Communities in DSpace
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Recent Submissions
Item
CircuitAcademy
(2025) Ghassan Qasrawi; Adel Qadi
The Goal of this project is to implement a cross-platform learning platform that helps students
better understand circuit and electronics topics such as DC and AC analysis, circuit design, and
simulation. We noticed that many students in electrical and computer engineering departments
struggle to bridge the gap between theoretical concepts and practical application in circuits
courses. This platform addresses that gap by combining interactive learning resources with
collaborative tools and a web-based circuit simulator, making electronics education more
accessible and engaging.
The significance of this project lies in its focused support for electronics learners. Unlike general
e-learning platforms, this system is designed specifically to help users visualize, simulate, and
discuss electronics-related problems in real time. It empowers students to learn independently or
collaboratively, practice simulations directly in their browser, and reinforce complex topics
through live sessions and community discussion.
Key aspects covered in this project include course content centered on electronics and circuit
analysis. Community groups and messaging features for peer support. Real-time video meetings
for instructor-led sessions. A fully integrated NGSpice-based simulator for hands-on circuit
testing with the explanation of analyzing different circuits. And accessibility via both web and
mobile platforms.
The main objectives of the project are to provide a user-friendly, interactive platform tailored to
circuits and electronics education. Integrate practical simulation capabilities to complement
theoretical learning along with a detailed explanation on how to solve different circuits. Foster a
collaborative environment through course-based communities, peer-to-peer messaging, and live
meetings. Also deliver consistent learning experience across devices.
The platform was developed using Flutter for both web and mobile frontends, enabling cross-
platform deployment with a shared codebase. The backend is built with Node.js, and Firebase
powers real-time messaging and notifications. Other APIs were used to ensure efficient media
and files handling like “Cloudinary” and “SupaBase”.
While various learning platforms and online course tools exist, few focus on electronics and
circuit simulation in an integrated way. Also, software programs like Multisim or Proteus require
installation and lack social or course-based features. By combining simulation, community, and
learning management in one platform, this project fills a unique niche and offers a more
complete, hands-on learning experience for electronics and circuits students.
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SynLab IoT based electronics system
(2026) Ghassan Qasrawi; Adel Qadi
SynLab project introduces a modular, IOT based electronic laboratory platform that
merges several important digital and analog instruments into a single connected ecosystem. The
system incorporates modules like a PIC programmer, IC tester, oscilloscope, waveform generator
and many others, each is equipped with an ESP32 microcontroller for wireless connectivity and
synchronization via a centralized software interface.
This project is significantly important because traditional electronics laboratories rely on
bulky, expensive and standalone equipment, which restricts interconnectivity, accessibility and
clearness, SynLab handles these challenges by implementing a networked and scalable smart lab
which enables students and educators to execute experiments more efficiently and effectively. It
bridges the gap between modern IOT technologies and physical hardware tools which makes
laboratory experience more engaging and remotely accessible.
Main objectives of SynLab include designing and implementing an integrated digital
laboratory system with several smart instruments, developing an IOT based communication
framework that connects all modules in the system, building a software platform to allow users
control, visualize and record data from all modules at real time, and providing a powerful
extendable lab solution for developers and engineering students.
The project will be developed through an iterative modular approach where each device
and module will contain a small microcontroller with an independent ESP32-based node
connected which will communicate with each other via a central hub containing a main
microcontroller to coordinate operations and data flow. For the software side, a Flutter based
web interface, and mobile application will connect with the central hub module to manage
devices and enable users to implement different operations on each module.
Although similar ideas exist - such as USB-based IC testers or PIC programmers - but
few systems provide a complete integrated and functional laboratory environment with IOT
modular connectivity. SynLab combines multiple devices and laboratory instruments to provide a
flexible, effective and efficient educational environment.
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PackSort
(2026) Baker Razi Wael Yaeesh; Mohammad Maher Mohammad Himuni
This project presents the design and implementation of an intelligent automated sorting system
capable of categorizing packages based on multiple parameters including barcode data, color,
and physical dimensions. The system integrates an Arduino Mega as the central processing unit
with a specialized Arduino Uno for barcode processing, creating a robust distributed control
architecture.
The sorting mechanism employs a conveyor belt powered by a DC wiper motor controlled
through a BTS7960 driver module, with package diversion accomplished using servo-actuated
pusher arms. Detection subsystems include an omnidirectional barcode scanner for package
identification, TCS3200 color sensors for color recognition, ultrasonic sensors for dimensional
analysis, and IR sensors for position tracking.
A significant feature of this system is its flexible multi-mode operation, allowing sorting based
on seven different criteria combinations: size alone, color alone, barcode alone, color and size,
barcode and color, barcode and size, or all three parameters simultaneously. The system
incorporates multiple fail-safes including an emergency stop button and comprehensive error
handling protocols.
For power efficiency, the system also includes an automatic shut-off feature: if no packages are
detected on the conveyor for 2 minutes, the system powers down automatically until new
activity is detected.
Human-machine interface is provided through a keypad and LCD display for local control, while
an ESP32 microcontroller enables wireless connectivity for remote monitoring and operation via
a custom-developed Flutter mobile application. This mobile interface provides real-time
package statistics and system status updates, enhancing operational visibility.
This automated sorting solution demonstrates significant improvements in efficiency and
accuracy over manual sorting methods, with potential applications in logistics centers, postal
services, and industrial packaging facilities. The modular design allows for adaptation to various
sorting criteria and operational requirements, making it a versatile solution for modern package
handling challenges.
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Nablus Vet Care: A Unified Solution for Veterinary Operations, Client Services, and Business Management
(2026) Baker Razi Wael Yaeesh; Yousef Faed Mahmoud Salman
The Nablus Vet Care System is a comprehensive, AI-powered veterinary clinic management
platform designed to revolutionize veterinary operations through a unified web and mobile
application ecosystem. This innovative system automates essential veterinary workflows
including multi-role user management, intelligent appointment scheduling, medical record
keeping, and financial operations, providing seamless experiences for pet owners, veterinarians,
and administrative staff alike.
The platform features advanced capabilities such as AI-powered diagnostic assistance, real-time
communication with voice and chat functionality, secure payment processing via Stripe
integration, and comprehensive medical record management. With multi-language support for
English, Arabic, and Hebrew including full RTL layout capabilities, the system serves diverse
communities while maintaining cultural and linguistic appropriateness.
Built on a modern technology stack utilizing React 18 with TypeScript for web, React Native for
mobile applications, and Node.js with Express for backend services, the system incorporates
real-time features through Socket.io and Firebase push notifications. The architecture supports
five distinct user roles—Admin, Veterinarian, Receptionist, Pet Owner, and Accountant—each
with tailored interfaces and capabilities that streamline their specific workflows.
Key innovations include a 5-step appointment creation process for receptionists, AI veterinary
diagnostic support for medical professionals, blocked appointment scheduling for pet owners
with outstanding payments, and comprehensive financial management for accounting staff. The
integration of community forums, voice calling capabilities, and intelligent notification systems
fosters enhanced communication and collaboration across all stakeholders.
The implementation of the Nablus Vet Care System has demonstrated significant improvements
in operational efficiency, reduced administrative overhead, enhanced patient care through AI
assistance, and increased satisfaction among both veterinary staff and pet owners. By automating
routine tasks, providing intelligent insights, and enabling seamless multi-platform access, the
system represents a substantial advancement in veterinary practice management technology,
particularly suited for the unique needs of the Middle Eastern region while maintaining global
standards of veterinary care excellence.
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الشكل القانوني لشركة الشخص الواحد في فلسطين
(جامعة النجاح الوطنية, 2025-12-01) لانا عامر إبراهيم أبو حجلة
تعد شركة الشخص الواحد من الصيغ القانونية الحديثة التي أقرها المشرع الفلسطيني بموجب القرار بقانون رقم (42) لسنة 2021؛ وذلك استجابة لمتطلبات التطور التشريعي والاقتصادي، ولتلبية احتياجات رواد الأعمال، لتمكنهم من ممارسة نشاطهم مع التمتع بالمسؤولية المحدودة، وتمثل هذه الشركة حالة خاصة تجمع بين خصائص شركات الأموال وشركات الأشخاص، الأمر الذي يثير العديد من الإشكاليات حول طبيعتها القانونية، ومدى كفاية الضمانات المقررة لحماية دائنيها.
اعتمدت هذه الدراسة على المنهج الوصفي التحليلي، لبحث الأحكام العامة لشركة الشخص الواحد، وقد خصص الفصل الأول لهذا، في حين تناول الفصل الثاني الأحكام الخاصة التي يختص بها هذا النوع من الشركات استناداً إلى القرار بقانون رقم (42) لسنة 2021.
وقد خلصت الدراسة إلى مجموعة من النتائج والتوصيات، أبرزها أن السماح بتأسيس شركة مكونة من شريك وحيد يعد تحولاً جوهرياً في موقف المشرع الفلسطيني مقارنة بالأسس التقليدية لتأسيس الشركات، ويأتي هذا التحول انسجاماً مع التطورات التي تستهدف تشجيع الاستثمار، وأبرز ما أوصت به الدراسة
ضرورة تفعيل الدور الرقابي للإدارات المختصة في وزارة الاقتصاد الوطني عند تسجيل ومتابعة شركات الشخص الواحد، وخاصة فيما يتعلق بالتحقق من الفصل بين الذمة المالية للشركة والذمة المالية للشريك الوحيد؛ ضماناً لحقوق الدائنين.
