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<strong>4th</strong> <strong>International</strong> Conference on<br />
Computational Methods<br />
25 - 28 November 2012<br />
Crowne Plaza Surfers Paradise<br />
Gold Coast | Australia<br />
Conference Handbook<br />
I<br />
C<br />
C<br />
M<br />
2<br />
0<br />
1<br />
2
25 - 28<br />
November<br />
2012,<br />
Crowne<br />
Plaza, Gold<br />
Coast<br />
<strong>The</strong> ICCM2012 is an international<br />
conference providing an international <strong>for</strong>um<br />
<strong>for</strong> exchange ideas on recent advances in<br />
areas related to computational methods,<br />
numerical modelling & simulation, as well as<br />
their applications in engineering and<br />
science.<br />
<strong>4th</strong> <strong>International</strong> Conference on<br />
Computational Methods<br />
ICCM2012<br />
Conference Handbook
Dear Colleagues<br />
PREFACE<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
On behalf of the organising committee, I am delighted to welcome you to the <strong>4th</strong> <strong>International</strong> Conference<br />
on Computational Methods (ICCM2012) at the Gold Coast, Australia.<br />
<strong>The</strong> ICCM2012 is an international conference providing an international <strong>for</strong>um <strong>for</strong> exchange ideas on recent<br />
advances in areas related to computational methods, numerical modelling & simulation, as well as their<br />
applications in engineering and science. It will accommodate presentations on a wide range of topics to<br />
facilitate inter-disciplinary exchange of ideas in science, engineering and related disciplines, and foster<br />
various types of academic collaborations. All papers accepted <strong>for</strong> publication in the proceedings will be<br />
subject to a full peer review.<br />
<strong>The</strong> conference series originated in Singapore in 2004 by Professor GR Liu, followed by ICCM2007 in<br />
Hiroshima, Japan, and ICCM2010 in Zhangjiajie, China. This year, the ICCM2012 conference <strong>program</strong><br />
covers over 260 oral presentations in 48 technical <strong>sessions</strong>, including 4 Plenary talks, 8 <strong>The</strong>matic Plenary<br />
talks, and a number of Keynote talks in technical <strong>sessions</strong>. <strong>The</strong>se presentations cover a broad range of topics<br />
of new advances in computational methods and numerical modelling as well as their applications. I hope<br />
this conference will become one of the most important actives in the relevant research communities.<br />
I would like to use this opportunity to express my gratitude to the Science and Engineering Faculty of<br />
Queensland University of Technology, and all sponsors <strong>for</strong> their strong support and encouragement. I am<br />
deeply indebted to all the members of the Organising Committees, the mini-symposium organisers, the<br />
reviewers and the session chair people <strong>for</strong> your strong support and help. I would like to express my special<br />
appreciation and thanks to the Conference General Secretary, Dr. Suvash Saha <strong>for</strong> his exceptional<br />
commitment and tireless work in organising. <strong>The</strong> last, but not the least, I would like to convey huge thanks to<br />
Ms Gabrielle Hunter and Ms Rachel Mortimer from QUT Events <strong>for</strong> their management of the conference.<br />
I hope that you will have a wonderful time at the beautiful Gold Coast, Australia.<br />
A/Professor YuanTong (Y.T.) Gu<br />
Conference Chairman, <strong>The</strong> ICCM2012<br />
School of Chemistry, Physics and Mechanical Engineering,<br />
Queensland University of Technology,<br />
November 2012<br />
2
CONFERENCE HOUSEKEEPING<br />
Catering<br />
Morning and afternoon teas and Buffet lunches are included in conference registration.<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Instructions <strong>for</strong> chairs<br />
For all presentations, timeslots are 20 minutes, including 15 minutes of presentation and 5 minutes of<br />
question/discussion. Please stick to the <strong>program</strong>.<br />
Instructions <strong>for</strong> oral presenters<br />
<strong>The</strong> presentation timeslot is 20 minutes, including 15 minutes of presentation with 5 minutes of<br />
question/discussion. <strong>The</strong> conference provides a laptop with Windows OS <strong>for</strong> each session. Presenters are<br />
welcome to use their own laptop as well. We strongly encourage you to have a backup of your presentation<br />
on a USB storage device. If using PowerPoint, please bring your file on a USB stick to the room of your<br />
presentation during the break be<strong>for</strong>e your session, or 10 minutes be<strong>for</strong>e the start of the day’s proceedings.<br />
A volunteer will help you load it. If you want to use your own laptop, please test the compatibility in<br />
advance.<br />
Conference Rooms<br />
Room name Location Application<br />
Acacia Room 2ND Parallel <strong>sessions</strong><br />
Cypress Room GRND Parallel <strong>sessions</strong><br />
Kauri Room GRND Parallel <strong>sessions</strong><br />
Waratah Room 1ST Parallel <strong>sessions</strong><br />
Phoenix Room MEZZ <strong>The</strong>matic plenary talks, Parallel <strong>sessions</strong><br />
Norfolk Room GRND Plenary talks, <strong>The</strong>matic plenary talks, Parallel <strong>sessions</strong>, Conference dinner<br />
Conference satchel<br />
Every registered author will be provided a conference satchel with the Conference Handbook, the USB<br />
Proceedings and other inserts. <strong>The</strong> ISSN number can be found in the USB Proceedings. <strong>The</strong> conference<br />
satchel is specially designed to be suitably used <strong>for</strong> iPad and other mini-laptops.<br />
Name tags<br />
Name tags are your entry to conference events. Please wear them at all times.<br />
Registration/In<strong>for</strong>mation desk<br />
Registration/in<strong>for</strong>mation will be in ground level of Crowne Plaza<br />
16:00‐20:00 pm on Sunday 25/11<br />
8:00 am‐17:00 pm on Monday 26/11<br />
8:00 am‐17:00 pm on Tuesday 27/11<br />
8:00 am‐12:00 pm on Wednesday 28/11.<br />
Wireless Internet<br />
WiFi wireless internet will be available around the registration area. Please get a WiFi wireless key from<br />
the registration desk. Due to the limitation of the user number, please be considerable to keep your using<br />
time as short as possible and log off when you finish your session.<br />
Social events<br />
<strong>The</strong> Welcome Reception on Sunday 25/11 and the Conference Dinner on Tuesday 27/11 are included in<br />
full registrations. <strong>The</strong> Conference Dinner will be held at Norfolk Ballroom, Crowne Plaza.<br />
3
ORGANISING COMMITTEE<br />
Chairman:<br />
A/Prof. Gu, Y.T., Australia<br />
Honorary Chairs:<br />
Prof. Betts, M., Australia Prof. Yuan, M.W., China<br />
Prof. Liu, G.R, USA<br />
<strong>International</strong> organization committee<br />
Co-Chairmen:<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Prof. Okada, H., Japan Prof. Fan, D.N., China<br />
Prof. Youn, S.K., Korea<br />
Members:<br />
Prof. Beer, M., UK Prof. Mai-Duy, N., Australia<br />
Prof. Chen, D., China(Taiwan) Prof. Miyazaki, N., Japan<br />
Prof. Chen, J.T., China(Taiwan) Prof. Ng, T.Y., Singapore<br />
Prof. Chen, W., China Prof. Nie, Y.F., China<br />
Prof. Ding, H., China Prof. Nithiarasu, P., UK<br />
Prof. Du, S.Y., China Prof. Ohayon, R., France<br />
Prof. Fan, S.C., Singapore Prof. Rabczuk, T., Germany<br />
Prof. Feng, X.Q., China Prof. Schaback, R., Germany<br />
Prof. Fish, J., USA Prof. Shi, G., Canada<br />
Prof. Fok, A. USA Prof. Soo-Won Chae Korea<br />
Prof. Gao, Y.Q., China Prof. Tada, N., Japan<br />
Prof. Gao, Y.W., China Prof. Tian, R., China<br />
Prof. Gopalakrishnan, S., India Prof. Wan, D.C., China<br />
Prof. Guan, Z., UK Prof. Wang, C., China<br />
Prof. Guo,X., China Prof. Wang, D.D., China<br />
Prof. Hagihara, S., Japan Prof. Watanabe, K., Japan<br />
Prof. Han, X., China Prof. Wei, G., USA<br />
Prof. Hon, B.C., China(HK) Prof. Wen, P.H., UK<br />
Prof. Hu, P. China Dr. Wu, W., USA<br />
Prof. Idelsohn Barg, S., Argentina Prof. Xiang, Z.H., China<br />
Prof. Iu, V.P., China(Macao) Prof. Xu, X., China<br />
Prof. Kajishima, T., Japan Prof. Xuan, Z.C., China<br />
Prof. Kang, Z., China Prof. Yang, Z., UK<br />
Prof. Kanok-Nukulchai, W., Thailand Prof. Yoshimura Japan<br />
Prof. Kant, T., Japan Prof. Yu, T.X., China(HK)<br />
Prof. Kim, M.K., Korea Prof. Yuan, M.W., China<br />
Prof., Kitamura, T., Japan Prof. Zhang C.L., China<br />
Prof. Li, H., Singapore Prof. Zhang X. China<br />
Prof. Li, M., China Prof. Zhang, C.Z., German<br />
Prof. Li, S. F., USA Prof. Zhang, H.W. China<br />
Prof. Liu, M. B., China Dr. Zheng, Y.G., China<br />
Dr. Liu, Z.S., Singapore Prof. Zhuang, P.H., China<br />
Prof. Lu, J., China(HK) Prof. Zhuang, Z., China<br />
Prof. Ma, G. W., Australia Prof. Zong, Z., China<br />
4
Local organization committee<br />
Chairman:<br />
A/Prof. Gu, Y.T., Australia<br />
Co-Chairmen:<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Prof. Bell, J., Australia Dr. Young, J., Australia<br />
Prof. Turner, I., Australia<br />
Members:<br />
Dr. Chen, G., Australia Prof. Mai-Duy, N., Australia<br />
Prof. Gao, D., Australia Prof. Miller, K., Australia<br />
Prof. Gao, W. Australia Prof. Oloyede, K., Australia<br />
Prof. Guan, H., Australia Dr. Senadeera, W., Australia<br />
Dr. Kelson, N., Australia Prof. Shen, L.M, Australia<br />
Prof. Khalili, N., Australia Prof. Tan, A., Australia<br />
Prof. Jiang, Z., Australia Prof. Tong, L.Y., Australia<br />
Prof. Li, L., Australia Prof. Tran-Cong, T., Australia<br />
Prof. Li, Q., Australia Prof. Xie, Y.M., Australia<br />
Prof. Li, W.H., Australia Prof. Yan, C., Australia<br />
Prof. Lin, W.X., Australia Dr. Yan, W.Y., Australia<br />
Prof. Liu, F.W., Australia Dr. Yang, J., Australia<br />
Dr. Luo, Z. Australia Prof. Yang, R. C. H., Australia<br />
Prof. Ma, G. W., Australia Prof. Yarlagadda, P., Australia<br />
Dr. Ma, J., Australia Dr. Zhang, G. Y., Australia<br />
Prof. Ma, L., Australia Prof. Zhang, H., Australia<br />
Conference General Secretary<br />
Dr. Saha, S., Australia<br />
Conference Management<br />
Ms Gabrielle Hunter QUT Events<br />
Ms Rachel Mortimer QUT Events<br />
5
GETTING TO THE GOLD COAST<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
<strong>The</strong> conference is being held at Crowne Plaza Surfers Paradise, on Queensland's famous Gold Coast,<br />
Australia., i.e., Crowne Plaza Surfers Paradise, 2807 Gold Coast Highway, SURFERS PARADISE, QLD,<br />
AUSTRALIA (View Larger Map ).<br />
Located on Australia’s South-East Queensland coastline, the Gold Coast is serviced by two major airports.<br />
<strong>The</strong> Brisbane Domestic and <strong>International</strong> Airport (BNE) is less than one hour drive away, while the Gold<br />
Coast Airport (OOL) is just 30 minutes drive from the centre of Surfers Paradise.<br />
Brisbane Airport<br />
Connected by fast access using the Pacific Motorway or Airtrain, Brisbane’s world-class airport rail link<br />
creates a seamless connection between Brisbane Airport and the Gold Coast. Transport options include:<br />
Rail - Airtrain travels directly from Brisbane Airport and stops at all Gold Coast stations up to 4 times per<br />
hour. Prices vary from $25.80-32.50 (one-way) or $49.60-$63.00 (return) depending on which station you<br />
disembark at. Please note that all stations are then a taxi or bus ride away from Surfers<br />
Paradise/Broadbeach. For more in<strong>for</strong>mation on the Airtrain including timetables and prices, please visit<br />
http://www.airtrain.com.au/index.php<br />
Airtrain Connect is a premium service <strong>for</strong> getting you from the Brisbane Airport to the door of your Gold<br />
Coast destination. It involves a train ride to a Gold Coast station (Helensvale, Nerang, Robina or Varsity<br />
Lakes), and then a chauffeured transfer to your accommodation or place of business. <strong>The</strong> availability of<br />
AirtrainConnect is limited to standard train operating hours. Prices are $45 one-way or $85 return (book<br />
online to save 10%). For more details, please visit http://www.airtrain.com.au/ products_<br />
airtrainconnect.php.<br />
Road – <strong>The</strong> best way to get from Brisbane Airport to the Gold Coast hotel via road is by coach transfers.<br />
You may use the door to door coach service provided by either one from the following companies.<br />
1) Coachtrans<br />
You can book book a transfer with Coachtrans on-line, please visit http://www.coachtrans.com.au/. <strong>The</strong><br />
price is daily from $46 (one-way per person) to $92 (return per person).<br />
2) Extragreen Holidays (Aust) Pty Limited<br />
Please use the following contact in<strong>for</strong>mation to book your coach via email or phone call.<br />
Contact person: Vicky, Contact Email: vickygu@extragreen.com.au or surfersparadise@extragreen.net.au<br />
Contact Number: +61 07 5538 0725<br />
Price: $45 per one way, $90 <strong>for</strong> return<br />
Payment method: Cash give directly to driver when arrive or do prepayment by credit card.<br />
3)For other road transport options, please visit http://bne.com.au/to-from-airport/transport-options.<br />
Gold Coast Airport<br />
<strong>The</strong> Gold Coast Airport is 22km south of central Surfers Paradise. Transport options include:<br />
Taxi – Taxis are available directly outside the terminal. A taxi ride to Surfers Paradise costs<br />
approximately $50-$60. For more in<strong>for</strong>mation, please visit http://www.gccabs.com.au/airport-taxis/<br />
Shuttle Transfer – <strong>The</strong> Gold Coast Tourist Shuttle offers door to door transfers from Gold Coast Airport<br />
to any Gold Cost hotel with prices ranging from $19 (one-way) – $35 (return). For more in<strong>for</strong>mation or to<br />
book a transfer, please visit http://www.gcshuttle.com.au/index.htm<br />
Bus – Local bus route 702 leaves from directly in front of the Domestic arrivals/baggage collection area,<br />
every half hour and runs directly up the Gold Coast Highway through Surfers Paradise to Southport. This<br />
journey can take anywhere between 45-65 minutes and a one-way ticket is $6.90.<br />
6
PLENARY SPEAKERS<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Name: Professor Joe Monaghan<br />
Institution: Monash University<br />
Talk Title: Leonardo da Vinci's turbulent tank and other complex fluid dynamical problems<br />
Web Page: http://users.monash.edu.au/~jjm/Welcome.html<br />
Name: Professor Tayfun Tezduyar<br />
Institution: Rice University<br />
Talk Title: Space–Time Computational Fluid–Structure Interaction Techniques<br />
Web Page: http://www.tafsm.org/~tezduyar/<br />
Name: Professor Gui-Rong Liu<br />
Institution: University of Cincinnati<br />
Talk Title: Smoothed Finite element Methods: A Review<br />
Web Page: http://aerospace.ceas.uc.edu/people/people_fac-staff/fac-staff/fac/g_r_liu.html<br />
Name: Dr. Eng Lim Goh<br />
Institution: SGI (Senior Vice President & Chief Technology Officer)<br />
Talk Title: From High Per<strong>for</strong>mance to Data Intensive Computing<br />
Web Page:<br />
THEMATIC PLENARY SPEAKERS<br />
Name: Professor Karol Miller<br />
Institution: <strong>The</strong> University of Western Australia<br />
Talk Title: Real-Time Finite Element and Meshless Methods <strong>for</strong> Computational Biomechanics <strong>for</strong><br />
Medicine<br />
Web Page: http://school.mech.uwa.edu.au/~kmiller/<br />
Name: Professor Chwee Teck Lim<br />
Institution: National University of Singapore<br />
Talk Title: Cell Mechanics and the Pathology of Human Diseases – Modeling & Experiments<br />
Web Page: http://www.bioeng.nus.edu.sg/nanolab/nanolab.html<br />
Name: Professor Daining Fang<br />
Institution: Peking University<br />
Talk Title: Nonlinear electromechanically coupled computational mechanics methods <strong>for</strong><br />
piezo/ferroelectric materials at multiscales<br />
Web Page: http://web5.pku.edu.cn/engineering/Faculty/facultyD/<br />
Mechanics/2346.htm<br />
7
Name: Professor Xiqiao Feng<br />
Institution: Tsinghua University<br />
Talk Title: Surface wrinkling and morphological evolution of soft materials<br />
Web Page: http://cnmm.tsinghua.edu.cn/channels/168.html<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Name: Professor Hiroshi Okada<br />
Institution: Tokyo University of Science<br />
Talk Title: Development of crack propagation analysis software system using the tetrahedral finite<br />
element and remeshings<br />
Web Page: http://www.sut.ac.jp/en/fac/p/index.php?5d1b<br />
Name: Professor Sau Cheong Fan<br />
Institution: Nanyang Technological University<br />
Talk Title: Challenges in simulation of break-up of concrete magazine and the debris throw<br />
Web Page: http://www.cee.ntu.edu.sg/AboutCEE/Faculty%20Directory<br />
/Pages/SM_cfansc.aspx<br />
Name: Professor Noriyuki Miyazaki<br />
Institution: Kyoto University<br />
Talk Title: Application of Computational Solid Mechanics to Reliability Studies of Electronic<br />
Packaging<br />
Web Page: http://solid.me.kyoto-u.ac.jp/miyazaki_English/miyazaki.html<br />
Name: Professor Moubin Liu<br />
Institution: Institute of Mechanics, Chinese Academy of Sciences<br />
Talk Title: SPH modelling of free surface flows with moving rigid objects<br />
Web Page: http://lho.imech.ac.cn/webch/User_Show.asp?UserID=161<br />
8
PLENARY TALKS<br />
Professor Joe J. Monaghan FAA<br />
School of Mathematical Sciences, Monash University, Australia<br />
Title: Leonardo da Vinci's turbulent tank and other complex fluid dynamical problems.<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Abstract: Many complex fluid dynamical problems involving several fluids and moving bodies can be simulated<br />
efficiently by using meshless methods such as Smoothed Particle Hydrodynamics. In this talk I will illustrate the<br />
general principles of particle methods and their application to Leonardo da Vinci's problem which appears simple but<br />
has astonishingly complicated dynamics. Other problems involving moving bodies will also be described. My talk will<br />
finish by discussing developments of particle methods which give greater accuracy and higher speeds.<br />
Bio data: Education: M.Sc University of Western Australia 1962, Ph.D. University of Cambridge 1965, Monash<br />
University: Lecturer 1968, Senior Lecturer 1969, Reader 1971, Professor 1989-. Fellowships: Fellow Churchill<br />
College, Cambridge 1964-1966, Morrison Post-Doctoral Fellow, University of Cali<strong>for</strong>nia, Santa Cruz 1967-1968,<br />
Fellow of the Joint Institute of Laboratory Astrophysics 1973. Fellow of the Australian Academy of Science 2011.<br />
Special lectures: George Batchelor Lecturer, Aust. Fluid. Mech. Conference 2007. First ANZIAM lecturer, Aust. Math.<br />
Soc. 2007. Distinguished Lecturer, Leicester U.K. CSIRO Research Achievment Medal 1999. Numerous Keynote<br />
lectures at <strong>International</strong> conferences. Research: Inventor and developer of Smoothed Particle Hydrodynamics <strong>for</strong> the<br />
simulation of cosmological problems, galaxies, star <strong>for</strong>mation, and complex fluids interacting with solids producing<br />
breaking waves and other complex phenomena. He has published 140 Journal papers, of which 2 have over 1000<br />
citations. His h index is 39, and he has received $1.66 million in research grants.<br />
Professor Tayfun E. Tezduyar<br />
Mechanical Engineering, Rice University, USA<br />
Title: Space–Time Computational Fluid–Structure Interaction Techniques<br />
Abstract: Since its introduction in 1991 <strong>for</strong> computation of flow problems with moving boundaries and interfaces, the<br />
De<strong>for</strong>ming-Spatial-Domain/Stabilized Space–Time (DSD/SST) <strong>for</strong>mulation has been applied to a diverse set of<br />
challenging problems. <strong>The</strong> classes of problems computed include free-surface and two-fluid flows, fluid–object, fluid–<br />
particle and fluid–structure interaction (FSI), and flows with mechanical components in fast, linear or rotational relative<br />
motion. <strong>The</strong> DSD/SST <strong>for</strong>mulation, as a core technology, is being used <strong>for</strong> some of the most challenging FSI problems,<br />
including parachute modeling and arterial FSI. Versions of the DSD/SST <strong>for</strong>mulation introduced in recent years serve<br />
as lower-cost alternatives, and more recent variational multiscale (VMS) version, which is called DSD/SST-VMST, has<br />
brought better computational accuracy and serves as a reliable turbulence model. Special space–time FSI techniques<br />
introduced <strong>for</strong> specific classes of problems, such as parachute modeling and arterial FSI, have increased the scope and<br />
accuracy of the FSI modeling in those classes of computations. <strong>The</strong> lecture will provide an overview of the core space–<br />
time FSI technique, its recent versions, and the special space–time FSI techniques. It will also provide examples from<br />
parachute FSI, arterial FSI, and aerodynamics of flapping wings.<br />
*This is a joint work with Professor Kenji Takizawa, Department of Modern Mechanical Engineering and Waseda<br />
Institute <strong>for</strong> Advanced Study, Waseda University, Tokyo.<br />
Bio data: Professor Tezduyar received his Ph.D. from Caltech in 1982. After postdoctoral work at Stan<strong>for</strong>d, he had<br />
faculty positions at University of Houston and University of Minnesota. At Minnesota he became full professor in 1991<br />
and was named Distinguished McKnight University Professor in 1997. He joined Rice University in 1998 as James<br />
Barbour Professor in Mechanical Engineering. Dr. Tezduyar holds a 1986 Presidential Young Investigator Award from<br />
the National Science Foundation. He received the 1997 Computational Mechanics Award of the Japan Society of<br />
Mechanical Engineers, 1997 Computational Fluid Dynamics Award of the US Association <strong>for</strong> Computational<br />
Mechanics, and 1998 Computational Mechanics Award of the <strong>International</strong> Association <strong>for</strong> Computational Mechanics.<br />
He is a Fellow of the American Society of Mechanical Engineers, US Association <strong>for</strong> Computational Mechanics,<br />
<strong>International</strong> Association <strong>for</strong> Computational Mechanics, American Academy of Mechanics, and the School of<br />
Engineering at University of Tokyo. He is an Editor of Computational Mechanics and an Associate Editor of<br />
Mathematical Models and Methods in Applied Sciences.<br />
9
Professor Gui-Rong Liu<br />
School of Aerospace Systems, University of Cincinnati, USA<br />
Title: Smoothed Finite Element Methods: A Review<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Abstract: Along the development of meshfree methods, we have moved beyond the finite element method (FEM), and<br />
found an excellent way to combine the techniques of meshfree and FEM. This has led the development of the smoothed<br />
finite element methods (S-FEM) that combines the existing standard FEM and the existing strain smoothing techniques.<br />
<strong>The</strong> S-FEM is a special case of the so-called smoothed point interpolation methods (S-PIM), when FEM shape<br />
functions are used. It is a soft model, in contrast to the FEM that is known as stiff model. Compared to the meshfree<br />
techniques, it is very easy to implement and use because it has a lot of similarities as the FEM that is familiar to many.<br />
<strong>The</strong> results of the study on S-FEM in many applications showed crucial significances: (1) S-FEM models are always<br />
“softer” than the standard FEM, promising to provide more effective numerical solutions; (2) S-FEM models give more<br />
freedom and convenience in constructing shape functions <strong>for</strong> special purposes or enrichments (e.g, various degree of<br />
singular field near the crack-tip, highly oscillating fields, etc.); (3) S-FEM models allow the use of distorted elements<br />
and general n-sided polygonal elements; (4) NS-FEM offers a much simpler tool to estimate the quality of the solution<br />
(global error, bounds of solutions, etc) <strong>for</strong> many types of problems; (5) the αFEM, a combination of some S-FEM<br />
models, can offer solutions of very high accuracy. This article provides a short review on the works on the S-FEM<br />
per<strong>for</strong>med in the past years primarily by Liu’s group. We are aware of the fact that many other groups have also pick-up<br />
the S-FEM and made substantial contributions, but we are still in the process of including their works in a <strong>for</strong>mal<br />
review article in a journal. We will try to include as much as possible all these works in Liu’s oral plenary lecture, but<br />
this article will not allow us to do so, due the time limitations.<br />
Bio data: Dr. GR Liu received PhD from Tohoku University, Japan in 1991. He was a Postdoctoral Fellow at<br />
Northwestern University, USA from 1991-1993. He is currently a Professor, Ohio Eminent Scholar and School Faculty<br />
Chair at the School of Aerospace Systems, University of Cincinnati. He served as a Deputy Head of the Department of<br />
Mechanical Engineering, the Director of the Centre <strong>for</strong> Advanced Computations in Engineering Science (ACES),<br />
National University of Singapore, and the President of the Association <strong>for</strong> Computational Mechanics. He is the<br />
President of the Asia-Pacific Association <strong>for</strong> Computational Methods, and an Executive Council member of the<br />
<strong>International</strong> Association <strong>for</strong> Computational Mechanics. He authored a large number of international journal papers and<br />
books including two bestsellers: “Mesh Free Method: moving beyond the finite element method” and “Smoothed<br />
Particle Hydrodynamics: a Meshfree Particle Methods.” He is the Editor-in-Chief of the <strong>International</strong> Journal of<br />
Computational Methods, Associate Editor of the international technical journal Inverse Problems in Science and<br />
Engineering (IPSE), and served as an editorial member of five other journals including the IJNME.<br />
Dr. Eng Lim Goh<br />
Senior Vice President & Chief Technology Officer, SGI<br />
Title: From High Per<strong>for</strong>mance to Data Intensive Computing<br />
Abstract: From the sources of Big Data to its subsequent ingest, storage, analysis, visualisation and actionable decision<br />
stages, challenges abound. We will discuss solutions to them, starting with high per<strong>for</strong>mance computing, as our<br />
traditional source, to sensors and social interactions. Next comes the ingest stage where scale is causing these systems<br />
to have as many nodes as that of the analysis stage. For the storage stage, again at such large scales, tape can be too<br />
slow, flash can be too expensive and a million spinning disks can consume multi megawatts of power. In the analysis<br />
stage, we differentiate solutions ranging from extracting "needle in a haystack" to "relationship between hay in a stack".<br />
<strong>The</strong>re are also visualisation challenges. For example, a three dimensional space with a billion grid points is already<br />
considered large. How then do we effectively support the analyst in visualizing a trillion-point dataset, where a<br />
thousand of those data points could be sitting on the same grid location.<br />
Bio data: Dr. Goh joined SGI in 1989, becoming a chief engineer in 1998 and then chief technology officer in 2001. He<br />
oversees technical computing <strong>program</strong>s with the goal to develop the next generation computer architecture <strong>for</strong> the new<br />
many-core era. In 2005, InfoWorld named Dr. Goh one of the World's 25 Most Influential CTOs. That same year he<br />
was also included in the HPCwire list of "15 People to Watch." In 2007, he was named "Champions 2.0" of the industry<br />
by BioIT World magazine, and received the HPC Community Recognition Award from HPCwire. Dr. Goh is a frequent<br />
industry speaker and he continues to discuss, in different <strong>for</strong>ums, innovative technologies and their applications. Be<strong>for</strong>e<br />
joining SGI, Dr. Goh worked <strong>for</strong> Intergraph Systems, Schlumberger Wireline and Shell Research. A Shell Cambridge<br />
University Scholar, Dr. Goh completed his Ph.D. research and dissertation on <strong>parallel</strong> architectures and computer<br />
graphics, and holds a first-class honors degree in mechanical engineering from Birmingham University in the U.K. Dr.<br />
Goh has been granted four U.S. patents, two of which as the inventor and the others as co-inventor.<br />
10
THEMATIC PLENARY SPEAKERS<br />
Professor Karol Miller<br />
<strong>The</strong> University of Western Australia, Australia<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Title: Real-Time Finite Element and Meshless Methods <strong>for</strong> Computational Biomechanics <strong>for</strong> Medicine<br />
Abstract: Mathematical modelling and computer simulation have proved tremendously successful in engineering. One<br />
of the greatest challenges <strong>for</strong> mechanists is to extend the success of computational mechanics to fields outside<br />
traditional engineering, in particular to biology, biomedical sciences, and medicine. By extending the surgeon’s ability<br />
to plan and carry out surgical interventions more accurately and with less trauma, Computer-Integrated Surgery (CIS)<br />
systems could help to improve clinical outcomes and the efficiency of health care delivery. CIS systems could have a<br />
similar impact on surgery to that long since realized in Computer-Integrated Manufacturing (CIM). However, be<strong>for</strong>e<br />
this vision can be realised the following two challenges must be met: Challenge 1. Real-time (or near-real-time)<br />
computations; Challenge 2. Efficient generation of computational grids from medical images of human organs. In this<br />
lecture I describe how the Intelligent Systems <strong>for</strong> Medicine Laboratory addresses these challenges by using explicit<br />
dynamics and dynamic relaxation algorithms implemented on GPU and developing a concept of an “image as a model”.<br />
Bio data: Professor Karol Miller was born and educated in Warsaw, Poland. He spent two years (1995-1996) as the<br />
STA Postdoctoral Fellow in Mechanical Engineering Laboratory, AIST, Tsukuba, Japan. Since December 1996 he has<br />
been with <strong>The</strong> University of Western Australia where he now is Winthrop Professor of Applied Mechanics. He is also<br />
an Honorary Distinguished Professor at Cardiff University and has been a Leverhulme Visiting Professor at the Civil<br />
and Computational Engineering Centre (C2EC) at Swansea University and a Senior Oden Fellow at <strong>The</strong> Institute <strong>for</strong><br />
Computational Engineering and Sciences (ICES) at the University of Texas at Austin. Prof. Miller is a specialist in the<br />
area of modelling and computer simulation in biomechanics. He is the founder and director of the Intelligent Systems<br />
<strong>for</strong> Medicine Laboratory http://school.mech.uwa.edu.au/ISML/ at <strong>The</strong> University of Western Australia. Prof. Miller’s<br />
contributions include mathematical models of brain de<strong>for</strong>mation behaviour (the world’s most frequently cited) and<br />
close-to-real-time finite element and meshless algorithms. Prof. Miller’s contributions to GPU-based computations have<br />
been recognised e.g. by award of research funds under NVIDIA Professorship Partnership Program and the title of<br />
NVIDIA GPU Computing Champion. Prof. Miller had been the editor of Australian Journal of Mechanical Engineering<br />
(2010-2012) and sits on editorial boards of major journals in the areas of biomechanics and numerical methods.<br />
Professor Miller organises and chairs "Computational Biomechanics <strong>for</strong> Medicine" workshop series<br />
(http://cbm.mech.uwa.edu.au/) associated with the Medical Image Computing and Computer Assisted Intervention<br />
Society conferences (MICCAI). In 2012 he received the Institution of Engineers Australia’s Sir George Julius Medal.<br />
His book “Biomechanics of the brain”, Springer NY – the world’s first comprehensive reference in this area of research<br />
– is now available.<br />
Professor Chwee Teck Lim<br />
National University of Singapore, Singapore<br />
Title: Cell Mechanics and the Pathology of Human Diseases – Modeling & Experiments<br />
Abstract: Human diseases can affect our health and well-being by impairing our bodily structures and functions. In<br />
particular at the cell level, some diseases can give rise to or arise from mechanical and structural property changes in the<br />
cells. Such changes have been known to manifest in several human diseases such as malaria, sickle cell anemia and<br />
cancer. <strong>The</strong>se abnormal cellular mechanical property changes have also been known to disrupt normal physiological<br />
functions, which will eventually give rise to the pathology of diseases.<br />
Several physical changes such as size, de<strong>for</strong>mability and adhesion can occur at the cell level they often reflect the<br />
molecular and structural reorganization of the cell. As these changes occur at the micro and nanoscale, advanced micro-<br />
and nanotechnological tools are needed to probe such minute changes in the cell. State-of-the-art tools such as optical<br />
traps, atomic <strong>for</strong>ce microscope and microfluidics have been used to quantitatively probe the de<strong>for</strong>mability and adhesion<br />
changes of diseased cells with resolutions of <strong>for</strong>ces and displacements down to piconewton and nanometer scale,<br />
respectively. Computational models have also been developed to better understand the mechanical property changes at<br />
the sub-cellular level within the cell and how this ultimately influences the overall mechanical properties of the cell.<br />
Here, we will examine the mechanopathology of malaria and cancer, and the accompanying cellular structuremechanical<br />
property-function relationship changes from the molecule to cell levels using such tools. It is hope that we<br />
will not only better understand the pathology of these diseases, but also explore their cellular mechanical property<br />
changes as possible biomarkers in their detection and diagnosis.<br />
11
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Bio data: Professor Lim is a Professor of Bioengineering and Mechanical Engineering at the National University of<br />
Singapore. He conducts basic and applied research in cell and molecular biomechanics of human diseases. Prof Lim has<br />
authored more than 200 journal papers (including 30 invited/review articles), 19 book chapters and delivered more than<br />
190 invited talks. He is currently on the editorial boards of 11 international journals. Prof Lim was recently elected as a<br />
Council Member of the World Council <strong>for</strong> Biomechanics. Prof Lim has won several research awards and honors<br />
including the Asian Entrepreneurship Award 2012, HFSP Research Grant Award 2012, President's Technology Award<br />
2011, IES Prestigious Engineering Achievement Award 2010, Faculty Research Award 2010 as well as best paper<br />
awards in international conferences. His research was featured by the MIT Technology Review magazine as one of the<br />
top ten emerging technologies of 2006 that will "have a significant impact on business, medicine or culture"<br />
Professor DaiNing Fang<br />
College of Engineering, Peking University, P.R. China<br />
Title: Nonlinear electromechanically coupled computational mechanics methods <strong>for</strong> piezo/ ferroelectric materials at<br />
multiscales<br />
Abstract: This paper systematically summarizes the work in the field of multiscale electromechanically coupled<br />
computational methods <strong>for</strong> piezo/ferroelectric material, including the electromechanically coupled first-principles<br />
method, ferroelectric molecular dynamics, atomic-level finite element method, phase field method, Monte-Carlo<br />
method, and finite element method.<br />
<strong>The</strong> first-principles method is employed to explore the behaviour of the cross-sectional polarization field <strong>for</strong> thin<br />
nanowires of barium titanate. Topological defects of different winding numbers have been obtained, beyond the known<br />
textures in ferroelectric nanostructures. A shell-model based molecular dynamics method is developed <strong>for</strong> nanoscale<br />
ferroelectrics, which is validated by first-principles calculations and furthermore utilized to investigate both the size<br />
effect and strain effect of BaTiO3 ultrathin film. A novel atomic-level computational method of perovskite ferroelectrics<br />
is established by combining the shell model and atomic-scale finite element method (AFEM). Furthermore, the<br />
simulations not only reproduce well the two-step 90 o domain switching process observed in experiments on single<br />
domain under an anti-<strong>parallel</strong> electric field, but also provide a full evolution diagram among different domain patterns<br />
under various electric fields.<br />
An unconventional phase field method is proposed to investigate the size dependence of domain configuration and<br />
evolution in ultrathin ferroelectric films. <strong>The</strong> simulations reveal that four types of compatible domain structures exist at<br />
different thickness. A two-scale micromechanics model is developed to analyze domain switching in ferroelectric<br />
ceramics, using a probabilistic domain switching criterion based on energetic analysis. <strong>The</strong> model has been<br />
implemented by Monte Carlo method, and applied to simulate the electric poling and mechanical depoling of Pb(ZrxTi1x)O3<br />
(PZT) ceramics across morphotropic phase boundary (MPB). <strong>The</strong> numerical <strong>for</strong>mat of electromechanically<br />
coupled meshless method is established and employed to study two problems, the stress field of multi-layer actuator<br />
containing electrode and the interface crack problem between piezoelectric film and substrate. <strong>The</strong> numerical <strong>for</strong>mat of<br />
nonlinear electromechanically coupled finite element method is established, and a new domain switching criterion<br />
based on the Gibbs free energy is proposed which can predict the domain switching behavior with high accuracy and<br />
manage to capture the evolution of the domain.<br />
Bio data: In 1993, Professor Fang got his PhD from Technion-Israel Institute of Technology. He has published four<br />
books as well as more than 200 papers in international journals and got more than 2000 citations, and has been awarded<br />
20 national patents. He has received many awards <strong>for</strong> his research, including the National Outstanding Youth Scientist<br />
by NSFC, an award of Trans-century Youth Talent by Ministry of Education of China. He has won two National<br />
Natural Science Prize from Ministry of Science and Technology of China, and four Science and Technology prizes<br />
from Ministry of Education of China. His research Interests include (1) Mechanics of electromagnetic materials and<br />
microelectronics devices; (2) Mechanics of advanced lightweight composite materials and structures. (3)<br />
Micromechanics and physics-based models at multiscales. Prof. Fang holds: “Yangtze River” Distinguished Professor<br />
of MEO of China; Maishitong Chair Professor of Peking University; Senior Associate Dean, College of Engineering,<br />
Peking University; Vice Chairman of Asia-Pacific Society of Mechanics of Materials; Vice Chairman of Chinese<br />
Society of Composite Materials; Chairman of Testing-Machine committee of Chinese Society of Instrument; Associate<br />
Editor, ASME Journal of Applied Mechanics; Associate Editor, Inter J of Aerospace Lightweight Strucs.<br />
12
Professor XiQiao Feng<br />
Department of Engineering Mechanics, Tsinghua University, P.R. China<br />
Title: Surface wrinkling and morphological evolution of soft materials<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Abstract: Surface instability and morphological evolution of such soft materials as gels and biological tissues is a<br />
major concern in a wide diversity of fields, e.g., soft lithography, metrology, flexible electronics, and biomedical<br />
engineering, and there<strong>for</strong>e have received much attention. In this talk, surface instability of soft materials and biological<br />
tissues are discussed within the framework of continuum mechanics. Firstly, a generic method is presented <strong>for</strong><br />
analyzing the surface stability of a thin film resting on a substrate with arbitrary geometry. Secondly, the growth and<br />
buckling of mucosas that commonly line organs and cavities throughout the animal body are analyzed theoretically,<br />
numerically and experimentally. Finally, the surface wrinkling of soft core-shell matters induced by swelling or<br />
shrinking is investigated. <strong>The</strong> results demonstrate that the evolution of the sphere may be characterized by a process of<br />
smooth surface, buckyball-like wrinkling pattern, and then undergoing a wrinkling-to-fold transition into labyrinth-like<br />
folded patterns, in agreement with our experimental observations.<br />
Bio data: Professor Xi-Qiao Feng is a Chang Jiang Chair Professor and the head of Department of Engineering<br />
Mechanics, Tsinghua University. He earned a Ph.D. degree in Solid Mechanics in 1995 at Tsinghua University. From<br />
1997 to 1999, he worked as a Humboldt research fellow in Technical University of Darmstadt and Delft University of<br />
Technology. He rejoined Tsinghua University as an associate professor in 1999 and was promoted to a professor in<br />
2001. Selected Feng’s honors include Award of Science and Technology <strong>for</strong> Young Scientists of China (2007),<br />
Distinguished Young Scholars Award of NSFC (2005), Young Scientist Award of Fok Ying Tong Education<br />
Foundation (2004), and Award <strong>for</strong> Best Doctoral <strong>The</strong>ses of China (1999). Currently, he is the secretary-general of<br />
Chinese Society of <strong>The</strong>oretical and Applied Mechanics and the director of Institute of Biomechanics and Medical<br />
Engineering. He also serves as a member of editorial board of more than 10 journals. His current interests include<br />
molecular and cellular biomechanics, mechanics of biomaterials and soft matter, and fracture mechanics. He has<br />
authored and co-authored two books and 200 journal papers.<br />
Professor Hiroshi Okada<br />
Tokyo University of Science, Japan<br />
Title: Development of crack propagation analysis software system using the tetrahedral finite element and remeshings<br />
Abstract: In this research, we have been developing a fracture/crack propagation analysis system <strong>for</strong> damaged<br />
structures. <strong>The</strong> system can fully automate the crack propagation analysis. <strong>The</strong> analysis system is based on the Finite<br />
Element Method (FEM) to per<strong>for</strong>m the solid mechanics analysis, the Delaunay tessellation technique to generate the<br />
finite element mesh and the Virtual Crack Closure-Method (VCCM) to compute the energy release rates and the stress<br />
intensity factors. <strong>The</strong> second order tetrahedral element is adopted to per<strong>for</strong>m the finite element computations so that we<br />
can automate the mesh generation processes by using the Delaunay tessellation technique. VCCM <strong>for</strong> the tetrahedral<br />
element that was proposed by Okada et al. is adopted to compute the crack parameters. Programs to per<strong>for</strong>m above<br />
mentioned processes along with predictions <strong>for</strong> the crack propagation direction and rate based on an appropriate<br />
criterion. Thus, the processes can fully be automated. In the presentation, the crack propagation analysis system and<br />
some numerical examples including some industrial and practical problems will be described.<br />
Bio data: BS.: Tokyo University of Science, 1986; Ph.D.: Georgia Institute of Technology, School of Civil<br />
Engineering, 1990; 1990-1991: Post Doctoral Fellow, Georgia Institute of Technology; 1992-1993: Nissan Motor Co.,<br />
Ltd.; 1993-1996: Research Engineer, Georgia Institute of Technology; 1996-2009: Associate Professor, Kagoshima<br />
University; 2009-current: Professor, Tokyo University of Science.<br />
Professor Sau Cheong Fan<br />
Nanyang Technological University, Singapore<br />
Title: Challenges in simulation of break-up of concrete magazine and the debris throw<br />
Abstract: To determine the potential hazard zone around an ammunition storage magazine may not attract much<br />
attention of researchers who are not working on explosive safety. However, the challenges encountered in numerical<br />
simulation of the event are common to the computational community. <strong>The</strong> challenges stretch across many fields. It<br />
13
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
involves multi-materials, highly-dynamic physics and chemistry. <strong>The</strong>re are plenty of rooms <strong>for</strong> researchers in<br />
computational scientists to offer solutions to those challenges.<br />
Here, the challenges are grouped under three categories as follow.<br />
Material models: To derive the debris pieces <strong>for</strong>m an initially intact concrete structure, it needs to go through several<br />
stages of simulations. Firstly, the explosive changes from solid state to gas state. It demands an accurate equation of<br />
state (EoS) which takes into account the time effect of burning rate. Secondly, the highly-pressurized gas (and air)<br />
inside the magazine interacts with the containing concrete structure. It requires a sound algorithm <strong>for</strong> interaction<br />
between Lagrangian and Eulerian elements to ensure little leakage. Thirdly, the concrete structure breaks up into debris.<br />
It demands a physics-based criterion <strong>for</strong> the fractural strength of concrete material to yield a realistic debris mass<br />
distribution. In defining the fracture strength under high strain rate, implementation of the dynamic magnification factor<br />
remains controversial.<br />
Flight aerodynamics: As the overpressure diminishes, the propelling <strong>for</strong>ce ceases and the debris begins its decelerating<br />
flight with different launching velocities. <strong>The</strong> accurate flight path can be derived from a set of differential equations<br />
having variable coefficients, involving physics of lift, drag and spin of debris flying from low speed to high speed<br />
(compressive flow) up to nearly Mach 1. In addition, cloud effect of the massive flying debris needs to be included.<br />
Un<strong>for</strong>tunately, little in<strong>for</strong>mation is available <strong>for</strong> all these coefficients. Experimental investigation <strong>for</strong> selective cases and<br />
expanded by CFD simulation could offer a practical solution.<br />
Roll and bounce of debris: <strong>The</strong> debris may rebound upon its first and subsequent hitting of the ground, it could be still<br />
hazardous as its kinetic energy (mv2/2) may be large enough to cause casualty, particularly when the impact angle is<br />
small that causes the debris to ricochet with much of the kinetic energy remained. Little in<strong>for</strong>mation <strong>for</strong> ricochet of<br />
debris is available. Once again, experimental investigation <strong>for</strong> selective cases and expanded by ALE simulation could<br />
offer a practical solution.<br />
Bio data: Dr. Fan currently is a Professor with the School of Civil and Environmental Engineering at Nanyang<br />
Technological University(NTU), Singapore. He specializes in numerical analyses of structures. He has been actively<br />
serving the numerical community <strong>for</strong> over twenty years, including as Member of the General Council of the Asia<br />
Pacific Association of Computational Mechanics (APACM), was Deputy Director of the Center <strong>for</strong> Advanced<br />
Numerical Engineering Simulations (CANES) set up in NTU, and was chairman/secretary of the organizing committee<br />
of many international conferences. Also, Professor Fan has been in the university education <strong>for</strong> nearly thirty years, with<br />
the major span of time serving NTU, where he developed and promoted the advanced courses on structural analyses.<br />
Currently, his research focus is on numerical modeling of concrete material and fluid-structure interactions, including<br />
applications to explosive-blast-magazine interaction. He is the Principal Investigator of the Explosive Safety <strong>program</strong><br />
on debris hazard in NTU.<br />
Professor Noriyuki Miyazaki<br />
Kyoto University, Japan<br />
Title: Application of Computational Solid Mechanics to Reliability Studies of Electronic Packaging<br />
Abstract: Research activities on the application of computational mechanics in the reliability study of electronic<br />
packaging per<strong>for</strong>med by a research group in Kyoto University are briefly introduced. Among them I will talk about the<br />
following two topics in detail: (1) Application of fracture mechanics to popcorn-cracking of plastic packages : Plastic<br />
packaging is the most popular technique to protect electronic devices from the external environment because of low cost<br />
and ease of manufacture. Plastic packages, however, sometimes fail due to cracks in the molding resin during the solder<br />
reflow process, when they absorb moisture. Such failure is called popcorn-cracking. Quantitative evaluation method is<br />
presented <strong>for</strong> the popcorn-cracking by using fracture mechanics. (2)Improvement of the numerical analyses by the<br />
strain measurement using the digital image correlation method (DICM) : Numerical methods such as FEM have been<br />
used to evaluate the reliability of electronic packages. However, the accuracy of numerical analyses of electronic<br />
packages should be confirmed by experimental measurements, because such analyses are nonlinear and very sensitive<br />
to the properties of constituent materials in the electronic packages. In this study, we evaluate the strain distribution in<br />
FC (flip chip) packages with a multi-layered PCB (print circuit board) by two methodologies. One is an experimental<br />
method known as DICM, and the other is the numerical method, FEM, with consideration of visco-elastic, elasto-plastic<br />
and creep behaviors. <strong>The</strong> measured results are compared with those of the finite element analyses. It is pointed out that<br />
the relaxation of Poisson's ratio of underfill resin must be considered <strong>for</strong> the accurate FE analyses.<br />
Bio data: Professor Miyazaki is a Professor of Mechanical Engineering and Science at Kyoto University. He received<br />
his Ph.D degree in Nuclear Engineering from University of Tokyo in 1977. After working at Japan Atomic Energy<br />
Research Institute as a Research Scientist <strong>for</strong> six years, he became an Associate Professor of Chemical Engineering at<br />
Kyushu University in 1983 and a Full Professor in 1996. He joined Kyoto University in 2004 as a Full Professor.<br />
Professor Miyazaki was President of Japan Association <strong>for</strong> Computational Mechanics (JACM) and Chairman of<br />
14
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Computational Mechanics Division in Japan Society of Mechanical Engineers (JSME). He is now a General Council<br />
Member of Asian-Pacific Association <strong>for</strong> Computational Mechanics (APACM) and <strong>International</strong> Association <strong>for</strong><br />
Computational Mechanics (IACM). His research field is computational sold mechanics, especially the application of<br />
computational mechanics to the reliability studies of electronics packaging and the atomistic simulations of hydrogen<br />
embrittlement. He has published more than 250 journal papers. Professor Miyazaki received a lot of awards, <strong>for</strong><br />
example, ICES K. Washizu Medal in 2000, JSME Computational Achievement Award in 2001, JSME Computational<br />
Mechanics Award in 2005, JACM Computational Mechanics Award in 2007, APACM Computational Mechanics<br />
Award in 2007, JSME Medal in 2009, JSME Materials & Mechanics Achievement Award in 2011 and so on. He is an<br />
Editorial Board Member <strong>for</strong> several international journals.<br />
Professor Moubin Liu<br />
Institute of Mechanics, Chinese Academy of Sciences, China<br />
Title: SPH modelling of free surface flows with moving rigid objects<br />
Abstract: This paper presents a computational model <strong>for</strong> free surface flows interacting with moving rigid bodies. <strong>The</strong><br />
model is based on the smoothed particle hydrodynamics (SPH) method, which is a popular meshfree, Lagrangian<br />
particle method and can naturally treat large flow de<strong>for</strong>mation and moving features without any interface/surface<br />
capture or tracking algorithm. Fluid particles are used to model the free surface flows which are governed by Navier-<br />
Stokes equations, and solid particles are used to model the dynamic movement (translation and rotation) of moving<br />
rigid objects. <strong>The</strong> interaction of the neighboring fluid and solid particles renders the fluid-solid interaction, and the<br />
non-slip solid boundary conditions. <strong>The</strong> SPH method is improved with corrections on the SPH kernel and kernel<br />
gradients, enhancement of solid boundary condition, and implementation of RANS turbulence model. A number of<br />
numerical examples including complex free surface flows, water entry and exit, liquid sloshing, oil spill and boom<br />
failure are provided. <strong>The</strong> obtained numerical results show good agreement with results from other sources, and clearly<br />
demonstrate the effectiveness of the presented meshfree particle model in modeling free surface flows with moving<br />
objects.<br />
Bio data: Professor M. B. Liu is a professor at the Institute of Mechanics, Chinese Academy of Sciences (CAS). He<br />
obtained Bachelor and Master of Engineering from Xi’an Jiaotong University, China, and PhD from National<br />
University of Singapore. His research interest focuses on computational fluid and solid dynamics with grid-based and<br />
meshfree particle-based numerical methods. He has developed some original numerical models <strong>for</strong> the smoothed<br />
particle hydrodynamics (SPH) method and dissipative particle dynamics (DPD) method, and has extended SPH and<br />
DPD to some complex fluid flow and fluid-solid interaction (FSI) problems. He has received a number of awards from<br />
different universities and scientific organizations worldwide. Some recent awards include the Innovation Award from<br />
the All-China Federation of Returned Overseas (2012), the 100 Talent Program Award from CAS (2009), the Young<br />
Investigator Award from the Asia Pacific Association of Computational Mechanics (APACM) (2007) and the<br />
prestigious Lee Kuan Yew Fellowship Award from the Nanyang Technological University (NTU) (2005). He is the<br />
Editorial Board Member of three international journals, and author of some 80 papers, and reviewer of more than 50<br />
international journals on different areas of computational fluid and solid dynamics.<br />
15
Date Time<br />
(Start-End)<br />
Sunday<br />
25/11/2012<br />
Monday<br />
26/11/2012<br />
PROGRAMME OVERVIEW<br />
16:00-20:00 Registration<br />
18:00-20:00 Registration, Welcome Reception<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
8:00-8:30 Opening Ceremony (Norfolk Room), Professor Martin Betts, Executive Dean, Science and Engineering Faculty, QUT<br />
8:30-9:15 Plenary Talk (Norfolk Room): Professor Joe Monaghan<br />
9:15-10:00 Plenary Talk (Norfolk Room): Dr. Eng Lim Goh<br />
10:00-10:30 // Morning Tea<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
10:30-12:30 MS-01 (1) MS-23 (1) MS-19&24 (1) MS-13 (1) MS-14 (1) MS-04 (1)<br />
12:30-13:30 // LUNCH<br />
Norfolk Room Phoenix Room<br />
13:30-14:10 <strong>The</strong>matic Plenary Talk # 1: Professor Daining Fang <strong>The</strong>matic Plenary Talk # 2: Professor Noriyuki Miyazaki<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
14:20-15:40 MS-10 MS-23 (2) MS-19&24 MS-02 MS-14 (2) MS-04 (2)<br />
15:40-16:00 // Afternoon Tea<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
16:00-18:00 MS-01 (2) MS-11 (1) MS-19&24 (2) MS-13 (2) MS-14(3) MS-06 (1)<br />
16
Tuesday<br />
27/11/2012<br />
Wednesday<br />
28/11/2012<br />
8:30-9:15 Plenary Talk(Norfolk Room): Professor Tayfun Tezduyar<br />
9:15-10:00 Plenary Talk(Norfolk Room): Professor Gui-Rong Liu<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
10:00-10:30 // Morning Tea<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
10:30-12:30 MS-15 (1) MS-11 (2) MS-09 (1) MS-20 (1) MS-07 (1) MS-06 (2)<br />
12:30-13:30 // LUNCH<br />
Norfolk Room Phoenix Room<br />
13:30-14:10 <strong>The</strong>matic Plenary Talk # 3: Professor Xiqiao Feng <strong>The</strong>matic Plenary Talk # 4: Professor Hiroshi Okada<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
14:20-15:40 MS-15(2) MS-16 (1) MS-23(3) MS-17 (2) MS-07 (2) MS-08 (2)<br />
15:40-16:00 // Afternoon Tea<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
16:00-18:00 MS-05 MS-16(2) MS-09 (2) MS-20 (2) MS-17 (1) MS-08 (1)<br />
19:00-22:00 Conference Dinner, Norfolk Room<br />
Norfolk Room Phoenix Room<br />
8:30-9:10 <strong>The</strong>matic Plenary # 5: Professor Karol Miller <strong>The</strong>matic Plenary # 6: Professor Sau Cheong Fan<br />
9:10-9:50 <strong>The</strong>matic Plenary # 7: Professor Chwee Teck Lim <strong>The</strong>matic Plenary # 8: Professor Moubin Liu<br />
9:50-10:30 // Morning Tea<br />
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room<br />
10:30-12:30 MS-26 (1) MS-16 (3) MS-12 MS-26 (2) MS-22 MS-17 (3)<br />
12:30-13:30 // LUNCH<br />
13:30-15:10 MS-26 (3) MS-26 (8) MS-26 (5) MS-26 (4) MS-26 (6) MS-26(7)<br />
Close<br />
17
MINI SYMPOSIA<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
ID MS Title Mini-symposium Chair Mini-symposium Co-Chair(s)<br />
MS-01 Computational Methods <strong>for</strong> Fractional Differential Equations Fawang Liu Ian Turner<br />
MS-02 Development of Novel Computational Methods <strong>for</strong> Modeling of Materials<br />
Interface and Phase Transition<br />
MS-04 Recent Advances in Meshfree/Particle Methods and Related Technologies Seiya Hagihara Seiichi Koshizuka, Yuzuru Sakai<br />
Hua Li<br />
MS-05 Fracture modelling of composite materials Zhenjun Yang<br />
MS-06 Recent Development (or Advanced Topics) on Optimisation and Control of<br />
Mechanical and Structural Systems<br />
Haiping Du Weihua LI<br />
MS-07 Recent developments of Generalized/Extended Finite Element Methods Rong Tian Hitoshi Matsubara, Yan Liu, Qinglin Duan<br />
MS-08 High-order numerical methods <strong>for</strong> solving PDEs T. Tran-Cong N. Mai-Duy<br />
MS-09 Computer Simulation using Particle Methods Moubin Liu YuanTong GU<br />
MS-10 Intelligence In<strong>for</strong>mation Processing and Engineering Computation Chunliang Zhang<br />
MS-11 Computational Microstructural Modelling and Material Design Alireza Asgar Qing Li<br />
MS-12 Buoyant-driven Flows Wenxian Lin<br />
MS-13 High Per<strong>for</strong>mance Computing and related topics Ryuji SHIOYA Shinobu Yoshimura<br />
MS-14 Computational mechanics methodologies and schemes <strong>for</strong> the structural integrity<br />
analysis and its related topics<br />
MS-15 Multiscale/Multiphysics Simulations on Morphology and Strength of<br />
Microstructure in Solid Materials<br />
Hiroshi Okada Hiroshi Kawai<br />
Kisaragi Yashiro Tomotsugu Shimokawa,Takayuki Kitamura<br />
MS-16 Multiphysics simulations using CFD of complex problem Suvash Chandra Saha Richard Brown<br />
MS-17 Modelling and simulation of the biomechanical characteristics of biological<br />
systems<br />
MS-19 Molecular Dynamics and other atomic modelling methods: techniques and<br />
applications<br />
Kunle Oloyede<br />
YuanTong GU HengAn Wu, Haifei Zhan<br />
MS-20 Modeling and optimization of structures under uncertainty Han Xu Chao Jiang<br />
MS-22 HPC-enabled Computaional Methods – techniques, applications & accelerators Neil Kelson Joe Young, Mark Burry<br />
MS-23 Computational Methods <strong>for</strong> Smart Materials and Structures Faxin Li Baixiang Xu<br />
MS-24 Multi-scale Modelling and Digital Characterization of Nano composites Richard Yang Yang Xiang<br />
MS-26 General <strong>sessions</strong> ICCM2012<br />
18
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
DETAILED PROGRAM FOR PARALLEL SESSIONS<br />
Date: 26 November 2012 – Acacia Room<br />
MS-01 (1): Computational Methods <strong>for</strong> Fractional Differential Equations<br />
Chair: Prof Fawang Liu (Queensland University of Technology)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
14<br />
Keynote<br />
Changpin Li Mixed Spline Function Method <strong>for</strong> Reaction Anomalous-Diffusion<br />
Equation<br />
316 Hala Hejazi A second-order accurate finite volume method <strong>for</strong> solving the two-sided<br />
space fractional diffusion equation<br />
1 Qiang Yu Two numerical methods <strong>for</strong> the space and time fractional Bloch-Torrey<br />
equation with a nonlinear source term in 2D<br />
5 Xuan Zhao A compact scheme <strong>for</strong> fractional sub-diffusion equation with variable<br />
coefficients<br />
13 Pinghui<br />
Zhuang<br />
Two novel numerical methods of a space-fractional Boussinesq equation<br />
11 Changpin Li Finite element method <strong>for</strong> nonlinear supperdifusion equation<br />
MS-10: Intelligence In<strong>for</strong>mation Processing and Engineering Computation<br />
Chair: Dr Tim Moroney (Queensland University of Technology)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
127 W. Q. Ding Calculation Method <strong>for</strong> Ground Settlement Due to Shield Tunnel<br />
Undercrossing Existing Building and Its Application<br />
131 Takeshi<br />
Omori<br />
125 Md Nayim<br />
Kabir<br />
Templated and Object-Oriented Design <strong>for</strong> Shared Multiphysics Software<br />
Development<br />
Probabilistic Load Flow Analysis of a Distribution Feeder with High<br />
Penetration of Photovoltaic<br />
418 Long Cheng A novel energy-based multiple sources localization in wireless sensor<br />
network<br />
MS-01 (2): Computational Methods <strong>for</strong> Fractional Differential Equations<br />
Chair: Prof W. Q. Ding (Tongji University, China)<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
2<br />
Keynote<br />
3 Qianqian<br />
Yang<br />
17 Jinghua<br />
Chen<br />
Fawang Liu A new finite volume method <strong>for</strong> solving the two-sided space fractional<br />
diffusion equation with a variable coefficient<br />
A Preconditioned Lanczos Method <strong>for</strong> Space-Fractional Reaction-<br />
Diffusion Equations on Two-Dimensional Unstructured Meshes<br />
Numerical simulation <strong>for</strong> the three-dimension fractional sub-diffusion<br />
equation<br />
16 Changpin Li Numerical Fractional-Calculus Model <strong>for</strong> Two-Phase Flow in Fractured<br />
Media<br />
437 T. Tian Mathematical Modelling of genetic regulatory networks using fractional<br />
differential equations<br />
24 Halit S.<br />
Turkmen<br />
Transient analysis of tapered plates using differential quadrature method<br />
* Corresponding Author or presentation Author<br />
19
Date: 26 November 2012 – Cypress Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-23 (1): Computational Methods <strong>for</strong> Smart Materials and Structures<br />
Chair: Prof Faxin Li (Peking University, China)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
296<br />
Keynote<br />
299 Bai-Xiang<br />
Xu<br />
Bin Liu Study on electroelastic field concentration around the electrode tip in<br />
multilayer ferroelectric actuators of two designs and their optimizations<br />
Numerical Simulation on Piezoelectricity and Hysteresis Curve of Internal<br />
Charge Density in Ferroelectrets<br />
293 Yong Ni Phase field modeling of quasi-static crack propagation coupled<br />
ferroelectric domain switching under electromechanical loading<br />
287 Tian Ran<br />
Lin<br />
<strong>The</strong> effect of ribbing on the energy flow between two rectangular plates<br />
coupled at right angle<br />
284 Kok J. Computational experiments involving population size <strong>for</strong> FPGA-based<br />
implementation of a GA solver <strong>for</strong> the TSP<br />
403 Zongwei Modelling of Per<strong>for</strong>ation Failure of Fibre Metal Laminates Subjected to<br />
Guan Blast<br />
MS-23 (2): Computational Methods <strong>for</strong> Smart Materials and Structures<br />
Chair: Prof Baixiang Xu (TU Darmstadt, Germany)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
306<br />
Keynote<br />
292<br />
Keynote<br />
Dong Ruan<br />
Yuanwen<br />
Gao<br />
Dynamic Out-of-plane Compression of Aluminium Honeycombs: Finite<br />
Element Modelling<br />
Nonlinear magnetoelectric effect of a disk-shaped magnetoelectric<br />
laminate structure<br />
295 Faxin Li Simulations of asymmetric de<strong>for</strong>mation in shape memory alloys under<br />
ension/compression using an optimization-based computational model<br />
305 Guozheng<br />
Zhao<br />
Computational studies on 2,4,7,9,11,12-hexanitro-2,4,7,9,11,12- hexaazatetracyclo[8.4.0.03,8.05,6]dodecane<br />
as potential high energy density<br />
compound<br />
MS-11 (1): Computational Microstructural Modelling and Material Design<br />
Chair: Prof Qing Li ( <strong>The</strong> University of Sydney)<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
136<br />
Keynote<br />
Alireza<br />
Asgari<br />
Prediction of mechanical properties of advanced high strength steels by 2D<br />
or 3D microstructural models<br />
134 Che-Cheng<br />
Chang<br />
Level-Set Based Shape Optimisation by Iso-surface Modelling<br />
144 Hossein<br />
Talebi<br />
A Framework <strong>for</strong> Multiscale Modeling of Cracks<br />
138 Liqun Tang Cell’s irregularity measurements and their effects on material properties of<br />
closed-cell metal foam<br />
145 Yunan<br />
Prawoto<br />
3D Modeling of Austenite based on Real Microstructure<br />
135 Haina Lu Application of Voronoi Tessellations in Modeling Grained Heterogeneity<br />
during Micro<strong>for</strong>ming<br />
20
Date: 26 November 2012 – Kauri Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-19 & 24(1): Molecular Dynamics and other atomic modelling methods: techniques and applications<br />
Chair: Prof Chunhui Yang (University of Western Sydney)/Prof YongGang Zheng (DUT,China)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
247<br />
Keynote<br />
Luming Shen Atomistic Simulations of Water Behaviors under Confinement of Carbon<br />
Nanotube<br />
259 Jingjie Yeo A molecular dynamics study of defects on the thermal conductivity of<br />
graphene<br />
260 I-Ling Chang <strong>The</strong> Extraction of CNT Resonance Frequencies from Molecular<br />
Dynamics Simulation<br />
333 Guoxiang<br />
Hou<br />
A sharp interface immersed boundary lattice Boltzmann method with<br />
reduced spurious pressure oscillations <strong>for</strong> moving boundaries<br />
256 Moon Ki Kim A newly elaborate connection rule in elastic network model <strong>for</strong> protein<br />
dynamics study<br />
255 Shingo<br />
Okamoto<br />
Mechanical Properties of Double-crystalline Graphites Including a Grain<br />
Boundary and Nitrogen Atoms by Molecular Dynamics Simulations<br />
MS-19 & 24(3): Multi-scale Modelling and Digital Characterization of Nan composites<br />
Chair: Prof Yang Xiang (University of Western Sydney)/Prof Aijun Du (UQ/QUT)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
309 Chunhui Yang Mechanical behaviour of functionally graded carbon nanofibre/phenolic<br />
Keynote<br />
nanocomposites: numerical modelling and experimental validation<br />
258 Zhoucheng Su Multiscale Simulation of Nanoscale Sliding with Pseudo Amorphous<br />
Cell<br />
310 Yang Xiang Free Vibration of Functionally Graded Carbon Nanotube Rein<strong>for</strong>ced<br />
Composite Beams based on 3rd Order Beam <strong>The</strong>ory<br />
311 Teck Fei Low Pile-up and Sink-in in Nanoindentation of Stiff Particle Rein<strong>for</strong>ced<br />
Composites<br />
MS-19 & 24 (2): Molecular Dynamics and other atomic modelling methods: techniques and applications<br />
Chair: Prof Chunhui Yang (University of Western Sydney)/ Prof Hengan Wu<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
252<br />
Keynote<br />
440<br />
Keynote<br />
YongGang<br />
Zheng<br />
Torsional Behaviors of Fivefold Twinned Nanowires: Molecular<br />
Dynamics Simulations<br />
Hengan Wu Transport of water through graphene nanochannels<br />
254 Akihiko Ito Effect of Crystallite Orientation on Mechanical Properties of<br />
Multicrystalline Graphites by Molecular Dynamics Simulations<br />
249b Lijiang Yang DNA Base Flipping: a Selective Integrated Tempering Sampling Study<br />
249a Xu Xu A quasi con<strong>for</strong>ming point interpolation method (QC-PIM)<br />
257 Zishun Liu Molecular dynamics study on nanobending properties of Cu nanowire<br />
21
Date: 26 November 2012 – Norfolk Room<br />
MS-13 (1): High Per<strong>for</strong>mance Computing and related topics<br />
Chair: Prof Masao Ogino (Nagoya University)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
159<br />
Keynote<br />
Hiroshi<br />
Kawai<br />
165 Ji Hoon<br />
Kang<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
A Massively Parallel Structural Analysis Code on Peta-scale<br />
Supercomputer Based on Domain Decomposition Method Using Local<br />
Schur Complement Approach<br />
Hybrid OpenMP+MPI <strong>parallel</strong>ization of an implicit decoupling method <strong>for</strong><br />
direct numerical simulation of turbulent boundary layer<br />
434 Ryuji Shioya Large Scale Parallel Analysis of Eigenanalysis Using ADVENTURE<br />
System with CAD System<br />
153 J. Banks Calculation of Volume from Crank Angle Using Reconfigurable Hardware<br />
163 A.M.M.<br />
Mukaddes<br />
319 Mohammad<br />
Adel<br />
Per<strong>for</strong>mance of Domain Decomposition Method with Sparse Matrix<br />
Storages Schemes<br />
Architectural Challenges of Service Oriented Architecture (SOA) With<br />
Cloud Computing<br />
MS-02: Development of Novel Computational Methods <strong>for</strong> Modeling of Materials Interface and Phase Transition<br />
Chair: Prof Hui Tang/Prof S. Kitipornchi<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
27<br />
Keynote<br />
Hui Tang Shapes of a single drop rising in stagnant liquids<br />
14:40 - 25 Yiguo ZHU A micromechanical constitutive model of NiTi polycrystal SMA with<br />
15:00<br />
laminated microstructure<br />
15:00- 26 E. L. Chen Boundary element method <strong>for</strong> axisymmetric heat conduction in bimaterials<br />
15:20<br />
with nonlinear interface conditions<br />
15:20- 28 Lixian Wang Fully nonlinear wave-body interaction with surface-piercing body: a<br />
15:40<br />
desingularized method<br />
MS-13 (2): High Per<strong>for</strong>mance Computing and related topics<br />
Chair: Prof Ryuji Shioya (Toyo University)<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
162 Shinobu<br />
Yoshimura<br />
435 Kenji<br />
Takizawa<br />
160 Masao<br />
Ogino<br />
Large Scale Parallel Analysis of Acoustic Fluid Structure Interaction,<br />
Using ADVENTURE System<br />
Space–Time Fluid–Structure Interaction Techniques <strong>for</strong> Long Arterial<br />
Segments<br />
A Scalable and High Per<strong>for</strong>mance Implementation of the Domain<br />
Decomposition Method<br />
155 He Chuan A numerical model <strong>for</strong> natural convective heat transfer from horizontal<br />
rectangular fin arrays in a large space.<br />
161 Hiroshi<br />
Kanayama<br />
158 Shahram<br />
Derakhshan<br />
Houreh<br />
Domain decomposition analysis of thermal convection problems based on<br />
the characteristic curve method<br />
Optimal design of centrifugal pumps impeller<br />
22
Date: 26 November 2012 – Phoenix Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-14 (1): Computational mechanics methodologies and schemes <strong>for</strong> the structural integrity analysis<br />
Chair: Prof H. Okada (Tokyo University of Science)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
179 H. Kawai A Mesh Generation Framework <strong>for</strong> Fracture Mechanics and Crack<br />
Propagation<br />
181 K. Satoh Comparisons on the per<strong>for</strong>mances of the tetrahedral and hexahedral finite<br />
elements in large strain elasto-plastic analysis<br />
185 Zoo-Hwan,<br />
Hah<br />
187 Sung-Kie<br />
Youn<br />
Extending the basis of trimmed surface analysis <strong>for</strong> stabilized numerical<br />
analysis<br />
Modified trimmed surface analysis in Isogeometric analysis<br />
190 Renhua Feng Methodology Comparison <strong>for</strong> Engine Radiated Noise Analysis<br />
169 J Petrolito Vibration of orthotropic plates using hybrid-Trefftz elements<br />
MS-14 (2): Computational mechanics methodologies and schemes <strong>for</strong> the structural integrity analysis<br />
Chair: Prof H. Kawai (Tokyo University of Science, Suwa)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
180 H. Okada Analysis of Multiple Crack Propagation and their Coalescence using the<br />
Automatic Meshing Technique <strong>for</strong> Quadratic Tetrahedral Finite<br />
182 Toyoyasu<br />
Nishikawa<br />
On Crack Propagation Analysis under a Residual Stress Field(Mappings of<br />
Inherent Strains and Residual Stresses)<br />
188 C. Hwu A Special Boundary Element <strong>for</strong> Interface Corners in Viscoelastic<br />
Materials<br />
183 Yasunori<br />
Yusa<br />
Partitioned Iterative Coupling Algorithm <strong>for</strong> Large-scale Mixed-mode<br />
Computational Fracture Mechanics<br />
MS-14 (3): Computational mechanics methodologies and schemes <strong>for</strong> the structural integrity analysis<br />
Chair: Prof H. Okada (Tokyo University of Science)<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
166 J Petrolito A family of mixed elements <strong>for</strong> nonlinear frame analysis<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
170 Guoqin Shi Numerical simulations of the residual stress/strain profile induced by cold<br />
expansion process in multi-hole plates<br />
171 X. Y.<br />
Zhuang<br />
A shell-joint model <strong>for</strong> analyzing lining structure of shield-driven tunnel<br />
174 Xiongyao<br />
Xie<br />
371 Noor Akma<br />
Ibrahim<br />
An Innovative <strong>The</strong>oretical Model on Analysis of the Coupling Effect of a<br />
Track-Tunnel-Soil System<br />
Parametric test <strong>for</strong> partly interval-censored failure time data under Weibull<br />
distribution<br />
23
Date: 26 November 2012 – Waratah Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-4 (1): Recent Advances in Meshfree/Particle Methods and Related Technologies<br />
Chair: Prof Seiya Hagihara (Saga University)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
44 S. Koshizuka Moving Particle Simulation <strong>for</strong> Tsunami with Floating Objects<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
43 Keisuke<br />
Fujimoto<br />
Large scale Tsunami Simulation by the Incompressible SPH and its<br />
efficiency of hybrid <strong>parallel</strong> computation<br />
39 Qiang Xu Solving multi-domain 2D heat conduction problems by the least squares<br />
collocation method with RBF interpolation on virtual boundary<br />
34 Y.Wang Topology Optimization using a Radial Point-Based Interpolation Method<br />
35 Mohd Izzat Coupled SPH/FEA Analysis in Portable Water Filled Barriers<br />
409 XueFeng<br />
Zhu<br />
Noncon<strong>for</strong>ming Isogeometric Analysis using Mortar method<br />
MS-4 (2): Recent Advances in Meshfree/Particle Methods and Related Technologies<br />
Chair: Prof Seiichi Koshizuka (University of Tokyo)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
47 S. Hagihara Stress intensity factors calculation using adaptive meshfree method with<br />
adding and moving nodes<br />
42 Yuichi<br />
Tadano<br />
Large de<strong>for</strong>mation elasto-visco-plastic analysis using particle-based<br />
method<br />
38 De’an Hu Analysis of Explosion in Concrete by Axisymmetric FE-SPH Adaptive<br />
Coupling Method<br />
314 D. Wu Uncertain Limit Analysis with Interval Parameters by Kinematic<br />
Approach<br />
MS-06 (1): Recent Development on Optimisation and Control of Mechanical and Structural Systems<br />
Chair: Prof Huaxia Deng and Prof Haiping Du<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
59<br />
Keynote<br />
Wei Gao An Improved Particle Swarm Optimization Algorithm with Nonlinearly<br />
Decreasing Inertia Weight<br />
71 Huaxia Deng <strong>The</strong> influence of MR dampers on the critical speeds of high-speed trains<br />
74 Zhiqiang Wu An Approach to Shape Optimization in Impact Problems using Modal<br />
Analysis<br />
62 Gangrou.<br />
Peng<br />
Modeling and Parameter Identification of a Magnetorheological (MR)<br />
Damper with a Force-Lag Phenomenon<br />
64 Tin Nguyen Tunnel Rein<strong>for</strong>cement Optimization <strong>for</strong> Nonlinear Material<br />
63 J.C. JI Non-resonant Response of a Quadratically Nonlinear Oscillator under<br />
Two-to-One Resonant Hopf Bifurcations<br />
24
Date: 27 November 2012 – Acacia Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-15 (1): Multiscale/Multiphysics Simulations on Morphology and Strength of Microstructure in Solid Materials<br />
Chair: Prof Kisaragi Yashiro (Kobe University, JAPAN)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
199<br />
Keynote<br />
Takahiro<br />
Shimada<br />
196 T.<br />
Shimokawa<br />
201 Keisuke<br />
Kinoshita<br />
195 Akihiro<br />
Nakatani<br />
First-Principles DFT+U Calculations of Multiferroicity in BiFeO3<br />
Atomic Simulations of Mechanical Properties of Multilayered Composites<br />
with Brittle and Ductile Phases<br />
Role of Grain Boundaries as Dislocation Source in Grain-Size<br />
Strengthening of Ultrafine Grained metals<br />
Analysis of Kink-Fold De<strong>for</strong>mation in Single Slip Model Based on<br />
Higher-Order Lattice Defect <strong>The</strong>ory<br />
200 K Yashiro MC, MD and NEB Calculations <strong>for</strong> Y2O3 and TiO2 Oxides in ODS Steels<br />
202 Z. Qian Multiscale lattice fracture model <strong>for</strong> cement-based materials<br />
MS-15 (2): Multiscale/Multiphysics Simulations on Morphology and Strength of Microstructure in Solid Materials<br />
Chair: Prof Tomotsugu Shimokawa (Kanazawa University, JAPAN)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
197<br />
Keynote<br />
Makoto<br />
Uchida<br />
198 Yuji<br />
Nakasone<br />
Computational Simulation of Polymer RVE Model under Boundary<br />
Condition with Macroscopic Strain Gradient<br />
FEM Analyses of Creep in a Welded Modified 9Cr Steel Considering Its<br />
Near-Weld Microstructures<br />
192 Jingkai Wu A multiscale computational method <strong>for</strong> elasto-plastic and strain<br />
localization analyses of heterogeneous materials<br />
194 Bittnar, Z. Validation of Multiscale Model <strong>for</strong> Heat Generation in Hardening<br />
Concrete<br />
MS-05: Fracture modelling of composite materials<br />
Chair: Prof M. L. L. Wijerathne / Prof Zhongwei Guan(UK)<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
53<br />
Keynote<br />
404<br />
Keynote<br />
M. L. L.<br />
Wijerathne<br />
Zhongwei<br />
Guan<br />
49a ZhiPeng<br />
Zhong<br />
Simulation of 3D Wing Crack Growth with PDS-FEM<br />
Modelling of Per<strong>for</strong>ation Failure of Lightweight Composite Structures<br />
Subjected to Low Velocity Impact<br />
A point-by-point Lagrange multiplier method <strong>for</strong> modeling interface crack<br />
face contact and friction<br />
54 Kun Zhou Modeling the Elastic Field of Multiple Inhomogeneities and Cracks<br />
56 Vinod<br />
Nagpal<br />
52 Akane<br />
Watanabe<br />
Foreign Object Damage Prediction in Ceramic Matrix Composites<br />
Coupling Simulation between Chemical Diffusion and Nonlinear Damage<br />
Mechanics in Mesoscopic Concrete<br />
25
Date: 27 November 2012 – Cypress Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-11 (2): Computational Microstructural Modelling and Material Design<br />
Chair: Prof A. Asgari (Deakin University, Australia)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
140 Zhihai Xiang Design Camouflage Devices Based on Con<strong>for</strong>mal Trans<strong>for</strong>mation<br />
Keynote<br />
Acoustics<br />
429 Sen Lin <strong>The</strong> design of negative electric permittivity with level set method<br />
137 Yijiang Peng Application of Base Force Element Method on Meso-mechanics Analysis<br />
<strong>for</strong> Recycled Aggregate Concrete<br />
133 Ling Li A crystal plasticity representative volume element model <strong>for</strong> simulating<br />
nanoindentation of aluminium alloy 2024<br />
141 Qiang Liu Experimental and numerical investigation on crashworthiness of double at<br />
shaped CFRP tubes<br />
264 Fang Yi Li Topology optimization of structures with uncertain-but-bounded<br />
constraints using an anti-optimization approach<br />
MS-16 (1): Multiphysics simulations using CFD of complex problem<br />
Chair: Prof Richard Brown<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
374 Shuai Guo Multi-Objective optimization of a mini-centrifugal compressor impeller<br />
using CFD analysis and design of experiments method<br />
423 Wenbo Ma Using advanced traits of passengers to facilitate route-choice decisionmaking<br />
432 I. Hassan <strong>The</strong> Mechanism of Counter-Rotating Vortex Pair Forming in Film-<br />
Cooling Flow and the Nature of Liftoff and Reattachment -- a Numerical<br />
Investigation<br />
211 Chenlei<br />
Wang<br />
CFD simulation and analysis of heat transfer in hot stamping process<br />
MS-16 (2): Multiphysics simulations using CFD of complex problem<br />
Chair: Prof Feng Xu<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
335<br />
Keynote<br />
Qian<br />
Zhansen<br />
324 Yingying<br />
YU<br />
A uni<strong>for</strong>m Roe scheme <strong>for</strong> hypersonic and very low Mach number flows<br />
Effects of mesh resolution <strong>for</strong> hydrodynamic and transport modelling in<br />
coastal area<br />
318 Miao Li Application of the Scaled Boundary Finite Element Method to Short-<br />
Crested Wave Interaction with Pile Group Foundations<br />
223 N.Kashanin<br />
Jad<br />
Analytical and Numerical Investigations of the Effects of Microchannel<br />
Aspect Ratio on Velocity Profile and Friction Factor<br />
217 Atta Sojoudi Finite volume approach of natural convection in triangular enclosures with<br />
localized heating below<br />
209 Suvash C.<br />
Saha<br />
Tansient Free Convection Heat Transfer Through Conducting Partitioned<br />
Placed in an Isosceles Triangular Enclosure<br />
26
Date: 27 November 2012 – Kauri Room<br />
MS-09 (1): Computer Simulation using Particle Methods<br />
Chair: Prof Bin Chen/ Prof Mengyan Zang<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
112<br />
Keynote<br />
Dongdong<br />
Wang<br />
40 Guangtao<br />
Duan<br />
108 Sam<br />
Raymond<br />
109 Mengyan<br />
Zang<br />
107 Timothy<br />
Fagan<br />
124 Chien-Ting<br />
Sun<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
A Regularized Meshfree Formulation <strong>for</strong> Rainfall Infiltration Triggered<br />
Slope Failure Analysis<br />
Speed up the Moving Particle Semi-implicit Method by hybrid<br />
OpenMP/MPI Parallelization<br />
SPH Analysis of Brittle Fracture in 4340 Steel impacted at room and low<br />
Temperatures<br />
A Fracture Model <strong>for</strong> 3D Spherical Discrete Element Method<br />
Friction Stir Processing with Meshless Numerical Technique<br />
Reproducing Kernel Particle Method <strong>for</strong> Ship Collision and Explosion<br />
MS-23 (3): Computational Methods <strong>for</strong> Smart Materials and Structures<br />
Chair: Prof Bin Liu (Tsinghua University, China)<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
303<br />
Keynote<br />
Yasuhide<br />
Shindo<br />
Cryogenic Electromechanical Response of Multilayer PbZr1-XTiXO3<br />
Actuators under DC and AC Electric Fields in Hydrogen Fuel Injection<br />
Systems<br />
304 Cheol Kim Topological optimization algorithm of piezo-composites materials on the<br />
catilevered energy harvester<br />
300 Yi-Nan Zuo Phase Field Simulation of Polarization Switching of Aged Ferroelectric<br />
Single Crystal<br />
298 Manuel<br />
Feuchter<br />
A method to determine the anisotropic thermal conduction of nanoscale<br />
thermoelectric materials by the use of multiphysical simulations and neural<br />
networks<br />
MS-09 (2): Computer Simulation using Particle Methods<br />
Chair: Prof Dongdong Wang/ Prof Moubin Liu<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
118<br />
Keynote<br />
117 LÜ<br />
Xiangfeng<br />
119 LÜ<br />
Xiangfeng<br />
122 LÜ<br />
Xiangfeng<br />
Bin Chen Moving Particle Semi-implicit Method Based on Large Eddy Simulation<br />
Investigations on Fluid-solid Coupling Model of Tailings Dam with<br />
Suspended Particles Infiltration<br />
Numerical Investigations on Coupling Effects of Rupture-seepage of Coal<br />
Rock Slope<br />
Stability Analysis of Water-filled Dump Slope with Seepage and Damage<br />
Coupling Effects<br />
110 Ming Yan A New Hypersonic Boundary Layer Transition Correlation<br />
116 Li Shan Dosage Individualization of Cyclosporine A in Patients after Kidney<br />
Transplantation—Comparison of Neural Network and Support Vector<br />
Machines<br />
27
Date: 27 November 2012 – Norfolk Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-20 (1): Modelling and optimization of structures under uncertainty<br />
Chair: Prof Wei Gao (University of New South Wales)/Prof Chao Jiang(Hunan University)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
276<br />
Keynote<br />
X. Han Static and dynamic response analysis <strong>for</strong> uncertain structures based on<br />
evidence theory<br />
262 C.<br />
Vivekananthan<br />
Optimum sizing of Battery Energy Storage System in a Distribution Sector<br />
<strong>for</strong> Voltage Improvement<br />
266 Zhe Zhang A new reliability analysis method based on evidence theory<br />
383 Min Tang Estimation of Vehicle Excitation Loading from Dynamic Response by<br />
Inverse Simulation<br />
282 YungChung<br />
Chen<br />
261 Rupika P.<br />
Bandara<br />
Structural optimizing of fiber-rein<strong>for</strong>ced composite dentures using stressinduced<br />
material trans<strong>for</strong>mation<br />
Localization and Severity Estimation of Damaged Structural Connections<br />
Using Frequency Response Functions and Artificial Neural Networks<br />
MS-17 (2): Modelling and simulation of the biomechanical characteristics of biological systems<br />
Chair: Prof Kunle Oloyede<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
427<br />
Keynote<br />
Lihai Zhang Computational modeling of mechanical behaviour and bone fracture<br />
healing using the <strong>The</strong>ory of Porous Media<br />
233 Q. Liu Modelling Fungal Network in Unbalanced Carbon and Nitrogen Condition<br />
234 Trung Dung<br />
Nguyen<br />
439 P.G. Hasitha<br />
Nayanajith<br />
Porohyperelastic Analysis to Explore Mechanical Properties of<br />
Chondrocytes Using Numerical Modeling and Experiments<br />
Numerical Simulation of Red Blood Cells’ De<strong>for</strong>mation using SPH<br />
Method<br />
MS-20 (2): Modelling and optimization of structures under uncertainty<br />
Chair: Prof Xu Han (Hunan University)/ Prof Yoshio Suzuki (Japan Atomic Energy Agency)<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
267<br />
Keynote<br />
Chao Jiang A non-probabilistic reliability analysis technique based on<br />
multidimensional <strong>parallel</strong>epiped convex model<br />
263 Chen Wang Stochastic Interval Dynamic Analysis of Structures with Mixed<br />
Uncertainties<br />
268 Guiping Liu An Efficient Dynamic Micro Multi-objective Genetic Algorithm and its<br />
Applications<br />
280 Yoshio<br />
Suzuki<br />
281 Guo Zhan<br />
Lum<br />
R&D of a Zooming Analysis to Verify a Seismic Simulation of an Entire<br />
Nuclear Plant<br />
Topological Optimization <strong>for</strong> Continuum Compliant Mechanisms via<br />
Morphological Evolution of Conventional Mechanisms<br />
279 Rengui Bi Application of non-probabilistic convex model to predict the uncertain<br />
buckling and reliability of an axially compressed functionally graded<br />
cylindrical shell<br />
28
Date: 27 November 2012 – Phoenix Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-7 (1): Recent developments of Generalized/Extended Finite Element Methods<br />
Chair: Prof Hitoshi Matsubara<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
76<br />
Keynote<br />
J. Ambrósio Identification of Reliable Vehicle Multibody Models <strong>for</strong> Structural Impact<br />
Using Optimization Methods<br />
79 Yijiang Peng 2D-Model of Base Force Element Method on Complementary Energy<br />
Principle <strong>for</strong> Arbitrary Meshes<br />
80 Yingbin<br />
Chai<br />
81 Zhennan<br />
Zhang<br />
088 Petr<br />
Prochazka<br />
363 Yuta<br />
Kitamura<br />
Analysis of Coupled Structural-Acoustic Problems Based on the Smoothed<br />
Finite Element Method (S-FEM)<br />
Element partition method <strong>for</strong> interface debonding simulation<br />
Refined analysis of FRC in tunnel linings exposed to high temperature<br />
Birefringence Simulations of Calcium Fluoride Single Crystal Window<br />
with Consideration of Intrinsic Birefringence<br />
MS-7 (2): Recent developments of Generalized/Extended Finite Element Methods<br />
Chair: Prof Hitoshi Matsubara/ Prof J. Ambrósio<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
90<br />
Keynote<br />
Hitoshi<br />
Matsubara<br />
Crack propagation model <strong>for</strong> Discrete Fracture Network based on GFEM<br />
and MLSM<br />
89 Toshio<br />
Nagashima<br />
Crack analysis by XFEM using tip elements<br />
85 Yijiang Peng Research and Application Advances in Base Force Element Method<br />
77 Yong-Lin Pi An accurate curved beam element <strong>for</strong> 3D nonlinear large de<strong>for</strong>mation<br />
analysis<br />
MS-17 (1): Modelling and simulation of the biomechanical characteristics of biological systems<br />
Chair: Prof Lihai Zhang<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
227<br />
Keynote<br />
Guiyong<br />
Zhang<br />
228 Marcel M.<br />
Rossi<br />
230 Matthew<br />
Adams<br />
A three-dimensional nonlinear explicit dynamic meshfree algorithm <strong>for</strong><br />
simulation of soft tissue mechanical responses<br />
A Novel Approach to Calculate Body Segments Inertial Parameters from<br />
DXA and 3D Scanners Data<br />
Solution methods <strong>for</strong> advection-diffusion-reaction equations on growing<br />
domains and subdomains, with application to modelling skin substitutes<br />
241 Xian Chen Simulation of Electrochemical and Mechanical Changes in Articular<br />
Cartilage Layers under Sliding Contact<br />
244 R. Maniyeri Numerical Simulation of Hydrodynamic Interaction between Swimming<br />
Flagella in a Viscous Fluid Using an Immersed Boundary Method<br />
240 Yang Liu Large Eddy Simulation of Flow with Obstructive Sleep Apnea at Pre- and<br />
Post-Surgical Treatment<br />
29
Date: 27 November 2012 – Waratah Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-06 (2): Recent Development (or Advanced Topics) on Optimisation and Control of Mechanical and<br />
Structural Systems<br />
Chair: Dr Zhen Luo / Dr Jinchen Ji<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
65<br />
Keynote<br />
Xiaodong<br />
Huang<br />
Two-scale Concurrent Topology Optimization <strong>for</strong> Microstructures of<br />
Materials and Structures<br />
57 Zhen Luo A Chebyshev meta-model <strong>for</strong> interval uncertain optimization of<br />
suspensions<br />
58 Pipit<br />
Nugroho<br />
75 Seok Heum<br />
Baek<br />
A New Adaptive Fuzzy-Hybrid Control Strategy of Semi-Active<br />
Suspension with Magneto-Rheological Damper<br />
Design Optimization of the Electromechanical Actuator <strong>for</strong> Automatic<br />
Transmission Using Multiple Surrogate Models<br />
61 Zhen Luo Interval analysis method <strong>for</strong> dynamics systems with uncertain parameters<br />
68 Moucun<br />
Yang<br />
Euro-trough Solar Concentrator optimization design based on variable<br />
cross section beam<br />
MS-08 (2): High-order numerical methods <strong>for</strong> solving PDEs<br />
Chair: Prof T. Tran-Cong<br />
Time ID Author* Title<br />
14:20-<br />
14:40<br />
14:40 -<br />
15:00<br />
15:00-<br />
15:20<br />
15:20-<br />
15:40<br />
100 Cheng-Yu<br />
Ku<br />
101 Yun-Che<br />
Wang<br />
102 Arpiruk<br />
Hokpunna<br />
A Perturbed Scalar Homotopy Method <strong>for</strong> Solving Groundwater Problems<br />
with Singular Initial Conditions<br />
Velocity-stress <strong>for</strong>mulation of 2D linear elastic and viscoelastic systems<br />
<strong>for</strong> resonant ultrasound spectroscopy<br />
SIP-Multigrid method in Fourth-Order Finite Volume Method <strong>for</strong> Navier-<br />
Stokes Equations<br />
104 Wei Li Discrete Singular Convolution <strong>for</strong> Dynamic Response of Free Vibrations<br />
of a Rotating Shaft<br />
MS-08 (1): High-order numerical methods <strong>for</strong> solving PDEs<br />
Chair: Prof T. Tran-Cong/ Dr Terry Lin<br />
Time ID Author* Title<br />
16:00-<br />
16:20<br />
16:20-<br />
16:40<br />
16:40-<br />
17:00<br />
17:00-<br />
17:20<br />
17:20-<br />
17:40<br />
17:40-<br />
18:00<br />
105<br />
Keynote<br />
T. Tran-<br />
Cong<br />
92 N. Thai-<br />
Quang<br />
93 T-Tram<br />
Hoang-Trieu<br />
A New IRBFN Scheme <strong>for</strong> the Numerical Simulation of Interfacial Flows<br />
A high-order compact integrated-RBF scheme <strong>for</strong> time-dependent<br />
problems<br />
Compact local Integrated RBF stencil based on Finite Volume <strong>for</strong>mulation<br />
<strong>for</strong> second-order differential problems<br />
94 N. Pham-Sy Development of Parallel algorithm <strong>for</strong> Boundary Value Problems using<br />
Compact Local Integrated RBFN and Domain Decomposition<br />
95 Raj Nawin Numerical study of nonlinear wave processes by means of discrete chain<br />
models<br />
372 Fudziah<br />
Ismail<br />
Solving Special Second Order Delay Differential Equations Using Hybrid<br />
and Runge-Kutta Nystrom Methods<br />
30
Date: 28 November 2012 – Acacia Room<br />
MS-26 (1): General Sessions<br />
Chair: Prof Cheng Wang (Beijing Institute of Technology)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
326<br />
Keynote<br />
321 A.<br />
Bassandeh<br />
317 Jaime<br />
Cabanes<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Jie Yang Static bending analysis of a micro-ring using modified coupled stress<br />
theory<br />
Identifying load paths from finite element analysis with application<br />
to rein<strong>for</strong>cement of membrane structures<br />
Accuracy of FEM and BEM <strong>for</strong> electromagnetic flux calculations in high<br />
power applications<br />
328 Yi Qian <strong>The</strong> Energy Loss and Flow Reduction of Intracranial Aneurysms after the<br />
Flow Diverter Was Implanted<br />
330 Zuduo<br />
Zheng<br />
Use and abuse of structural equation modeling in travel behaviour research<br />
336 Shaoqiang<br />
Tang<br />
Accurate Boundary Conditions <strong>for</strong> One-Dimension Atomic Chain<br />
Time ID Author*<br />
MS-26 (3): General Sessions<br />
Chair: Dr. GuiYong Zhang (UWA)<br />
Title<br />
13:30-<br />
13:50<br />
13:50-<br />
14:10<br />
14:10-<br />
14:30<br />
14:30-<br />
14:50<br />
14:50-<br />
15:10<br />
365 Hiroshi<br />
Tamura<br />
Effect of Weld Bead Shape on Critical Weibull Stress <strong>for</strong> Initiation of<br />
Brittle Fracture during Earthquakes<br />
366 Xia Zhu Investigation of De<strong>for</strong>mation Behavior of Shaft's Cross Section Partially<br />
Enlarged and Controlled by Cyclic Bending and Axial Compressive<br />
Loading through Metal Mold<br />
367 Takahiro<br />
Saitoh<br />
Large-scale transient poroelastodynamic analysis using convolution<br />
quadrature time-domain boundary element method<br />
22 Aziz Azimi <strong>The</strong> Investigation of Non-Fourier Heat Conduction in a Porous Medium<br />
Using Fractional Sub-diffusion Model: Local <strong>The</strong>rmal Equilibrium<br />
Condition<br />
360 Aziz Azimi Design of a Combined Cooling-Heating and Power System <strong>for</strong> a Five-<br />
Storey Residential Building in the Mild Climates of Iran<br />
31
Date: 28 November 2012 – Cypress Room<br />
MS-16 (3): Multiphysics simulations using CFD of complex problem<br />
Chair: Dr. Suvash C. Saha<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
206<br />
Keynote<br />
208 Meisam<br />
Babaie<br />
406 E.l Hadi<br />
Khali<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Guowei Ma Topology analysis method <strong>for</strong> water flow in 2D dual media<br />
Residence Time Investigation in a Co-axial Dielectric Barrier Discharge<br />
Reactor<br />
Numerical Simulation of a Rectangular Turbulent Jet in Crossflow using<br />
RANS-based Modelling<br />
431 Shang Qing <strong>The</strong> CFD Study about <strong>The</strong> Flow Structure and Transition Phenomena of a<br />
Delta-Wing Flat Plate in Hypersonic Flow<br />
205 X. J. Gao Coupled Modelling of Fluid Flow, Heat Transfer and Solidification in<br />
Bimetal Casting Process<br />
204 Majedul<br />
Islam<br />
3D simulation technique of a parabolic trough concentrator collector using<br />
ANSYS FLUENT<br />
Time ID Author*<br />
MS-26 (8): General Sessions<br />
Chair: Prof Xu Xu (Jilin University, China)<br />
Title<br />
13:30-<br />
13:50<br />
13:50-<br />
14:10<br />
14:10-<br />
14:30<br />
14:30-<br />
14:50<br />
14:50-<br />
15:10<br />
417<br />
Keynote<br />
Cheng Wang High Resolution Numerical Simulation of Shock-to-detonation Transition<br />
of Condensed-phase Explosives<br />
334 Jijun YI Topology optimization <strong>for</strong> continua considering global displacement<br />
constraint<br />
271 Fengxiang<br />
Xu<br />
207 Chandan<br />
Kumar<br />
Crashworthiness design of car body components with tailored welded<br />
blank structures<br />
Modeling Heat and Mass Transfer Process during Drying of Fruit<br />
325 Rory Gover Numerical modeling and validation of composite road safety barrier<br />
impacts<br />
32
Date: 28 November 2012 – Kauri Room<br />
MS-12: Buoyant-driven Flows<br />
Chair: Prof Wenxian Lin (James Cook University)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
426<br />
Keynote<br />
385<br />
Keynote<br />
151 Shintaro<br />
Takeuchi<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
Feng Xu Numerical and experimental studies of unsteady coupled thermal boundary<br />
layers in a differentially heated partitioned cavity<br />
Xiao-Wei A BEM approach <strong>for</strong> convective heat transfer problems<br />
Gao<br />
Behaviours of dispersed particles and heat transfer in buoyant-driven twophase<br />
flows with different solid-liquid heat conductivities<br />
149 Wenxian Lin Direct numerical simulation of interaction of twin transitional fountains in<br />
a homogeneous fluid<br />
430 Xing Feng Numerical simulation of interaction between wave and current with VOF<br />
422 Atta Sojoud Large eddy simulation of smoke flow in a real road tunnel fire using FDS<br />
MS-26 (5): General Sessions<br />
Chair: Prof Yuanwen Gao (Lanzhou University, China)<br />
Time ID Author* Title<br />
13:30- 395 Y. Li Mechanical Response of Superconducting Cable: the <strong>The</strong>oretical and<br />
13:50<br />
Numerical Approaches Modeling <strong>for</strong> the Hierarchical Twisted Structure<br />
13:50-<br />
14:10<br />
14:10-<br />
14:30<br />
14:30-<br />
14:50<br />
14:50-<br />
15:10<br />
389 Aditi Roy Numerical simulation of the in plane and out of plane acoustic emission<br />
source in thin plate<br />
394 Yi LI Dynamic analysis of fire-induced progressive collapse of an 8-story<br />
building<br />
388 Xin Li Numerical Simulation of Local Vibration Responses of Highway Cable-<br />
Stayed Bridge Due to Moving Vehicle Loads<br />
361 A. A.<br />
Heshmati R.<br />
Simulation of Shear Strength of Soils Using a Hybrid MEP and PSO<br />
Method<br />
33
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
Keynote Yi-Min<br />
(Mike) Xie<br />
346 Xiaodong Jia<br />
Date: 28 November 2012 – Norfolk Room<br />
MS-26 (2): General Sessions<br />
Chair: Prof Dong Ruan(Swinburne University of Technology)<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
<strong>The</strong> relationship between optimal periodic structures and optimal<br />
material microstructures<br />
Impact of Interface Scattering on the thermoelectric properties of<br />
Polycrystalline <strong>The</strong>rmoelectric materials<br />
342 Zhang Ling Effects of Interaction among Indicators on Independence from Irrelevant<br />
Alternatives<br />
338 Haiqing Yang Analysis on the Onset Condition of Dynamic Damage Localization in<br />
Crack- Weakened Rock Mass<br />
350 Z. Cai Nonlinear Dynamics and simulation of Rotating Triangle-like Tethered<br />
Satellite Formation near Libration Points<br />
356 Daniel Kupke Managing the complexity of Global Production networks by using<br />
mathematical optimization and interactive computing methods<br />
Time ID Author*<br />
MS-26 (4): General Sessions<br />
Chair: Dr. Jie Yang (RMIT)<br />
Title<br />
13:30-<br />
13:50<br />
13:50-<br />
14:10<br />
14:10-<br />
14:30<br />
14:30-<br />
14:50<br />
14:50-<br />
15:10<br />
323 Guowei Ma Cover refinement of the numerical manifold method with application in<br />
crack propagation<br />
379 I Y Chan A Novel Residual Norm Based Algorithm Using Optimal Weights <strong>for</strong><br />
Solving Nonlinear Algebraic Equations<br />
378 E W C Lim Surrogate Models Based on Discrete Fourier Series<br />
373 Hendra Teja<br />
Wirawan<br />
390 Javad<br />
Malekani<br />
A branch and bound and meta-heuristic algorithm <strong>for</strong> single machine<br />
sequence-dependent setup scheduling problem with maintenance<br />
consideration to minimize make-span<br />
Study on biomechanical parameters of twisting the orthopaedic Bone<br />
Plates during surgery<br />
34
Date: 28 November 2012 – Phoenix Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-22: HPC-enabled Computational Methods – techniques, applications & accelerators<br />
Chair: Dr Neil Kelson (Queensland University of Technology)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
29 David James<br />
Warne<br />
Solving Tri-Diagonal Linear Systems using Field Programmable Gate<br />
Arrays<br />
31 San-Yih Lin A GPU-Version Lattice Boltzmann Method <strong>for</strong> Simulating Fluidization<br />
of Large Number of Spherical Particles<br />
314 Wu D. Uncertain Limit Analysis with Interval Parameters by Kinematic<br />
Approach<br />
420 Warisa<br />
Yomsatieankul<br />
Meshfree Radial Basis Function and Finite Difference Method <strong>for</strong><br />
Groundwater Modeling<br />
248 HaiFei Zhan Influence of Grain Boundaries on the Vibrational Properties of Silver<br />
Nanowires<br />
106 H.C.P.<br />
Karunasena<br />
A Particle Based Micromechanics Model to Simulate Drying Behaviors<br />
of Vegetable Cells<br />
MS-26(6): General Sessions<br />
Chair: Prof XiaoWei GAO (Dalian University of Technology, China)<br />
Time ID Author* Title<br />
13:30-<br />
13:50<br />
13:50-<br />
14:10<br />
14:10-<br />
14:30<br />
14:30-<br />
14:50<br />
14:50-<br />
15:10<br />
73<br />
Keynote<br />
Zhan Kang Topological optimization of damping layers <strong>for</strong> minimizing acoustic<br />
radiation<br />
400 Li-rong Jian Variable Precision Rough-fuzzy Set Approach to Rough-fuzzy Decision<br />
Tables<br />
436 M. A. Bokhari Smoothing Noisy Data by Average EWMA and LS-Approximation<br />
399 Jian-Wei<br />
Zhou<br />
Spectral norms of circulant matrices with modified Fibonacci and Lucas<br />
numbers entries<br />
398 H. T. Zhu Responses of nonlinear oscillators under external and parametric white<br />
noises<br />
35
Date: 28 November 2012 –Waratah Room<br />
<strong>The</strong> ICCM2012, Gold Coast, Australia<br />
MS-17 (3): Modelling and simulation of the biomechanical characteristics of biological systems<br />
Chair: Prof Kunle Oloyede (QUT)<br />
Time ID Author* Title<br />
10:30-<br />
10:50<br />
10:50-<br />
11:10<br />
11:10-<br />
11:30<br />
11:30-<br />
11:50<br />
11:50-<br />
12:10<br />
12:10-<br />
12:30<br />
322 J. Banks Measurement of Structural Changes to a Food Material during<br />
Dehydration<br />
327 Madawa<br />
Priyadarshana<br />
, W.J.R.<br />
<strong>The</strong> Cross-Entropy Method and Multiple Change Points Detection in Zero-<br />
Inflated DNA Count Data<br />
229 Tong Li Computational mechanics model <strong>for</strong> the microfilament networks with<br />
different architectures based on the molecular investigation of single actin<br />
filaments<br />
232 Thibbotuwawa<br />
N.<br />
Finite Element Shoulder Models, A Review<br />
237 Zheng Bo<br />
Lai<br />
Cohesive Zone Modelling of Mineralized Collagen Fibril Arrays in<br />
Bending<br />
231 Huan Yuan Morphology-based Model <strong>for</strong> Predicating Osteocyte-Like Cell Line<br />
(MLO-Y4) Growth Process<br />
Time ID Author*<br />
MS-26 (7): General Sessions<br />
Chair: Dr. Suvash Saha<br />
Title<br />
13:30-<br />
13:50<br />
13:50-<br />
14:10<br />
14:10-<br />
14:30<br />
14:30-<br />
14:50<br />
14:50-<br />
15:10<br />
368 Takayuki<br />
Tamaogi<br />
369 Akira<br />
Furukawa<br />
Numerical Analysis on Viscoelastic Split Hopkinson Bar Method<br />
Two-Dimensional Elastic Wave Scattering Analysis by a Crack <strong>for</strong><br />
General Anisotropy Using Convolution Quadrature Boundary Element<br />
Method<br />
386 Zhiqin Cai Nonlinear Control of Rotating Multi-tethered Formations in Halo orbits<br />
438 Hua-Shu Liu Common Condition Monitoring and Life Predication Techniques <strong>for</strong> Oilfilled<br />
Trans<strong>for</strong>mer: A Review<br />
236 P.G.H.<br />
Nayanajith<br />
Simulation of Red Blood Cell Motion using Particle Methods, A Review<br />
* Corresponding Author* or presentation Author*<br />
36