Computer Engineering / Hardware

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    Sweets Assembly
    (2024) Ahmad Darawsheh; Mohammad Khaled
    This project is important for several reasons. Firstly, it addresses the need for efficient and automated candy cans production, saving time and effort in the process of filling it. It also improves the cleanliness of the candy products as it reduces human handling, minimizing contamination risks. Moreover, the project eliminates the need for manual labor in the candy filling and packaging process, contributing to labor cost savings. Overall, it enhances candy production efficiency and quality while reducing operational costs. In our view, key aspects for this project include full automation using stepper motors and a conveyor belt, ensuring precise candy filling through RFID quality control, enabling user interaction and monitoring via mobile app connectivity through ESP, and prioritizing safety to prevent accidents and product contamination, given the involvement of machinery and food products. The project’s primary objectives are automation in candy can production, enhancing efficiency, maintaining quality control, and enabling remote control and monitoring through a mobile app. This includes designing an automated production line, reducing manual labor, ensuring precise candy measurement, and allowing remote access for efficient operation. The methodology involves four main stages: design and planning, hardware implementation, software development, and testing and optimization. Design and planning encompass layout design and component selection. Hardware implementation focuses on assembling the necessary components, while software development creates control software and a mobile app. Testing and optimization ensure project goals are met, and user documentation and training cover operation and maintenance.
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    Pharmabot System
    (2023) Osaid Jabaji; Yazan Diab
    Being able to use your mobile to command a robot that provides assistance in pharmacies and warehouses in general, to decrease the workload, save time, and do the tasks effectively, it was done by using our knowledge learnt in the courses we took related to the hardware department, doing researches about what tools and parts we need to reach our goal and seeking help and knowledge for our piers when needed, and at the end we came up with this project that did it's objected tasks and features like: • The ability to bring the desired medicine from the shelf. • The ability to take out medicines and also the ability to insert them into shelves automatically. • A robotic arm that can hold the medication to be used. • showing the amount of each medicine available in each shelf.
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    Candle Craft Line
    (2024) Asmaa T. Saleh; Dalia H. Dwaikat
    We observe a growing trend in artisanal projects, particularly in candle making. Candles play a significant role in home decor, enhancing ambiance, and providing pleasant scents. Due to the increasing demand and presence of handmade candles on various occasions, manual production can become burdensome, especially for large orders. Our project aims to establish a production line for candles in transparent cups, tailored to user preferences. Users, as project owners, can specify the number of cups, colors, and scents desired. The candle production process involves multiple stages, starting with wax mixture preparation based on the required cup quantity. The mixture is then melted, colored, scented, and thoroughly mixed to achieve a homogeneous blend. The cups undergo a simple heating process to facilitate the pouring without errors. Finally, the cooling stage is to dry the wax inside the cups. Initially, we will develop a comprehensive project design and ensure a detailed plan is in place. Then, the hardware component will be constructed, and the project will be implemented, integrating it with a mobile application for seamless communication between all components. This will be achieved through the creation of an ”Automatic Wax Mixing and Pouring System in Cups” based on Arduino technology. The system utilizes Arduino programming to control and manage the entire process, integrating various components such as sensors, motors, relay switches, heaters, and other relevant elements. This project aims to streamline candle production to meet large-scale demand while accommodating specific customer preferences, thereby addressing the growing market demand for these handmade artisanal products. 8
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    Inventory System
    (2024) Ahmad Othman; Ameen Abo Diak
    Our project aims to develop an integrated inventory system that streamlines the arrangement and storage of packages on warehouse shelves. The system allows users to classify packages and assign specific cells to different types of packages through a user interface connected to the hardware. Packages to be added to the system are placed in a designated area, where a robotic arm, moving along the x and y axes, picks up the package and places it on the appropriate shelf based on its type. Retrieval of packages from the shelves can be done by selecting the package barcode or cell number through a mobile application or keypad. This system enhances the efficiency of storing packages on high shelves, particularly in warehouses, by cataloging and displaying the available items and their storage locations.
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    AI Robot
    (2024) Mustafa Irshaid; Majed Kawa
    Our project aims to develop an intelligent robot that has multiple features such as mobility, voice interaction, and emotional expressions controlled by ChatGPT language model using prompt engineering. The importance of this project lies in the integration of hardware and advanced language processing. Enabling the robot to understand and interact with the surrounding environment achieving a more natural human-robot interaction. This has the potential to be used in various fields from personal assistance to educational applications. The design and implementation of the hardware components, including mobility features, is the first step in the project development process. At the same time, the ChatGPT language model is integrated. To create a balanced and effective intelligent robot, the development approach places a strong emphasis on iterative testing and improvement. While there are a lot of intelligent robots, the combination of mobility, voice interaction, emotional expressions, and the specific use of the ChatGPT language model through prompt engineering distinguishes this project. Some of the projects that we have seen are Alexa from Amazon, and Loona from KEYi.