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Call for Papers


Call for Papers

Topics of interest for submission include, but are not limited to:

Track 1: AI-Driven Mechanical Design

  • Generative design for complex mechanical structures
  • AI-assisted topology optimization and lightweighting
  • Intelligent parametric CAD automation
  • ML-based material-property prediction and selection
  • Physics-informed neural networks for structural simulation
  • LLM-powered engineering documentation and knowledge retrieval
    • 01

    Track 2: Smart Manufacturing Systems

  • Digital twin-enabled production line optimization
  • Real-time IIoT monitoring and edge computing
  • Predictive maintenance for rotating machinery
  • Adaptive CNC machining with AI feedback
  • Human-robot collaborative assembly safety
  • 5G/6G low-latency factory automation
    • 02

    Track 3: Sustainable Mechanical Engineering

  • Life-cycle carbon assessment for mechanical products
  • Design for remanufacturing and circular economy
  • Low-carbon machining process optimization
  • Industrial waste heat recovery systems
  • Green lubrication and tribology
  • Digital Product Passport (DPP) for machinery compliance
    • 03

    Track 4: Advanced Robotics & Mechatronics

  • Collaborative robot (cobot) force-controlled assembly
  • Dexterous manipulation with multi-modal sensing
  • Soft actuator design and control
  • Swarm robotics for infrastructure inspection
  • Aerial/underwater vehicle mechanical platforms
  • Embodied AI for robotic autonomous decision-making
    • 04

    Track 5: Power Electronics & Drives

  • Wide-bandgap (SiC/GaN) power device applications
  • High-efficiency motor drive topologies
  • Modular multilevel converter (MMC) design
  • Wireless power transfer systems
  • Active front-end rectifiers and grid interaction
  • Integrated power module thermal management
    • 05

    Track 6: Electrical Machines & Magnetic Systems

  • High-speed/high-torque motor design optimization
  • Permanent magnet-free motor technologies
  • Superconducting electrical machines
  • Magnetic levitation and bearing systems
  • Linear motor and direct-drive applications
  • Advanced electromagnetic field computation methods
    • 06

    Track 7: Quantum Electrical Engineering

  • Superconducting quantum circuit design
  • Quantum error correction hardware implementation
  • Cryogenic control electronics for qubits
  • Quantum-limited amplification and sensing
  • Photonic integrated circuits for quantum communication
  • Electrical isolation and noise suppression in quantum systems
    • 07

    Track 8: Renewable Power Conversion

  • Maximum power point tracking (MPPT) algorithms
  • Grid-forming inverter control strategies
  • Offshore wind farm collection and transmission
  • Solar PV inverter reliability and lifetime
  • Wave/tidal energy power take-off systems
  • Hybrid AC/DC microgrid architectures
    • 08

    Track 9: Green Energy Machinery

  • High-efficiency wind turbine drivetrain design
  • Intelligent solar tracking mechanisms
  • Hydrogen compression and storage equipment
  • EV powertrain thermal and vibration management
  • Battery energy storage system (BESS) mechanical design
  • Micro-hydro and ocean energy harvesting devices
    • 09

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