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Ma
Huimin's Resume
Ma
Huimin was born in 1972, and obtained her PhD in Mechanical Electronic
Engineering from the Beijing Insititute of Technology, P.R.China in
2001, and then she joined
the Image & Graphics School of Department of Electronic Engineering,
Tsinghua University .
1.Teaching
l "Digital
Image Technology and Application",
Open Course for Graduates. 48 teaching
hours
✓
My teaching principle is encouraging
students selecting study subjects of their interests and finishing them
with teamwork.
✓
The course includes discussion sessions
and instruction classes. The teaching process implements study subject
selection, team formation, scientific citation, project proposing,
experiment design and implementation, data collection and result
demonstration, and final presentation. This course allows students to
practice scientific research, and enhances students’ ability to perform
in collaborative team environment.
✓
In 2006, I won the second prize of
Tsinghua University Achievements for this course.
l
Teach the course of "Principles
of Microprocessors",
a foundation EE course for undergraduate.
64 teaching hours
l
Teach collaboratively the course of “New Image
Technology”,
an elective EE course for undergraduate.
✓
I deliver the lecture on “3-D Target Acquisition, Restoration and
Recognition Technology”.
2.Research
My main research interest is 3-D Target Recognition based on the
kernel technology of machine vision, which applies to
interdisciplinary “3-D Simulation System”. With the combination
of theory and practice, I am the principal of several major
research projects. These projects are funded by the National
Natural Science Foundation, the 863 Program Project, and the
National Special Fund.
Other research fields of mine are “Target Restoration and
Recognition” and “Intelligent Information Processing”.
I have joined the 863 Program Project and the
project funded by the Department of Education as a main
researcher.
l
3-D Image
Recognition
With the support of the 863 Program
projects, I have been able to research on 3-D Image Acquisition
and Restoration. The research includes 3-D Laser Scanning and
Imaging technology, 3-D Target Surface Classification
technology, 3-D Grid Model Restoration and Simplification, and
3-D
registration technology, which are the foundations of 3-D Image
Recognition.
The support from the National Natural Science Foundation has
made it possible for me to explore a unique technology for 3-D
target recognition. The technology, based on 3-D Laser Image
Acquisition and Restoration, solves the problem about shape
variation of the target caused by the change of viewpoint. It
has been a difficult topic in this field for a long time. To
solve the problem and achieve 3-D Target Recognition from any
vision, several methods of Viewpoint Space Partition (VSP), such
as the Catastrophe Theory, the Clustering Theory, the Physics
and Geometry Methods and some Methods based on Human Visual
Cognition, are used. The research establishes a strong
theoretical basis for the application of the Automatic
Navigation, the Machine Vision and the Simulation System.
VSP based on the Catastrophe
Theory (* stands for a viewpoint)
ü
Main
Research Works
Ø 3-D
Object Viewpoint Space Partition
Ø The
Affine Invariant Feature Extraction of 3-D Object’s Projection Image
Ø The
Target Partition from a Complicated Background
Ø 3-D
Target Recognition from any Vision
Ø A
study of Princeton Shape Standard Library and Test Platform
ü Ongoing Research Projects
Ø
The configuration
theory and methods investigation in 3-D Target Recognition (funded
by the National Natural Science Foundation)
Ø Visual
Image Pattern Recognition and Machine learning based on Human Visual
Cognition ( funded by 863 Program Project )
Ø 3-D
Target Acquisition, Restoration and Recognition Technology (funded
by the National Special Fund)
l
3-D Simulation System
The photoelectric confrontation
Simulation System, which is important in application, was
successfully developed with the support of the National Special
Fund.
ü Main
Research Works
Ø
3-D Target Modeling
Ø
Target Feature
Modeling
Ø
Target Recognition and
Tracking
Ø
Intelligent Decision
Ø
Efficiency Evaluation and 3-D Animation
ü Ongoing Research Projects
Ø 3-D
Animation Simulation of the photoelectric confrontation System
(funded by the National Special Fund)
Ø 3-D
Animation Simulation of Imaging Recognition and the Design of Signal
Processor (funded by the 11th Five-Year Plan Project)
3.
Awards
ü
The second prize of
Tsinghua University Academic Achievements, 2006
ü
The first prize of Tsinghua University Excellent Advisors, 2004
ü
The
Award for Active Union Members of Tsinghua University, 2003
ü
The third prize Award from the Department of National, 2002
ü
Patent:Plane
signal generator,
(99118014.3), the third author, 2002.
4.Others
ü
I was in charge of
the Sharon Youth of Department of Electronics Engineering and
organized 7 activities.
ü
The
Deputy Secretary-General of the Chinese Society of Image and
Graphics ( in charge of Chinese Society of Image and Graphics
Briefing)
ü
The director of the Youth Work
Committee in the Chinese Society of Image and Graphics (in charge of
the CSIG Youth Forum)
ü
The Secretary-General of
Beijing Society of Image and Graphics
5.
Recently Published Papers
[1] Ma
Huimin, Wang Yan,“Parallel Feature Extraction System”, Chinese journal
of electronics(SCI:730EZ,EI:03437694371)
[2]
Ma
Huimin,Su
Guangda,
“High speed recognition system of plane infrared image”,Journal
of Infrared and Millimeter Waves,
Vol.21, No.5, Oct. 2002,
pp367-371,(SCI:608FZ,EI:03037327777)
[3] Ma Huimin, Huang Ruke,“Multi-hierarchical
Algorithms for Fast Fingerprint Identification”, Chinese journal of
electronics,Oct.
2005, Vol.14, No.4, pp625-630(SC:.037FU
EI:05449448357)
[4] Ma Huimin, Su Guangda,
Wang Junyan, “A glass bottle defect detection system without touching”,
pp628-632, IEEE, 2002 International Conference on Machine Learning and
Cybernetics (ICMLC2002), Nov.4-5, 2002 Beijing China. (EI:03127405634)
[5]
Ma Huimin,
Huang Ruke, “A New Fingerprint Translation Finding Algorithm”,IEEE
2004 International Conference on Machine Learning and Cybernetics
(ICMLC2002) , 2004 Shanghai China. (EI:0445844709)
[6] Yuan Luo, Huimin Ma,
Fengting Li, An improved algorithm of viewpoint space partition in 3D
object recognition application. Proceedings of the Seventh IASTED
International Conference on Signal and Image Processing, SIP 2006, Aug.
14-16, Honolulu, Hawaii, USA, pp34-39. (EI, ISTP)
[7] Y. Luo, H. Ma, F.
Li,"3D Object Recognition Technique Based on Muti-Resolution Aspect
Graph",2005 International Conference on Neural Networks and Brain, Oct.
13-15 Beijing China,pp1168-1172
[8] W. Lin, H. Ma, F.
Li, "Accurate Tracking Based on Interest Points in the Infrared Imaging
Guidance",2005 International Conference on Neural Networks and Brain,
Oct. 13-15 Beijing China,pp1156-1159
[9] Chen Yewei,Li
Fengting, Ma Huimin ,“A New Disk File System for Motion JPEG2000
in Distributed Video Surveillance Application”, ICEMI’2005, August,
2005, Beijing China, pp2-9—2-13
[10] Zhang Shaoguang, Li Fengting,
Ma Huimin. “A skeleton algorithm based on weight”. Microcomputer
Information – Control & management, Feb. 2007, pp255~257.
[11] Wang Huajian, Zhang Aiwu,
Ma Huimin, Li Fengting, “Hole filling in range image processing
based on statistical model”,Journal
of Optoelectronics
•Laser,
Vol.15, No.10, Nov.2004., pp.1234~1237(EI:05028785368)
[12] Meng Ke, Li Fengting, Ma
Huimin, “ Design of a portable digital video recorder for video
surveillance”,Video
Engineering,No.7,
2004,pp78-80
[13]
Ma
Huimin,
Su Guangda, Huang Ruke, “A classification algorithm for fingerprint
matching in large database”,Proceedings
of The 13th National Conference on Neural Network (CNNC2003),
Nove.12-15, 2003, Qingdao, pp368-373
[14] Ni Zheng, Su Guangda, Ma
Huimin, Wang Junyan, “ On-line glass bottle detection system design”,Computer
Engineering and Application,Vol.
40, No.3, 2004, pp218-220
[15]
Ma
Huimin,
“Gray image feature extraction base on projection ”,Optical
Technique,
VOL.28, NO.6, 2002, pp.561-563
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