Track #1: Structural Engineering
1
Development smart materials in structural engineering applications
2
Long-term performance and durability of materials and structures
3
Structural health monitoring for buildings and structures
4
Structural health monitoring for buildings and structures
5
AI and machine learning applications in structural engineering
6
Ultra-lightweight materials for structural engineering applications
7
Timber and bio-based materials for structural engineering applications
8
Structural repair and rehabilitation of historic buildings and structures
9
Reliability and risk analysis and assessment of structures
10
Design of materials and structuresfor space, moon and Mars inhabitant
11
Bridge engineering and construction
12
Earthquake and wind resistant structures
13
Large-scale structural experimentations
14
Non-conventional buildings and structures for futuristic cities
15
High performance modular construction for buildings and structures
16
Innovative design of offshore oil platform structures
Track #2: Geotechnical Eng & Construction Materials
1
Site investigations, laboratory and in-situ testing and monitoring
2
Soil and rock mechanics and characterization
3
Constitutive modelling for saturated and unsaturated soils
4
Soil dynamics and geotechnical earthquakes engineering
5
Excavations and retaining structures
6
Shallow, anchors and deep foundations
7
Slope stability and landslides
8
Ground improvement and soil stabilization
9
Tunnel and mining applications
11
Sustainable Materials and technologies in concrete
12
Advances in Concrete and Construction technology
13
Recycled and secondary materials
15
High performance materials
16
Smart and innovative materials for civil engineering
Track #3: Environmental Eng & water Resources Management
1
Emerging Pollutants in air, water and soil media
2
Artificial Intelligence for water and wastewater treatment
3
Advanced seawater treatment
4
Oil produced or petroleum wastewater
5
Recycling, reuse and resource recovery for green infrastructure
6
Energy extraction from environmental processes
7
Carbon or GHG Emission, Capture and Climate change
9
Renewable and nonrenewable energy for Resource recovery
10
Circular Economy for Sustainable Environment
11
Water sustainable policy and security
13
Water and Artificial Intelligence
14
Life cycle assessment for different environmental systems
15
Risk assessment on water disasters
16
Water Reclamation, Reuse, Supply and Management
Track #4: Transportation Engineering
1
Sustainable pavement materials: Innovations and applications
2
Resilient design and construction practices for long-lasting pavements
3
Life-cycle assessment of pavement materials and systems
4
Recycled materials in pavement construction: Performance and sustainability
5
Resilient pavement design for extreme weather conditions
6
Smart technologies for real-time performance monitoring of pavements
7
Sustainable strategies for pavement preservation and rehabilitation
8
Resilience of pavements to heavy traffic loads and climate change effects
9
Smart sensors and data analytics for intelligent pavement management
10
Green and eco-friendly approaches to pavement engineering
11
Resilient infrastructure design for transportation systems
12
Smart technologies for traffic management and control
13
Smart transportation systems for reducing congestion and improving mobility
14
Intelligent transportation systems for enhancing safety and efficiency
15
Resilience of transportation networks to natural disasters and extreme events
16
Sustainable urban transportation planning and design
