International Conference on Civil Engineering, Construction Management & Structural Design (CCS 2018)
The 4th NZAAR International Event Series on Natural and Built Environment, Cities, Sustainability and Advanced Engineering
his conference will be held on 27 January 2018 in Kuala Lumpur, Malaysia. CCS 2018 will be organised by New Zealand Academy of Applied Research Limited (NZAAR).
CCS 2018 will provide a unique international platform for sharing new knowledge and academic findings of the recent scholarly studies and practical experiences in the broad spectrum of Civil Engineering, Construction Management & Structural Design . The main target of the conference is to efficiently engage academic researchers and industry practitioners towards sharing viewpoints and debating on the cutting edge research implications leading to effective and global knowledge contributions.
*All registered and accepted extended abstracts/full papers will be published in the respective conference proceedings.
Conference topics
CCS 2018 topics include but are not limited to:
CIVIL ENGINEERING
Buckling
Civil and Environmental Engineering
Civil and Structural Engineering
Civil Engineering Design
Civil Engineering Materials
Coastal Engineering and Management
Computational Technologies in Concrete
Computing in Civil Engineering
Concrete Bridges & Buildings
Concrete Structures
Creep and Shrinkage
Damage mechanics
Damage, fracture and failure
Durability of Concrete Structures
Dynamic failure and fracture
Fiber Reinforce of Concrete
Fracture and failure of materials and structures
Fracture of Concrete
High-Performance Concrete
Hydraulics and Hydro-Power Engineering
Impact Loads on Concrete Structures
Land and Construction Surveying
Large deflections
Non-linear Behaviours
Plasticity
Post-buckling
Structural analysis
Sustainability in Bridge Engineering
Sustainability in Civil Engineering
Sustainability in Geotechnical engineering
Thermo-mechanical behaviours
Thermo-Mechanics in Concrete
Transportation Engineering
Types of Tunnels & Construction Methods
MECHANICAL ENGINEERING
Acoustics
Actuator Materials
Adaptive modelling and simulation
Advanced Motion Control
Advanced train control
Aero-acoustics
Artificial Intelligence and Intelligent Control
Atomistic simulations
Automation, Mechatronics and Robotics
Bio-fluid dynamics
Biological systems
Biomechanics
CAD, CAM and CAE
Chaotic Systems, Intelligent Systems
Communications and signalling
Compressible flows
Computational inverse problems and optimization
Computer simulations
Construction Management
Contact mechanics
Coupled problems in science and engineering
Discretization methods, grid, mesh and solid generation
Driverless and automatic train operation
Dynamics and Vibration
Dynamics of Ocean Structure System
Energy supply and consumption
Evolutionary and deterministic methods for design, optimization and control
Extended discretization methods
Fault detection and Diagnosis
Flow problems
Fluid dynamics
Fluid mechanics
Fluid-Structure Interactions
Functionally graded materials
Glass, Ceramics and Refractories
Grid generation for CFD and geometry definition for complex configurations
Guidance and Navigation, Network Traffic Control
Heat transfer
High order nonlinear numerical methods
High speed technology
Interdisciplinary coupled and contact problems
Interface management
Interoperability
Inviscid and viscous flows
Linear and Nonlinear Control Systems
Maglev
Manufacturing and Maintenance
Marine System Design
Materials
Materials science
Mechanical response of composites
Mechatronics applications (Medical, Bioengineering, Aeronautics)
MEMS and nanotechnology
Meshless and wavelet methods
Micro tribology and micromechanics
Micro/Nano Mechatronics
Monitoring and maintenance
Multi body Dynamics
Multi physics, multi scales and multi big data
Multi-phase flows
Multiple-scale physics and computation
Multi-scale computational methods for solids and fluids
Multiscale problems
Noise Control
Nonlinear Dynamics
Numerical algorithms for particle methods (lattice- Boltzmann, direct simulation Monte Carlo)
Numerical simulation methods
Ocean Structures and Structural System
Operational planning
Operations quality
Optimal Control, Adaptive Control, Robust Control, Predictive Control
Optimization, inverse problems and control
Particle-based methods
Passenger flow management
Piezoelectric Materials
Planning and policy
Polymers and polymer composites
Production Processes
Railway engineering
Railway vehicle dynamics
Rescheduling
Risk management
Safety and security
Sensor Materials
Shape Memory Alloys
Smart structures and materials
Soil-Structure Interactions
Solution adaptive grid techniques
Steel-Concrete Composite
Structural Dynamics
Structural Monitoring
Systems Identification, Signal Processing, Fuzzy Logic Systems, Neural Networks
Systems integration
Timetable planning
Train control systems
Underwater Acoustics Technologies
Unsteady flow computation
Vehicle-Bridge Interactions
Wind-Structure Interactions
CONSTRUCTION MANAGEMENT
Automation and Robotics in Construction
Building Information Model
Claim and Dispute Resolution
Construction Education and Training
Construction Productivity Improvement
Cost, Time, Quality, and Safety Management
Design and Engineering Management
Information Technology in Construction
International and Global Issues in Construction Project Management
Legal Systems for Construction
Project Delivery Systems
State-of-the-Art in Construction Engineering and Management
Sustainability and the Environment
STRUCTURAL DESIGN
Advanced structural simulation/analysis
Timber/concrete/steel/composite structures
Infrastructure systems
Seismology/earthquake engineering
Computational mechanics and modelling
Building physics and technology (moisture, heat transport, fire resistance)
Structural dynamics
Numerical soil modeling, dimensioning of constructions
Geotechnical Engineering, Geomechanics and Geotechnology
Landslide and avalanche danger evaluation, tripping and prevention
lux forced movements of slender constructions
Tunnel construction, complete contour drilling, rock blasting
Wooden materials in buildings
