王健 - 华中科技大学 - 机械科学与工程学院

个人简介

王健（Wang Jian，Professor），华中科技大学博士生导师，智能制造装备与技术全国重点实验室固定成员，湖北省高层次人才。获中国科学技术大学精仪系学士学位与英国Huddersfield大学国家计量中心博士学位，在英国国家物理实验室从事博后研究工作后，于2015年进入华中科技大学。围绕先进机械电子、集成电路制造光学精密-超精密测量技术研究，主持了国家自然科学基金项目/重点研发子课题4项、湖北省重点研发项目1项，并参与欧洲研究理事会、欧盟框架计划项目及国基金重点等项目多项；在ADV ENG INFORM、IEEE-ASME TMECH、OPT EXPRESS等国际权威期刊发表学术论文60余篇；WoS引用数700+，H指数17；申请国家发明专利及软著20余项；担任SENSORS客座编辑，产品几何规范国家标准化委员会TC240工作组成员、中国光学学会光学测试专委会委员、中国光学工程学会微纳专委会秘书，全国高校互换性与测量技术研究会理事及湖北省仪器仪表学会理事，IEEE/IET会员。承担硕士学位课《工业摄影测量技术》、本科专业基础课《互换性与技术测量》教学任务。获英国物理学会首届“表面计量”新兴领袖、湖北省科技进步奖、华中科技大学优秀教师班主任及工会积极分子等荣誉。

研究领域

先进制造结构-偏振光学超精密测量技术与仪器先进制造复杂表界面几何-物性表征方法与软件

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] A novel reconstruction method with robustness for polluted measurement dataset, Advanced Engineering Informatics 62, 102834, 2024 [2] “3-2-1” PMP: Adding an Extra Pattern to Dual-Band Phase-Shift Profilometry for Hyper-Precision 3D Imaging, IEEE Transactions on Instrumentation and Measurement 73, 5025814, 2024 [3] Incoherent partial superposition modelling for single-shot angle-resolved ellipsometry measurement of thin films on transparent substrates, Optics Express, 32, 15774-15787, 2024 [4] Precision Optical Metrology and Smart Sensing (Editorial), Sensors, 24, 6816, 2024 [5] Test of CaF2 glass sub-surface damage using angle-resolved ellipsometry, Procedia CIRP 129: 157-162, 2024. [6] Xiangqian Jiang, Polarized angle-resolved spectral reflectometry for real-time ultra-thin film measurement, Optics Express, vol. 31, 6552-6565, 2023 [7] The processing parameters optimization of UVAM-processed CuNiAl alloy based on surface integrity parameters, Tribology International, vol. 177, 107955, 2023 [8] Fast measurement of surface defects on large components with dynamic phase-shifting digital holographic microscopy, Measurement, vol. 208, 112443, 2023 [9] Defocus effect correction for back focal plane ellipsometry for anti-vibration measurement of thin films, Applied Sciences, 2023, 13, 1738 [10] 精密结构光轮廓测量实验仪设计与应用，实验室研究与探索 42(10), 73-83, 2023 [11] Stitching locally fitted T-splines for fast fitting of large-scale freeform point clouds, Sensors, 23, 9816, 2023 [12] High-accuracy Calibration of High-Speed Fringe Projection Profilometry Using a Checkerboard, IEEE-ASME Transactions on Mechatronics, 27(5), 4199 - 4204, 2022 [13] Quality evaluation of honing surface groove features based on improved level-set analyses, Measurement, 190, 110789, 2022 [14] Full-Dimensional Surface Characterization Based on Polarized Coherent Coded Aperture Correlation Holography, IEEE Photonics Journal, 14(6), 3160407, l, 2022 [15] Predistorting Projected Fringes for High-Accuracy 3D Phase Mapping in Fringe Projection Profilometry, IEEE Transactions on Instrumentation and Measurement, 2021, 70: 5008209 [16] Positioning error calibration for two-dimensional precision stages via globally optimized image registration, Measurement, 2021, 186, 110222 [17] Xiangqian Jiang, Distortion-free intelligent sampling of sparse surfaces via locally refined T-spline metamodelling, International Journal of Precision Engineering and Manufacturing–Green Technology, 2021, 8, 1471-1486 [18] Robust incident angle calibration of angle-resolved ellipsometry for thin film measurement, Applied Optics, 60(13), 3971-3976, 2021 [19] Characterisation of freeform, structured surfaces in T‐spline spaces and its applications, Surface Topography: Metrology and Properties 9, 025003, 2021 [20] Projector undistortion for high-accuracy fringe projection profilometry, Measurement Science and Technology, 2021, 32, 105009 [21] High wear resistance and mechanical performance of NiAl bronze developed by electron beam powder bed fusion, Tribology Letters 69: 158, 2021 [22] Efficient analysis-suitable T-spline fitting for freeform surface reconstruction and intelligent sampling, Precision Engineering, 2020, 66, 417-428 [23] 基于适合分析T样条的曲面重构方法, 航空制造技术 63(19), 96-102, 2020 [24] Uncertainty-guided intelligent sampling strategy for high-efficiency surface measurement via free-knot B-spline regression modelling, Precision Engineering, 2019, 56: 38-52 [25] Predicting running-in wear volume with a SVMR-based model under a small amount of training samples, Tribology International, 2018, 128: 349-355 [26] Fast and accurate mean-shift vector based wavelength extraction for chromatic confocal microscopy, Measurement Science & Technology, 2019, 30: 115104 [27] Torsional Fretting Wear Behavior of PVD TiCN Coated CuNiAl Blade Bearing in Oil and Artificial Seawater, Coatings, 2019, 9(2), 140

学术兼职

是SCI期刊Opt. Express, Precis Eng，Surf Topogr: Metrol & Prop审稿人，IEEE/IET会员，中国仪器仪表学会精密机械分会、全国高校互换性与测量技术研究会理事