LIU Shoubin
Address:
Dept.of Mechanical Engineering and Automation,HITCampus,Shenzhen University Town,Xili,Shenzhen,China (518055)
Email:
mesbliu@hit.edu.cn
Phone:
86-755-26033516
86-755-26033774(Fax)
PERSONAL PROFILE
 
Liu Shoubin received his BS and MS degrees in mechanical engineering from Shandong University, and a PhD from City University of Hong Kong. He has worked as a project manager in the R&D center of Han's Laser Company. Currently, he is an associate professor of HIT Shenzhen and lectures on "Sensor and Systems", "Sensing and Testing Technology", "Exchangeability and Measurement Technology" and other courses. His research interests include optical mechatronics machines, precision measurement and instrumentation, advanced sensors and applications, laser machining and laser measuring, reverse engineering and 3D printing.
RESEARCH INTEREST
 
1、Optical mechatronics machines
2、Precision measurement and instrumentation
3、Advanced sensors and applications
4、Laser machining and laser measuring
5、Reverse engineering and 3D printing
EDUCATION  
1995-2000
Ph.D. in Manufacturing Engineering, City University of Hong Kong, Hong Kong
1990
M.Sc. in Mechanical Manufacturing, Shandong University, China
1981-1985
B.Sc. in Mechanical Manufacturing, Shandong University, China
RESEARCH & WORK EXPERIENCE  
2005/07-Present
Associate Professor, Harbin Institute of Technology (HIT) Shenzhen Graduate School, Mechanical Engineering and Automation, China
2001/01-2006/06
Project Manager, Han’s Laser, China
1995/11-2000/11
Research Assistant/ Ph.D. Candidate, City University of Hong Kong, Hong Kong
1993/09-1995/11
Director of Lab for Precision Measurement, Shandong University, China
1987/09-1995/11
Lecturer, Department of Mechanical Engineering, Shandong University, China
PROFESSIONAL QUALIFICATION & ACADEMIC SERVICE
 
2005.07-Present
Evaluation expert for projects of Science and Technology Program of Shenzhen;
Corresponding evaluation expert for projects of General Program of the National Natural Science Foundation of China;
Technical consultant for enterprises;
Evaluation expert for Shenzhen Government Procurement.
RESEARCH PROJECTS
2009-2011/2012-2014
Research on fundamental algorithms for segmentation of 3D features from point cloud data, funded by National Natural Science Foundation of China under grant No.60873141, and further funded by Science and Technology Innovation Foundation of Shenzhen under grant No.ZYC201105160191A.
2007-2009
Development of a motion stage with nano resolution based on laser interferometric sensing, funded by Science and Technology Program of Shenzhen under grant No.NSKJ-03.
2014-2016
Development of a PGI-type stylus roughness profilometer, funded by Science and Technology Program of Shenzhen under grant No.JCYJ20140417172417154.
RESEARCH ACHIEVEMENT & AWARDS
PATENT
   
[1] Name of Patent: A method and apparatus for surface roughness measurement
Number:ZL 92106604.x
Inventor: Liu S. B.
Date of Authorizing: December 5th, 1997.

[2] Name of Patent: 3-D laser marking machine
Number: ZL02362304.7
Inventor: Liu S. B. and Huang, X. S.
Date of Authorizing: September 25th, 2002.

[3] Name of Patent: An interferometric device for diffraction grating displacement measurement system
Number: 2017201008476
Inventor: Liu S. B., Bi J. L. and Shu M. Y.
Date of Authorizing: July 21th, 2017

[4] Name of Patent: A displacement calculation method for grating displacement measurement system
Publication Number:106643520A
Inventor: Liu S. B., Bi J. L. and Shu M. Y.
Date of Publication: September 15th, 2017
PAPER & BOOK PUBLICATIONS
[1] Liu S. B. and Ma W. Y., Seed-growing segmentation of 3D surfaces from CT-contours data, Computer-Aided Design, Volume 31, Issue 8, 1999, pp. 517-536.

[2] Liu S. B. and Ma W. Y., Motif analysis for automatic segmentation of CT-surface contours into individual surface features, Computer Aided Design, Volume 33, Issue 14, 2001, pp. 1091-1109.

[3] Chen Z. R. and Liu S. B., Multi-parameter family monitoring system based on wireless sensor networks, Transducer and Microsystem Technologies, Volume 28, Issue 2, 2009, pp.72-74.

[4] Liu S. B. and Zhou Y. M., MR Temperature Imaging Using PRF Phase Difference and a Geometric Model-Based Fat Suppression Method,Technology and Health Care,Vol. 23,S2,p.587-592,2015.

[5] Liu S. B. and Liao Q. J., A Study of Laser Jet Soldering Process with 55 μm Tin Balls for Head Gimbal Assembly Manufacturing,MECHANIKA,Vol. 22, Issue 4, p.313-317,2016.

[6] Liu S. B. and He D. Y., A Nanoscale Plasma Etching Process for Pole Tip Recession of Perpendicular Recording Magnetic Head,MATERIALS SCIENCE (MEDŽIAGOTYRA),Vol. 22,Issue 2,p. 232-237,2016.
CONFERENCE PAPERS/TALKS
 
Conference Papers:

[1] Bi J. L. and Liu S. B.,Precision Measurement of Displacement with Two Quasi-Orthogonal Signals for Linear Diffraction Grating Interferometric Sensors,Atlantis Press:Advances in Engineering Research (MMEBC 2016),p.746-752, 2016.

[2] Deng H. and Liu S. B.,Compensation of Springback Effect Based on an Overbend Prediction Model and a Force Sensor for Automatic Archwire Bending,Proceedings of the 2016 International Conference on Mechatronics and Automation (ICMA 2016),2016.

[3] Ren X. and Liu S. B.,Combining Extended Kalman Filter with Complementary Filter for UAV Attitude Estimation based on MEMS MARG Sensors,Atlantis Press:Advances Series (IFMEITA 2016),p.746-752,2016.

[4] Chen D. L. and Liu S. B.,Three-Dimensional Orthodontic Force Measurement Based on a Physical Tooth-Periodontal Ligament-Bone Model and a Force Sensor,Proceedings of the 2015 International Conference on Mechanical Science and Mechanical Design (MSMD 2015),p.314-319,2015.

[5] Ren X. and Liu S. B.,Calibration of MEMS Accelerometers and Magnetometers for Rotor UAV Attitude Estimation,Atlantis Press:Advances in Engineering Research (CMFE 2015),p.737-740,2015.

[6] Liu S. B. and Zhang H.,Separation of Surface Roughness Profile from Raw Contour based on Empirical Mode Decomposition,Atlantis Press:Advances in Engineering Research (AMEII 2015),p.406-411,2015.

[7] Zhang H. and Liu S. B.,An Algorithm for Generating EMD Mixed Mean Line Used to Extract Roughness Profile from Engineering Surfaces,Proceedings of the 2015 International Conference on Software Engineering and Information Technology (SEIT 2015),p.216-221,2015.

[8] Liu S. B. and Mao J. R.,Linearity Analysis and Experimental Verification for Resistive Touch Screen Sensors,Applied Mechanics and Materials,Vol. 563,p.161-166,2014.

[9] Liu S. B. and Zhang Z. W.,Automatic Segmentation of 3D Point Cloud Using Spectral Clustering,Proceedings of the 2014 International Conference on Future Information Engineering and Manufacturing Science (FIEMS 2014),p.103-106,2014.

[10] Liu S. B. and Li Z. P.,Design of a Constant Probing Force System for Profilometer,Applied Mechanics and Materials,Vol. 511-512,p.301-306,2014.

[11] Guo Q. C.,Liu S. B. and Rong W. B.,Design of a Micro-Nano Positioning Platform Based on Stick-Slip Driving,Applied Mechanics and Materials,Vol. 618,
p.593-597,2014.

[12] Jia X. Q. and Liu S. B., A novel two-degrees-of-freedom voice coil motor and its PID controllers for linear and rotary motions, Applied Mechanics and Materials, Vol. 303-306,p.1635-1640,2013.

[13] Liu S. B. and Feng K., Point Cloud Segmentation Based on Moving Probability,Applied Mechanics and Materials,Vol. 380-384,p.1796-1799,2013.

[14] Liu S. B. and Niu W. G., A novel algorithm for segmentation of complex point cloud with 3D elastic model. IEEE International Conference on Computer Science and Automation Engineering (CSAE 2012), 2012.

[15] Liu S. B. and Niu W. G., A modified algorithm for generation of 3D GVF field from point cloud. 2012 International Workshop on Image Processing and Optical Engineering. Proceedings of SPIE Vol. 83351O, 2012.

[16] Liu S. B. and Ye Y. S., Point cloud segmentation using gradient vector flow snake. IEEE Conference on Information Science and Technology (ICIST 2011), 2011.

[17] Yang F. and Liu S. B., Multiple contour sequences’ segmentation and entity recognition methods in vision measurement, 2012 SPIE International Workshop on Image Processing and Optical Engineering. Proc. of SPIE Vol. 8335, 2012.

[18] Zhang Z. Y., Liu S. B., and Li G. L., Usability analysis of textile sensors in control of multifunction myoelectric prostheses, 4th International Convention on Rehabilitation Engineering and Assistive Technology (iCREATe), 2010.

[19] Xu X. M., Liu S. B. and Hu H., A new fiber optic sensor for inner surface roughness measurement, 2009 International Conference of Optical Instrument and Technology (OIT2009), Proc. of SPIE Vol. 7508, 2009.

[20] Chen Z. R., Hu C., Liao J. S. and Liu S. B., Protocol architecture for wireless body area network based on nRF24L01, 2008 IEEE International Conference on Automation and Logistics(ICAL 2008), 2008.

[21] Liu S. B. and Ma W. Y., Feature-based segmentation of CT-contours for reverse engineering, DETC99/CIE-9105, Proceedings of 11th ASME International Conference on Design Theory and Methodology, Las Vegas, USA, September 12-15, 1999.

[22] Ma W. Y. and Liu S. B., Constructing a CAD model from physical part through CT-scanning, Proceedings of 1st International Conference on Rapid prototyping and Manufacturing, July 21-23, Beijing, China, p.291-298,1998

[23] Liu S. B. and Ma W. Y., Seed-growing segmentation of CT-contours for reverse engineering of industrial parts, Proceedings of 7th European Conference on Rapid Prototyping and Manufacturing, July 7-9, Achen, Germany, p.19-34,1998.

[24] Ma W. Y. and Liu S. B., CT-scanning for reverse engineering, Proceedings of 11th International Conference on Mathematical and Computer Modelling and Scientific Computing, March 31-April 3, USA, 1997.

[25] Liu S. B and Ai X., Automatic measurement of pinion-type gear profile using computer vision, International Conference on Machine Vision applications, Architectures, and System Integration IV, Proc. of SPIE Vol. 2597, p.202-214,1995.

[26] Liu S. B. and Yu H. F., Design of a commercial optical instrument for surface roughness measurement, International Conference on Industrial Optical Sensor for Metrology and Instrument, Proc. of SPIE Vol. 2349, p.190-200,1994.

Presentations:

[1] “Feature-Based Segmentation of CT-contours for Reverse Engineering ”, Presented at 11th ASME International Conference on Design Theory and Methodology, Las Vegas, USA, September 12-15, 1999.

[2] “Seed-growing Segmentation of CT-contours for Reverse Engineering of Industrial Parts”, Presented at 7th European Conference on Rapid Prototyping and Manufacturing, Achen, Germany, July 7-9, 1998.
TEACHING/SUPERVISING EXPERIENCE
Teaching Experience
[1] 《Sensors and Systems》
[2] 《Precision Machine Design》
[3] 《Sensor Principle and Application》
[4] 《Error Principle and Data Processing》
[5] 《Exchangeability and Technical Measurement》
[6] 《ASME GD&T Standard Training》
Supervising Experience
Has supervised over 100 full-time and part-time graduate students, of which 80 master students have graduated successfully and the others are fresh students in the period of studying.
Updated:2017-10