Conference Description:

Topics of Interest for Submission include, but are Not Limited to:

I. Cross-Cutting Topics
Advanced Materials and Manufacturing:

Additive Manufacturing (3D Printing): Materials, processes, and applications for complex parts in all three industries.

Composite and Nanomaterials: Lightweight, high-strength materials for structures, engines, and bodies.

Sustainable and Green Manufacturing: Reducing carbon footprint, waste, and energy consumption in production.

Tribology and Surface Engineering: Wear, friction, and lubrication in moving parts.

Computational Methods and AI:

Digital Twins & Virtual Engineering: Creating virtual models for design, simulation, and predictive maintenance.

Computational Fluid Dynamics (CFD): Simulating air flow over aircraft wings or car bodies.

Finite Element Analysis (FEA): Structural analysis for stress, fatigue, and crashworthiness.

AI and Machine Learning: Predictive maintenance, design optimization, quality control, and data analysis.

Robotics and Automation:

Robotics in Manufacturing: Automated assembly, welding, and quality inspection.

Human-Robot Interaction (Cobots): Collaborative systems where humans and robots work together.

Autonomous Systems: From self-driving cars to autonomous drones and spacecraft.

Thermo-Fluids and Energy:

Heat Transfer and Thermodynamics: Thermal management in engines, batteries, and electronic systems.

Renewable Energy Systems: Integration of new energy sources for power, propulsion, and manufacturing.

Energy Storage and Management: Battery technologies, fuel cells, and hydrogen systems.



II. Mechanical Engineering Topics
Solid Mechanics & Structural Design:

Stress, fatigue, and fracture analysis.

Vibration and noise control (NVH).

Structural health monitoring.

Dynamics and Control:

Mechatronics and intelligent control systems.

System optimization and reliability engineering.

Robotics and autonomous systems.

Industrial Engineering:

Supply chain and logistics optimization.

Quality control and lean manufacturing.

Data-driven decision making.

Biomechanics and Medical Engineering:

Computational modeling of biological systems.

Design of prosthetics and biomedical devices.



III. Aeronautical Engineering Topics
Aerodynamics:

Advanced aerodynamics and computational aeroacoustics.

Aerodynamic shape optimization for efficiency.

Hypersonics and high-speed flight.

Propulsion:

Next-generation propulsion systems (e.g., electric, hybrid).

Sustainable aviation fuels and low-carbon propulsion.

Rocket propulsion and space exploration technologies.

Structures and Materials:

Aeroelasticity and structural dynamics.

Advanced materials and manufacturing for aircraft.

Avionics and Flight Systems:

Intelligent flight systems and autonomous guidance.

Resilient guidance and navigation.

Advanced air mobility (e.g., eVTOLs).

Satellite and space-air-ground integration.



IV. Automotive Engineering Topics
Electric Vehicles (EVs) and E-Mobility:

e-Drive Systems: Electric motor design, power electronics, and control.

Energy Storage: Next-generation batteries, thermal management, and wireless charging.

Hydrogen and Fuel Cells: Applications for zero-emission vehicles.

Autonomous Driving and Connected Vehicles:

ADAS (Advanced Driver-Assistance Systems): AI-driven features for safety and convenience.

Sensor Fusion: Combining data from cameras, LiDAR, and radar for perception.

Cyber-Physical Security: Protecting vehicles and their networks from cyber threats.

Vehicle Dynamics and Control:

Vehicle dynamics modeling and simulation.

Advanced chassis systems and active suspensions.

Noise, Vibration, and Harshness (NVH) reduction.

Body and Safety:

Crashworthiness and Safety: Designing for occupant protection and pedestrian safety.

Digital Aerodynamics: Optimizing vehicle shape for efficiency and performance.

Lightweighting: Use of multi-material structures to reduce vehicle mass.