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Divisi Riset Lembaga Mitra Solusi Teknologi Informasi (L-MSTI). Jl. T Nyak Arief no 68 Lr. PBB Kopelma Banda Aceh
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Journal Dekstop Application (JDA)
Published by Research Division Lembaga Mitra Solusi Teknologi Informasi
ISSN : -     EISSN : 29619696     DOI : https://doi.org/10.59431/jda
Core Subject : Science,
Computer Science & IT
Journal Desktop Application (JDA) is a peer-reviewed journal published in June and December by the Information Technology Solutions Partner Institute (L-MSTI). JDA has the scope or field of research but is limited to the use and implementation of desktop-based software by producing various products that can run on Windows, Linux, MacOS and other operating systems and are not limited to fields such as; Information Technology, Information Systems, E-Business, Computer Science, Animation, AR/VR Applications, Games, and Interactive Media
Arjuna Subject : Ilmu Komputer (semua kategori) - Perangkat Lunak
Articles 5 Documents
 1 
Search results for , issue "Vol. 4 No. 2 (2025): December" : 5 Documents clear
Development of a Cross-Platform Application for Islamic Inheritance Distribution Calculation Using Python and Streamlit Iqbal, Taufiq; Bahruni, Bahruni; Al-Bahri, Fauzan Putraga
Journal Dekstop Application (JDA) Vol. 4 No. 2 (2025): December
Publisher : Divisi Riset, Lembaga Mitra Solusi Teknologi Informasi (L-MSTI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59431/jda.v4i2.662

Abstract

This research describes the development of a cross-platform Islamic inheritance calculation system using the Streamlit framework with Python. This study aimed to create an accessible digital tool that accurately calculates inheritance distribution according to Islamic law (faraid), as mandated in Surah An-Nisa (verses 11–12). A Research and Development (R&D) approach was employed in this research, utilizing a prototyping model, where the system was designed through several iterative stages: analysis, design, implementation, and testing. The resulting application integrated modular architecture separating business logic from user interfaces and validation layers for flexibility maintainability as well as platform independence. Testing on various scenarios confirmed 100% accuracy in calculating shares of six main heirs—husband wife father mother son and daughter validated against manual computations and computations based on fiqh. The application runs without additional installation requirements on Windows macOS Linux plus mobile browsers supported by responsive design plus real-time validation. Although the system has high accuracy plus usability it is limited to basic cases since advanced inheritance mechanisms such as aul radd or hijab are not included in this version. Future development is suggested to increase categories for heirs enable data storage provide educational content and integrate AI-assisted features for complex case analysis. In general, this study contributes to the digital transformation of Islamic law applications which promote accessibility transparency and computational precision in managing inheritances.
Ping Pong Game Implementation in C#: A Desktop Gaming Application Razormist, Razormist
Journal Dekstop Application (JDA) Vol. 4 No. 2 (2025): December
Publisher : Divisi Riset, Lembaga Mitra Solusi Teknologi Informasi (L-MSTI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59431/jda.v4i2.663

Abstract

Ping Pong: The Game is a desktop-based educational project developed in the C# programming language to illustrate the practical application of programming principles through interactive game design. The project was created within the Visual Studio environment using the .NET Framework, emphasizing object-oriented and event-driven programming approaches. Its modular structure integrates several core components, including a game engine, AI controller, collision detection system, and real-time rendering module. Designed to merge entertainment and learning, the game enables users to explore algorithmic logic, graphical rendering, and artificial intelligence behavior in an accessible and engaging context. The implementation demonstrates stable performance, responsive controls, and accurate collision handling, providing a balanced gameplay experience against an AI opponent. Results indicate that the system effectively translates theoretical programming concepts into functional interaction, reinforcing learners’ comprehension of coding, logic structuring, and software architecture. Although limited to single-player mode and fixed AI difficulty, the project provides a strong foundation for future development such as multiplayer integration, dynamic difficulty scaling, and cross-platform deployment. Overall, Ping Pong: The Game exemplifies how simple, well-structured applications can serve as effective educational tools that bridge the gap between theoretical understanding and practical programming experience.
Sales and Collection - MS Access Application: A Comprehensive Reporting and Data Management Solution Kumar, Rajan
Journal Dekstop Application (JDA) Vol. 4 No. 2 (2025): December
Publisher : Divisi Riset, Lembaga Mitra Solusi Teknologi Informasi (L-MSTI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59431/jda.v4i2.664

Abstract

This study presents the development of a Sales and Collection System designed on the Microsoft Access platform to enhance financial management efficiency in small and medium-sized enterprises (SMEs). The system integrates relational database principles, SQL-based query processing, and Visual Basic for Applications (VBA) automation to streamline sales transactions, payment tracking, and reporting. Its architecture combines modular design, normalized data structures, and a user-oriented interface that simplifies data handling and supports real-time financial monitoring. Interactive drill-down reports transform static records into analytical insights, enabling managers to evaluate performance and prioritize collection activities effectively. The system demonstrates substantial improvements in workflow efficiency, data accuracy, and decision-making by reducing manual input, minimizing errors, and consolidating financial operations within a single environment. Despite inherent limitations in scalability, platform dependency, and cloud integration, the solution remains a practical and cost-effective option for SMEs with moderate data volumes. Future enhancements may include integration with accounting and e-commerce platforms, web-based accessibility, and mobile extensions to improve flexibility and responsiveness. Overall, the project illustrates how Microsoft Access can serve as a viable foundation for data-driven business management when supported by sound design, structured development practices, and user-centered implementation.
Simple Antivirus Scanner: A Signature-Based Malware Detection System Using Delphi Alin, Antonov
Journal Dekstop Application (JDA) Vol. 4 No. 2 (2025): December
Publisher : Divisi Riset, Lembaga Mitra Solusi Teknologi Informasi (L-MSTI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59431/jda.v4i2.665

Abstract

The Simple Antivirus Scanner was developed as an instructional model to demonstrate the core mechanisms of signature-based malware detection. Implemented using Delphi, the system integrates MD5 hashing, database-driven signature comparison, and asynchronous scanning through the TBackgroundWorker component, providing both functionality and responsiveness in a Windows environment. The project’s architecture includes recursive file traversal, efficient hash computation, and a structured virus definition database that enables accurate identification of known malware. The inclusion of a harmless test virus allows for safe experimentation and validation of the detection process, reinforcing user understanding of hash-based recognition. Results show that the system performs effectively in detecting catalogued threats, offering a predictable and transparent learning experience. However, it lacks the capabilities of modern antivirus systems such as heuristic analysis, real-time protection, and automated signature updates. As a pedagogical platform, it serves as a bridge between theory and practice—illustrating file system operations, cryptographic applications, and data-driven threat identification. Future development may expand the scanner into a more comprehensive framework incorporating multi-layered detection, cloud-based updates, and AI-based classification. Ultimately, the project emphasizes clarity and accessibility, making it a valuable resource for students, educators, and cybersecurity enthusiasts seeking practical insight into antivirus design principles and malware detection logic.
Transport Management System for Africa University: A Web-Based Solution for Fleet Operations Moyo, Trust
Journal Dekstop Application (JDA) Vol. 4 No. 2 (2025): December
Publisher : Divisi Riset, Lembaga Mitra Solusi Teknologi Informasi (L-MSTI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59431/jda.v4i2.666

Abstract

Efficient transport management is essential for universities that coordinate vehicle fleets for academic and administrative purposes. At Africa University, reliance on manual systems caused delays, scheduling conflicts, and poor accountability. To address these issues, a web-based Transport Management System (TMS) was developed using ASP.NET, Visual Basic.NET, and SQL Server 2014. The system automates booking, approval, vehicle allocation, and reporting processes, providing secure access and real-time visibility for all users. Implementation of the TMS significantly improved efficiency by reducing processing time, minimizing paperwork, and enhancing coordination across departments. Automated workflows and audit trails strengthened accountability, while role-based access improved security and transparency. Users benefited from faster approvals, reliable scheduling, and accessible online services. For management, analytical dashboards enabled data-driven decisions on fleet utilization and resource optimization. Although challenges arose during implementation—such as system integration and user adaptation—ongoing training and technical support ensured successful adoption. The system’s modular structure supports future enhancements like GPS tracking, predictive maintenance, and mobile access. Overall, the TMS demonstrates how digital transformation can enhance institutional logistics, reduce operational costs, and promote sustainable management practices at Africa University.

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