25th ISTANBUL International Conference on Advances in Electronics, Control and Computing Systems (AEC2S-26) scheduled on April 29-May 1, 2026 Istanbul (Türkiye) is for the engineers, practitioners, scientists, researchers, scholars, and students from all around the world and it also includes the industry people to present ongoing research activities, and hence to foster research relations between Academia and industry. The conference is being organized by Emirates Research Publication (ERPUB) operting under Pilares D Elegancia LDA (Portugal). This conference provides opportunities for the delegates to share new ideas and application experiences face to face, to establish business or research relations and to find global partners for future collaboration. All the submitted conference papers will be peer reviewed by the program/technical committees of the Conference.

Call for papers/Topics

Topics of Interest for Submission include, but are Not Limited to:

1. Electronics: Devices, Circuits, and Systems

This area focuses on the physical hardware, from nanometer-scale transistors to complex integrated systems.

• Advanced Semiconductor Materials

  • Wide-bandgap semiconductors (GaN, SiC) for power efficiency.

  • 2D materials (Graphene, Transition Metal Dichalcogenides).

  • Organic and flexible electronics for "electronic skin" and wearables.

• Integrated Circuits (IC) & VLSI Design

  • Low-power Analog and Mixed-Signal circuit design.

  • Radio Frequency (RF) and Microwave ICs for 6G.

  • Advanced IC Packaging (3D-IC, System-in-Package).

• Neuromorphic & Bio-inspired Hardware

  • Memristor-based synaptic circuits.

  • Neural Processing Units (NPUs) for on-device AI.

• Hardware Security

  • Physically Unclonable Functions (PUFs).

  • Side-channel attack resilience and cryptographic hardware.

2. Control Systems and Automation

Control theory provides the "brain" for machines to operate autonomously or follow precise instructions.

• Advanced Control Theory

  • Model Predictive Control (MPC): Computationally efficient algorithms for real-time systems.

  • Adaptive and Robust Control: Systems that handle high uncertainty or changing environments.

  • Fractional-Order Control: Advanced mathematical modeling for complex dynamics.

• Autonomous Systems and Robotics

  • Unmanned Vehicles: Self-driving cars, UAVs (Drones), and underwater robotics.

  • Human-Robot Interaction (HRI): Collaborative robots (Cobots) and haptic feedback.

  • Swarm Robotics: Decentralized control of multi-robot systems.

• Industrial Automation (Industry 4.0/5.0)

  • Digital Twins: Real-time virtual replicas of physical manufacturing lines.

  • Smart Factories: Integration of IIoT (Industrial IoT) with automated logistics.

  • Process Control: Automation in chemical, oil/gas, and energy sectors.

3. Computing Systems and Software Engineering

This section covers the computational frameworks and architectures that process data and run algorithms.

• Artificial Intelligence & Machine Learning

  • Generative AI & LLMs: Efficiency optimization for deployment on edge devices.

  • Explainable AI (XAI): Making autonomous decisions transparent for safety-critical systems.

  • Edge AI: Moving computation from the cloud to the local device for zero latency.

• Next-Generation Computing Paradigms

  • Quantum Computing: Quantum algorithms, error correction, and quantum-resistant cryptography.

  • Cloud & Fog Computing: Hybrid architectures for big data processing.

  • High-Performance Computing (HPC): Parallel processing and supercomputing architectures.

• Cybersecurity and Data Privacy

  • Blockchain Technology: Decentralized ledgers for secure IoT and supply chains.

  • Zero Trust Architecture: Dynamic security models for interconnected systems.

  • Bioinformatics: Computing systems for genomic sequencing and personalized medicine.

4. Communication and Signal Processing

The bridge between electronics and computing, focusing on how information is transmitted and interpreted.

• 5G-Advanced and 6G Foundations

  • Terahertz (THz) communication and ultra-low latency networks.

  • Satellite-to-device communication and LEO (Low Earth Orbit) constellations.

• Signal Processing Applications

  • Image & Video Processing: Real-time semantic segmentation for computer vision.

  • Biomedical Signal Processing: Analysis of EEG/ECG for health monitoring.

  • Multi-sensor Data Fusion: Combining radar, lidar, and camera data for navigation.

5. Energy and Power Systems

Modern electronics and control are increasingly focused on the "Green Transition."

• Smart Grids and Microgrids

  • Distributed energy resource management using AI.

  • Power electronic converters for renewable energy (Solar/Wind) integration.

• Electric Mobility (e-Mobility)

  • Battery Management Systems (BMS) and fast-charging infrastructure.

  • Motor drive control for high-efficiency electric vehicles (EVs).