姓名:王建华
单位部门:伟德国际1949始于英国/机器人工程教研室
职称:副教授
电话/邮箱:15092189386/wangjianhua@qut.edu.cn
个人简介
王建华,工学博士(控制科学与工程),副教授,硕士生导师,现属伟德国际1949始于英国机器人工程教研室。主要研究方向为计算机视觉、结构光三维测量等。第一作者或通讯作者在IEEE Transactions on Image Processing、IEEE Transactions on Instrumentation and Measurement、OpticsExpress、Optics and Laser Technology、Measurement、Optics and Lasers in Engineering、IEEE Sensors Journal、Precision Engineering、Chinese Optics Letters、光学学报、仪器仪表学报等重要期刊上发表学术论文66篇(SCI检索论文52篇),授权发明专利多项,主持或参与多项国家自然科学基金、山东省自然科学基金、陕西省重点实验室开放课题和横向项目。主要承担微型计算机系统、电气控制与PLC应用等本科教学任务以及机器视觉等研究生教学任务。担任微电子与光电子材料与器件专家委员会委员,在IEEE Transactions on Image Processing、Pattern Recognition、IEEETransactions on Instrumentation and Measurement、Measurement、OpticsLetters、Optics Express、Optics and Lasers in Engineering、IEEE Signal Processing Letters、Measurement Science and Technology、光学学报、激光与光电子学进展等多个期刊任审稿人。
研究领域
计算机视觉、结构光三维测量。
教科研情况
(1)教学情况:微型计算机系统、电气控制与PLC应用、电工学、机械设计基础、机器人设计与系统集成等本科教学任务,以及机器视觉研究生教学任务。
(2)科研情况:主持山东省自然科学基金面上项目2项,参与国家自然科学基金项目2项,主持省重点实验室开放课题2项,主持或参与横向课题多项。第一作者或通讯作者发表学术期刊论文66篇,其中SCI期刊论文52篇、EI期刊论文9篇,授权/实审发明专利10项。
主持纵向课题
[1]山东省自然科学基金面上项目:基于深度学习和数字孪生的装备制造中复杂动态形貌单帧条纹高精度三维测量方法研究,项目编号:ZR2025MS989,10万元,2025.10.1-2028.9.30,主持,在研。
[2]山东省自然科学基金面上项目:基于iGPS和面结构光的大型钣金件高光表面/快速变形表面的三维测量方法研究,项目编号:ZR2021MF024,10万元,2022.1.1-2024.12.31,主持,结题。
[3]主持陕西省复杂系统控制与智能信息处理重点实验室开放基金(2020.9-2023.8):复杂情况下结构光三维测量技术研究,项目编号:2020CP07,4万元,主持,结题。
代表性学术成果(*通讯作者)
[1] Jianhua Wang*, Yanxi Yang.Optimization Design of Projection Grating Wavelength for Robust 3D Imaging.IEEE Transactions on Image Processing, 2025,34: 1398- 1411 .(中科院一区/IF13.7)
[2] Jianhua Wang*, Yanxi Yang.Analysis and Compensation of Phase Error Caused by Noise and Nonlinear Response of 3D Measurement System.IEEE Transactions on Instrumentation and Measurement, 2022, 71: 7006715. (中科院二区/IF5.9)
[3] Jianhua Wang*, Yanxi Yang. TripleN-step phase shift algorithm for phase error compensation in fringe projection profilometry.IEEE Transactions on Instrumentation and Measurement, 2021, 70:7006509. (中科院二区/IF5.9)
[4] Jianhua Wang*, Yuguo Zhou, Yanxi Yang.3-Dmeasurement method for nonuniform reflective objects.IEEE Transactions on Instrumentation and Measurement, 2020, 69(11): 9132-9143. (中科院二区/IF5.9)
[5]Yixin Ji(研究生), Longxiang Zhang, Wei Wu, Jianhua Wang*.Deep Learning-Based Single-Frame Depth Reconstruction Empowered by Indirect Mapping.IEEE Transactions on Instrumentation and Measurement, 2025, 74: 7010711. (中科院二区/IF5.9)
[6]Shuo Shan(研究生), Ze Li, Wen Zhang,Jianhua Wang*.Efficient 3-D Measurement Method Based on Nonlinear Error Correction.IEEE Transactions on Instrumentation and Measurement,2025, 74:5009311.(中科院二区/IF5.9)
[7] Jianhua Wang*, Yanxi Yang. Phase extraction accuracy comparison based on multi-frequency phase-shifting method in fringe projection profilometry.Measurement, 2022,199: 111525. (中科院二区/IF5.6)
[8] Jianhua Wang*, Yanxi Yang. 3D surface reconstruction scheme for dynamic objects: Principle and implementation.Measurement, 2022,201: 111718. (中科院二区/IF5.6)
[9]Qinkui Ma(研究生),Huixin Sun, Tong Shao,Jianhua Wang*.Deep learning-based phase retrieval with SE-SwinUNet architecture in fringe projection 3D measurement.Measurement,2026,272:121044. (中科院二区/IF5.6)
[10]Shuo Shan(研究生), Yixin Ji,Jianhua Wang*. Four-image-based 3D measurement approach employing Hilbert transform.Measurement, 2025,250: 117178.(中科院二区/IF5.6)
[11]Jianhua Wang*, Yixin Ji, Longxiang Zhang, Wei Wu. Fringe projection 3D imaging optimized for accuracy and efficiency. Optics Express, 2025, 33(26) 54709-54732.(中科院二区/IF3.3)
[12] Jianhua Wang*, Yanxi Yang, Peng Xu, Jintao Liu. Noise-inducedphase errorcomparisonin multi-frequency phase-shifting profilometry based on few fringes.Optics and Laser Technology, 2023,159:109034. (中科院二区/IF5.0)
[13]Ze Li(研究生), Jianhua Wang*, Suzhen Wang, Wen Zhang, Shuo Shan. Single-shot 3D measurement via deep learning fringe projection profilometry with geometric constraints.Optics and Laser Technology, 2025, 181: 111735. (中科院二区/IF5.0).
[14] Jianhua Wang*, Yanxi Yang. A new method for high dynamic range 3D measurement combining adaptive fringe projection and original-inverse fringe projection.OpticsandLasersinEngineering, 2023, 163:107490.(中科院二区/IF3.5)
[15] Ze Li(研究生),Wen Zhang,Shuo Shan, Peng Xu, Jintao Liu,Jianhua Wang*Dual-frequency phase unwrapping based on deep learning driven by simulation dataset.OpticsandLasersinEngineering,2024,178:108168.(中科院二区/IF3.5)
[16]Peng Xu(研究生), Longxiang Zhang, Shuo Shan, Jianhua Wang*.Efficient and robust 3D reconstruction: absolute phase extraction algorithm based on three grayimages.Optics and Lasers in Engineering, 2024,180:108334.(中科院二区/IF3.5)
[17]Jianhua Wang*, Yanxi Yang. Three-dimensional shape measurement technique for hot and shiny forging.Precision Engineering, 2024, 88:845–853.(中科院二区/IF3.5)
[18] Jianhua Wang*, Yanxi Yang, Peng Xu, Jintao Liu. Adaptive fringe projection algorithm for image saturation suppression.Precision Engineering, 2023, 82:140–155.(中科院二区/IF3.5)
[19]Longxiang Zhang(研究生), Yixin Ji, Wei Wu, Jianhua Wang*.Deep learning-based restoration method for missing fringe information in the highreflectivity regions.Precision Engineering, 2025,96,80–93. (中科院二区/IF3.6)
[20] Peng Xu(研究生), Jintao Liu, Wen Zhang, Shuo Shan, and Jianhua Wang*. Few-fringe-based phase-shifting profilometry employing hilbert transform.Precision Engineering, 2023, 83:1–11.(中科院二区/IF3.5)
[21]Jianhua Wang*,Yanxi Yang.Efficient and robust 3D imaging based on a novel Hilbert Transform algorithm.IEEE Sensors Journal,2026,26(2):2324 - 2334.(中科院三区/IF4.5)
[22] Jianhua Wang*, Yuguo Zhou, Yanxi Yang. Three-dimensional shape detection for non uniform reflective objects: Combination of color light projection and camera’s exposure adjustment.IEEE Sensors Journal, 2020, 20(19): 11474-11483. (中科院二区/IF4.5)
[23] Jianhua Wang*, Peng Xu, Yanxi Yang.Generic and flexible self-correction method for nonlinearity-induced phase error in three-dimensional imaging.Chinese Optics Letters, 2024, 22(6):061201.(中科院二区/IF3.3)
[24] Jianhua Wang*, Yanxi Yang, Peng Xu. π-phase-shifted two-plus-onemethodfornon-diffusesurface.Chinese Optics Letters, 2023,21(10):101202. (中科院二区/IF3.3)
[25]王建华*,杨延西,徐鹏,刘锦涛,张雯,单硕,李泽.基于双2+1相移法的高动态范围三维测量.光学学报, 2023, 43(20): 2012001. (T1级/EI)
获奖情况
[1]2025“挑战杯”全国大学生课外学术科技作品竞赛山东省一等奖
[2]2025中国机器人及人工智能大赛全国二等奖
[3]“西门子杯”中国智能制造挑战赛全国二等奖
[4]“琅琊荟”2025首届驻青高校科技成果转移转化精英挑战赛优胜奖
[5] 2025年第七届全国高校计算机能力挑战赛一等奖
