Center Director Word 

NISC was established in 2009 to fill the technology gap between Egypt and the global electronics industry. The center aims to act like a passageway to transfer the Nano electronics technology from abroad to the Egyptian society. A master program was created to provide the graduate students with significant experience with the techniques and tools involved with Nano electronics integrated systems. The program objective is to prepare professional engineers in the Nano electronics field equipped with the right design tools. NISC works to identify problems in the Egyptian society and work on solutions through designing electronics system and to contribute in saving Egypt a place in the global nanotechnology race. In the past few years the center started investing in hosting international conferences in Egypt as well as workshops to convey the latest technologies in the industry to engineers to improve their skills and knowledge. As a result, NISC started integrating other fields with electronics such us embedded systems, the internet of things (IoT) and some other emerging technologies.

Prof. Ahmed H. Madian
NISC Director

Research tracks

The current research interests at NISC are categorized into nine tracks that includes various projects as presented below. Noting that some projects combine two or more tracks of interests.

Design of Digital Integrated Systems

  • FPGA based fractional order chaotic systems. 
  • Speech, image & video encryption. 
  • Multi-level digital implementation based on memristors.

Analog Circuit Design

  • Fractional order oscillators and filters.
  • Modeling of mem-elements in analog applications.
  • Two-port network fractional order oscillators & filters.
  • Analog/Digital design & implementation of fractional-order elements.
  • Analog/Digital design & implementation of mem-elements.

Very Large-Scale Integrated Systems

  • FPGA based fractional order chaotic systems. 
  • Speech, image & video encryption. 
  • Multi-level digital implementation based on memristors.

Memristor based Circuits and Systems

  • Modeling of mem-elements in analog applications.
  • Multi-level digital implementation based on memristors.
  • Analog/Digital design & implementation of mem-elements.

Fractional order Circuits and Systems

  • Fractional order oscillators and filters.
  • FPGA based fractional order chaotic systems.
  • Design & implementation of fractional-order DC-DC converters.
  • Two-port network fractional order oscillators & filters.
  • Analog/Digital design & implementation of fractional-order elements.

Chaotic circuits and Encryption Systems

  • FPGA based fractional order chaotic systems.
  • Optimization techniques & parameter identification of chaotic systems.

DC-DC converters & Photovoltaic systems

  • Design & implementation of fractional-order DC-DC converters.

Bio-impedance Analysis and Systems

  • Monitoring growth of fruits & vegetables through bio-impedance.

What People Say

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Rana Hesham

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research assistant