My Projects
This section showcases a diverse range of projects that exemplify my proficiency in creating innovative solutions and pushing the boundaries of technology
Portable Solar Power Inverter
By this project, we will be talking about solar power inverter, in which they are widely used nowadays. We have implemented and designed a portable solar power inverter that is used to convert the solar energy received from the sun by the cells of the solar panel which represents a Direct current input (DC) and converts it to alternating current (AC). This basic function of the solar panels is to produce DC electricity, and the lead acid battery stored it in the same form (DC). For that, all types of solar systems need a solar inverter, in which it converts the DC input into an AC. The aim of this project, is to explain more about the solar inverter that is implemented and designed, using low-cost components that are available everywhere.
Blind Assistant Cane
This project introduces a smart blind assistant cane that leverages advanced technologies, including an Arduino microcontroller, GSM and GPS modules, real-time clock chip, SD card reader, and an ultrasonic sensor. The cane is designed to empower visually impaired individuals by enabling obstacle detection, medication reminders, and emergency calling capabilities. Equipped with an ultrasonic sensor at the front end, the cane provides real-time feedback to avoid obstacles and ensure safe navigation. It also incorporates a real-time clock chip and SD card for medication reminders, audibly alerting users to take their medicine. Additionally, the GSM module allows the user to make emergency calls, sharing their GPS location with preconfigured contacts for prompt assistance. This multi-functional and portable blind assistant cane aims to enhance independence, safety, and accessibility for the visually impaired community, offering a comprehensive solution to their everyday challenges.
Autonomous Luggage Carrier
This project introduces an autonomous luggage carrier designed for airport travel, equipped with a Raspberry Pi controller, ultrasonic sensor, GPS module, Raspberry Pi camera, and motors. The carrier aims to ease the burden of transporting luggage for travelers by operating autonomously, navigating through airport spaces using the ultrasonic sensor and GPS module. The Raspberry Pi camera provides visual aid, and motors enable smooth movement with heavy loads. The system enhances the overall airport travel experience, streamlining luggage handling processes and ensuring a seamless transition for passengers from the airplane to the parking lot.
Traffic Light Controller
This project focuses on designing a traffic light controller for a Digital Systems course using logic gates. The controller utilizes LED lights as indicators and incorporates a pedestrian crossing button, allowing users to request safe passage. By employing fundamental logic gates and interconnecting them appropriately, the system efficiently manages the traffic light sequencing and timing. The project provides valuable hands-on experience for students in digital circuit design and showcases the practical application of logic gates in creating a safer and intelligent transportation solution.
Digital Communication Sytems
This project involves the design and implementation of a digital communication system using MATLAB software with the TCP/IP protocol, enabling users to transmit signals between devices by entering the respective IP addresses. The system leverages MATLAB's capabilities for signal processing and manipulation, establishing a secure and error-free connection between the transmitter and the receiver. Its flexibility allows customization for various signal types and modulation schemes, making it suitable for diverse applications like wireless sensor networks and IoT devices. The project serves as an educational tool, providing practical insights into digital communication principles and networking concepts within a MATLAB environment, and contributes to advancing digital communication technologies.
Majed Tech Website
Introducing "Majed Tech" - a dynamic web development project revolutionizing the tech industry. Our site showcases a technology store catering to internet services, money transfers, and mobile software/hardware, providing a seamless and comprehensive user experience.
Infinity Car Wash Website
Welcome to "Infinity Carwash" - where automotive perfection meets convenience. Our web development project offers premium car washing and detailing services, ensuring your vehicle sparkles like new. Experience the epitome of care and shine with Infinity Carwash.
Weather Application
This project involves the creation of a user-friendly Graphical User Interface (GUI) using Python and a Weather API to allow users to enter a city name and retrieve real-time weather data, including humidity, temperature, pressure, and wind speed. The GUI streamlines the process of accessing weather information, displaying the data in an organized format. Python's versatility enables seamless integration with the Weather API, ensuring accurate and up-to-date data retrieval. The project emphasizes efficiency and error handling, providing users with reliable weather updates in an interactive and visually appealing interface. It serves as an educational resource for GUI development and API integration, showcasing the potential of programming for real-time data retrieval and enhancing the accessibility of weather information for users.
Wireless Communication Design
This project involves implementing a 5G link budget analysis tool in wireless communication using MATLAB. The tool aims to evaluate system efficiency and signal quality in 5G networks by considering various parameters such as transmit power, receiver sensitivity, antenna gains, path losses, and interference factors. MATLAB's computational capabilities enable complex link budget equations, and its graphical features produce informative visualizations for performance evaluation. The tool provides wireless communication professionals with a user-friendly platform to optimize network design, antenna placement, and coverage planning for 5G systems. By empowering users to adapt the tool to specific deployment scenarios, this project contributes to the advancement and deployment of efficient and reliable 5G networks, ultimately enhancing wireless communication experiences in the modern digital era.
PID Controller
This project implements a PID controller for a car and beam system using an Arduino microcontroller, ultrasonic sensor, motor, and Bluetooth module. The goal is to create a dynamic and self-balancing system where the car maintains stability on the beam. The PID controller utilizes real-time feedback from the ultrasonic sensor to adjust the motor's speed, ensuring precise control over the car's position. The system is designed to be user-friendly, with a Bluetooth module allowing remote control of the set point from a mobile application. Through this project, the power of advanced control algorithms and the versatility of the system components are showcased, offering valuable insights into automation and control technology with practical applications in robotics, automation, and mechatronics.
AM and FM
The "Amplitude Modulation and Frequency Modulation MATLAB App" is a user-friendly project that empowers users to explore and analyze modulation techniques for their input signals. Developed using MATLAB App Designer, the interactive application allows users to visualize and compare the effects of amplitude modulation (AM) and frequency modulation (FM) on their input signals in real-time. Through an intuitive graphical interface, users can adjust modulation parameters, such as modulation index and carrier frequency, to observe how these parameters influence the output signal. The project's versatility and ease-of-use make it a valuable tool for students, researchers, and enthusiasts seeking to deepen their understanding of modulation techniques and their applications in communication systems.