12th PARIS International Conference on Mechanical, Aeronautical and Industrial Engineering: PMAIE-25

Call for papers/Topics

Topics of interest for submission include any topics related to:

I. Mechanical Engineering:

• Solid Mechanics and Structures:

  • Stress analysis, strain, deformation.

  • Fatigue, fracture mechanics, creep.

  • Vibration and dynamics of mechanical systems.

  • Structural analysis and design (beams, plates, shells).

  • Computational mechanics (Finite Element Analysis - FEA, Boundary Element Method - BEM).

  • Smart structures and materials.

  • Composite materials, advanced alloys.

• Fluid Mechanics and Thermal Sciences:

  • Computational Fluid Dynamics (CFD).

  • Heat transfer (conduction, convection, radiation).

  • Thermodynamics and energy systems.

  • Fluid-structure interaction.

  • Turbulence modeling.

  • Combustion and propulsion.

  • HVAC systems, refrigeration.

• Design and Manufacturing:

  • Computer-Aided Design (CAD), Computer-Aided Manufacturing (CAM), Computer-Aided Engineering (CAE).

  • Product design and development.

  • Additive manufacturing (3D printing), rapid prototyping.

  • Traditional manufacturing processes (machining, forming, welding).

  • Robotics and automation in manufacturing.

  • Precision engineering, micro/nano systems.

  • Sustainable manufacturing, green manufacturing.

• Dynamics, Control, and Robotics:

  • System dynamics and control theory.

  • Mechatronics.

  • Robotics kinematics, dynamics, and control.

  • Human-robot interaction.

  • Autonomous systems.

  • Sensors and actuators.

• Materials Science and Engineering:

  • Selection and characterization of engineering materials.

  • Material behavior at different scales (nano, micro, macro).

  • Corrosion, wear, and tribology.

  • Biomaterials and medical devices.

  • Advanced functional materials.

• Energy Systems:

  • Renewable energy technologies (solar, wind, geothermal, hydro).

  • Energy storage (batteries, fuel cells).

  • Thermal energy systems.

  • Power generation and distribution.

  • Energy efficiency and management.

II. Aeronautical Engineering:

• Aerodynamics:

  • Computational Aerodynamics.

  • Experimental Aerodynamics.

  • High-speed aerodynamics (supersonic, hypersonic).

  • Unsteady aerodynamics.

  • Flow control.

• Aircraft Structures and Materials:

  • Lightweight materials (composites, advanced alloys).

  • Structural integrity and fatigue.

  • Aeroelasticity.

  • Structural health monitoring.

  • Aircraft design and optimization.

• Propulsion Systems:

  • Jet engines (turbofans, turbojets).

  • Rocket propulsion.

  • Electric and hybrid propulsion for aircraft.

  • Combustion in aero engines.

  • Noise reduction in propulsion.

• Flight Dynamics and Control:

  • Aircraft stability and control.

  • Flight control systems (autopilots, fly-by-wire).

  • Guidance, navigation, and control (GNC) for aircraft and spacecraft.

  • Unmanned Aerial Vehicles (UAVs) / Drones: design, control, applications.

  • Autonomous flight systems.

• Avionics and Systems Integration:

  • Aircraft communication systems.

  • Navigation systems.

  • Cockpit design and human factors.

  • Integrated modular avionics.

• Space Systems Engineering:

  • Spacecraft design and mission planning.

  • Orbital mechanics.

  • Satellite systems.

  • Space propulsion.

  • Space exploration technologies.

• Air Traffic Management and Aviation Safety:

  • Optimization of air traffic flow.

  • Collision avoidance systems.

  • Human factors in aviation safety.

III. Industrial Engineering:

• Operations Research and Optimization:

  • Linear and non-linear programming.

  • Simulation modeling.

  • Queuing theory.

  • Decision analysis.

  • Supply chain management and logistics.

  • Production planning and scheduling.

• Quality Engineering and Management:

  • Statistical Process Control (SPC).

  • Six Sigma, Lean Manufacturing.

  • Quality control and assurance.

  • Reliability engineering.

  • Total Quality Management (TQM).

• Manufacturing Systems and Automation:

  • Industry 4.0, Smart Manufacturing, Digital Twin.

  • Cyber-physical systems in manufacturing.

  • Automated material handling systems.

  • Factory layout and design.

  • Additive manufacturing integration.

• Human Factors and Ergonomics:

  • Workplace design and safety.

  • Human-computer interaction.

  • Cognitive ergonomics.

  • Human-robot collaboration.

• Supply Chain and Logistics Management:

  • Inventory management.

  • Transportation networks.

  • Global supply chain optimization.

  • Logistics and distribution.

• Systems Engineering and Management:

  • System modeling and analysis.

  • Project management.

  • Risk management.

  • Innovation management.

• Data Analytics and Artificial Intelligence in Industrial Engineering:

  • Predictive analytics for operations.

  • Machine learning for process optimization.

  • Big data in manufacturing.

  • AI for decision support systems.

IV. Cross-Cutting and Interdisciplinary Themes:

• Sustainability and Green Engineering: Eco-design, waste reduction, renewable energy integration in industrial settings.

• Computational Methods: Advanced numerical techniques, high-performance computing, data visualization.

• Smart Systems: IoT, pervasive computing, smart sensors, and actuators in all three domains.

• Digital Transformation: Industry 4.0, digitalization of engineering processes.

• Cybersecurity in Industrial and Aeronautical Systems.

• Education and Workforce Development in these engineering fields.