AIMS AND SCOPE

Intelligent Systems:

1. Advanced Metrology, Sensing, and Instrumentation
2. AI-Driven Systems Design and Optimization
3. Applied Electronics and Embedded Systems
4. Computational Systems Intelligence (AI, Machine Learning in Electronics)
5. Control Theory, Mechatronics, and Automation
6. Functional and Composite Materials for Electronic Applications
7. Intelligent Systems and Edge Computing
8. Robotics and Autonomous Systems
9. Semiconductor Devices and Nanoelectronics
10. Smart Materials for Sensing and Actuation
11. Wireless Communication and Networking Technologies

Sustainable Energy:

1. Advanced Materials for Thermal Management and Energy Storage
2. Energy Conversion, Distribution, and Smart Grid Technologies
3. Power Electronics and Drive Systems
4. Renewable and Sustainable Energy Systems
5. Wide Bandgap Semiconductors for Power Electronics

Interdisciplinary Integration:

1. Digital Transformation and Industry 4.0 Applications in Energy and Electronics
2. Education and Curriculum Development in Sustainable Intelligent Systems
3. Emerging Technologies and Future Trends
4. Green ICT and Smart City Integration
5. Intelligent Decision-Making Algorithms for Energy Systems
6. Sustainability Assessment Frameworks Supported by Intelligent Systems

Note: The scope of the proposed field is not confined solely to those explicitly stated. Other relevant and related areas will also be taken into consideration.