Clinton CHEE Yat Kuan - BE, BSc, PhD
31 Byrne Crescent
Maroubra, New South Wales
AUSTRALIA 2035
Tel: (Mobile) 61 402 058 983
YEAR OF BIRTH: 1973
NATIONALITY: Australian
OBJECTIVE:
- To combine scientific knowledge, computational methods and creative problem solving skills to deliver numerical solutions to scientific and engineering problems.
- Opportunity to utilize analytical, problem solving and mathematical skills to develop novel mathematical algorithms applicable to financial, IT, scientific and research sectors.
- Application of advanced engineering methods in structural analysis using theoretical modelling, numerical analysis and/or finite element techniques to state of the art engineering projects such as adaptive / intelligent structures, spacecrafts/structures, etc.
- A career as an application programmer / software developer working with state of the art computer technology and contribute to the development of new technology.
PROFILE:
- Over 7 years of code development / programming experience for scientific numerical modeling.
- Strong expertise with C++, Fortran90, Java, modular and object-oriented programming concepts.
- Theoretical expertise and keen interest in solid mechanics, dynamical systems, continuum mechanics, piezoelectric coupled systems of intelligent structures.
- Practical experience in the application and analysis of multi-variable optimization algorithms and techniques such as Simulated Annealing, Genetic Algorithms and Artificial Neural Network.
- Experienced as an IT Consultant in E-Business - developing applications and system integration.
- Currently, a computational scientist developing and optimizing programs using supercomputers.
- Enjoys programming as a hobby; writing 3D and 4D visualization programs.
- Excellent verbal and written communication skills as developed during a variety of work experiences including presentation at international conferences and author of many journal papers.
- Major accomplishment in the development of a Finite Element program for a novel electro-mechanically coupled system of intelligent structures and the development of Shape Control optimization algorithms - leading to the award of PhD.
EDUCATION:
Postgraduate 1997 - 2000
PhD 2001 - Aeronautical Engineering.
Static Shape Control of Composite Laminated Plate Smart Structures Using Piezoelectric Actuators.
- The main aim has been the investigation of the incorporation of piezoelectric actuators
in composite laminated plate structures for the application of shape control. That is producing
a shape that conforms to the desired shape by applying the appropriate voltages.
- Mathematical method involves the Hamiltonian Variational Principle,
coupled electro-mechanical constitutive equations, Finite Element theory.
- Numerical analysis required the development of a software that incorporates
the theoretical aspects of this research, resulting in a Finite Element software.
- Development of a shape control algorithm that automatically determines the magnitude
and location of applied voltages to manipulate the shape of the structure.
- 3D visualization routines were developed to aid the visualization of the
geometry and other field properties of the structure.
Tertiary
The University of Melbourne
Bachelor of Engineering (Mechanical) &
Bachelor of Science (Maths/Physics)
1992 - 96 First Class Honours
Secondary
1991 High School Certificate (HSC) / Victorian Certificate of Education
(VCE):
Show Academic Results
Melbourne High School, Victoria, Australia
1988 - 91
Wantirna High School, Victoria, Australia
1986 - 87
WORK EXPERIENCE:
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Dec 2001 - Present: Computational Scientist - High Performance Computing Unit, University of New South Wales, Australia
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Sep 2000 - Sep 2001: IT Consultant - Management Consultant Services, PriceWaterhouseCoopers Global
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Aug 2000 - Sep 2000: Research Associate - Aeronautical Engineering Department, University of Sydney, Australia
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Feb 1997 - Aug 2000: PhD Research Candidate - Aeronautical Engineering Department, University of Sydney, Australia
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Nov 1995 - Feb 1996: Mechanical Design Engineer / Plant Operator - Comalco Aluminium (Bell Bay), Tasmania, Australia
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Nov 1994 - Feb 1995: Research Assistant /Programmer - Department of Mathematics, University of Melbourne, Australia
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Nov 1993 - Jan 1994: Vacation Scholar / Research Astronomer - Mount Stromlo Observatory, Australian National University, Australia
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Aug 1990: Laboratory Assistant - School of Physics, University of Melbourne, Australia
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4-8 December 1989: State Electricity Commission (S.E.C., Victoria)
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December 1988: Paperboy
TUTORING EXPERIENCE:
EXTRA-CURRICULAR ACTIVITIES:
At School
- Sharemarket Game
- Chess Club
- Chess Competitions
- Baseball team
- Inter-regional Competitions
- Air Training Corp Cadet
- Scout Movement
- Sports Played in school
- Volleyball, baseball, squash, swimming, cross-country.
  At University
- Yum Cha Club - Vice President
TECHNOLOGY AREAS:
- Numerical Techniques and Optimization Algorithms. Familiarity and expertise in many types of solvers and optimizers including SVD, LDU, Genetic Algorithm and Simulated Annealing. Such techniques are widely applicable to many fields including IT, finance, engineering and research.
- Theoretical applied mechanics in mechanics of solids and composite structures modeling. Classical and high order displacement fields for structural modeling as well as other formulations for modeling of composites. Dynamics of systems include data acquisition, frequency domain analysis and modal analysis. Utilization of continuum mechanics and mixed field physics concepts in developing new governing equations for structural analysis.
- Finite Element theory, concept, formulation, analysis and practical application. Including developing FE code based on new FE formulation.
- Piezoelectric modeling. Structural analysis incorporating piezoelectric materials with conventional materials via electro-mechanically coupled equations.
RESEARCH INTERESTS:
- Smart Structures - Shape Control modelling and practical application
- Symbolic / Algebraic techniques in Finite Element codes
- Developing 3D visualization algorithms using fundamental mathematical principles.
- To perform fundamental research and contribute to the advancement of the current
state of the art in the application of intelligent structural systems.
- Develop practical application and methods of adaptive systems to flexible
space structures or spacecrafts.
- Optimization algorithms with Genetic Algorithms, Artificial Intelligence, Simulated Annealing, etc
and their applications in smarter software.
- Encoding / Decoding and compression algorithms.
- Quantum optimization algorithms
RESEARCH PUBLICATIONS:
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C.Chee, L.Tong and G.P.Steven, "A Review on the Modelling of Piezoelectric
Sensors and Actuators Incorporated in Intelligent Structures"; Journal
of Intelligent Material Systems and Structures , Vol. 9, No. 1,
(1998), pp 3-19.
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C.Chee, L.Tong and G.P.Steven, "A Mixed Model for Composite Plates with
Piezoelectric Sensors and Actuators", Proceedings of the Second Australian
Congress on Applied Mechanics (ACAM-99), Canberra, 10th - 12th,
Feb., 1999.
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C.Chee, L.Tong and G.P.Steven, "A Mixed Model for Composite Beams with
Piezoelectric Actuators and Sensors", Smart Materials and Structures
Vol.8 (1999) pp 417-432.
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C.Chee, L.Tong and G.P.Steven, "Shape Functions Generation using Macsyma",
Communications in Numerical Methods in Engineering, Vol. 16, No. 10 (2000) pp705-715.
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C.Chee, L.Tong and G.P.Steven, "A Mixed Model for Adaptive Composite Plates
with Piezoelectric for Anisotropic Actuation",Computers and Structures Vol. 77, No. 3 (2000) pp253-268.
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C.Chee, L.Tong and G.P.Steven, "A Buildup Voltage Distribution(BVD) algorithm for shape control of smart plate structures", Computational Mechanics Vol. 26, No. 2 (2000) pp115-128.
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C.Chee, L.Tong and G.P.Steven, "Static Shape Control of Composite Plates
Using a Slope-Displacement Based Algorithm", 41st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference and Exhibit, Atlanta, Georgia, USA. April 3rd - 7th, 2000.
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C.Chee, L.Tong & G.P.Steven, "Static Shape Control of Composite Plates Using a Slope-Displacement Based Algorithm", AIAA Journal, Vol 40(8), (2002) pp1611-1618.
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C.Chee, L.Tong & G.P.Steven, "Static Shape Control of Composite Plates Using a Curvature-Displacement Based Algorithm", International Journal of Solids and Structures, Vol. 38, (2001) pp6381-6403.
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C.Chee, L.Tong & G.P.Steven, "Piezoelectric Actuator Orientation Optimization for Static Shape Control of Composite Plates", Composite Structures, Vol. 55, (2002) pp169-184.
CONFERENCE PRESENTATIONS:
- Second Australian Congress on Applied Mechanics (ACAM-99), Canberra, 10th - 12th,
Feb., 1999.
Presented "A Mixed Model for Composite Plates with Piezoelectric Sensors and Actuators"
- Invited to the Aeronautical and Maritime Research Laboratory - Defence Science and
Technology Organisation (AMRL-DSTO).
Presented "Finite Element Modelling for Composite Laminated Plates
Smart Structures and preliminary Shape Control applications"
-
41st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference and Exhibit,
Atlanta, Georgia, USA. April 3rd - 7th, 2000.
Presented "Static Shape Control of Composite Plates Using a Slope-Displacement Based Algorithm"
PROFESSIONAL MEMBERSHIP:
- AIAA - American Institute of Aeronautics & Astronautics
- APESMA - Association of Professional Engineers, Scientists and Managers, Australia
AWARDS:
-
Who’s Who in Science & Engineering 2002, 6ed. - biography selected for inclusion.
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Graduates Golden Jubilee Research Prize in Aeronautics for 1999
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Australian Postgraduate Award + Supplementary (1997 to present) (for PhD
research)
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AGM Michell Prize 1996, Mechanical Engineering Department, Melbourne University
(for 1st Class Honours)
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Australian National University Vacation Scholarship 1993/94
-
Australian Students Prize 1991 (a national prize for Year 12 students)
COMPUTER KNOWLEDGE:
- Programming Languages:
- Fortran90, C, C++, JAVA - 7 yrs exp in programming & developing including GUI.
- QuickBasic - the first high level language I used.
Developed 3D graphics manipulation program and Conic Section graphics.
- HTML - developed official webpage for the CSSG
group in the Aeronautical Engineering Department of Sydney University.
- Scientific Software Skills:
- Maple, Matlab, Mathematica, Macsyma, Labview, Strand (Finite Element), ProEngineer, GNUplot
- Supercomputers:
- OpenMP, Vector Computers, Shared Memory Programming, NEC SX-5, SGI Origin 2400, IBM SP2 (AIX)
- E-Business / Web Technologies:
- JBuilder, HTML, CSS, XML, XSL, XSLT, JDBC, CORBA, RMI, Java Servlets, JSP, Javascript, Beans, ATG Dynamo, Documentum, DML, DDL, DOM, DTD, Namespace.
- Operating Systems:
- DOS, Windows 3.1x/95/98/NT/2000, Unix, Linux
- Hardware Systems:
- PCs, SUN workstations, Macintosh
- Software Applications:
- Microsoft Office Suite, Corel Office Suite, StarOffice.
- Hardware skills:
- Assembly of PC - Have assembled PCs from its components as well as
installing operating systems such as Win95 and Linux on a totally empty PC / hard drive.
TECHNICAL COURSES
- Quantum Information and Computing Summer School (University of Queensland)
- Strand Finite Element Software (G & D Computing)
- Labview Advanced Course (National Instruments)
- Internet Programming (University of Sydney)
- Artificial Neural Network Applications (University of Sydney)
FOREIGN LANGUAGES:
- English - first language
- Chinese (Cantonese, Hokkien) - second language
- Japanese - 4 yrs exp in high school
- Malay - 6 yrs exp in primary school
- German - self teaching
- Korean - self teaching
OTHER INTERESTS:
Badminton, Billiards, Cycling, History,
Photography, Politics, Object Oriented Programming, HTML web-page design, Reading (Fiction, Quantum Physics,
etc.), Sharemarket, Table Tennis.
REFERENCES / REFEREES:
Available upon request.