Communities in DSpace
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Craftique
(2025) Raghad Omair; Deema Ali
Handmade products are becoming increasingly popular as unique and
personalized alternatives to mass-produced goods, particularly among
women. To address the challenges of finding affordable and accessible
online sources, we developed Craftique, a user-friendly platform available
as both a mobile application and a website. Craftique simplifies
the process of buying and selling handmade items, offering a vibrant
marketplace for women artisans to showcase their talents.
1. Includes diverse products such as t-shirt printing, chocolate distributions,
wood engraving, and memory books.
2. Features a dedicated discounts page to enhance the shopping experience.
3. Offers advanced search filters for easy browsing by price and product
name.
4. Provides seamless chat functionality for public and private interactions.
5. Empowers sellers with tools to efficiently manage inventory and
track orders.
6. Contributes to women’s charities with proceeds from select products
under the motto: ”Buy something beautiful, do something
even more beautiful.”
7. Ensures secure payments, personalized recommendations, and notifications
for a smooth shopping journey.
8. Supports small businesses and local artists, fostering a communitydriven
ecosystem for handmade artistry.
9. Serves as more than a marketplace—a hub for creativity, empowerment,
and community engagement.
We noticed that there are many platforms available for buying and
selling handmade products globally. However, we could not find any
comparable applications in Palestine that bring together all the features
artisans and buyers need in one place. This project consists of
a website for administrators and a mobile application for users. The
website can be connected to businesses that support and collaborate
with artisans. Numerous frameworks and tools were utilized in the
construction of this project to ensure efficiency and usability.
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Sparko: Unleashing the Potential of Smart Robotics
(2024) Abdallah Khayat; Salahaldin Shehada
This research paper demonstrates the implementation of Sparko showing its design and
development. Sparko is smart robot we created to perform several tasks. These tasks include
interactive communication. They also involve movement control. It is powered by using a
rechargeable 12V lithium battery. Which is regulated to 6V using voltage converter. It is also
connected to battery indicator to show the amount of battery left.
Sparko’s main body is built using plastic 3D printed components. It has nine servo motors. Two
for each leg. Two for each hand. And one for the head. These allow for flexible and precise
movements. Control of Sparko’s movements is conducted through WiFi using a Raspberry Pi Pico
W and a servo driver.
To enhance user interaction Sparko features LCD screen on its head. The screen displays various
facial expressions. Ultrasonic sensor is integrated. This enables obstacle detection. It also allows
avoidance capabilities. Additionally, Sparko possesses advanced speech features using two ESP32
modules. One module converts speech to text using Google Cloud API. The other sends text to
ChatGPT API and converts its response to speech. This allows the robot to respond verbally. These
modules are connected with microphone and speaker creating complete audio chat interaction
system. Infrared sensor is used to activate Sparko's listening mode. This enables it to receive
commands to process verbal queries from users, then it responds accordingly.
Testing results has shown Sparko's effective movement control. Reliable obstacle avoidance. The
speech-to-text and text-to-speech functionalities showed good level of accuracy with some
limitations such as having response with no more than 30 words due to esp32 memory capacity.
There is a small error percentage when it comes to recognizing words. This combination of
hardware and software makes Sparko valuable advancement in interactive robotics field. Offering
great value for future developments.
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Za’ter Master
(2024) Aya Ba’ara; Sewar Aslan
Za’ter is a traditional Palestinian dish, and despite its age, no Palestinian breakfast
is complete without it. The process of making Za’ter is long and challenging,
requiring a lot of manual effort. It involves moving Za’ter from one stage
to another, sifting, milling, and mixing ingredients all by hand. Our project
aims to simplify the management of Za’ter preparation, making the process
more efficient and less labor-intensive. We plan to create an automated system
that controls various stages of Za’ter production, using an Arduino board connected
to different components such as motors and others. The process involves
grinding the Za’ter until we achieve the right consistency. Once we reach that
stage, we carefully add ingredients like sesame, sumaq, and salt in the specified
amounts to ensure the perfect blend of flavors. After adding these ingredients,
we mix everything thoroughly until the mixture is homogeneous, Finally, we
present the Za’ter in an attractive form, ready for customers to enjoy, This
attention to detail throughout the process is essential for delivering a perfect
product
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PlantPal Pro
(2025) Teama Ahmad Amer; Ayat Derar Abuomar
PlantPal Pro is a groundbreaking automated production line designed to address critical
challenges in modern agriculture by optimizing seed germination and seedling production.
This innovative system integrates cutting-edge automation technologies with precision
farming techniques to streamline the cultivation process, enhance productivity, and promote
sustainability. The project aims to provide a holistic solution for farmers and agricultural
enthusiasts, minimizing the reliance on manual labor while ensuring consistent and superior
plant growth outcomes.
The system operates with a user-friendly interface accessible via a K-Pad or a dedicated
mobile application, allowing users to select their desired seed types with ease. Once the
selection is made, the automation process begins with the precise allocation of soil into
planting containers. Seeds are then delicately positioned in the containers, followed by the
careful addition of essential nutrients and vitamins tailored to each specific seed type. These
nutrients are scientifically calibrated to create the ideal conditions for healthy germination
and seedling growth.
Subsequently, a secondary layer of soil is applied to secure the seeds, and a sophisticated
water dispensing mechanism delivers accurately measured droplets to maintain optimal
moisture levels. This meticulous approach ensures that every seed receives the appropriate
care required for robust development. The system’s design accommodates a wide variety of
seed types, making it a versatile solution for diverse agricultural needs.
PlantPal Pro also emphasizes sustainability and responsible farming practices by reducing
resource wastage and improving efficiency. By automating labor-intensive tasks, the system
not only saves time and effort but also eliminates errors associated with manual processes,
such as overwatering, nutrient imbalances, and inconsistent planting depths. This results in
uniform seedling quality, higher success rates, and increased agricultural productivity.
This project underscores the potential of integrating technology into traditional farming
methods to achieve sustainable and scalable agricultural practices. By empowering farmers
with tools that simplify complex processes, PlantPal Pro offers a transformative solution that
bridges the gap between technological innovation and practical agricultural application. It
promotes a future where farming is not only more productive but also more efficient,
sustainable, and accessible to all.
PlantPal Pro represents a significant leap forward in the field of automated agriculture,
paving the way for a new era of precision farming. Through its innovative design and
impactful approach, it seeks to redefine how we grow and sustain crops, ensuring a brighter,
more sustainable future for agriculture.
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Connect-4 Game Robot
(2023) Rawan Salem Zanabet; Zaina Husni Abusamra
4-Connect Robot is an intelligent hardware-based gaming system designed to play and win the classic Connect 4 game against human opponents. Unlike traditional versions, this project integrates artificial intelligence (AI) and robotics, allowing the system not only to compete strategically but also to physically manage the game board.
The AI, powered by advanced algorithms such as Minimax with Alpha-Beta Pruning, analyzes the game board in real-time, predicts the best possible moves, and adjusts its strategy dynamically to increase its chances of winning. Once the robot secures a victory, it transitions from gameplay to autonomous organization mode—sorting the colored game pieces, separating them correctly, and resetting the board for the next match.
The system consists of a robotic arm and an automated sorting mechanism, enabling a seamless, hands-free gaming experience. The combination of AI-driven decision-making and robotic automation makes 4-Connect Robot an innovative fusion of software intelligence and mechanical precision.
This project serves as both an interactive gaming experience and a demonstration of AI and robotics in action, highlighting how autonomous systems can be applied to real-world problem-solving. By integrating strategy, automation, and engineering, 4-Connect Robot offers an engaging and futuristic take on a beloved classic game