Computer Engineering / Hardware
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- ItemGranomatic(2025) Hala Atout; Masa YaseenThis project aims to develop a fully automated production line for granola, addressing the increasing demand for healthy and convenient food options. As more consumers shift towards nutritious diets, granola has become a popular choice due to its versatility and health benefits. This system ensures efficient production of high-quality granola that can be consumed as a standalone snack or added to various meals. The production process is carefully designed to maintain consistency, taste, and quality at every stage: 1. Ingredient Selection: Customers can personalize their granola by selecting from a variety of ingredients, including grains, nuts, seeds, and natural sweeteners, allowing for tailored flavors and nutritional benefits. 2. Mixing and Roasting: The chosen ingredients are automatically transferred into a mixing chamber, where they are thoroughly blended and roasted at an optimal temperature to enhance texture, aroma, and flavor. The roasting process ensures a crunchy, golden-brown finish while preserving the natural goodness of the ingredients. 3. Packaging: Once the granola is roasted, it is packed into containers designed to maintain freshness and product quality. By fully automating the production process, this system guarantees efficiency, hygiene, and precision while catering to the growing consumer preference for healthy and on-the-go snack options.
- ItemRefreshGo(2025) Amer Kobari; Tariq MarmashThe goal of the RefreshGo project is to create an automated mojito vending machine powered by an Arduino Mega, integrated with sensors, motors, and various electronic components that will be discussed later in the report. The machine functions like a small-scale beverage factory, where a cup is first dispensed and then moved on a conveyor belt through a series of stages, including ice dispensing, flavor mixing, and soda or energy drink addition. The user can select from multiple flavors such as Strawberry, Apple, and Raspberry Blue, each managed by independent pumps for accurate dispensing. RefreshGo supports three methods of ordering: directly through physical push buttons on the machine, remotely via a mobile application developed using Blynk and connected through an ESP32, and uniquely, through an ESP32-CAM system that captures an image of a preordered or previously prepared drink, analyzes its visual features such as color, and replicates the drink composition accordingly using onboard processing. Payment is handled using RFID technology, allowing customers to tap their card for quick and seamless transactions. The system is designed to maximize efficiency, reduce manual labor, and provide precise, customizable mojito preparation in a fully automated format. This makes it ideal for implementation in modern cafes, events, and entertainment venues. While automated drink machines already exist, RefreshGo stands out by combining ingredient customization, remote control, RFID payment, and visual drink recognition into one cohesive and intelligent solution. This project introduces a level of personalization and automation that is not currently available in existing beverage vending systems.
- ItemSmartStorage(2025) Osama Dweikat; Osama KhatibOur graduation project focuses on developing an intelligent robot designed to enhance the process of arranging and storing products in warehouses and large spaces. This robot helps in accelerating the arranging process, utilizing the maximum possible space, reducing the need for human labor, and retrieving any product from any place in the shortest possible time. The robot is a compact storage unit suspended at the highest possible height in the storage space and mounted on moving rails equipped with a gripper to help it pick up products. There is a limit switch opposite the specified storage areas to help the robot reach the specified location. The robot relies on information from the user via the ESP channel so that the user determines the location to be reached whether to arrange or retrieve a product.
- ItemMedical Assistant(2025) Amr Foqha; Abdelrahman AbboushiThis project aims to assist elderly or chronically ill individuals, such as those with heart disease, diabetes, or Alzheimer's, by ensuring proper medication management. Its significance lies in providing comprehensive care by organizing and automating the process of taking medication at the correct time, reducing the common issue of forgetting doses. The system schedules medication times based on the patient's input, dispensing water for the patient to take their medicine. Additionally, it measures vital signs and sends the readings to a smartphone app, allowing full control over the medication schedule through the project’s interface. When it’s time for the patient to take their medicine, notifications and alerts are sent to remind them. Patients can input their required medication times, Sensors capture patient vitals, displaying the readings in a smartphone app, control panel allows adjustments to medication times, and the system sends alerts to remind patients of their medication schedules.
- ItemFlipper Zero(2025) Mohammad Ahmad Salah Tanbour; Salah TanbourFlipper Zero is a versatile and hand-held multi-tool used for interacting with digital devices using various communication schemes. it includes wide range of protocols for communication, including 125Khz, NFC, Sub-Ghz, Bluetooth. It is also capable of interfacing with external hardware components which helps in expanding the functionalities of the Flipper Zero. The goal of this project is to design and build a proof-of-concept hardware device that functions similarly to Flipper Zero using common modules to serve as an educational experience. The Flipper Core includes a user-friendly LCD interface to select and activate the various functionalities of the device, along with a keypad or a web app for user input. Key features include storing and emulating infrared, 125khz RFID and 433mhz signals. Blue tooth used as emulation for mouse and keyboard. and basic external hardware interface using GPIO pins. The project’s core aim is to replicate essential Flipper Zero functionalities while offering a solid foundation for future enhancements and applications. Despite challenges, the project successfully delivers a somewhat functional prototype, a good base for further development in the coming years, with the capability to serve in practical and educational fields. Future work will focus on enhancing the base to handle more real-world application.