
| 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电气学院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,电气与自动化工程学院自动化系,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,电气与自动化工程学院自动化系,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,任电气与自动化工程学院副院长(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,电气与自动化工程学院自动化系,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]2024年获江西省政府特殊津贴
[2]2024年入选赣鄱英才计划-青年类创新高端人才
[3]2016年入选江西省杰出青年人才资助计划
[4]2021年入选青年井冈学者
[5]2016年入选中组部“西部之光”访问学者
[6]2018年入选“百人远航工程”
[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)
[13]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)
[14]指导的2019级研究生:谢雨林(省政府奖学金)
[15]指导的2020级研究生:游朵朵(省政府奖学金)
[16]丘鸿炜(国家奖学金)、章瑜扬(国家奖学金)
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,国家自然科学基金(编号:52065024),光学极端条件下工件偏振结构光视觉测量方法研究,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,江西省自然科学基金联合重点项目,智能喷涂生产过程的缺陷识别与质量溯源技术,20244BAB28003,2024.10-2028.10,50万,课题负责人
[7]祝振敏,赣鄱英才-创新高端人才(自然科学-青年),65万,GPYC2024002,依托单位负责人
[8]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
[9]祝振敏,江西省重点研发计划项目,基于多目结构光三维精密测量与智能检测关键技术,20243BBG21012,2025.1-2027.12,120万,课题负责人
[10]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
[11]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
[12]祝振敏, 江西省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
[13]祝振敏,江西省交通厅科技项目,基于偏振成像的强耀光现场环境下的高速公路车辆高清晰成像技术研究,2024YB001,2025.1-2026.12,30万,依托单位负责人
[14]祝振敏,赣州市重点研发计划重点项目--现代家居家具加工过程的原位三维测量技术与应用,2023PYZ17872,250万,2024.1-2025.12,课题负责人
[15]祝振敏,面向交通视频智能分析算法的数据集构建与国产化芯片适配,17.6万,2024.1-2025.12,山东高速信息集团有限公司,依托单位负责人
[16]祝振敏,2024年江西省科学技术奖申报项目咨询,10万,2024.8-2025.12,江西方兴科技股份有限公司
[17]祝振敏,结构光三维成像及测量技术研究及应用,10万,2024.8-2025.12,中交长大桥隧技术有限公司
[18]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,轨道交通基础设施性能监测与保障国家重点实验室自主课题重点项目,HJGZ2023204,5万元,依托单位负责人,2024.1-2015.12
[19]祝振敏,赣州市重点研发计划一般项目--科技合作领域,基于机器视觉的电路板表面缺陷检测技术,10万,2023PCG17344,2024.1-2025.12,课题负责人
[20]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
[21]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,2020.1-2023.12,20万元,课题负责人
[22]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
[23]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
[24]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
[25]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
[26]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
[27]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
[28]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
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.授权时间:2024.7.12,授权号:ZL201910393116.9
[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。授权时间: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
[41]祝振敏,曾兴宁,卢文全,董雅雯,詹焱亮,乔硕,周利升。基于全局最优偏振图像的相机-投影仪标定方法和系统。授权时间:2023.10.13,授权号:ZL2023110737615
[42]祝振敏,詹焱亮,吕梦楠,仲金龙,刘勇,郑卫华,蔡龙成.基于平面镜的无重叠视场的相机参数标定方法。授权时间:2023.11.10,授权号:ZL2023111516094
[43]祝振敏,卢文全,郑颖琦,詹焱亮,仲金龙。一种双摄像机三维测量的标定方法、系统、设备和介质。授权时间:2023.12.8,授权号:ZL2023111309709
[44]祝振敏,党国庆,刘勇,郑卫华,蔡龙成,詹焱亮.基于多频偏振条纹技术的工件三维测量方法及其系统。授权时间:2024.2.7,授权号:ZL 202311713046.3
[45]祝振敏,叶银松,詹焱亮,吴成中,王耀南.基于Stokes参数的偏振测量方法、系统、设备和介质,授权时间:2024.5.17授权号:ZL 2023110414144
[46]祝振敏,詹焱亮,刘勇,卢文全,郑卫华,蔡龙成,赵伟哲,熊俊杰。基于偏振双目线结构光融合互补三维重构方法和系统,授权时间:2024.6.11 授权号:ZL 202410405434.3
[47]祝振敏,邹子煜,卢文全,刘勇,郑卫华,蔡龙成.基于相机颜色响应与偏振成像的二值条纹编码方法和系统,授权时间:2024.7.19,授权号:ZL 202410470490.5
[48]祝振敏,蒋剑如,吴成中,詹焱亮.基于偏振特性结合光场成像去除镜面反射的成像方法和系统,授权时间:2024.8.6,授权号:ZL2024105404927
[49]祝振敏,朱韬维,龙文卿,何立发.偏振条纹投影的三维位移测量方法及其系统,授权时间:2024.8.23,授权号:ZL202410681046.8
[50]祝振敏,仲金龙,邓居亮,刘浩然,赖强,屈志坚,彭书祺,詹焱亮.基于偏振线结构的高反射物体表面三维重建方法及其系统。授权时间:2024.9.20,授权号:ZL202411032096X
[51]祝振敏,乔硕,毛训海,马国兴,彭书祺.一种基于完全偏振编码双目结构光测量方法及其系统,授权时间:2024.10.25,授权号:ZL2024110466177
[52]祝振敏,周雨蒙,龙文卿,何立发,陈忠斌. 偏振正弦条纹图案校正方法、结构光三维重构方法和系统。授权号:ZL 2024 1 1200989.0,授权时间:2024.11.15
[53]祝振敏,李永健,李威,徐振华,詹鑫,卢文全,熊俊杰,赵伟哲,詹焱亮.基于偏振图像的零样本学习超分辨率重建方法和系统。授权号:ZL202411274186.X,授权时间:2024.12.27
[54]祝振敏,刘浩然,邓居亮,舒凯,詹焱亮。基于偏振线结构光差分成像方法、系统、设备和介质。授权号:ZL2024111800235,授权时间:2025.2.7
[55]祝振敏,邹能,张宗华,周显恩。基于偏振条纹投影结构光融合的三维重构方法及其系统。授权号:ZL2025100464343,授权时间:2025.4.15
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]“基于高质量成像的结构光视觉检测技术及工程应用”,2023年产学研合作创新成果奖优秀奖(排名第一)(祝振敏,周国平,林利森,严匡拧,曾龙辉,卢文全,徐亮,彭小俊,吴萍,毛训海)
[5]“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)
[6]“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)
[7]“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)
[8] “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
2025年:
[1]honghui Jiang,Zhenmin Zhu*,shuqi Peng,xuting Hu,yihang Peng.Structured Light 3D Imaging via Fusion of Spatial–Frequency Information and Domain-Adaptive Adversarial Learning.Optics Express.2025.(TOP期刊)
[2]Zhenmin Zhu*,Jianru Jiang,Jing Zhang,Guoqing Dang,Weizhe Zhao, Junjie Xiong.High reflectivity surface highlight removal technology based on light field polarization imaging.Optics Express.Optics Express.2025.33(1):501-515(TOP期刊)
[3]Zhenmin Zhu, Yongjian Li, Jing Zhang, Weizhe Zhao , Junxie Xiong.Zero- Shot and Degradation Aware Learning for Polarization Super-Resolution. Optics and laser technology.2025.189:113036(TOP 期刊)
[4]Guoqing Dang,Zhenmin Zhu*, Xiaoyan Cheng, Dongdong Xie, Bin Zou. Deep-learning-assisted composite polarized fringe projection profilometry for three-dimensional measurement of high-dynamic-range objects,Applied Optics.2025.64(1):221-232
[5] Zhenmin zhu*, Taowei Zhu,Wenqing Long, Lifa He, Hongwei Qiu, Lisheng Zhou.Three-dimensional displacement measurement based on DIC-assisted polarization fringe projection.Optics Communications,2025.576(3):131347
2024年:
[1]Zhenmin Zhu*, Shuo Qiao, Lingjun Liu, Peng Chen and Zhaozhang Chen. An efficient completely polarization-encoded binocular structured light 3D measurement method for metallic objects.Optics Express,2024.32(20):34609-34621(JCR二区)(TOP期刊)
[2]Guoqing Dang, Zhenmin Zhu*, Xiaoyan Cheng, Dongdong Xie and Shuo Qiao. Phase unwrapping of metal workpieces based on multifrequency polarization stripe technology. IEEE Transactions on Instrumentation & Measurement,2024.73:5020812(JCR一区)(TOP期刊)
[3]Zhenmin Zhu*, Junxiang Liu, Tai Zhu, Sheng Wang, Chengzhong Wu.The intensity inhibition strategy for indoor light sources during structured light measurement.Measurement. 2024,231:114536(IF:5.6)(JCR一区)(TOP期刊)
[4]Zhenmin Zhu*, Yumeng Zhou, Tai Zhu, Dongdong Xie, Wenqing Long, Lifa He. "3D reconstruction method based on polarization suppression of inter-reflection".Optics and Lasers in Engineering,2024,177:108139(JCR一区)
[5]Zhenmin Zhu*,Hongwei Qiu,Qiang Hu,Kang Ren, Lisheng Zhou,Taowei Zhu. Underwater 3D Reonstruction Based on Double N-Step Orthogonal Polarization State Phase Shift Strategy,Optics and Lasers in Engineering,2024,178(7):108161(JCR一区)
[6]Zhenmin Zhu*, Yumeng Zhou, Wenquan Lu, Jing Zhang, Lisheng Zhou, and Haoran Liu, "Robust structured light 3D measurement method based on polarization-encoded projection patterns," Appl. Opt. 63, 210-220 (2024)(IF:1.9)(JCR三区)
[7]Zhenmin Zhu*,Xingning Zeng,Wenqing Long, Lifa He, Xiaokai Xu.Three-dimensional reconstruction of polarized ambient light separation in complex illumination.Optics Express.32(8):13932-13945,2024(TOP期刊)
[8]Zhenmin Zhu*,Xiaokai Xu,Wenqing Long, Lifa He, Jing Zhang, Haoran Liu and Jianru Jiang. The Optimal Algorithm for Eliminating Nonlinear Error in Phase Measurement profilometry Based on Global Statistical Phase Feature Function.Measurement Science and Technology. 2024,35:065020
[9]Zhenmin Zhu*, Hongwei Qiu, Wenqing Long, Lifa He, Dongdong Xie, Yinsong Ye. Research on measurement technology based on a Stokes parametric polarization system. Applied optics.2024.63(13):3495-3505(IF:1.9)
[10]Zhenmin Zhu*,Yuyang Zhang, Xuefei Li, Liang Tang, Xinguang Wang, Sipeng Xiong and Dongdong Xie.Imaging Detection System with Full Polarization Modulation in High-Light Environments.Applied Optics,2024.63(28):7516-7528(JCR三区)
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.2023,72:5024809(IF:5.6)(JCR一区)
[2]Zhenmin Zhu * ,Duoduo You, Xingning Zeng, Shuo Qiao , Guoqing Dang,and Yanliang Zhan.3D Reconstruction Method Based on multi-polarization superposition coding Phase Pattern of LRR Objects. Optics Express.2023,31(20):32350-32361(TOP期刊)
[3]Yulin Xie, Zhenmin Zhu ⁎, Minchao Li.Joint polarization-color coding strategy based on Stokes parameter for robust strip-edge detection in 3D measurement.Measurement.2023:113493(JCR一区)(TOP期刊)
[4]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. 2023.34:125202
[5]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)
[6]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)
[7]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)
[8]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)
[9]Zhenmin Zhu*, Lisheng Zhou, Liqiang Xie, Wenju Zhang, Mingkai Yao, Liang Tang.Robust 3D reconstruction technology based on ternary polarization coding strategy.Optical Engineering.2023,62(9):094103
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)(TOP期刊)
[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)(TOP期刊)
[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)
[15]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)
[16]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)
[17]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)
[18]Zhenmin Zhu*, Peng Xiang, Fumin Zhang. Polarization-based Method of Highlight Removal of HighReflectivity Surface. Optik.2020,221:165345. (SCI,IF:2.443)
[19]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)(JCR一区)
[20] 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)
[21]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)
[22]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)
[23]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)
[24]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)
[25]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) (JCR一区)
[26]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)(JCR一区)
[27]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
[28] 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)
[29] 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)
[30]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)
[31] 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)
[32] 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)
[33] 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)
[34]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)
[35]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)
[36] 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)
[37]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)
[38]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)
[39]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)
[40]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
[41] 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),
[42] 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
[43]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
[44]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
[45] 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)
[46]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;
[47]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;
[48]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)
[49]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
[50] Zhenmin zhu, Xinghua qu,Guoxin jia. Effect of color illumination on color contrast in color vision application. Proc.SPIE. 2010785510. (ISTP:BTO95)(EI:20110213560654)
[51]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.
[52] 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)
[53] 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)
[54] 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)
[55]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)
[56]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)
[57]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
[58]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
[59] 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)
[60]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)
[61] 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)