Student Id Card Security System Based on Advanced Encryption Standard and Rolling Code
DOI:
https://doi.org/10.59188/eduvest.v5i3.50976Keywords:
Replay Attack, Radio Frequency Identification, Advanced Encryption Standard, Near Field Communication, Rolling codeAbstract
Student identification cards (KTM) are currently vulnerable to fraudulent activities and counterfeiting, including replay attacks. KTMs have several functions, such as providing access to parking areas, lecture buildings, libraries, and student attendance systems. Replay attacks allow attackers to falsify student attendance and gain unauthorized access to campus facilities. Therefore, the main objective of this Final Project is to enhance the security of KTMs by implementing a security system based on Advanced Encryption Standard (AES) and rolling code to prevent replay attacks. The method used involves encrypting data on KTMs using the AES-128 algorithm and applying rolling code in the KTM security system. The test results show that the implementation of a security system based on AES-128 encryption and rolling code on KTMs can enhance the security and authenticity of KTMs and prevent fraudulent activities and counterfeiting, including card duplication. Thus, this Final Project provides a solution to improve KTM security and offers significant benefits for KTM users.
References
Alkalah, C. (2016). Security Analysis of Rolling Code-based Remote Keyless Entry Systems. 19(5), 1–23.
Dang, T. N., & Vo, H. M. (2019). Advanced AES algorithm using dynamic key in the internet of things system. 2019 IEEE 4th International Conference on Computer and Communication Systems, ICCCS 2019, 682–686. https://doi.org/10.1109/CCOMS.2019.8821647
Kamaludin, H., Mahdin, H., & Abawajy, J. H. (2018). Clone tag detection in distributed RFID systems. PLoS ONE, 13(3), 1–22. https://doi.org/10.1371/journal.pone.0193951
NXP Semiconductors. (2014). MF1S50yyX/V1 MIFARE Classic EV1 1K - Mainstream contactless smart card IC for fast and easy solution development (Issue September, p. 40).
Rahim, R., Lubis, S., Nurmalini, N., & Dafitri, H. (2019). Data Security on RFID Information Using Word Auto Key Encryption Algorithm. Journal of Physics: Conference Series, 1381(1). https://doi.org/10.1088/1742-6596/1381/1/012042
Simbolon, I. A. R., Gunawan, I., Kirana, I. O., Dewi, R., & Solikhun, S. (2020). Penerapan Algoritma AES 128-Bit dalam Pengamanan Data Kependudukan pada Dinas Dukcapil Kota Pematangsiantar. Journal of Computer System and Informatics (JoSYC), 1(2), 54–60.
Supriyati, dan, Pengajar Jurusan Teknik Elektro, S., Negeri Semarang Jl Soedarto, P. H., & Tembalang Semarang, S. (2019). Rancang Bangun Pengontrol Panel Listrik Menggunakan Radio Frekuensi Identifikasi (Rfid). Orbith, 14(1), 28–39.
Tulloh, A. R., Permanasari, Y., Harahap, E., Matematika, P., Matematika, F., Ilmu, D., & Alam, P. (2016). Kriptografi Advanced Encryption Standard (AES) Untuk Penyandian File Dokumen. Jurnal Matematika UNISBA, Vol 2(1), 1–8.
Widura, M. S., Purwanto, Y., & Nasution, S. M. (2015). Enkripsi Data Pada Kartu Rfid Menggunakan Algoritma Aes-128 Untuk Angkutan Umum Di Kabupaten Bandung Data Encryption on Rfid Using Aes-128 Algorithm for Public. E-Proceeding of Engineering, 2(2), 3857–3863.
Xiao, Q., Gibbons, T., & Lebrun, H. (2008). RFID Technology, Security Vulnerabilities, and Countermeasures. December.
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 Reza Syah Pahlevi Natanagara, Vera Suryani
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
