28th PARIS International Conference on Electrical, Electronics & Communication Engineering (PEECE-26) scheduled on June 24-26, 2026 Paris (France) 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. Electrical Engineering (Power & Energy)

This pillar focuses on the generation, transmission, and utilization of electricity on a large scale.

• Circuit Theory & Analysis:

  • Network theorems (Thevenin, Norton, Superposition).

  • Transient and steady-state analysis.

  • AC/DC circuit fundamentals.

• Power Systems:

  • Generation (Thermal, Hydro, Nuclear, and Renewables).

  • Transmission and Distribution (Grid stability, HVDC).

  • Smart Grids and Microgrids.

• Electrical Machines:

  • Transformers (Step-up/Step-down).

  • DC Motors and Generators.

  • Synchronous and Induction Machines.

• Power Electronics:

  • Inverters, Converters (Buck/Boost), and Rectifiers.

  • Motor drives and speed control.

2. Electronics Engineering (Devices & Circuits)

This area focuses on the behavior of electrons in semiconductors to create components that process information.

• Solid-State Devices:

  • Semiconductor physics (P-N junctions).

  • Transistors (BJT, MOSFET, FinFET).

  • Optoelectronic devices (LEDs, Solar cells).

• Analog Electronics:

  • Operational Amplifiers (Op-Amps).

  • Oscillators and Multivibrators.

  • Filter design (Active and Passive).

• Digital Electronics:

  • Logic gates and Boolean algebra.

  • Combinational circuits (Multiplexers, Adders).

  • Sequential circuits (Flip-flops, Counters, Memory).

• VLSI (Very Large Scale Integration):

  • CMOS fabrication technology.

  • FPGA and ASIC design.

  • Hardware Description Languages (Verilog/VHDL).

3. Communication Engineering (Data & Signals)

This field deals with the transmission of information across various mediums.

• Signals and Systems:

  • Continuous and Discrete-time signals.

  • Fourier, Laplace, and Z-Transforms.

  • Convolution and Correlation.

• Analog & Digital Communication:

  • Modulation techniques (AM, FM, PM).

  • Digital Modulation (ASK, FSK, PSK, QAM).

  • Information theory and Coding (Error detection/correction).

• Electromagnetics & Antennas:

  • Maxwell’s Equations.

  • Wave propagation and Waveguides.

  • Antenna types and Radiation patterns.

• Networking & Wireless:

  • Mobile communication (4G, 5G, and 6G concepts).

  • Satellite and Optical Fiber Communication (OFC).

  • Computer Networks (TCP/IP, IoT protocols).

4. Interdisciplinary & Advanced Topics

These subtopics bridge the gap between the three main pillars and incorporate computer science and physics.

• Control Systems: Feedback loops, PID controllers, and Robotics.

• Signal Processing: Digital Signal Processing (DSP), Image processing, and Speech recognition.

• Embedded Systems: Microcontrollers (8051, ARM, AVR), RTOS (Real-Time Operating Systems), and IoT.

• Instrumentation: Sensors, Actuators, and Data Acquisition Systems (DAQ).

• Nanotechnology: Nano-electronics and Quantum computing basics.