CONFERENCES

VAES-27
0

VIETNAM 7th International Conference on Advances in Engineering Systems (VAES-27)

posted by organizer: ||1 views||Release time:Jul 15, 2026

Conference DateMar 15-Mar 17, 2027PlaceHo Chi Minh City, Vietnam
Submission DeadlineMar 01, 2027E-mailconf@fenp.org
Websitehttps://iceeat.heaig.org/conference/406Telephone0000000000
DESCRIPTION
Call for papers/Topics Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields: 1. Advanced Core Mechanics and Physics Deformable and Rigid-Body Mechanics: High-fidelity structural analysis applying advanced Newtonian physics to analyze loads, internal forces, shear, and moments under dynamic conditions. Advanced Fluid Dynamics: Experimental, analytical, and computational modeling utilizing the Navier-Stokes equations and dimensionless parameters (Reynolds, Froude, and Mach numbers) to predict fluid-structure interactions. Multiphysics Engineering: The study of coupled systems simultaneously involving mechanical, thermal, electrical, and chemical reactions (e.g., modern welding flux, acoustic-thermal boundaries). 2. Next-Generation Energy and Process Systems Advanced Clean Fuel Technologies: Breakthroughs in bioenergy, biofuels, and hydrogen production/storage systems. Electrochemical and Thermal Energy Storage: Optimization of fuel cells, electrolyzers, membrane reactors, and advanced grid batteries. Carbon Capture, Utilization, and Storage (CCUS): Engineering scalable chemical and mechanical networks to isolate and convert carbon emissions. 3. Robotics and Embedded Hardware Infrastructure Kinematics, Dynamics, and Control Theory: Foundations of physical robot motion, gait mimicking, and path-planning automation. Embedded Microprocessors and Sensors: Next-generation hardware, edge-processing distance sensors, and motor-actuation controllers. Hardware-in-the-Loop (HIL) Testing: Physical hardware simulation under virtual constraints to isolate system behaviors before deployment. 4. Smart Engineering Systems and Industry 4.0 Cyber-Physical Systems (CPS): Seamlessly embedding physical machinery with digital communication networks, enabling real-time self-diagnosis. Industrial Internet of Things (IoT): Large-scale sensory mesh networks feeding structural and process telemetry data into centralized clouds. Digital Twins and Virtual Reality (VR): Real-time digital mirroring of complex operational assets to run risk-free simulations and optimize engineering designs. 5. Advanced Systems Engineering (ASE) paradigms Model-Based Systems Engineering (MBSE): Transitioning from document-based systems to digital, centralized system modeling languages (e.g., SysML) to track complete system lifecycles. Axiomatic Design and Robust Design Methodologies: Formalized mathematical frameworks to evaluate system complexity, error mitigation, and quality metrics over time. Multi-Objective Refactoring & System Optimization: Algorithmic workflows engineered to handle multi-domain trade-offs, such as maximizing structural integrity while minimizing weight and economic cost. 6. Artificial Intelligence for Systems Engineering (AI4SE) Generative Design Algorithms: The convergence of AI and quantum-parametric design spaces to automatically engineer optimized geometric and material solutions. Predictive Maintenance Frameworks: Implementing neural networks, support vector machines, and decentralized federated learning models to predict catastrophic equipment failures without data privacy breaches. Trustworthy and Explainable AI (XAI): Developing tracing mechanics to ensure algorithmic accountability and human-interpretable outputs within automated engineering tasks. 7. Sustainable and Circular Engineering Ecosystems Life-Cycle Assessment (LCA) Systems: Engineering software and metrics to evaluate the complete carbon and waste footprint of a system from raw material extraction to decommissioning. Smart Grid Integration: Combining process engineering, renewable sources (wind, solar), and smart load distribution algorithms to accommodate decentralized energy architecture. Circular Economy Engineering Manufacturing: Systems designed specifically for modular disassembly, material upcycling, and zero-waste production lifecycles.

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