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All Journal Sistemasi: Jurnal Sistem Informasi Journal of Internet and Software Engineering JuTISI (Jurnal Teknik Informatika dan Sistem Informasi)
Nur Rohman Rosyid
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Computer Science & IT Electrical & Electronics Engineering

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Malware Detection on Local Network based on Honeypot and Yara Nur Rohman Rosyid; Budi Bayu Murti; Brama Prayudha; Arul Ferian Ramadloni; Lukman Subekti
Sistemasi: Jurnal Sistem Informasi Vol 12, No 1 (2023): Sistemasi: Jurnal Sistem Informasi
Publisher : Program Studi Sistem Informasi Fakultas Teknik dan Ilmu Komputer

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32520/stmsi.v12i1.2432

Abstract

The malware threats have never subsided, even the trend shows an increase and varies along with the development of hardware and software technology. End user may not realize if their machine is compromised by malware. It could be the anti-malware mechanism is not working properly, such as the anti-virus is not updated or there is a zero-day attack. Therefore, it is necessary to detect the presence of malware on  end-systems devices or  the existence of zero-day attack in the local network. Implementation of honeypot as a security sensor that collects malware attack data in the form of malware files and malware hashes can be used as signatures for scanning and detecting malware. This research utilizes a honeypot as a security sensor to catching malware. The malware hash from the honeypot is used to scanning and detecting the presence of malware on the end-system in a local network such as a PC or server. Furthermore, Yara helps clarify the type of malware found by scanning suspected files. The results of scanning and detecting of malware by Yara will be reported to the appropriate authorities via Telegram application channles. This research contributes by providing early warning of potential security threats to the network and collecting hash code of recently malware attacking to the network.Keywords: Honeypot, Malware, Yara, Proactive Security.
Implementasi Fault Management (Manajemen Kesalahan) Pada Network Management System (NMS) Berbasis SNMP Yuli Sholikatin; Nur Rohman Rosyid
Jurnal Teknik Informatika dan Sistem Informasi Vol 3 No 2 (2017): JuTISI
Publisher : Maranatha University Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.28932/jutisi.v3i2.678

Abstract

The use of computer network technology to meet the needs of information quickly and diverse, resulting in the increasingly widespread and increasing complexity of a computer network. Therefore, we need a supporting facility to be able to supervise the network element that is by using Network Management System (NMS). The NMS model established by ISO includes 5 conceptual areas, there are Fault, Configuration, Accounting, Performance and Security Management (FCAPS). One area that will be implemented in this research is Fault Management. The mechanism that will be used for error management is by detecting the occurrence of errors and sending notifications via email when the error appears, then logging report and make a diagnosis and to further recommend the solution to the error. The type of error reported in this system is errors when there is a failure of connectivity on the network device, errors due to services that are not running and not in accordance with the request, errors when high RAM usage, CPU load increases and the use of hard drives which started full. From the research results obtained, built NMS can send error notification and give solution recommendation via email to the network admin so if there is a network error, Fault Management activities can be done as early as possible so that the problem does not result in the deterioration of network quality. Kata kunci--Network Management; NMS; Fault Management; SNMP; System Information 
Pengembangan Sistem Kontrol Pengisian Daya Mobil Listrik Berbasis Aplikasi Web dan IoT Permana, Rafli Rajendra; Nur Rohman Rosyid
Journal of Internet and Software Engineering Vol 6 No 2 (2025): Journal of Internet and Software Engineering
Publisher : Department of Electrical Engineering and Informatics, Vocational College, Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/jise.v6i2.19383

Abstract

Penggunaan kendaraan listrik di Indonesia telah mengalami peningkatan signifikan, dengan kenaikan penjualan mobil listrik sebesar 39,91% pada Mei 2024 dibandingkan tahun sebelumnya. Kenaikan ini mendorong berkembangnya infrastruktur pendukung, termasuk charging station di kota-kota besar. Sementara banyak charging station telah beralih ke sistem otomatis, beberapa fasilitas masih dioperasikan secara manual yang membutuhkan bantuan teknisi setelah pembayaran, sehingga kurang efisien dibandingkan sistem self-service. Penelitian ini menyajikan pengembangan sistem token berbasis IoT dengan fungsi timer otomatis untuk charging station kendaraan listrik. Arsitektur sistem mengintegrasikan microcontroller ESP32 dan sensor arus SCT-013 untuk deteksi penggunaan, dikombinasikan dengan aplikasi web berbasis Laravel Framework sebagai antarmuka pengguna dan protokol MQTT untuk komunikasi perangkat-aplikasi. Pengujian menunjukkan keberhasilan integrasi antara perangkat IoT dan aplikasi web, dengan sistem token yang memungkinkan penggunaan berulang dalam rentang waktu 24 jam hingga durasi yang dialokasikan habis. Timer otomatis aktif ketika deteksi arus melebihi 0,5 A dan berhenti sementara saat arus turun di bawah 0,3 A. Kemampuan pemantauan real-time dicapai melalui antarmuka yang tersinkronisasi antara charging station dan sistem monitoring, memastikan pelacakan penggunaan dan pembaruan status sistem yang akurat.
Co-Authors Arul Ferian Ramadloni Brama Prayudha Budi Bayu Murti Lukman Subekti Permana, Rafli Rajendra Yuli Sholikatin