The 14th International Conference on
GEOMATE 2024
13 - 15 November, 2024
Pattaya - Thailand
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Foreword
The GEOMATE International Conference proudly jointed with Suranaree university of Technology is an annual international conference, which will be held from 13 – 15 November 2024 in SPACE Hotel, Pattaya, Thailand as a hybrid event (virtual and face-to-face presentations). This year, the conference concentrates on Sustainable and Smart Geotechnical Engineering, Sustainable and Smart Structural Engineering, Sustainable and Smart Water and Wastewater Engineering, Sustainable and Smart Construction Materials, Sustainable and Smart Environmental Engineering, Sustainable and Smart Transportation Engineering.
Conference Themes
You are cordially invited to submit an abstract that describes original, theoretical, or experimental research and/or practices associated with one of the following sub-themes:
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Sustainable and Smart Geotechnical Engineering
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Sustainable and Smart Structural Engineering
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Sustainable and Smart Water and Wastewater Engineering
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Sustainable and Smart Construction Materials
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Sustainable and Smart Environmental Engineering
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Sustainable and Smart Transportation Engineering
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Sustainable and Smart Construction Management
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Sustainable and Smart Pavement Engineering
Sustainable and Smart Geotechnical Engineering
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Geotechnical Engineering
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Geotextiles and Geomembranes
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Computers and Geotechnics
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Slope Stabilization
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Foundation Design
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Ground Improvement Techniques
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Coastal and Offshore Engineering
Sustainable geotechnical engineering are focusing on the application of geotechnical engineering principles in a manner that is environmentally responsible, economically feasible, and socially equitable. Traditional geotechnical engineering focuses on the behavior of earth materials and the application of soil mechanics and rock mechanics, which are critical for the design of foundations, retaining structures, embankments, tunnels, and other structures. In the sustainable variant of this field, there is an additional focus on ensuring that projects have a minimal negative impact on the environment and society, both in the short term and over the lifecycle of the structure or project.
Sustainable and Smart Structural Engineering
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Sustainable building construction practices
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Advances in concrete technology
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Modeling & Computational Techniques in Civil Engineering
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Advanced Computational Models
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Building Information Modeling (BIM)
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Sensor Technology for Monitoring
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Automated and Robotic Construction
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Adaptive and Responsive Systems
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Information system and big data analytics for construction and maintenance of infrastructures
Sustainable and high-tech structural engineering represents the intersection of advanced technology and sustainable practices in the realm of structural engineering. It aims to create structures that are not only innovative and efficient but also environmentally responsible, socially equitable, and economically viable. By using cutting-edge technologies, engineers can meet traditional objectives such as safety and durability while also addressing contemporary concerns like resource conservation, climate change adaptation, and social responsibility.
Sustainable and Smart Water and Wastewater Engineering
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Sustainable management of water resources
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Water pollution prevention technologies
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Strengthening and restoring of structures
Sustainable water and wastewater engineering are the practices, methods, and technologies that aim to manage water resources and treat wastewater in an environmentally sustainable, economically feasible, and socially responsible manner. These practices aim to address immediate water and sanitation needs while also ensuring long-term sustainability and resilience.
Sustainable and Smart Construction Materials
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Sustainable Concrete Technology
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Sustainable Fiber-Reinforced Polymer (RFP) Composite Materials
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Polymer Composites and Polymers for Smart Construction Materials
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Sustainable Asphalt Materials Science and Technology
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Bio-Based and Biopolymer for Smart Construction Materials
Sustainable construction materials are involving with building materials that have a lower impact on the environment compared to conventional materials. These materials are sourced, manufactured, and applied in a way that minimizes harmful effects on ecological systems, reduces energy consumption, and contributes to a sustainable and socially responsible built environment. Sustainable construction materials are often evaluated based on their life cycle impact, including resource extraction, production, transportation, application, and end-of-life disposal or recycling.
Sustainable and Smart Environmental Engineering
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Construction and Demolition Waste Recycling
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Use of Recycled Plastics in Smart Construction Materials
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Waste and Byproducts in Cement-Based Materials
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Renewable and Sustainable Energy
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Life-Cycle Analysis
Sustainable and smart environmental engineering is a multidisciplinary field that integrates advanced technologies and sustainable practices to address environmental challenges. The goal is to create systems and solutions that are not only effective and efficient but also environmentally responsible and adaptable to changing conditions.
Sustainable and Smart Transportation Engineering
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Transportation Research: Policy and Practice
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Pavement Research and Technology
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Smart Transportation Management, Economics, and Policy
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Smart Logistics Engineering
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Pavement and Railway materials, analysis and design
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Public Transit Optimization
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Intelligent Transport Systems (ITS)
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Integrated Traffic Management
Sustainable and smart transportation engineering is a forward-looking subfield that aims to reduce the environmental impact, improve the efficiency, and enhance the social benefits of transportation systems. It combines principles of sustainability with advanced technologies, such as sensors, data analytics, and automation, to create transportation solutions that are more intelligent, adaptable, and environmentally friendly.
Sustainable and Smart Construction Management
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Sustainability and Smart Technology Integration in Construction
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Sustainable and Smart Energy Efficiency in Construction
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Green Building Practices
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Lifecycle Assessment and Planning
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Collaboration and Communication
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Building Research Establishment Environmental Assessment Method
Sustainable and Smart Construction Management is a modern approach in the construction industry that integrates sustainability principles and smart technology to improve the efficiency, effectiveness, and environmental performance of construction projects.
Sustainable and Smart Pavement Engineering
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Recycled and Renewable Pavement Materials and Structure
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Sustainable and Smart Pavement Design Methodologies
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Sensing Technologies in Pavements
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Sustainable and Smart Pavement Management Systems
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Energy Harvesting from Pavements
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Eco-friendly Construction Practices
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Pavement Performance and Monitoring
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Lifecycle Assessment and Climate Change Adaptation
The core theme is to create pavement systems that are not just durable and efficient but also contribute to environmental sustainability. This involves innovating in materials science, incorporating smart technologies for real-time monitoring and data-driven management, and ensuring that pavements can be maintained and updated with minimal ecological impact.
Keynote Speakers
Welcome our distinguished keynote speakers with more in-depth and insightful guidance to our event
Important Dates
Conference Dates
13 - 15 November 2024
SPACE
PATTAYA
Join Us at the
14th INTERNATIONAL CONFERENCE GEOMATE2024 - Pattaya, Thailand:
Where Smart Innovation Meets Sustainability
GEOMATE THAILAND CHAPTER
111 University Avenue, Muang, Nakhon Ratchasima 30000, Thailand