Electronics and Communications Engineering Department

 

Introduction

The department of Electronics and Communications Engineering graduate aims to provide advanced analytical as well as technological knowledge in various fields of Electronics and Communications systems. This is to provide awareness of research in engineering sciences, and to encourage the development of inventiveness while searching for engineering solutions to technical problems. The program offered includes a number of core as well as elective courses, which permit the students to specialize in a particular area. The integrated skills of Electronics and Communications engineers are becoming increasingly valuable to the industry, especially in areas of: Electronic Design Automation (EDA) Tools Development, VLSI Design, Radio Frequency (RF) Integrated Circuit Design, Wired and Wireless Communication Systems and Networks, Signal Processing, and Microwave Wave Engineering.

Vision

• To become a nationally and internationally highly recognized department in higher education
• To influence and contribute to the research directions in the fields of electronics and communications engineering
• To stimulate the intellectual environment wherein faculty, students, and staff can prosper and grow

Mission

• To provide a high- quality, effective and efficient research environment
• To prepare future researchers able to perform multiple tasks efficiently
• To prepare qualified researchers capable to apply the state-of-the-art techniques in Electronics and Communications engineering to improve product quality and system performance
• To prepare qualified researchers capable to lead research teams in RD& I in industrial sectors
• To give an equal opportunity for students from all countries to enroll its programs

Objectives

• Provide the graduate students with profound knowledge of a specialization area in Electronics and Communications Engineering, and familiarity with allied areas
• Provide the graduate students with competence in performing independent research, in communicating effectively, and in learning independently
• Sets an example for advanced research at E-JUST, in Egypt, and in the region
• Advance the state-of-the-art in the specialized fields of Electronics and Communications Engineering
• Enhance the relationship between university and industry by finding solutions to engineering problems through profound researches
  
  

Laboratories

• Remote Sensing Laboratory in E-JUST - more information - Click here
• Digital and Data Communications
• Digital Signal Processing
• Optical Communication Networks
  
  

 Research Areas

 

Analog Integrated Circuits and Systems

• RF-CMOS Front-end (LNA, PA, Mixer, VCO, AD/DA)
• Ultra-Wideband (UWB) Applications

Digital System Design

• Ultra Low Power Design Architectures
• High Performance Computing/Processing Systems

DSP Systems

• Image and Video Compression (H.265, Multi-view coding, 3-D TV, etc.)
• Multimedia System (Applications with Multi-core DSPs, Communications Standards, Etc.)
• Speech and Audio processing
• Adaptive Filtering Design
• Stochastic Signal Processing and Applications

Wireless Communication Systems

• Broadband Wireless Distribution Systems
• Wireless Sensing Networks
• PHY Layer Design
• Coding for Communication Systems

Optical Communication Networks

• Optical Code-Division Multiple-Access
• Optical Burst Switching
• Optical OFDM
• Free Space Optics
• Passive Optical networks

Microwave Engineering and Remote Sensing

• Reconfigurable Antennas and Arrays
• Planar Ultra-wide Bandwidth (UWB) Antennas and Arrays
• Dielectric Resonator Antennas (DRA) and Arrays
• Wideband Microstrip Antennas/Arrays
• Beam Steering Antennas/Smart Antennas
• Radio-Frequency-Identification (RFID) Antennas
• Microwave Planar Filters
• Computational Electromagnetics
• Novel Electromagnetic Materials (Metamaterial/Electromagnetic Bandgap Materials) for Antenna and Microwave Circuits Applications
• Radar Design
• Remote Sensing and Satellite Observation