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科研队伍

曹衍龙/教授,博导

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曹衍龙

教授、博导

浙江大学制造技术及装备自动化研究所  副所长

办公电话:86953198

通讯地址:浙江大学玉泉校区第一教学楼231室

电子邮件:sdcaoyl@zju.edu.cn

个人主页:http://mypage.zju.edu.cn/sdcaoyl/567416.html


一、个人履历

1、教育背景

1997/09-2003/05 浙江大学,机械制造及其自动化,博士

1993/09- 1997/07 山东工业大学,机械制造工艺与装备/工业控制,学士

2、工作经历

2012/12-至今    浙江大学,机械工程学院,教授、博士生导师

2007/10-2009/10 英国Huddersfield大学,计算机与工程学院,博士后/访问学者

2005/06-2012/11 浙江大学,机械工程学院,副教授

2003/05-2005/05 浙江大学,生工食品学院,博士后


二、研究方向

1、精度设计与质量工程

2、机器视觉与红外测量


三、奖励荣誉

1、中国机械工业科学技术奖二等奖

2、浙江省151人才工程

3、浙江大学新星计划


四、学术兼职

1、国际标准化组织(ISO/TC60)齿轮计算工作组( WG 6 )成员(中国代表)

2、全国产品尺寸和几何技术规范标准化技术委员会(SAC/TC240)委员

3、全国齿轮标准化技术委员会委员

4、中国几何量专业委员会委员

5、全国高校互换性与测量技术研究会副秘书长

6、浙江省智能制造标准联盟副秘书长


五、科研项目

[1]   工信部智能制造专项基础共性和关键技术标准“远程运维关键技术标准研究与试验验证”(2017.06-2019.12)(主持)

[2]  浙江省经信委咨询项目“中国制造2025框架下的浙江制造业战略研究” (2015.06~2015.10)(主持)

[3]  浙江省经信委咨询项目“中国制造2025框架下的浙江制造路线图研究” (2015.09~2015.12)(主持)

[4] 湖州市经信委咨询项目“湖州市高端装备制造业“十三五”发展规划” (2015.09~2015.12)(参加)

[5] 工信部智能制造新模式专项“家用电器智能制造新模式”(杭州老板电器股份有限公司)(2014年01月-2018年12月)(技术负责人)

[6] 工信部智能制造新模式专项“汽车铝合金铸件智能车间新模式应用项目”(温州瑞明工业股份有限公司)(2014年01月-2018年12月)(技术负责人)

[7]工信部智能制造新模式专项“电力装备智慧仪表智能制造新模式”(华立仪表集团股份有限公司)(2013年01月-2017年12月)(技术负责人)

[8] 国家自然科学基金资助项目”基于数论的复杂装配体公差分析理论与方法” (51575484, 2016.01~2019.12)(主持)

[9] 国家自然科学基金-广东联合基金资助项目“复杂混合制造系统能效优化理论与方法研究”(U1501248 ,2016.01-2019.12)(参加,第三参与人,浙大负责人)

[10] 国家自然科学基金资助项目“基于功能-结构并行分解的公差设计理论与方法” (51275464, 2013.01~2016.12)(主持)

[11] 钱江人才计划项目“强噪声中微弱冲击信号的提取与识别技术”(2011R10016,2011.08-2013.07)(主持)

[12] 深圳市科技计划项目“基于云视频安检集群的实时群体行为监测系统研究与实现” (项目负责人)

[13]国家自然科学基金资助项目“基于新一代GPS标准体系的柔性零件装配公差建模与分析”(50975257, 2010.01~2012.12)(主持)

[14] 国家自然科学基金资助项目“基于GPS的三维公差建模方法与技术研究”(50505046, 2006.1~2008.12)(主持)

[15]国家自然科学基金重点项目“复杂机电产品质量特性多尺度耦合理论与预防性控制技术”(50835008, 2009.1~2012.12)(参加)

[16] 国家973计划“复杂空气分离类成套装备超大型化与低能耗化的关键科学问题”课题“关键部机高强度大构件保质制造技术”(2011CB706560,2011.1~2014.12)(参加)

[17]“高档数控机床与基础制造装备”科技重大专项课题“基于敏感点监测的闭环动态综合补偿技术”(2009ZX04014-026,2009.03-2010.12)(参加)

[18]国家自然科学基金“基于新一代GPS标准体系的计算机辅助功能公差设计理论与方法”(50775204,2008.01-2010.12),(参加)

[19] 国家高科技计划(863)计划” 核电厂松动件监测的关键技术研究”(2007AA04Z426,2007.10-2010.6),(参加)

[20] 企业项目“明朔光电石墨烯路灯改造模组智能工厂 ”(项目负责人)

[21] 企业项目“航天产品数字化测量方法与应用基础研究” (项目负责人)

[22] 企业项目“激光定位测量系统研制 ” (项目负责人)

[23] 企业项目“大型薄壁件冲压质量视觉检测与工艺优化系统” (项目负责人)

[24]企业项目“微径钢管热处理及防腐集成装备研发” (项目负责人)


六、发表论文

[1]   Guan Dayan,Cao Yanpeng,Yang Jiangxin,Cao Yanlong,Tisse Christel-Loic. Exploiting fusion architectures for multispectral pedestrian detection and segmentation [J].APPLIED OPTICS.2018,57:108-116.

[2]    He ZW,Cao YP,Dong YF , Yang JX,Cao YL,Tisse CL.Single-image-based nonuniformity correction of uncooled long-wave infrared detectors: a deep-learning approach [J].APPLIED OPTICS.2018,57:155-164.

[3]    Cao YL ,Zhao QJLiu T ,Ren LF , Yang JX .The Strategy of Datum Reference Frame Selection Based on Statistical Learning[J] . JOURNAL OF COMPUTING AND INFORMATION SCIENCE IN ENGINEERING.2018.

[4]    Hu L, Tang R, Liu Y, Cao Y, Tiwari A. Optimising the machining time, deviation and energy consumption through a multi-objective feature sequencing approach. Energy Conversion & Management. 2018;160:126-40.

[5]   Cao Y, Liu M, Yang J, Cao Y, Fu W. A method for extracting weak impact signal in NPP based on adaptive Morlet wavelet transform and kurtosis. Prog Nucl Energ. 2018;105:211-20.

[6]    Weixin Hu, Cao Y, Yang J, Shang HC, Wang WB. An error prediction model of NC machining process considering multiple error sources. International Journal of Advanced Manufacturing Technology. 2018;94:1689-98.

[7] Cao Y, Xu B, Ye Z, Yang J, Cao Y, Tisse CL, et al. Depth and thermal sensor fusion to enhance 3D thermographic reconstruction. Optics Express. 2018;26:8179.

[8] Cao Y, He Z, Yang J, Ye X, Cao Y. A multi-scale non-uniformity correction method based on wavelet decomposition and guided filtering for uncooled long wave infrared camera. Signal Processing Image Communication. 2017.

[9]     Liu M, Yang J, Cao Y, et al. A new method for arrival time determination of impact signal based on HHT and AIC[J]. Mechanical Systems and Signal Processing. 2017, 86: 177-187.

[10]     Cao Yanlong, Yan Huiwen, Liu Ting. Application of Quasi-Monte Carlo Method Based on Good Point Set in Tolerance Analysis[J]. JOURNAL OF COMPUTING AND INFORMATION SCIENCE IN ENGINEERING. 2016, V16(2).

[11]     Wu X, Li R, Cao Y, et al. The value network optimization research based on the Analytic Hierarchy Process method and the dynamic programming of cloud manufacturing[J]. The International Journal of Advanced Manufacturing Technology. 2016, 84: 425-433.

[12]     Fan H, Liu Y, Cao Y, et al. Efficient recognition of undesired coupling effects in system design of multidisciplinary products[J]. Journal of Engineering Design. 2016, 27(10): 665-696.

[13]     Yuan L, Liu Y, Sun Z, et al. A hybrid approach for the automation of functional decomposition in conceptual design[J]. Journal of Engineering Design. 2016

[14]     Fan H, Xi G, Wang W, et al. An efficient five-axis machining method of centrifugal impeller based on regional milling[J]. The International Journal of Advanced Manufacturing Technology. 2016, 87: 1-11.

[15]     Cao Yanlong, Liu Ting, Ye Xuefeng. Lathe errors identification based on surface topography analysis after turning[J]. PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY. 2016, V46,243-253.

[16]     Wu Zijian, Liu Ting, Gao Zhenbo, Cao Yanlong. Tolerance design with multiple  resource suppliers on   cloud-manufacturing platform[J].INTERNATIONAL      JOURNAL OF ADVANCED MANUFACTU-RING TECHNOLOGY. 2016, V84(1-4): 335-346.

[17]     Cao Yanlong, Wu Zijian, Liu Ting. Multivariate process capability evaluation of  cloud manufacturingresource based on intuitionistic fuzzy set[J].INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY. 2016, V84(1-4): 227-237.

[18]  Yang Jiangxin, Yang Biyu, Liu Mingzhou,Cao Yanlong.Detection method of loose parts in nuclear react-or based on eigenvector algorithm[J]. PROGRESS IN      NUCLEAR ENERGY. 2016, V91: 250-255.

[19]  Cao Yanlong, Li Bo, Guan Jiayan, Yang Jiangxin. A point-based variation propagation model for multi-pass machining process. Proc IMechE Part B: J Engineering Manufacture . 2015,V 229,1164-1179.

[20]  Cao Yanlong, Li Bo, Ye Xuefeng, Guan Jiayan, Yang Jiangxin. Geometrical Simulation of Multi-Scale Toleranced Surface with Consideration of the Tolerancing Principle. ASME J. Comput. Inf. Sci. Eng. 2015, V15(2):21006-21016.

[21]  Cao Yanlong, Zhao Kui, Yang Jiangxin.Research on the method of constructing the inte-grated strategic performance indicator system for manufacturing enterprises.  International Journal of Production Research, 2015, V53(13):1-15

[22]  Cao Yanlong, Wu Zijian, Zhao Qijian. Study on Resource Configuration on Cloud Manufacturing[J]. MATHEMATICAL PROBLEMS IN ENGINEERING. 2015,1-13.

[23]  Gao Zhenbo, Wang Zhexing, Wu Zijian,Cao Yanlong. Study on Generation of 3D Assembly Dimension Chain: Procedia CIRP[Z]. CIRP, 2015,163-168.

[24]  Wu Zijian, Gao Zhenbo, Cao Yanlong. Tolerance Design and Adjustment of Complex Customized Product Based on Cloud Manufacturing: Procedia CIRP[Z]. CIRP, 2015,169-175.

[25]  Hu Weixin, Guan Jiayan, Li Bo,Cao Yanlong,Yang Jiangxin. Influence of Tool Assembly Error on Machined Surface in Peripheral Milling Process: Procedia CIRP[Z]. CIRP, 2015,137-142.

[26]  Tang Shuying, Guan Dayan, Wu Xiangji,Cao Yanlong. Analysis on virtual assembly tolerance for pitch-adjustable lateral propulsion device: Procedia CIRP[Z]. CIRP, 2015,131-136.

[27]  Cao Yanlong, Srinivasan V. Special Issue: Geometric Tolerancing[J]. JOURNAL OF COMPUTING AND INFORMATION SCIENCE IN ENGINEERING. 2015, 15,20301

[28]  Ye Xuefeng, Guan Jiayan, Wang Jing,Wang Lele,Cao Yanlong. Model for surface topography prediction in cylinder tu-rning: Procedia CIRP[Z]. CIRP, 2015,286-291.

[29]  Li B, Cao Y, Ye X, et al. Multi-scale prediction of the geometrical deviations of the surface finished by five-axis ball-end milling[J]. Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture. 2015, 387(2): 255-265.

[30]  Cao Yanlong, Mathieu Luc, Jiang Jane. Key research on computer aided tolerancing[J]. Journal of Zhejiang University. 2015, 16(5): 335-340.

[31]  Yang Jiangxin, Guan Jiayan, Ye Xuefeng,Cao Yanlong. Effects of geometric and spindle errors on the quality of end turning surface[J]. Journal of Zhejiang University Science, 2015, 16(5): 371-386.

[32]  Chen W, Cao Y, Xie J. Piezoelectric and electromagnetic hybrid energy harvester for powering wireless sensor nodes in smart grid[J]. Journal of Mechanical Science and Technology. 2015, 29(10): 4313-4318

[33]  YanlongCao, HengZhang, BoLi, ZijianWu, JiangxinYang. Study on functional specification scheme on interface based on positioning features. Proc IMechE PartB: Engineering Manufacture, 2013,V227(5),745-753.

[34]  Xiaolong Chen; Yanlong Cao; Zaiyu Lin; Jiangxin Yang; Xiaoqi Hu. Study on Extraction of Electrical Runout in Eddy Current Measurement Using Finite Element Method, Proc IMechE Part C: J Mechanical Engineering Science, 2014, Vol. 228(6) 1077–1086

[35]  Cao Yanlong, Guan Jaiyan, Li Bo. Modeling and simulation of grinding surface topography considering wheel vibration[J]. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY. 2013, 66(5-8): 937-945.

[36]    Yanlong Cao, Bo Li, Jiayan Guan, Jiangxin Yang,A study on mutative scale straightness measurement based on uncertainty analysis,Measurement, 46(1), 145-153

[37]  Cao, Yanlong, He, Yuanfeng, Yang, Jiangxin, Gan, Chunbiao,A method for weak impact signal discrimination based on para-approximate entropy,Progress in Nuclear Energy, 2012/9,60, pp 53-60

[38]  Mao Jian, Cao Yanlong, Yang Jiangxin. A Tolerance Analysis Method for Assembly Yield: Advanced Materials Research[Z]. 2012753-757.

[39]  Wang Yifeng, Zhang Heng, Cao Yanlong. Concurrent Tolerance Design System based on Manufacturing Context: Advanced Materials Research[Z]. 2012,634-639.

[40]  Y Cao,J Mao,H Ching and J Yang. A Robust Tolerance Optimization Method Based on Fuzzy Quality Loss. Proceedings of the Institution of Mechanical Engineers, Part C, Journal of Mechanical Engineering Science. 2009 vol. 223( 11): 2647-2653

[41]  Cao Y, Zhang. H,Mao.J, Yang J. Novel cost–tolerance model based on fuzzy neural networks. Proceedings of the Institution of Mechanical Engineers, Part B:J. Engineering Manufacture. 2010, vol. 224(11):1757-1765

[42]  Cao Yanlong,Jin Lu,Wang Kaiwei,Yang Jiangxin. Real-Time Surface Topography Measurement with Graphic Processing Unit. Adv. Sci. Lett. 2011,Vol.4(4-5): 1434-1438

[43]  YanlongCao,Heng Zhang, JianMao, Xusong Xu,Yang Jiangxin,Study on tolerance modeling of complex surface,Int. J. Adv. Manuf. Technol. 2011,V53:1183-1188

[44]  Cao Yanlong, Zhao Kui, Yang Jiangxin. Novel economic house of quality model based on quality economic analysis. Adv. Sci. Lett.

[45]  Cao Y, Zhang H, Mao J, et al. Novel cost-tolerance model based on fuzzy neural   network[J]. Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture. 2010, 224: 1757-1765.

[46]  Cao Yanlong, He Yuan Feng, Yang Jiangxin. An Alarm Method for a Loose Parts Monitoring System. Shock and Vibration , 2012, 19(4): 753-761.

[47]  He Yuan Feng, Cao Yanlong, Yang Jiangxin. Mass Estimation of  Loose Part in Nuclear Power Plant Based on Multiple Regression. Measurement Science and Technology, 2012, 23(5).

[48]  Mao Jian , Wu Shancheng, Cao Yanlong C. Fuzzy Comprehensive Evaluation of Manufacturability in Concurrent Tolerance Design: International Conference on Computer Aided Industrial Design and Conceptual Design[Z]. IEEE, 2009852-857.

[49]  Mao Jian, Cao Yanlong, Yang Jiangxin,Implementation uncertainty evaluation of cylindricity errors based on geometrical product specification (GPS),Measurement,2009,Vol.42(5): 742-747

[50]  Mao Jian, Cao Yanlong, Yang Jiangxin, Manufacturing environment-oriented robust tolerance optimization method, Int. J. Adv. Manuf. Technol. 2009,V41:57-65(SCI Accepted)

[51]  Jian Mao, Yanlong Cao, and Jiangxin Yang. A Transmission Error Analysis Method Using Monte Carlo Simulation. Adv. Sci. Lett. 2011,Vol4(6-7):2474-2477(SCI Accepted)

[52]  Yusheng Liu, Shuming Gao, Yaolong Cao. An Efficient Approach to Interpreting Rigorous Tolerance Semantics forComplicated Tolerance Specification. IEEE TRANSACTIONS ON AUTOMATION SCIENCE AND ENGINEERING, 2009,VOL. 6( 4):670-684

[53]  Wang Yifeng, Cao Yanlong, Chen Xiaolong, Lin Zaiyu, Yang Jiangxin, Development of Electrical Runout Online Measurement System Based on Eddy Current Technique and Laser Triangulation, Sensors Transducers, 154(7),2013,pp 158-164

[54]  Jian Mao,Yanlong Cao,HoChing,Ruxu Du. Fuzzy Tolerancing Based on Available Manufacturing Resources. Computer-Aided Design and Applications.2009,Vol. 6(2), 253-261

[55]  Jian MAO,Yanlong CAO. Tolerance sensitivity robust design and evaluation method. Applied Mechanics and Materials. 2011, Vols. 55-57:924-928

[56]  Mao Jian, Cao Yanlong, Yang Jiangxin. Mathematical model for linear symmetry based on tolerancing principle: International Conference on Computer-Aided Design Conceptual Design[Z]. 2006815-820.

[57]  Mao Jian , Cao Yanlong , Yang Jiangxin . A novel method for uncertainty evaluation of roundness errors based on geometrical product specification, PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS(SPIE)[Z]. 200635738.

[58]  Mao Jian, Zheng Huawen, Cao Yanlong, et al. Planar straightness error evaluation based on particle swarm optimization: Proceedings of SPIE[Z]. 2006.

[59]  Cao Yanlong, Mao Jian, Yang Jiangxin. A Robust Tolerance Design Method Based on Fuzzy Quality Loss[J]. Frontiers of Mechanical Engineering. 2006, 1(1): 101-105.

[60]  Cao Yanlong , Yang Jiangxin, Wu Zhaotong, et al. A robust tolerance design method based on pr-ocess capability[J]. Journal of Zhejiang University-SCIENCE A. 2004, 5(1): 81-85

[61]  YANG Jiangxin, XU Xusong, CAO Yanlong, LIU Yancong. Functional Tolerance Specification Design Based on Assembly Positioning. Journal of Mechanical Engineering, 2010, 46(2):1-8(in Chinese).

[62]  YANG Jiangxin, ZHENG Huawen, CAOYanlong, CHENG Shi, FANG Lixian, XIE Yongcheng. Estimation Method for Impact Location of Loose Parts Based on Hilbert Transform. Journal of Mechanical Engineering, 2009,45(12):232-236(in Chinese).

[63]  CAO Yanlong, CHENG Shi, YANG Jiangxin, ZHENG Huawen, HE Yuanfeng. Method for Mass Estimation of Loose Parts Based on Wavelet Packet. Journal of Mechanical Engineering, 2010,46(22):1-5 (in Chinese).

[64]  Mao Jian, Cao Nailiang, Cao Yanlong, Yang Jiangxin. Matching Method for Quality Knowledge in Product Designing Process. Transactions of the Chinese Society for Agricultural Machinery, 2012,43(1):197-201 (in Chinese).

[65]  FANG Li-xian, ZENG Fu, YANG Jian-gxin, YANG Jiang-xin, WANG Chi-hu, XIE Yong-cheng, SHEN Xiao-yao. Alarm Method for Loose Part of Nuclear Reactor Based on Fractal Theory. Nuclear Power Engineering, 2010,31(6):113-116 (in Chinese).

[66]  YANG Jiang-xin, CHENG Shi, CAO Yan-long, ZHENG Hua-wen, HE Yuan-feng, XIE Yong-cheng. Location estimation method for loose part based on AR model and wavelet transform. Journal of Zhejiang University(Engineering Science), 2011,45(8):1366-1369 (in Chinese).

[67]  YANG Jiangxin, ZHENG Hua-wen, CAO Yan-long, FANG Lixian, XIE Yongcheng, SHEN Xiaoyao. Alarming Method of Loose Parts in Nuclear Power Plant Based on Adaptive Auto-regressive Model. Atomic Energy Science and Technology, 2010,44(6):701-705 (in Chinese).

[68]  ZHENG Huawen, CAO Yanlong, YANG Jiangxin, HE Yuanfeng, FANG Lixian, XIE Yongcheng. Mass estimation of loose parts in nuclear power plant based on SVM. Journal of Zhejiang University(Engineering Science), 2010,44(8):1525-1529 (in Chinese).

[69]  MAO Jian, ZHANG Heng, CAO Yan-long. Research and application on model of size tolerance for plane based on SDT. Journal of Engineering Design, 2010,17(5):321-324 (in Chinese). 


七、专利成果

 1

管道实时应力的获取方法

浙江大学

ZL201510942747.3

发明

2

用于电子部件冷却的液冷板

浙江大学

ZL201510695697.3

发明

3

小型苗木根系土球打包机

浙江大学

ZL201520290639.8

实用新型

4

小型苗木根系土球打包机

浙江大学

ZL201510230357.3

发明

5

表面形貌抗振干涉测量系统

浙江大学

ZL201320584176.7

实用新型

6

表面形貌抗振干涉测量系统

浙江大学

ZL201310433699.6

发明

10

镗杆工作状态实时监测系统

浙江大学

ZL201120417133.0

实用新型

11

镗杆工作状态实时监测系统

浙江大学

ZL201110332199.4

发明

12

适合管材加工生产线的自动上料装置

浙江大学

ZL201120392749.7

实用新型

13

重力热管的封装装置

浙江大学

ZL201110312193.0

发明

14

适合管材加工生产线的自动上料装置

浙江大学

ZL201110313871.5

发明

15

自动盘管下料机

浙江大学

ZL201120360954.5

实用新型

16

自动盘管下料机

浙江大学

ZL201110286358.1

发明

17

一种多管连续感应退火装置

浙江大学

ZL201120353595.0

实用新型

20

大直径回转体的直径在线测量装置

浙江大学

ZL201120317614.4

实用新型

21

回转体电跳动量测量系统

浙江大学

ZL201110249683.0

发明

22

大直径回转体的直径在线测量装置

浙江大学

ZL201110249655.9

发明

23

基于扫频激光干涉的圆轨迹运动误差快速测量系统

浙江大学

ZL201020616883.6

实用新型

24

基于扫频激光干涉的圆轨迹运动误差快速测量系统

浙江大学

ZL201010552545.5

发明

25

基于多目标优化的松动件定位方法

浙江大学

ZL201010208660.0

发明

26

一种快速表面质量测量装置

浙江大学

ZL200920200065.5

实用新型

27

一种快速表面质量测量系统

浙江大学

ZL200910153879.2

发明

28

基于AR模型和小波变换的核电站松动件定位方法

浙江大学

ZL200910154588.5

发明

29

列车用太阳能信号灯系统

浙江大学

ZL200920115305.1

实用新型

30

一种基于机器视觉的珍珠实时检测和分级系统

浙江大学

ZL200720105500.7

实用新型

31

基于机器视觉的珍珠实时检测和分级系统

浙江大学

ZL200710066683.0

发明



浙江大学制造技术及装备自动化研究所
地址:浙江省杭州市浙大路38号
邮件:ipe@zju.edu.cn
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