Communities in DSpace
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Telecommunication Engineering
(2024) Eman Alawnah
The Vehicle Tracking Based on GSM&GPS project brings together innovative approaches combining both GPS &GSM technology to create a vehicle tracking system that is both efficient and practical. Its functioning relies on a smartphone and the Arduino UNO, offering cost-effective usage in numerous industries.
By using GPS tech, our Vehicle Tracking System tracks the vehicle's movement—accurately determining longitude and latitude data. This information is then transmitted through the GSM network which uses cellular towers- sending & receiving data in text message form; this includes identifying visualizations of each respective location on a map.
Adding an ignition sensor provides a level of security. It sends a text message warning whenever someone tries to steal the vehicle acting as a deterrent, against theft. This aligns with the goal of reducing vehicle theft as it gives users a way to monitor, control and protect their vehicles.
The incorporation of a control system, for a DC motor into the framework of an Arduino Uno, GPS GSM module and an ignition sensor signifies an approach to managing vehicles. This system allows users to have control over the DC motor by sending SMS commands. The simplicity and ease of use of this mechanism is demonstrated by instructions like "turn vehicle on" which activates the DC motor.
The data is sent in as a text message, which includes the longitude, latitude, and location on the map. The message can be received on a mobile phone or any device capable of receiving text Messages. This project holds particular significance in detecting stolen vehicles, as it enables swift and precise recovery of the vehicle.
Overall, Vehicle tracking systems have many applications today and will continue to develop in the future due to the value of the service they provide in terms of tracking vehicles and knowing their location at any time.
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The Monitor
(2023) Haneen Fozan Rizk Banishamsah; Marwan Naser Dawod Soboh
In this project, we designed a wearable device consisting of a bracelet that we customized to fit the required functionality. Inside the bracelet, it houses the necessary electronic components and is connected to a sensor that measures heart rate and oxygen levels through the finger. Additionally, when needed, it can also connect to a helmet containing a temperature sensor and a sensor for measuring head tilt angle. This project was modified based on the request of the project committee to make it a more robust hardware project than the one previously proposed, and it was implemented in accordance with the suggestions of the supervising doctor.
This device serves a broad spectrum of society, including children, the elderly, travelers, drivers, and patients in general. It collects the user's vital signs through sensors located in the hand, finger, and head and uploads them to a public server using HTTPS for security purposes.
It also uploads the user's location from anywhere in the world and sends it to an application that displays this information along with detailed location data. The information is continuously updated automatically every ten seconds (with a margin of error in terms of time and server upload time, taking approximately 10-15 seconds).
If these readings fall outside the normal range, for example, if the heart rate is less than 40 or greater than 130, it represents an abnormal reading. The device waits for three consecutive abnormal readings and then sends a text message to the relevant authorities, such as the doctor if the user is a patient, the police if the user is a driver, or emergency services, and in the case of a child user, it notifies the parent, and so on.
The message also includes the user or patient's name and their current location. In case there is an issue with data updates or if the device malfunctions due to an accident, for example, it provides the latest readings and the last location from which the readings were taken.
As for the sensor measuring the angle of the head, it is used for the driver. If the driver falls asleep while driving or tilts their head down, for example, to use their mobile phone, the sensor detects this and activates an alarm until the head returns to the appropriate driving position. If the driver does not raise their head within twenty seconds, it sends a text message to the relevant authorities.
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ProCar
(2024) Marwan Sobuh
This project is important because it meets the rising demand for convenient
online access to a wide range of car accessories. It provides accessibility, convenience,
and competitive options for customers, contributing to economic growth
while aligning with environmental sustainability goals.
In my point of view, several important aspects should be covered in the
project to ensure its success:
• User Experience (UX) Design*: Creating an intuitive and user-friendly
interface is crucial. Ensure easy navigation, responsive design, and clear
product categorization to enhance the overall user experience.
• Product Catalog*: Comprehensive and well-organized product listings
with detailed descriptions, images, and compatibility information are essential
to help customers make informed choices.
• Implement robust security measures to protect customer data and financial
transactions, instilling trust and confidence among users.
• Search and Filter Functionality: Implement powerful search and filtering
tools to help customers quickly find the products they need, enhancing
their shopping experience.
• Customer Reviews and Ratings*: Allow customers to leave reviews and
ratings for products, fostering transparency and trust in your offerings
• Mobile Responsiveness*: Ensure that the website is fully responsive and
functional on mobile devices, as many users shop from smartphones and
tablets.
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Growify
(2024) Ahmad Othman; Obaida Aws
Our graduation project aims to develop an innovative application that seamlessly combines
the main functions of social media applications, organizing personal tasks, structuring
companies/organizations, and communicating in one platform. This dynamic hub
revolutionizes the way individuals and businesses communicate, collaborate and manage
projects, amplifying growth for both companies/organizations and individuals.
Many functionalities are provided through our app/website:
• Professional profiles: Users can create comprehensive profiles, including personal
information and a CV, and facilitate access to individuals, view their information,
and communicate with them.
• Social networks: The platform allows sharing updates, publications, and communications
with peers and professionals, by providing the personal profiles that can be
easily accessed by searching, then viewing the user’s publications and information,
and communicate with the user through a wide number of communication channels
we provide and also sending a connection request to add the user to the list of
colleagues.
• Real-time communication: Powerful messaging features enable seamless text, audio
and video conversations with individuals/pages/group.
• Task management: Integrated tools allow organizing tasks, tracking progress, and
adding events to a calendar for individuals/pages/groups, with the ability to be
reminded with a notification at a date specified by the user.
• Companies and organizations: Our application allows the creation of pages representing
companies and organizations with a complete structure to organize their
work, in addition to providing access to these pages, displaying main information,
publications, public calendar, available jobs, starting conversations, and following
these pages with notifications when a new job is added by the page.
• Structuring companies/organizations after creating the page:
– Pages can add admins and employees with custom fields
– After publishing the page for a new job, the page can see the application that
the individuals have submitted, as it contains the user’s CV (optional), in addition
to a note that the user can write (optional), in addition to access to
the applicant’s personal profile, which contains all contact information, education,
Work, and updateable CV (even after applying for any job) to sync user
experiences
– The page can communicate directly with the job applicant to schedule an
interview, as the interview takes place on the application also by providing the
video calling and screen sharing feature.
– The page can create groups represented as tree (Parent Group can have child
groups, etc.) and distribute employees to groups, in addition to the possibility
of adding users who are not employees of the company.
– Each group contains a number of features, the most important of which are:
∗ Adding admins who can control group settings, add new members, determine
members permissions, add tasks/events, start a group meeting, and
create a child group for the current group.
∗ A group calendar containing events
∗ A special page for distributing tasks to group members, with the ability
to change the task status (To Do, Doing, Done, Archive, Delete).
∗ Chat for communication so that texts, pictures, and videos can be sent
∗ Video/audio meeting with screen sharing feature
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Self-driving Car
(2023) Abdallah Adas; Mohammad Zaied
The major goal of development the self-driving cars has been driven by the desire to improve
road safety, reduce traffic congestion, and provide mobility to those who are unable to drive.
Self-driving cars rely heavily on image processing to perceive and understand the driving environment.
Image processing involves collecting data from cameras and other sensors installed
on the car, and then analyzing that data to extract information about the surroundings. This
information is then used by the car to make driving decisions. Pictures will be taken sequentially
by a Raspberry Pi camera connected with Raspberry Pi 4, and then these images will be
processed by the OpenCV library and machine learning and used Arduino UNO to control the
motor driver(H-bridge).
The car was able to recognize road lines, drive between these lines, and recognize some traffic
signs such as stop signs, green and red traffic lights. Also, the car will be able to detect and
overcome obstacles.