Research Fields

1. 已发表学术论文:

Ø    [44] Qiongqiong Duan, Zhao Wang, Junhui Huang, Chao Xing, Zijun Li, Miaowei Qi, Jianmin Gao, Song Ai. A deep-learning based high-accuracy camera calibration method for large-scale scene [J]. Precision Engineering, 86(2024): 464-474 (2024).(SCIEI)

Ø    [43] Zijun Li, Zhao Wang, Junhui Huang, Qiongqiong Duan, Miaowei Qi, Jianmin Gao, Wei Wang, Qiang Dong, Qiyuan Li, Song Ai.. Blade profile extraction and edge completion method based on structured light measurement point cloud [J]. Precision Engineering, 86(2024): 225-238 (2024).(SCIEI)

Ø    [42] Chao Xing, Junhui Huang*, Zhao Wang, Qiongqiong Duan, Zijun Li, Miaowei Qi. A high-accuracy online calibration method for structured light 3D measurement[J]. Measurement, 210(2023): 112488 (2023).(SCIEI)

Ø    [41] Junhui Huang*, Miaowei Qi, Zhao Wang, Zijun Li, Jianmin Gao. A high precision measurement method of large-size turbine blade based on structured light 3D measurement[C]. Proc. SPIE, 12169, Eighth Symposium on Novel Photoelectronic Detection Technology and Applications; 12169D3 (2022). (EI)
Ø    [40] 杨程, 王昭, 黄军辉, 邢超*. 随机散斑投影粗粒反光表面图像采集方法[J]. 光子学报, 51(3): 0310004 (2022). (EI)

Ø    [39] Chao Xing, Junhui Huang*, Zhao Wang, Jianmin Gao. A weighted fusion method with multi-system for improving measurement accuracy of structured light 3D profilometry[J]. Measurement Science and Technology, 33(5): 055401(2022).(SCIEI)

Ø    [38] Junhui Huang*, Miaowei Qi, Zhao Wang*, Chao Xing, and Jianmin Gao. High precision measurement for the chamfered hole radius and spacing of large-size workpiece based on binocular vision combined with plane dynamic adjustment [J]. Applied Optics, 60(29):9232-9240 (2021).(SCIEI)

Ø    [37] Gang Li, Junhui Huang*, Zhao Wang, Jianmin Gao, Kun Chen. Form Recognition Based on Lightweight U-Net and Tesseract after Multi-level Retraining [C]. 2021 International Conference of Optical Imaging and Measurement, ICOIM 2021, p243-248, August 27, 2021.(EI)

Ø    [36] Rongjun Shi, Junhui Huang*, Zhao Wang, Miaowei Qi, Jianmin Gao. Error compensation of the multi-visual structured light 3D measurement system based on 3-D point cloud for accuracy consistency [C]. Proc. SPIE 12057, Twelfth International Conference on Information Optics and Photonics, 1205710 (2021).(EI)

Ø    [35] Zhaoshuai Qi, Zhao Wang*, Junhui Huang, Qiongqiong Duan, Chao Xing, Jianmin Gao. Phase-modulation combined deflectometry for small defect detection[J]. Applied Optics, 59(7): 2016-2023 (2020).(SCIEI)

Ø    [34] 何曾范,黄军辉*,王昭,方熊琪,邢超,郝俊杰,高建民.结构光系统含平面距离约束平差标定及加权集成测量模型[J].西安交通大学学报, 54(2): 166-174, 2020.(EI)

Ø    [33] Junjie Hao, Junhui Huang, Zhao Wang, and Janmin Gao "A new methodology for evaluating profile and position errors of blade based on parameter priority", Proc. SPIE 11439, 2019 International Conference on Optical Instruments and Technology: Optoelectronic Measurement Technology and Systems, Beijing, 1143919.(EI)

Ø    [32] Qi Jingya, Wang Zhao*, Huang Junhui, Wang Qing, Gao Jianmin. Heterodyne interferometer with two parallel-polarized input beams for high-resolution roll angle measurement[J]. Optics Express, 27(10): 13820-13830 (2019). (SCIEI)

Ø    [31] Jingya Qi, Zhao Wang, Junhui Huang, and Jianmin Gao. Resolution-enhanced heterodyne laser interferometer with differential configuration for roll angle measurement [J]. Optics Express, 26(8): 9634-9644 (2018). (SCI; EI)

Ø    [30] Zhaoshuai Qi, Zhao Wang, Junhui Huang, Chao Xing and Jianmin Gao. Error of image saturation in the structured-light method [J]. Applied Optics Vol. 57, Issue 1, pp. A181-A188, 2018. (SCI; EI)

Ø    [29] Junhui Huang*, Yingchun Yuan*, Zhao Wang, Zhaoshuai Qi, Chao Xing, Jianmin Gao. A global-to-local registration and error evaluation method of blade profile lines based on parameter priority [J]. The International Journal of Advanced Manufacturing Technology, 94(1): 3829-3839, 2017. (SCI; EI)

Ø    [28] Junhui Huang*, Zhao Wang, Jianmin Gao, Hongze Qi and Jingya Qi. A high-precision measurement of small roll angular displacements based on AOMs and its error impact analysis [J]. Meas. Sci. Technol. 28(10): 105204, 2017. (SCI;EI)

Ø    [27]  Junhui Huang*, Zhao Wang*, Jianmin Gao, Youping Huang, David Peter Towers. High-Precision Registration of Point Clouds Based on Sphere Feature Constraints [J]. Sensors, 17(1): 72, 2017. (SCI, EI)

Ø    [26] Zhaoshuai Qi, Zhao Wang*, Junhui Huang, Qi Xue, Jianmin Gao. Improving the quality of stripes in structured-light three-dimensional profile measurement[J]. Optical Engineering 56(3): 031208, 2016. (SCI, EI)

Ø    [25] Yun Liu, Zhao Wang, Junhui Huang*, Jianmin Gao,Jiansu Li, Yang Zhang,and Xumeng Li. Coherent noise reduction of reconstruction of digital holographic microscopy using laterally shifting hologram aperture[J]. Optical Engineering 55(12), 121725, 2016.(SCI, EI)

Ø    [24] Junhui Huang*, Qi Xue*, Zhao Wang, Jianmin Gao. Analysis and Compensation for Lateral Chromatic Aberration in a Color Coding Structured Light 3D Measurement System[J]. Sensors, 16(9): 1426, 2016. (SCI, EI)

Ø    [23] Junhui Huang*, Zhao Wang*, Jianmin Gao, Bao Yu. Modeling and Analysis of Phase Fluctuation in a High-Precision Roll Angle Measurement Based on a Heterodyne Interferometer[J]. Sensors, 16(8): 1214, 2016. (SCI, EI)

Ø    [22] Jiansu Li, Zhao Wang, Junhui Huang*, Yun Liu, Jianmin Gao. Optimization of the object function matrix to improve the reconstruction speed and quality in compressive holography[J]. Optics Communications, 2016. (SCI, EI)

Ø    [21] Jingya Qi*, Zhao Wang, Junhui Huang*, Bao Yu, Jianmin Gao, Silvano Donati. Enhancing the sensitivity of roll-angle measurement with a novel interferometric configuration based on waveplates and folding mirror[J]. Rev. Sci. Instrum. 87(3): 036106, 2016. (SCI, EI)
Ø    [20]齐静雅, 王昭, 黄军辉* 余宝, 高建民. 机床导轨滚转角测量误差分析[J]. 西安交通大学学报, 50(9): 31-35, 2016. (EI)

Ø    [19] 齐召帅, 王昭*, 黄军辉, 薛琦, 高建民. 基于神经网络的结构光系统标定[J]. 光子学报, 45(5): 0512002, 2016. (EI)

Ø    [18] 余宝, 王昭*, 黄军辉, 齐静雅, 李朝晖, 郭俊杰. 机床滚转角高精度测量中的频偏现象研究[J]. 西安交通大学学报, 50(3): 101-105, 2016. (EI)

Ø    [17] Qi Xue*, Zhao Wang, Junhui Huang, Jianmin Gao and Zhaoshuai Qi. A two-level space-time color-coding method for 3D measurements using structured light[J]. Measurement Science and Technology, 26(11): 115204 (12pp), 2015. (SCI, EI)

Ø    [16] 李朝辉,王昭*黄军辉,齐静雅,余宝,郭俊杰. 直角棱镜的保偏反射膜设计及分析[J]. 中国激光, 2015, 42(3):0316002.(EI)

Ø    [15] Junhui Huang, Zhao Wang*, Jianmin Gao and Weihua Bao. A High-precision Registration Method Based on Auxiliary Sphere Targets[C]. The International Conference on Digital Image Computing: Techniques and Applications (DICTA), Wollongong, NSW, Australia, November 25-27, 2014. January 12, 2015 (EI)

Ø    [14] 李朝辉, 王昭*, 黄军辉, 汤善治, 郭俊杰. 滚转角测量中直角棱镜相位损失及解决方法[J]. 西安交通大学学报, 2014, 48(9): 112-116. 2014. (EI)

Ø    [13] 黄军辉, 王昭*, 薛琦, 高建民. 基于有理函数式镜头畸变模型的摄像机标定[J]. 中国激光, 2014, 41(5): 0508001-1-7. (EI)

Ø    [12] Yun Liu, Zhao Wang*, Jiansu Li, Jianmin Gao, Junhui Huang. Total aberrations compensation for misalignment of telecentric arrangement in digital holographic microscopy[J]. Opt. Eng., 53 (11): 112307, 2014.(SCI, EI)

Ø    [11] Jiansu Li, Zhao Wang*, Jianmin Gao, Yun Liu, Junhui Huang. Adaptive spatial filtering based on region growing for automatic analysis in digital holographic microscopy[J]. Optical Engineering, 54(3): 031103-1, 2014. (SCI, EI)

Ø    [10] Qi Xue, Zhao Wang, Junhui Huang*, Jianmin Gao. Improving the measuring accuracy of structured light measurement system[J]. Optical Engineering, 53(11):1-9, 2014. (SCI, EI)

Ø    [9] Yun Liu, Zhao Wang*, Jiansu Li, Junhui Huang, Jianmin Gao. Automatic aberrations compensation for thin object in off-axis digital holographic microscopy[C]. Proc. SPIE, 2013, 9042, 904254-1.(EI)

Ø    [8] Huang Junhui*, Wang Zhao, Xue Qi, Gao Jianmin. Projector calibration with error surface compensation method in the structured light three-dimensional measurement system[J]. Opt. Eng. 2013, 52(4).(SCI, EI)

Ø    [7] Junhui Huang*, Zhao Wang, Qi Xue and Jianmin Gao. Calibration of a camera–projector measurement system and error impact analysis [J]. Meas. Sci. Technol. 2012, 23(12), 125402 (14pp) (SCI, EI).

Ø    [6] Huang Junhui*, Wang Zhao, Gao Zhihua, Gao Jianmin. A novel color coding method for structured light 3D measurement[C]. Proc. SPIE, 2011, 8085, 808512-1. (EI).

Ø    [5] Huang Junhui*, Wang Zhao, Gao Jianmin, Yanguang Yu. Overview on the profile measur ement of turbine blade and its development[C]. Proc. SPIE, 2010, 7656, 76560L-1. (EI).

Ø    [4] 王昭, 黄军辉*, 高建民等. 基于光束法平差的结构光测量系统标定[J]. 机械工程学报. 2013, 49(5):1-10. (EI)

Ø    [3] Qi Xue, Zhao Wang*, Junhui Huang, Jianmin Gao, The elimination of the errors in the calibration image of 3D measurement with structured light [C], Proc. SPIE, 2012, 8430, 84300N-1. (EI).

Ø    [2] 高治华, 王昭*, 黄军辉, 高建民. 基于射影变换的结构光测量系统中投影仪标定方法[J]. 中国激光, 2012, 39(10), 1008004-1-8 (EI).

Ø    [1] 柴玉亭, 王昭*, 高建民, 黄军辉. 基于频域滤波的高光去除方法[J]. 激光与光电子学进展, 2013, 50(5): 051205.

    * : 通讯作者

 

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1. 专利:

Ø [34]黄军辉, 王子怡, 王昭, 祁苗伟, 高建民. 基于预投影相移图复用的自适应投影高光消除方法及系统. 申请号: 202410210365.0, 2024-2-26.

Ø [33]王昭, 余佳鹏,黄军辉, 祁苗伟, 高建民. 相位结构光三维测量的二分迭代亚像素匹配方法及系统. 申请号: 202311714238.6, 2023-12-14.

Ø [32]王昭, 黄军辉,张炜峰, 李子君, 张君杰, 邵文琦. 一种人体表面重构与三维关键点定位方法. 申请号: 2023106635604, 2023-06-06.

Ø [31]黄军辉,陈亦麟, 王昭, 段琼琼, 江长鸿, 高建民. 一种面向叶片三维测量的视点规划方法及系统. 申请号: 202211700423.7, 2022-12-28.

Ø [30]黄军辉,张书婷, 王昭, 高建民. 基于多角度光散射法的混合颗粒质量浓度在线测量及系统. 申请号: 202211699781.9, 2022-12-28.

Ø    [29] 黄军辉, 周凌宇, 王昭, 高建民.一种管道内径与内壁表面缺陷复合测量装置. 申请号: 202210380677.7, 2022-04-12.

Ø    [28] 黄军辉, 王昭, 卢磊磊, 史荣钧, 李子君, 高建民. 一种基于边缘判定与区域生长的点云分割方法, 申请号: 2021104546594, 2021-04-26.

Ø    [27] 黄军辉, 王昭, 杨程, 祁苗伟, 高建民, 张厅方. 一种畸变喷码字符逐层分割的方法, 申请号: 202010707261.2, 2020-07-22.

Ø    [26] 黄军辉, 王昭, 杨程, 祁苗伟, 高建民. 一种基于机器视觉技术的复杂柱体表面积测量装置与方法, 申请号:202010397917.5, 2020-05-12.

Ø    [25] 王昭, 齐静雅, 黄军辉, 高建民. 一种四光束结构激光外差干涉滚转角测量装置及方法, 申请号:201911107830.3,2019.11.13.

Ø    [24] 黄军辉, 王昭, 段琼琼, 孙云飞, 高建民. 一种管板孔径和节距测量方法, 申请号: 201910611195.6, 2019-07-03. 

Ø    [23] 黄军辉, 王昭, 郝俊杰, 段琼琼, 高建民. 一种基于约束物虚拟特征的多视三维点云拼接方法, 申请号: 201910575012.X, 2019-06-28.

Ø    [22] 黄军辉, 王昭, 卢磊磊, 何曾范, 邢超, 高建民. 一种多目结构光系统的加权集成测量方法, 申请号: 201910528437.5, 2019.06.18.

Ø    [21] 黄军辉, 王昭, 何曾范, 方熊琪, 邢超, 高建民. 一种多目结构光系统高精度标定方法, 201910527507.5, 2019.06.18.

Ø    [20] 黄军辉, 王昭, 方熊琪, 何曾范, 邢超, 高建民. 一种高效高精度的结构光三维测量系统重标定方法, 201910527506.0, 2019.06.18.

Ø    [19] 黄军辉, 王昭, 孙云飞, 段琼琼, 高建民. 一种大尺寸管板孔径和节距测量装置与测量方法, 申请号: 201811528091.0, 2018.12.13

Ø    [18] 王昭,邢超,黄军辉,齐召帅,高建民. 一种双目结构光三系统法视角加权的三维轮廓测量方法, 申请号:201811168587.1, 2018.10.08.

Ø    [17] 王昭,齐召帅,段琼琼,黄军辉,高建民. 一种汽车车身的表面缺陷检测方法,201810850024.4,2018-07-28.

Ø    [16] 王昭,高建民,齐召帅,黄军辉等. 一种用于对工件进行三维轮廓测量的测量系统,201810850037.1,2018-07-28.

Ø    [15] 王昭, 齐静雅, 黄军辉, 高建民, 齐红泽. 一种大范围及高精度的滚转角测量装置及测量方法, 申请号: 201711411843.0, 2017.12.23.

Ø    [14] 王昭, 齐静雅, 黄军辉, 高建民, 齐红泽. 一种共光路激光外差干涉法滚转角高精度测量装置及方法, 申请号: 201711411746.1,2017.12.23.

Ø    [13] 王昭, 黄军辉, 李绪萌, 高建民, 段琼琼. 一种基于光纤的两用型远心结构数字全息显微测量装置, 申请号: 2017109597952, 2017.10.16.

Ø    [12] 王昭, 齐召帅, 黄军辉, 袁迎春, 高建民. 光学三维轮廓测量中的无效点探测与剔除方法, 申请号:201710726411.2, 2017.10.07

Ø    [11] 王昭, 黄军辉, 袁迎春, 高建民.一种高精度的叶片截面特征参数提取方法, 申请号: 2017104490709, 2017.06.14.

Ø    [10] 黄军辉, 王昭, 齐红泽, 高建民, 齐静雅. 一种滚转角测量系统的高精度标定装置及标定方法, 申请号: 201710096914.6, 2017.2.22

Ø    [9] 王昭,袁迎春,黄军辉,齐召帅,高建民. 一种基于最佳匹配的叶片截面型线轮廓参数评价方法, 申请号: 201610696481.3, 2016.08.19

Ø    [8] 王昭, 齐静雅, 黄军辉, 高建民, 余宝. 一种导轨滚转角现场标定及测量装置及方法, 申请号: 201610529719.3, 2016.07.05

Ø [7]王昭, 齐召帅, 黄军辉, 薛琦, 高建民. 用于高动态范围物体的区域投影光学三维轮廓测量方法, 申请号: 201610368146.0, 2016.05.27

Ø    [6] 王昭, 齐静雅, 黄军辉, 高建民, 余宝. 基于倾斜折叠高反镜的外差干涉法滚转角测量装置及方法, 申请号: 201510749315.0, 2015.11.5

Ø    [5] 王昭, 齐静雅, 黄军辉, 高建民, 余宝, 李朝辉. 基于多次通过二分之一波片的光强法滚转角测量装置及方法, 201510394370.2 2015.11.5

Ø    [4] 王昭, 薛琦, 黄军辉, 高建民. 一种自适应多频时空彩色编码的光学三维轮廓测量方法, 申请号: 201410787529.2, 2014.12.19

Ø    [3] 王昭, 高建民, 黄军辉, 李朝辉, 郭俊杰. 西安交通大学. 基于外差干涉相位法的高分辨率滚转角测量方法及装置, 申请号: 201410414682.0, 2014.08.21

Ø    [2] 王昭黄军辉, 阳明, 高建民. 一种时间编码的光学三维轮廓测量方法: 中国, 200910023393.7 [P]. 2009-7-21.

Ø    [1] 高建民, 高铁瑜, 陈富民, 张英杰, 刘加增, 王昭,黄军辉. 一种用于燃气轮机涡轮叶片的双工质冷却实验系统: 中国, 200810232130.2 [P]. 2010-06-17.

 

2. 软著:

Ø [5] 黄军辉,江长鸿, 王昭, 段琼琼, 陈亦麟, 高建民. 高温透平叶片几何特征测量系统软件, 申请号:, 申请日:2023.05.24.

Ø [4]黄军辉, 陈亦麟, 王昭, 段琼琼, 江长鸿, 高建民. 高温透平叶片几何特征测量系统路径自动规划软件, 申请号:, 申请日:2023.05.19.

Ø [3]黄军辉, 任鹏, 王昭, 高建民, 陈琨. 智能化电动操动机构检测试验平台, 申请号:2023SR0291910, 申请日:2023.01.28.

Ø [2]黄军辉, 王昭, 方熊琪, 段琼琼, 祁苗伟, 邢超, 高建民. 基于多测头协同及面结构光长叶片叶身检测系统, 申请号:2020SR1179118, 申请日:2020.09.28.

Ø    [1] 黄军辉, 王昭, 段琼琼, 孙云飞, 高建民. 大型零部件尺寸检测系统, 申请号:2019R11L842282, 申请日:2019.06.18.