40th ROME World Congress on Advanced Computing, Electrical & Electronics Systems: ACEES-26

Call for Papers: ACEES-26

Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields:

1. Advanced Computing Systems

This pillar focuses on the architecture and methodologies used to process massive amounts of data and solve complex problems.

• Parallel and Distributed Computing

  • Multicore and Many-core Architectures

  • Grid and Cloud Computing Frameworks

  • Message Passing Interfaces (MPI) and OpenMP

• Quantum Computing

  • Quantum Mechanics Foundations (Superposition & Entanglement)

  • Qubits and Quantum Gates

  • Shor’s and Grover’s Algorithms

• High-Performance Computing (HPC)

  • Supercomputer Architectures

  • Cluster Management and Scalability

  • GPU Acceleration (CUDA/OpenCL)

• Edge and Fog Computing

  • Latency Reduction in IoT Networks

  • Decentralized Data Processing

  • Resource-Constrained Computing

2. Electrical Systems & Power Electronics

This section deals with the generation, conversion, and management of electrical energy, emphasizing efficiency and "smart" integration.

• Smart Grid Technology

  • Wide Area Monitoring Systems (WAMS)

  • Microgrids and Distributed Energy Resources (DERs)

  • Smart Meters and Advanced Metering Infrastructure (AMI)

• Power Electronics & Drives

  • Advanced Inverters and Converters (DC-DC, AC-DC)

  • Wide Bandgap Semiconductors (SiC and GaN)

  • Variable Frequency Drives (VFD) for Motor Control

• Renewable Energy Integration

  • Photovoltaic (PV) System Modeling

  • Wind Turbine Control Systems

  • Energy Storage Systems (BMS - Battery Management Systems)

• Electric Vehicle (EV) Systems

  • EV Drivetrain Architecture

  • Wireless Charging Technologies

  • Vehicle-to-Grid (V2G) Communication

3. Advanced Electronics & Embedded Systems

This area bridges the gap between physical hardware and software control, focusing on miniaturization and high-speed communication.

• VLSI (Very Large Scale Integration) Design

  • FPGA and ASIC Design Flows

  • Low-Power CMOS Design

  • System-on-Chip (SoC) and Network-on-Chip (NoC)

• Embedded Systems & IoT

  • Real-Time Operating Systems (RTOS)

  • Hardware-Software Co-design

  • Low-Power Wide-Area Networks (LPWAN)

• Signal Processing & Communication

  • Digital Signal Processing (DSP) Algorithms

  • 5G/6G Wireless Communication Protocols

  • Mixed-Signal Integrated Circuits

• Neuro-Electronic Systems

  • Neuromorphic Computing Hardware

  • Brain-Computer Interfaces (BCI)

  • Bio-sensors and Implantable Electronics

4. Cross-Disciplinary Technologies

These subtopics sit at the intersection of all three fields, driving the "Intelligence" in modern systems.

• Cyber-Physical Systems (CPS)

  • Modeling and Simulation of Complex Systems

  • Human-in-the-loop Systems

• Hardware Security

  • Physical Unclonable Functions (PUFs)

  • Side-channel Attack Mitigation

  • Trusted Execution Environments (TEE)

• AI for Systems

  • Machine Learning for Predictive Maintenance

  • Automated Circuit Design using AI

  • Hardware Acceleration for Deep Learning (NPU Design)