Informatics Engineering

Informatics Engineering http://hdl.handle.net/123456789/59 Tue, 12 May 2026 22:44:25 GMT 2026-05-12T22:44:25Z Analisis dan Rekonstruksi Forensik Serangan DDoS pada Jaringan IPv6 Berbasis Framework Digital Forensic Framework for Reviewing and Investigating Cyber Attack (D4I) http://hdl.handle.net/123456789/62358 Analisis dan Rekonstruksi Forensik Serangan DDoS pada Jaringan IPv6 Berbasis Framework Digital Forensic Framework for Reviewing and Investigating Cyber Attack (D4I) Romadhona, Frendi Yusroni Serangan Distributed Denial of Service (DDoS) pada jaringan IPv6 menjadi ancaman serius bagi keberlangsungan infrastruktur jaringan dan proses bisnis organisasi, terutama seiring dengan peningkatan migrasi dari protokol IPv4 ke IPv6. Serangan ini berpotensi menyebabkan kelumpuhan total pada layanan jaringan melalui anomali lalu lintas dan eksploitasi protokol yang sulit dideteksi. Namun, metode investigasi forensik yang ada saat ini masih memiliki keterbatasan dalam menangani karakteristik unik serangan IPv6 secara efektif. Penelitian ini mengimplementasikan pendekatan investigasi forensik terintegrasi yang menggabungkan metode Live Forensics dengan Digital Forensic Framework for Reviewing and Investigating Cyber Attack (D4I). Metode Live Forensics diterapkan untuk melakukan akuisisi data volatil (seperti log CPU, memori, dan trafik jaringan) secara realtime tanpa mengganggu operasional sistem. Selanjutnya, Framework D4I digunakan untuk menganalisis artefak yang diakusisi tersebut melalui pemetaan Cyber Kill Chain (CKC) dan konstruksi Chain of Artifacts (CoA) guna merekonstruksi modus operandi serangan. Penelitian dilakukan melalui simulasi empat skenario serangan DDoS IPv6 (Redirect Flood, Echo Flood, TCP Connect Flood, dan Neighbour Advertisement Flood) pada lingkungan terkendali. Hasil penelitian menunjukkan bahwa metode yang diusulkan efektif dalam mendeteksi dan membedakan karakteristik serangan, baik yang menargetkan saturasi infrastruktur (router) maupun kelelahan sumber daya (resource exhaustion) pada endpoint server. Visualisasi rantai artefak berhasil membuktikan hubungan kausalitas serangan dan menyajikan laporan investigasi lengkap berbasis 5W1H. Penelitian ini memberikan kontribusi signifikan dalam penyediaan strategi forensik yang sistematis untuk mitigasi ancaman keamanan pada ekosistem jaringan IPv6. Thu, 01 Jan 2026 00:00:00 GMT http://hdl.handle.net/123456789/62358 2026-01-01T00:00:00Z Mobile Health Technology for Monitoring and Managing the Health of People with Lupus (Odapus) http://hdl.handle.net/123456789/62346 Mobile Health Technology for Monitoring and Managing the Health of People with Lupus (Odapus) Pangastuti, Diva Ivani Arista Systemic Lupus Erythematosus (SLE) is a chronic autoimmune disease requiring continuous monitoring for effective management. In Indonesia, approximately 1.7% of the adult population suffers from SLE, facing challenges such as limited access to specialists, high healthcare costs, and geographical barriers. Existing mobile health (mHealth) applications for SLE remain limited in quality, with average scores of only 2.3-2.7 out of 5 on the Mobile App Rating Scale (MARS). Currently, there is no comprehensively developed and empirically tested mHealth application specifically designed for Indonesian ODAPUS (People with Lupus) that considers the local context. This research employed a prototyping approach involving ODAPUS from the early development stages. Data collection was conducted through two Focus Group Discussions (FGDs) with 10 ODAPUS from Sahabat Cempluk Foundation and a user needs questionnaire involving 22 respondents. The LUFY (Lupus Fighter Diary) application was developed for Android using Kotlin and Firebase Realtime Database, featuring daily health recording, medication reminders, rule-based flare screening, routine check-up reminders, and SLE educational content. Usability evaluation was conducted using the System Usability Scale (SUS) with 10 respondents. Research results demonstrate successful development of the LUFY application with five main features aligned with ODAPUS needs. The rule-based flare screening algorithm analyzes symptom combinations through five hierarchical priority levels. Usability evaluation yielded an average SUS score of 88.75 out of 100 ("Excellent" category), significantly exceeding the digital health application benchmark of 68 (SD 12.5). High scores were obtained in ease of use (96% agreed, scale 4-5), low complexity (87% disagreed with complexity, scale 1-2), good feature integration (96% agreed), and high consistency (86% disagreed with inconsistency). These results indicate that the participatory approach successfully produced a user-friendly application meeting Indonesian ODAPUS needs. Thu, 01 Jan 2026 00:00:00 GMT http://hdl.handle.net/123456789/62346 2026-01-01T00:00:00Z Pengembangan Aplikasi Sistem Pertanian Cerdas Berbasis Mobile http://hdl.handle.net/123456789/62339 Pengembangan Aplikasi Sistem Pertanian Cerdas Berbasis Mobile Adhi, Nurandra Satya Sektor pertanian merupakan salah satu penopang utama ketahanan pangan dan perekonomian nasional, namun hingga saat ini masih dihadapkan pada sejumlah permasalahan, antara lain tingkat produktivitas yang belum optimal, pemanfaatan teknologi yang terbatas, serta rendahnya literasi digital di kalangan petani. Perkembangan teknologi digital, khususnya perangkat mobile dan Internet of Things (IoT), membuka peluang penerapan konsep pertanian cerdas yang lebih efektif, efisien, dan berbasis data. Penelitian ini bertujuan merancang dan mengembangkan aplikasi Sistem Pertanian Cerdas berbasis mobile yang terintegrasi dengan teknologi IoT untuk memantau kondisi lingkungan pertanian secara waktu nyata. Aplikasi ini dirancang dengan antarmuka yang sederhana agar mudah digunakan oleh petani dalam memantau parameter lingkungan, meliputi kelembapan tanah, suhu udara, serta intensitas cahaya. Metode pengembangan yang diterapkan adalah metode Prototype, yang menekankan keterlibatan pengguna secara aktif melalui tahapan pengumpulan kebutuhan, perancangan sistem, evaluasi, dan penyempurnaan. Aplikasi dikembangkan menggunakan Flutter sebagai antarmuka pengguna dan Firebase sebagai layanan backend. Pengujian sistem dilakukan melalui black box testing untuk menjamin fungsi aplikasi berjalan dengan baik, serta System Usability Scale (SUS) untuk menilai tingkat kegunaan. Hasil penelitian menunjukkan bahwa aplikasi mampu menampilkan data sensor secara real-time, menyajikan informasi dalam bentuk grafik, serta memberikan notifikasi terkait kondisi lahan pertanian. Evaluasi usability menggunakan metode SUS menghasilkan skor sebesar 86, yang mengindikasikan bahwa aplikasi memiliki tingkat kegunaan yang sangat baik dan dapat diterima oleh pengguna. Dengan demikian, aplikasi ini berpotensi membantu petani dalam pengambilan keputusan serta meningkatkan efisiensi pengelolaan pertanian. Thu, 01 Jan 2026 00:00:00 GMT http://hdl.handle.net/123456789/62339 2026-01-01T00:00:00Z Development of A Cloud-based School Management Information System Using Google App Script at SD Muhammadiyah Kadisoka http://hdl.handle.net/123456789/62313 Development of A Cloud-based School Management Information System Using Google App Script at SD Muhammadiyah Kadisoka Zhafran, Helga Parama Many schools in Indonesia continue to face obstacles in adopting digital administration systems due to limited infrastructure, financial constraints, and the absence of technical personnel. Consequently, daily operations often rely on fragmented paper records, offline spreadsheets, or government reporting platforms that do not support routine academic workflows. To address these limitations, this research designs and validates a cloud-based School Management Information System specifically for SD Muhammadiyah Kadisoka. The system uses a serverless architecture built on the Google ecosystem (Google Apps Script, Google Sheets, and Google Drive) to ensure zero-cost execution and minimal maintenance. Key features include role-based user management, automatic grade conversion, automatic unique-ID generation, document upload and archiving, dashboard visualizations, and automated WhatsApp notifications via the Wablas API which remove repetitive manual steps and reduce opportunities for human error. The study documents a specific platform limitation: Google Apps Script and Sheets impose execution time and concurrency quotas that affect long-running or highly concurrent operations; these constraints are technical platform limits (not limitations of the WhatsApp gateway) and are discussed with concrete mitigations. System validation employed black-box testing and the System Usability Scale (SUS) with 13 stakeholders, including administrators, teachers, and student guardians. Functional testing confirmed a 100% success rate across all specifications. The SUS evaluation yielded an average score of 74.77, indicating "Good" usability. Notably, internal school staff reported higher satisfaction (81.6) compared to guardians (72.75), highlighting the effectiveness of the system for administrative tasks while suggesting a need for user guidance for parents. The findings demonstrate that a serverless Google-based solution delivers a reliable, scalable, and affordable management system, providing a practical model for resource-constrained schools to streamline administration without requiring local servers. Wed, 01 Jan 2025 00:00:00 GMT http://hdl.handle.net/123456789/62313 2025-01-01T00:00:00Z