Team Members
![](https://cscgp.miuegypt.edu.eg/wp-content/uploads/2024/06/cropped-Ahmed-Sherif-Ahmed-Ahmed-Sherif-Ahmed-Mohamed-Kamal.jpg)
Ahmed Sherif Ahmed
Team Leader
![](https://cscgp.miuegypt.edu.eg/wp-content/uploads/2024/06/cropped-Omar-Abdelaty-Ahmed-Ahmed-Sherif-Ahmed-Mohamed-Kamal-scaled-1.jpg)
Omar Abdellaty
Team Member
![](https://cscgp.miuegypt.edu.eg/wp-content/uploads/2022/01/b400851a6b07f8877a9236f275bd8d.jpg)
Abdallah Khaled
Team Member
![](https://cscgp.miuegypt.edu.eg/wp-content/uploads/2024/06/cropped-youssef-Atef-Ahmed-Ahmed-Sherif-Ahmed-Mohamed-Kamal.jpg)
Youssef atef
Team Member
Mohamed Ahmed
Team Member
Supervisors
![](https://cscgp.miuegypt.edu.eg/wp-content/uploads/2024/06/photo-Khaled-Abdelfatah.jpg)
Prof. Khaled Moustafa
Professor and vice dean for postgraduate and research of Information and Computer Science college
![](https://cscgp.miuegypt.edu.eg/wp-content/uploads/2024/06/20230927_150837_-_Maha_Sayed-150x150.jpg)
Eng. Maha Sayed
Teaching Assistant
Abstract
Our project focuses on creating a Digital Twin for self-driving cars—a virtual counterpart that learns from extensive datasets rather than specialized sensors. This intelligent twin mirrors the real car’s behavior, helping it navigate safely, especially by detecting signs of driver fatigue or distraction. We’re developing a user-friendly web application for easy interaction, real-time behavior monitoring, and visualizing sensor data. This initiative marks a significant step in merging cutting-edge technology with the future of transportation. By combining real-world experiences with virtual experiments, our aim is to enhance the safety and efficiency of selfdriving cars. This project offers a unique approach, utilizing abundant data to create a virtual companion for cars, contributing to the ongoing evolution of autonomous vehicles.
System Objectives
This document provides the detailed functional and non-functional requirements, as well as the main functionalities of our system, such as generating test cases from three different inputs: the source code, the UML class diagram, and test scenarios. It will also provide detailed descriptions of the system’s architecture, methods, algorithms, and the various stages it goes through.
System Scope
1. Develop a digital twin that accurately simulates the behavior and functionality of autonomous vehicles in real-world scenarios.
2. Ensure high-fidelity representation of the vehicle’s sensors, actuators, and decision-making processes within the digital twin.
3. Integrate real-time data from the physical autonomous vehicle environmental conditions, into the digital twin for continuous synchronization.
4. Implement mechanisms for seamless data flow between the physical vehicle and its digital counterpart.
Documents and Presentations
Proposal
You will find here the documents and presentation for our proposal.
Document
Presentation
SRS
You will find here the documents and presentation for our SRS.
Document
presentation
SDD
You will find here the documents and presentation for our SDD.
Document
presentation
Thesis
You will find here the documents and presentation for our Thesis
Document
Presentation
Accomplishments
Publications
Competitions
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Competition Title
type here detailss about your participation in the competition.