Call For Papers
Conference Topics of Interest
IEIES 2027 welcomes original research contributions, technical developments, and application-oriented studies in the broad areas of intelligent electrification and industrial energy systems. The conference covers interdisciplinary topics related to power electronics, industrial applications, electrical machines and drives, smart grids, microgrids, renewable energy integration, energy storage, electric mobility, industrial automation, intelligent control, monitoring and diagnosis, digitalized energy management, and sustainable industrial technologies. Submissions addressing both theoretical advances and practical engineering solutions are encouraged, especially works that contribute to improving the efficiency, reliability, flexibility, resilience, and sustainability of modern industrial and electrified energy systems.
Technical Tracks
The topics listed below are indicative rather than restrictive. Related submissions are also encouraged.
1. Intelligent Electrification and Industrial Applications
Focuses on the transformation of industrial systems through electrification and intelligent energy technologies. It welcomes studies on how electrical technologies can be applied to manufacturing, infrastructure, transportation, buildings, ports, and other industrial environments to improve efficiency, flexibility, safety, and sustainability.
2. Power Electronics and Energy Conversion
Covers advanced technologies for electrical energy conversion, control, and management. It emphasizes the role of power electronic systems in modern energy infrastructure, including high-efficiency converters, power conditioning, renewable energy interfaces, electric mobility, and industrial power supply systems.
3. Electrical Machines, Drives, and Motion Control
Focuses on electric machines, motor drive systems, and motion control technologies for industrial and mobility applications. It welcomes research that improves the performance, reliability, control accuracy, energy efficiency, and operational intelligence of motors, drives, robotics, and electromechanical systems.
4. Smart Grid, Microgrid, and Distributed Energy Systems
Addresses the planning, operation, control, and optimization of modern power systems with distributed and renewable energy resources. It highlights technologies that support flexible, resilient, and intelligent grid operation, including microgrids, grid-connected systems, power quality, and distributed energy management.
5. Energy Storage, Batteries, and Charging Infrastructure
Focuses on energy storage technologies and their integration into industrial, transportation, and grid systems. It includes research on batteries, hybrid storage systems, charging infrastructure, power management, safety, reliability, and the role of storage in supporting electrified and sustainable energy systems.
6. Industrial Automation, Sensing, and Cyber-Physical Systems
Explores the integration of automation, sensing, communication, and embedded systems in industrial environments. It welcomes contributions on smart factories, industrial monitoring, real-time data acquisition, equipment connectivity, cyber-physical production systems, and intelligent infrastructure for industrial energy applications.
7. Intelligent Control, Monitoring, and Optimization
Focuses on advanced control, monitoring, diagnosis, and optimization methods for electrified and industrial energy systems. It encourages studies that use data-driven methods, model-based control, predictive maintenance, digital twins, and real-time decision support to enhance system performance, reliability, and operational efficiency.
8. Sustainable Industrial Energy Systems
Addresses the development of sustainable, low-carbon, and energy-efficient industrial systems. It welcomes research on energy management, carbon reduction, renewable integration, multi-energy coordination, green manufacturing, and practical pathways for reducing environmental impact in industrial and urban energy applications.
9. Reliability and Practical Engineering Applications
Focuses on the practical deployment and long-term operation of electrified industrial energy systems. It welcomes studies related to system reliability, equipment protection, fault diagnosis, safety assessment, thermal management, standards, testing, field applications, and engineering case studies that support real-world industrial implementation.