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Aims & Scope
ICCES'05 India
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Aims & Scope
Past ICCES congresses have been highly successful scientific gatherings,
which brought together several hundreds of prominent researchers from all over
the world, in very congenial social settings. The proceedings of these conferences
have been included in prominent databases. Their scope has evolved to embrace both
classical topics in mechanics, as well as emerging scientific and engineering
disciplines, such as: nano-science & nano-technology; NEMS & MEMS; mechanics &
chemistry of biosystems; micro-and nano-device modeling; multi-spatial &
time-scale and multi-physics phenomena; functional and smart material systems; meshless (MLPG)
and novel methods of computational modeling; novel material models such as gradient theories; novel
experimental methods, etc. Recognizing the complementary roles of the theory, modeling,
and experimentation in engineering and the sciences, all the three areas of
research will be equally emphasized at ICCES'05.
The theme of ICCES05-India will be : Engineering & Its Interaction With the Sciences .
At the dawn of this century, which many believe would be the most
technologically far-reaching in the history of this planet, the discipline
of computer modeling, which lies at the intersection of the bio-info-nano
technologies, is poised to bring about revolutionary changes in our lives,
in our society, and the world we live in.
:
Computer Modeling will be the core enabling discipline for all
technological & scientific advances that are yet to be made in this
century. It involves a diverse set of research thrusts, in several focus
areas, as for instance:
Focus
Disciplines:
-Contemporary Engineering, Physical, Chemical & Biological
Sciences;
-Systems Integration through Computations; and
-Advanced Communications and Information Processing Technologies
In each of the above disciplines, the following research thrusts can
be
identified.
Contemporary Engineering, Physical, Chemical & Biological Sciences:
Aeroacoustic Impact Reduction for Human Factors
Bionanotechnology
Biomechanics
Boundary Element Methods
Combustion & Reactive Flows
Composite Materials: Modeling, Fabrication and Processing
Computational Biology
Computational Chemistry
Computational Electromagnetics
Computational Penetration Mechanics
Computational Structural Mechanics and High-performance Computing
Finite Element Methods
Prediction of Fatigue Life of Structures
Finite Rotations in Beam, Plate and Shell Structures
Flexible Multi Body Dynamics, Space Structures
Fluid Flow and Heat Transfer
Fluid Structure Interactions
Fracture and Damage Mechanics
Homogenization and Computational Meso/Micro/Damage Mechanics
Mesh Adaptation and Optimization for Engineering Applications
Meshless Methods in Modeling
Meshless Local-Petrov Galerkin (MLPG) Methods
Molecular and Quantum Computing
Modeling of Fabrics and Membranes
Multi-Scale ( quantum-nano-micro-meso-macro ) Modeling
Multiphysics & Multibody Dynamics
Nanomechanics
Nanotechnology
Optimization and Inverse Design Engineering
Simulation of Fracture and Failure in Solids
Stability and bifurbication
Turbulence
Turbomachinery
Two-Phase Flows
Systems Integration through Computations:
Computational Education Engineering (real-time simulations in class room
instruction)
Factory of the Future
Flight Safety & Continued Airworthiness
Integrated Product and Process Design; Visualization and Virtual
Reality
Life-Cycle Costs
Life Extension and Aging Infrastructure (Bridges, Aircraft, Railroads,
etc)
Machine Control
MEMS & Semiconductor Technology
Minimally Invasive Surgery Thru Computer Modeling
Modeling of Smart Structures and Repairs
Multidisciplinary Design and Optimization
Navigation, Guidance & Control
NEMS
Nonlinear Dynamical Systems & Chaos
Nonlinear System Control
Optimal Design of Structures
Rapid Prototying & Miniturization of Product-to-Market Costs
Advanced Communications and Information Processing
Technologies:
Computational Animation/Entertainment
Computational Electronic Packaging
Computational Finance & Market Indicators
Computational Intelligence and Advanced Information Technologies in
Engineering Science
Computational Mechanics for Electronic Devices/Components
Data Mining
Geographically Distributed Real Time Computing
Informatics
Large-scale Data Management
Multi-Media & Entertainment
Multiscale Simulations: Quantum-Molecular
Dynamics-Meso-Macro-
Mechanics
Parallel Computation for Visualization and Virtual Reality
Real-Time Scientific Visualization
Sensors & Actuators
Symbolic Computer Programming in Computational Mechanics
Visualization
Virtual Reality
ICCES'05
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| Tue Jan 06 2009 03:40:23 CST
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