38th BANGKOK International Conference on “Futuristic Engineering Technologies” (BICFET-25) scheduled on Dec. 22-24, 2025 Bangkok (Thailand)

BICFET-25


Materials Engineering Nanotechnology Computer Vision & Pattern Recognition Engineering & Computer Science (General) Materials Engineering Mechanical Engineering Textile Engineering Biomedical Technology Science & Engineering Education



Call for papers/Topics



Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields:



Track 1: Advanced Materials & Manufacturing




  • Additive Manufacturing & 4D/5D Printing:


    • Multi-material and functional additive manufacturing.

    • Self-assembly and reconfigurable materials for 4D/5D printing.

    • Direct printing of electronics, sensors, and integrated systems.

    • Additive manufacturing for aerospace, biomedical, and construction.



  • Smart & Adaptive Materials:

    • Self-healing and self-sensing materials.

    • Responsive materials (thermochromic, electroactive, photoactive).

    • Metamaterials for novel optical, acoustic, and electromagnetic properties.

    • Bio-inspired and biomimetic materials.



  • Nanomaterials & Nanotechnology in Engineering:

    • Graphene, carbon nanotubes, and 2D materials for enhanced properties.

    • Nanocomposites and nanocoatings.

    • Applications in energy, electronics, and biomedicine.



  • Sustainable Manufacturing:

    • Circular economy principles in material design and production.

    • Green chemistry and sustainable process engineering.

    • Resource efficiency and waste valorization in industrial processes.





Track 2: Artificial Intelligence & Autonomous Systems




  • AI for Engineering Design & Optimization:


    • Generative design and AI-driven concept generation.

    • Topology optimization and material-aware AI design.

    • AI for multi-objective optimization and complex system synthesis.



  • Robotics & Autonomous Systems:

    • Collaborative robotics (cobots) and human-robot interaction.

    • Soft robotics and bio-inspired robotics.

    • Swarm intelligence and multi-robot systems.

    • Autonomous vehicles, drones, and unmanned systems (perception, navigation, control).

    • Robotics for extreme environments (space, deep sea, disaster response).



  • Predictive Maintenance & Digital Twins:

    • AI-powered prognostics and health management (PHM).

    • Real-time digital replicas for simulation, monitoring, and proactive intervention.

    • Digital twin applications in smart cities, manufacturing, and infrastructure.



  • Explainable AI (XAI) in Engineering:

    • Developing transparent and interpretable AI models for engineering decisions.

    • Trust and reliability in AI-driven autonomous systems.



  • AI for Materials Discovery:

    • Accelerated design and discovery of novel materials using AI and machine learning.





Track 3: Sustainable Energy & Environmental Engineering




  • Next-Generation Renewable Energy:


    • Perovskite and quantum dot solar cells.

    • Advanced wind turbine aerodynamics and floating offshore platforms.

    • Green hydrogen production, storage, and fuel cell technologies.

    • Enhanced geothermal systems and hybrid energy solutions.

    • Sustainable energy storage (solid-state batteries, flow batteries, grid-scale solutions).



  • Carbon Capture, Utilization & Storage (CCUS):

    • Direct air capture (DAC) technologies.

    • Innovative sorbents and membranes for CO2 separation.

    • Conversion of captured CO2 into valuable products.



  • Water & Wastewater Management:

    • Advanced water purification and desalination technologies.

    • Resource recovery from wastewater (nutrients, energy).

    • Removal of emerging contaminants (microplastics, pharmaceuticals).



  • Environmental Remediation & Resource Recovery:

    • Nanotechnology and biotechnology for pollutant removal.

    • Waste-to-energy and waste valorization technologies.

    • Circular economy approaches in water and waste management.



  • Climate-Resilient Engineering:

    • Infrastructure design for climate change adaptation and mitigation.

    • Nature-based solutions for urban and coastal resilience.





Track 4: Biomedical & Bio-Engineering




  • Bioprinting & Tissue Engineering:


    • 3D bioprinting of organs, tissues, and scaffolds for regenerative medicine.

    • Personalized implants and prosthetics.



  • Brain-Computer Interfaces (BCI) & Neuroengineering:

    • Direct neural interfaces for control, communication, and therapy.

    • Neural prosthetics and brain-inspired computing.



  • Synthetic Biology & Genetic Engineering:

    • Designing biological systems for specific functions (e.g., biosensors, biofuel production).

    • Gene editing technologies (CRISPR) for therapeutic and industrial applications.



  • Advanced Medical Devices & Diagnostics:

    • Wearable health monitoring systems and point-of-care diagnostics.

    • Miniaturized surgical robots and interventional devices.

    • Nanomedicine for targeted drug delivery and imaging.





Track 5: Space, Infrastructure & Quantum Engineering




  • Space Engineering & Exploration:


    • In-Situ Resource Utilization (ISRU) for lunar and Martian missions.

    • Advanced propulsion systems (nuclear thermal, electric, breakthrough concepts).

    • Space habitats and life support systems.

    • Autonomous space robotics and AI for deep space missions.



  • Smart Infrastructure & Urban Systems:

    • IoT-enabled infrastructure monitoring and management.

    • Resilient and sustainable urban planning with smart technologies.

    • Future of transportation (hyperloop, aerial mobility, smart traffic management).



  • Quantum Engineering:

    • Engineering quantum devices for computing, sensing, and communication.

    • Quantum-resistant cryptography and secure communication.

    • Quantum metrology and sensing for ultra-precision measurements.





Track 6: Cross-Cutting Themes & Societal Impact




  • Cyber-Physical Systems (CPS) & IoT in Engineering:


    • Security, privacy, and reliability of interconnected engineering systems.

    • Industry 4.0/5.0 implementation and challenges.



  • Extended Reality (XR) in Engineering:

    • VR/AR/MR for design, simulation, training, and remote collaboration.



  • Ethics & Governance of Futuristic Engineering:

    • Responsible innovation and societal implications of emerging technologies.

    • Regulatory frameworks and policy for advanced engineering.

    • Addressing the environmental footprint of new technologies.



  • Human-Centered Design in Engineering:

    • Ergonomics and user experience for complex systems.

    • Designing for accessibility and inclusivity in future technologies.



  • Interdisciplinary Engineering Education:

    • Preparing the next generation of engineers for complex, interdisciplinary challenges.

    • New pedagogies and tools for teaching futuristic engineering concepts.



Event Promotion

The 2025 World Congress on Advances in Structural Engineering and Mechanics (ASEM25)
2025-08-11 ~ 2025-08-14
Australian Conference of Engineering Geology 2025 (ACEG2025)
2025-08-28 ~ 2025-09-01
SPIE ABC 2025 (SPIE ABC 2025)
2025-10-29 ~ 2025-11-01
The 3rd International Conference on Sustainability: DEVELOPMENTS & INNOVATIONS (ICSDI 2026)
2026-02-08 ~ 2026-02-12

Journal Promotion

Acta Koreana (Acta Koreana)
Acta Via Serica (AVS)
Journal of Information Processing Systems (JIPS)
Journal of Internet Computing and Services (KSII - JICS)
Membrane and Water Treatment (MWT)
Wind and Structures, An International Journal (Wind and Structures)

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