symposium on Precision Engineering Measurements and Instrumentation August 8-10, 2018 Kunming China(EI)
[59]Zhenmin Zhu, Quanxin Liu, Xinyun Wang and Shuang Pei.Distortion Correction Method of Zoom Lens Based on Vanishing Point Geometric Constraint.2018 The 3rd International Symposium on Artificial Intelligence and Robotics(EI)
[60]Zhenmin Zhu,Jie Yuan. Design of Diffuse Reflective Freeform Surface Based on Train Tunnel Lighting.The Sixth International Symposium on Innovation and Sustainability of Modern Railway.ISMR 2018
[61]陈世明,化俞新,祝振敏,赖强,邻域交互结构优化的多智能体快速蜂拥控制算法,自动化学报,41(12):2092-2099,2015
[62] Shichao Kan, Lihui Cen, Xinwei Zheng, Yigang Cen*, Zhenmin Zhu,Hengyou Wang.A supervised learning to index model for approximate nearest neighbor image retrieval. Signal processing:Image Communication. 2019,78:494-502(SCI,IF:2.779)