Dr. Mohamed Darweesh.jpeg

Dr. Mohamed S. Darweesh

Associate Professor

Faculty Office Ext.

3025

Faculty Building

UB2

Office Number

S09

Biography

Mohamed Saeed Darweesh (M’17, SM’20) received his master’s and Ph.D. degrees (with honors) in Electronics and Electrical Communications Engineering from the Faculty of Engineering, Cairo University, Giza, Egypt, in 2013 and 2017, respectively. He is currently an Associate Professor at the School of Engineering and Applied Sciences, Nile University. Previously, he worked at the American University in Cairo (AUC), Zewail City (ZC) of Science and Technology, Arab Academy for Science and Technology and Maritime Transport (AASTMT), and Institute of Aviation Engineering and Technology (IAET).

Saeed is a Senior Member of the IEEE from 2020 and has served on the technical program committees of major IEEE conferences. Saeed has been elected as the IEEE Egypt Section Secretary 2024-2025, IEEE SIGHT Egypt since June 2023, IEEE Consultants Network Vice Chair since April 2023, and the IEEE CAS Egypt Treasurer since January 2023. For the global and regional IEEE positions, starting January 2024, he is appointed as a corresponding member in the IEEE Region 8 Young Professionals Subcommittee, a member in the IEEE HTB Proposal Evaluation Subcommittee, a member in the IEEE HTB Events Committee. He has been an IEEE HTB/SIGHT Projects Technical Reviewer since April 2023. Also, he was the IEEE Egypt Young Professionals Egypt Past Chair for 2022-2023.

Dr. Saeed actively serves as a reviewer in several journals and conference publications, including IEEE conferences and journals. Dr. Saeed has led multiple research projects in the fields of artificial intelligence, machine learning, healthcare, and Industry 4.0. He has authored/co-authored over +80 papers in international journals and conferences. Also, he is a Principal Investigator (PI), Co-PI, and Research Associate in several research projects funded by different agencies like the Science and Technology Development Fund (STDF), National Telecom Regularity Authority (NTRA), Information Technology Industry Development Agency (ITIDA), and Academy of Scientific Research and Technology (ASRT). He supervised over +90 graduation projects. He has a solid technical background with a strong interest in machine learning and artificial intelligence. His research interests focus on Wireless Communications, Self-Driving Cars, Vehicle to Vehicle (V2V) Systems, Narrow-Band IoT (NB-IoT), Biomedical Engineering (EEG Seizure Detection, Sleepiness Detection using EEG, Breast Cancer Classification, and Skin Cancer Prediction), Optimization Techniques, and Data Compression. Dr. Saeed also worked and trained with many telecom operators and suppliers like (MobiNil, Alcatel.Lucent, and Geniprocess) and has a strong background in computer networks and security.

 

Achievements

1) Best Paper Award (First Place) at NILES2020 “Comparative Analysis of Various Machine Learning Techniques for Epileptic Seizures Detection and Prediction Using EEG Data".

2) Best Paper Award (Third Place) at ICM2020 “Collision Probability Computation for Road Intersections based on Vehicle to Infrastructure Communication”.

3) Best Paper Award (Third Place) at NILES2021“Real-Time Fish Detection Approach on Self-Built Dataset Based on YOLOv3”.

4) Outstanding Paper Award at ICACT2022, “Relay Selection in NOMA-Based Diamond Relaying Networks".

5) Mohamed Saeed Darweesh ECE graduation project titled: “Enhanced Beauty Services Mobile Application Based on Artificial Intelligence” has been accepted at the AUC Science Slam competition and qualified for the finalists 2021.

6) Mohamed Saeed Darweesh was nominated to be an Expert at Phi Science Institute, 2021.

7) Mohamed Saeed Darweesh was elected as Chair for IEEE Young Professionals Egypt Section for 2022-2024.

Recent Publications

Real-Time Fish Detection Approach on Self-Built Dataset Based on YOLOv3

Creating a model to detect freely moving fish underwater in real-time is a challenging process for two main reasons. First, the available datasets suffer from some limitations that severely affect the results of the detection models operating in challenging and blurry environments. These models should be able to capture all of the fish movement given different types of surroundings. Second

Artificial Intelligence
Software and Communications

A Novel Power-Aware Task Scheduling for Energy Harvesting-Based Wearable Biomedical Devices Using FPA

Power management and saving in energy harvesting-based biomedical wearable devices are mandatory to ensure prolonged and stable operation under a stringent power budget. Thus, power-aware task scheduling can play a key role in minimizing energy consumption to improve system durability while maintaining device functionality. This paper proposes a novel biosensor task scheduling for optimizing

Circuit Theory and Applications

A Preprocessing Approach to Improve the Performance of Inception v3-based Face Shape Classification

Face shape classification is considered one of the trending topics in the artificial intelligence research field. Face shape classification can be employed in many broad-scoped projects, such as hairstyle recommendation systems in the beauty and fashion industry. In this paper, the inception v3 model was employed to reach the highest possible performance for classifying the different face shapes

Software and Communications

A Deep Learning-Based Benchmarking Framework for Lane Segmentation in the Complex and Dynamic Road Scenes

Automatic lane detection is a classical task in autonomous vehicles that traditional computer vision techniques can perform. However, such techniques lack reliability for achieving high accuracy while maintaining adequate time complexity in the context of real-time detection in complex and dynamic road scenes. Deep neural networks have proved their ability to achieve competing accuracy and time
Artificial Intelligence

Intelligent Arabic-Based Healthcare Assistant

Text classification has been one of the most common natural language processing (NLP) objectives in recent years. Compared to other languages, this mission with Arabic is relatively restricted and in its early stages, and this combination in the medical application area is rare. This paper builds an Arabic health care assistant, specifically a pediatrician that supports Arabic dialects, especially

Artificial Intelligence
Healthcare
Software and Communications
Innovation, Entrepreneurship and Competitiveness

Early breast cancer diagnostics based on hierarchical machine learning classification for mammography images

Breast cancer constitutes a significant threat to women’s health and is considered the second leading cause of their death. Breast cancer is a result of abnormal behavior in the functionality of the normal breast cells. Therefore, breast cells tend to grow uncontrollably, forming a tumor that can be felt like a breast lump. Early diagnosis of breast cancer is proved to reduce the risks of death by

Software and Communications

Comparative Analysis of Various Machine Learning Techniques for Epileptic Seizures Detection and Prediction Using EEG Data

Epileptic seizures occur as a result of functional brain dysfunction and can affect the health of the patient. Prediction of epileptic seizures before the onset is beneficial for the prevention of seizures through medication. Electroencephalograms (EEG) signals are used to predict epileptic seizures using machine learning techniques and feature extractions. Nevertheless, the pre-processing of EEG

Artificial Intelligence
Healthcare
Software and Communications

Real-Time Lane Instance Segmentation Using SegNet and Image Processing

The rising interest in assistive and autonomous driving systems throughout the past decade has led to an active research community in perception and scene interpretation problems like lane detection. Traditional lane detection methods rely on specialized, hand-tailored features which is slow and prone to scalability. Recent methods that rely on deep learning and trained on pixel-wise lane

Artificial Intelligence
Software and Communications

Real-Time Collision Warning System Based on Computer Vision Using Mono Camera

This paper aims to help self-driving cars and autonomous vehicles systems to merge with the road environment safely and ensure the reliability of these systems in real life. Crash avoidance is a complex system that depends on many parameters. The forward-collision warning system is simplified into four main objectives: detecting cars, depth estimation, assigning cars into lanes (lane assign) and

Artificial Intelligence
Software and Communications
Research Tracks
  • Artificial Intelligence
  • Machine Learning
  • Optimization Techniques
  • Wireless Communications
  • Self-Driving Cars
  • Biomedical Engineering Applications
Projects
1
Research Project

Low Power 3GPP (Release 14) NB-IoT Platform for Internet of Things Applications

Internet of Things (IoT) is a network of physical objects or people called things, where electronics, software, and network work together to open the door for these things to be able to collect and exchange data remotely. The IoT devices serve many applications such as smart cities, wearables and health monitoring, security, and surveillance. Low cost, long battery life, low data rate, low latency
Research Project

IoT-based Platform for Wearable Devices for Continuous Healthcare Monitoring

The ultimate goal of this project is to achieve diagnosis on the fly and predict abnormal health conditions and alert people before the condition happens. In order to achieve this, the following objectives should be fulfilled: Implementing wearable self-powered painless devices for healthcare monitoring. Implementing AI algorithm for predicting abnormal health conditions. Implementing painless
02
Research Project

Interactive Smart Application for Museums Education (iSAME)

Information and Communication Technologies (ICTs) play a huge role in developing and updating the functions and innovative activities for a promising economic performance of museums and cultural institutions, allowing museums to achieve remarkable success and reach their main goals of attracting people and spreading historical knowledge. As a result of the increasing numbers of technologies and
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Research Project

An Underwater AR based System for Marine Life Detection and Classification for Divers and Tourists

Objective/Contributions: Collecting and annotating an extensive dataset of fish images representing the fish species in the red sea. Building a machine learning model capable of detecting and classifying fish species from a real-time video. Building a proof-of-concept prototype for the AR hardware that is capable of capturing the live video of marine life, running the classification model, and
1
Research Project

Pre-emergency Alert IoT System-based on Wearable Devices for Diabetic Patient

According to World Health Organization (WHO), there are more than 400 million diabetic adults worldwide. In Egypt, only there are about 8 million diabetic people, and the diabetes prevalence rate is estimated to be 13.3% by 2025, according to WHO. In most cases, the diabetic person requires regular visits to the hospital for health checks. However, due to the COVID pandemic, it has become risky
1
Research Project

Artificial Intelligence Based Cloud Computing for Autonomous Traffic Management

Automobile-related deaths rank as one of the most common causes of death in many places, particularly developing countries; Egypt loses about 12,000 lives due to road traffic crashes every year. The greatest danger to human beings is not cars but people themselves because cars are not dangerous if driven by care and more attention. Cell phone use, whether by talking on the phone or texting
1
Research Project

Low-Power Artificial Intelligence Framework for Internet of Things Applications

The Internet of Things (IoT) is penetrating many facets of our daily life with the proliferation of intelligent services and applications empowered by artificial intelligence (AI). Due to the massive scalability of modern IoT networks and increased data privacy, traditional AI algorithms require centralized data collecting and processing, which may not be practical in real-world application