Chen Liangzhou


Associate Professor



Academic Areas: Advanced sensor and automatic detection Technology,  precision instruments and machinery

Chen Liangzhou received his Ph.D. in precision instruments and machinery in 2006 from Shanghai Jiaotong University. and his M.S. in Measurement technology and instruments in 2001 and B.S. in 1998 from Huazhong University of Science and Technology. Since 2006, he has been an lecturer at HUST. His reasearch focuses on the Technology of advanced sensor and automatic detection , and precision instruments and machinery.

Academic Degrees

2002.09~2006.07 Shanghai Jiaotong University Ph.D

1998.09~2001.07 Huazhong University of Science and Technology M.S

1994.09~1998.07 Huazhong University of Science and Technology B.S

Professional Experience

From 2006 to now, working at School of Mechanical Science and Engineering,  Huazhong University of Science and Technology.

Selected Publications

[1] A novel surface recovery algorithm in white light interferometry, Measurement, Vol.80:1~11, 2016

[2] A novel 3D stitching method for WLI based large range surface topography measurement, Optics Communications, Vol.359:435~447, 2016

[3]A novel lateral shearing interferometer and its anti-vibration characteristic for on-machine precision surface measurement, Optik, Vol.127:5729~5737,2016

[4] Fabrication of Long and Smooth Tungsten Probes for Nano-manipulation, ELEKTRONIKA IR ELEKTROTECHNIKA, Vol.21(4):17~22, 2015

[5]New weighting factors assignment of evidence theory based on evidence distance, Journal of System Engineering and Electronics, Vol.16(2):273~278, 2005

[6]A new fusion approach based on distance of evidences, Journal of Zhejiang University SCIENCE, Vol.6A(5):476~482, 2005.

[7] A discounting approach to evidence conflict management, International Conference on Space Information Technology, Proceedings of SPIE Vol.5985:40-1~40-6, 2005.

[8] A new approach to evidence combination and its application to targets recognition in images sequence, Journal of Shanghai Jiao Tong University(SCIENCE), Vol.E-12(2):143~147, 2007.

[9]A new evidence combination approach and it application to targets recognition in series images, Journal of Shanghai Jiao Tong University(SCIENCE), Vol.E-12(2):143~147,2007

[10] A new grating non-diffracting structured light for three-dimensional shape measurement. Advanced Materials Research, Vol.141: 2010~2014, 2010.

[11] Small infrared target recognition with new evidence combination approach. 2011 Third International Conference on Measuring Technology and   Mechatronics Automation. IEEE Computer Society ICMTMA, Volume III, 290~293,2011.

[12]Infrared image segmentation with 2-D maximum entropy method based on particle swarm optimization (PSO),Pattern Recognition Letters,Vol.26(5):597~603, 2005.

[13]A new alpha seeding method for support vector machine training, Lecture Notes in Computer Science, v 3610, n PART I, Advances in Natural Computation: First International Conference, ICNC 2005. Proceedings, 679-682,2005.

[14]3D Measurement Based on Phase-shift and Self-calibration, Proceedings of SPIE, 2013.8

[15]Exploring practice and innovation ability for Specialty in Measuring & Control Technolog and Instrumentation, 2014International Conference on Education, Management and Computing Technology.2014

[16]Coarse-fine vertical scanning based optical profiler for structured surface measurement with large step height, Proceedings of SPIE,2015

[17]A vertical scanning positioning system with large range and nanometer resolution for optical profiler, Proceedings of SPIE,2015

Courses Taught

For undergraduate: Sensor Technology Instrument intelligent technology

For postgraduate: Instrument Intelligent


[1] National development and reform commission (NDRC) Special Marine Engineering Equipment Project: Development and Industrialization of Spilled oil Recovery Unit.

[2] National Natural Science Fund Project: Study on the Key Technique and System for Non-Intrusive Intraocular Pressure Continuous Monitoring.

[3] Hubei Province Natural Science Fund Project: Research on non intrusive monitoring of intraocular pressure based on MEMS.

[4] National Natural Science Fund Project: Study on a new  measurement system to micro deformation of cornea

[5] Enterprise project: Study on the detection system to Hobbing machine transmission chain

[6] Enterprise project: Study on the integrated management information system to Grain and oil storage.

[7] The sub project of 863: research on the technology of Precision surface topography  measurement.

[8] The national special intrument program of china