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Ita Margaretta Br Tarigan
Institut Teknologi dan Bisnis Indonesia
Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Electrical & Electronics Engineering Mechanical Engineering

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Performance Analysis of Mesh Network Implementation Using Mikrotik RouterBoard 941 in Radio Link-Based Secure Networks Riska Andian Turnip; Kitu Gea; Yoga Pramadio Purba; Rasme Kita Kaban; Sumarlin; Ita Margaretta Br Tarigan
JCEIT: Journal of Computer Engineering and Information Technology Vol. 2 No. 2 (2026): JCEIT: Journal of Computer Engineering and Information Technology (March 2026)
Publisher : Karya Techno Solusindo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64810/jceit.v2i2.53

Abstract

The increasingly rapid development of computer network technology demands a network system that is reliable, flexible, and able to adapt to dynamic environmental conditions. One of the network technologies that is currently developing is mesh networking. Mesh networking is a network topology where each node can be connected to each other directly or indirectly through other nodes. This research aims to analyze the application of the mesh networking method using the Mikrotik RouterBoard 941 device. The research method used is experimental by configuring, implementing, and testing mesh networking on the Mikrotik RouterBoard 941. The results of the research show that mesh networking can be applied to the Mikrotik RouterBoard 941 by utilizing available features, such as OLSR (Optimized Link State Routing) and WDS (Wireless Distribution System). Mesh networking is able to increase redundancy and network availability, and can adapt to changes in network topology. However, mesh networking also has several disadvantages, such as configuration complexity, routing overhead, and the possibility of bottlenecks at certain nodes. REFERENCES   Adiguna, M. A. (2022). WPA2-PSK network security analysis using penetration testing method (Case study: TP-Link Mercusys MW302R router). Anhar. (2020). Jaringan komputer dan internet. Informatika. Athailah. (2020). Bandwidth management in optimizing the use of Mikrotik routers for network connection services. Journal of Informatics, 7(2), 70–78. Brown, S. (2021). Computer network development system. McGraw-Hill. Cisco Networking Academy. (2020a). Introduction to networks: OSI model. Cisco Press. Cisco Networking Academy. (2020b). The application of virtual local area network. Journal of Electrical Engineering Innovation, 1(1), 70–80. Danniel. (2021). Comparison of IPv4 and IPv6 in building networks. International Journal of Computer Networks, 3(2), 30–40. Efendi, M. Y. (2021). Comparative analysis of 128-bit WEP and WPA wireless security methods to improve wireless security. Journal of Information Security, 5(1), 10–18. Goldsmith, A. (2020). Wireless communications. Cambridge University Press. Hamacher, V. C. (2020). Decision-making model under complex picture fuzzy Hamacher aggregation operators. Journal of Intelligent Systems, 9(8), 47–68. Harefa, M. F. (2021). User data security applications and wireless security systems using two-factor authentication and MAC address filtering. Journal of Computer Security, 4(1), 20–28. Harmayani, H., Abdilah, D., Mapilindo, M., Oktopanda, O., & Hutahaean, J. (2021). Aplikasi komputer. Yayasan Drestanta Pelita Indonesia. Heart, A. (2020). Analysis and implementation of Mikrotik router security system from Winbox exploitation, brute-force, and DoS attacks. Jurnal Media Informatika Budidarma, 4(1), 57–59. Jackson, M. (2020). Hierarchical network design-based network security system design. International Journal of Network Security, 5(8), 1–9. John, A. (2021). Analysis and application of Mikrotik RB890. Journal of Network Engineering, 2(6), 50–60. Kamila, M. (2024). Design and construction of practicum module simulation of microwave link installation on mobile systems based on virtual reality technology. Kozierok, C. M. (2021). The TCP/IP guide: A comprehensive, illustrated internet protocols reference. No Starch Press. Madcoms. (2020). Network security implementation using port blocking and port knocking methods on Mikrotik RB941. Journal of ICT: Information Communication & Technology, 5(1), 16–17. Michael, J. (2021). OSI model fundamentals. Computer Networks Journal, 1(5), 1–8. Molisch, A. F. (2021). Wireless communications (2nd ed.). Wiley. Prayoga, J. (2021). Comparison of WPA2 EAP-PSK authentication system on wireless networks using penetration testing method with fluxion tools. Journal of Cyber Security, 3(1), 1–10. Permatasari, U. S., & Widiasari, I. R. (2020). Analisis routing protokol optimized link state routing (OLSR) pada Raspberry Pi. Jurnal Teknologi Informasi (AITI), 16(2), 151–164. Primaned, A., Widyawan, W., & Kusumawardani, S. S. (2014). Unjuk kerja routing protocol OLSR pada wireless mesh network berbasis IEEE 802.11b/g. Jurnal Nasional Teknik Elektro dan Teknologi Informasi, 1(1), 8–12. Defri, E. O., Kusmaryanto, S., & Mustofa, A. (2019). Implementasi jaringan access point dengan wireless distribution system (WDS) berbasis Mikrotik. Jurnal Mahasiswa Teknik Elektro Universitas Brawijaya, 7(7). Politeknik Sawunggalih Aji. (2021). Rancang bangun wireless mesh network menggunakan routing OLSR. Jurnal Nasional Teknik Informatika, 9(2). Sofana, I. (2021). Jaringan komputer berbasis TCP/IP. Informatika. Stevens, W. R. (2020). TCP/IP illustrated (Vol. 1). Addison-Wesley. Supendar, H., & Handrianto, Y. (2017). Simple queue in resolving bandwidth management issues on the Mikrotik bridge. Bina Insani ICT Journal, 4(1), 21–30. Sutiono. (2020). Sistem keamanan jaringan. Deepublish. Tanenbaum, A. S., & Wetherall, D. J. (2020). Computer networks (5th ed.). Pearson. Wheeb, A. H., Nordin, R., Samah, A. A., & Kanellopoulos, D. (2023). Performance evaluation of standard and modified OLSR protocols. Electronics, 12(6), 1334. Widiyawati, S. (2020). Network security system firewall using port blocking and firewall filtering methods. Journal of Information Security, 5(2), 78–96. Wirano, B. (2020). Policy analysis from formulation to implementation. Deepublish.
Development of an Arduino-Based Truck Load Detection System for Bridge Safety Monitoring Delima Astuti Rambe; Dwi Anggita Ramanda; Husna Juli Gulvira; Muhammad Ilham Siregar; Meiliyani Br Ginting; Ita Margaretta Br Tarigan
JCEIT: Journal of Computer Engineering and Information Technology Vol. 2 No. 2 (2026): JCEIT: Journal of Computer Engineering and Information Technology (March 2026)
Publisher : Karya Techno Solusindo

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

The safety of bridge structures is very important to consider, especially in withstanding the weight of passing trucks. Overloading can cause structural damage that can potentially jeopardize the safety of bridge users. Therefore, a truck load weight detection system is needed that is able to monitor the load in real-time and provide early warning in the event of overloading. This research aims to design and implement an Arduino-based truck load weight detection system installed on the bridge. This system uses a load sensor (load cell) to measure the weight of passing vehicles, where the weight data is then processed by an Arduino arduiuno. The system is equipped with a wireless communication module that allows weight data to be sent directly to the control center or bridge operator. The results of system testing show that this system is able to detect the weight of truck loads with a good level of accuracy. With this system, it is expected to improve bridge safety and provide accurate information related to the distribution of loads passing over the bridge. REFERENCES  Arsyad, O. R., & Kartika, K. P. (2021). Design and build safe safety devices using Arduino-based fingerprint sensors. JATI (Student Journal of Informatics Engineering), 5(1), 1–6. Gunawan, G., & Ardiyansyah, M. R. (2023). Design and build an Arduino-based photovoltaic panel performance tester. State Polytechnic at the End of the Line. Handiko, Y. T. (2022). Design and Build a Digital Scale Model Using Load Cell Sensors and IoT-Based Scale Recording. Kartika Riyanti, K. P., Kakaravada, I., & Ahmed, A. A. (2022). An Automatic Load Detector Design to Determine the Strength of Pedestrian Bridges Using Load Cell Sensor Based on Arduino. Indonesian Journal of Electronics, Electromedical Engineering, and Medical Informatics, 4(1), 15–22. https://doi.org/10.35882/ijeeemi.v4i1.3 Kazuya, A. S., Ariyadi, T., Dasmen, R. N., & Fitriani, E. (2024). Design of Digital-Based Scales Equipped with Metal Detectors as Metal Sensors. Journal of Tambusai Education, 8(1), 14261–14277. Khristianto, W. & et al. (2022). Management Information System: The purpose of the Management Information System. In CV. Pena Persada (April Issue). Kurnia, R., Firdaus, R., Lufti, L., & Anshor, M. H. (2019). Load cell sensor automation to overcome vehicle overload. National Journal of Electrical Engineering, 8(2), 81. https://doi.org/10.25077/jnte.v8n2.666.2019 Laili, D. T., & Bahri, S. (2022). Prototype of Car Parking System Using Load Cell Sensor with Android-Based Arduino Mega 2560. Coding Journal of Computers and Applications, 8(1). Nurlaila, N., Paembonan, S., & Suppa, R. (2024). Design Arduino-based vehicle speed detection. Journal of Informatics and Applied Electrical Engineering, 12(3). Pranita, E. (2023). Automatic bridge control uses Arduino-based ultrasonic sensors. ICTEE Journal, 4(2), 13. https://doi.org/10.33365/jictee.v4i2.3143 Rachmawati, P. (n.d.). Digital Scale Simulation Design Using HX711 Sensor with Additional ESP32-Based Buzzer. Ridwan, M., Widiastiwi, Y., Zaidiah, A., Purabaya, R. H., Isnainiyah, I. N., Ardilla, Y., & Rahayu, T. (2021). Management Information Systems. Widina Publisher. Rizal-Alfariski, M., Dhandi, M., & Kiswantono, A. (2022). Automatic Transfer Switch (ATS) Using Arduino Uno, IoT-Based Relay and Monitoring. Journal of Telecommunication Systems, Electronics, Control Systems, Power Systems and Computers, 2(1), 1–8. Rustandi, A. (2020). Monitoring Current and Electrical Power with Notification System from Smartphones in Internet of Things (IoT)-Based Household Electrical Installations. Indonesian Computer University. Sibuea, S., & Saftaji, B. (2020). The design of the vehicle load monitoring system uses load cell sensor technology. Journal of Informatics and Computer Technology, 6(2), 144–156. https://doi.org/10.37012/jtik.v6i2.309 Simanjuntak, R. S. (2023). Design and build "Arduino Nano-based Earthquake Alarm Automatic Switch. Sunardi, R. A., Wijaya, S. H., Hidayat, I., & Noerdyah, P. S. (2024). Design and Build Automatic Door Locks Based on Arduino Arduiunos Using RFID and SIM900 as Security Systems. Journal of Industrial Engineering, Information Systems and Informatics Engineering, 3(1). Widharma, I. G. (2021). Arduiuno Textbook (Chapter Six). Wiguna, A. R. (2020). Analysis of how ultrasonic sensors and servo motors work using Arduino Uno arduiunos for pest control in rice fields. OSF PREPR.
Development of a Student-Centered Digital Mathematics Learning Prototype Using the ADDIE Model to Improve Conceptual Understanding Ita Margaretta Br Tarigan
JCEIT: Journal of Computer Engineering and Information Technology Vol. 2 No. 2 (2026): JCEIT: Journal of Computer Engineering and Information Technology (March 2026)
Publisher : Karya Techno Solusindo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64810/jceit.v2i2.58

Abstract

Mathematics learning in higher education still faces challenges in the form of low student conceptual understanding due to the dominance of procedural approaches and the suboptimal use of digital technology. Furthermore, there are still gaps in the development of structured, student-centered, and integrated learning designs in the form of prototype-based digital learning systems. This research aims to develop a student-centered digital mathematics learning prototype using the ADDIE model to improve conceptual understanding. This research employed a Research and Development (R&D) method with Analysis and Design stages. The results are a learning prototype design that includes learning objectives, material structure, student-centered learning strategies, digital media, student activities, and an evaluation system. The prototype is designed to support concept visualization, learning interactions, and exploration and problem-solving activities. The results indicate that the developed prototype has the potential to systematically and interactively improve the effectiveness of mathematics learning. In conclusion, this prototype can serve as the basis for developing innovative digital mathematics learning. The novelty of this research lies in the integration of the ADDIE model with a student-centered approach in the design of a comprehensive digital learning prototype. REFERENCES Anisa Ulva Wahyuni & Hasanuddin. (2025). Teknologi Digital dalam pembelajaran Matematika: Tinjauan Bibliometrik terhadap Dampaknya pada Pemahaman Konsep Matematis Siswa. Buana Matematika : Jurnal Ilmiah Matematika Dan Pendidikan Matematika, 15(1), 41–56. https://doi.org/10.36456/buanamatematika.v15i1.10341 Cevikbas, M., Greefrath, G., & Siller, H.-S. (2023). Advantages and challenges of using digital technologies in mathematical modelling education – a descriptive systematic literature review. 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Jurnal Informatika Polinema, 10(3), 413–420. https://doi.org/10.33795/jip.v10i3.5176 I Gusti Agung Trisna Jayantika & Gaudensia Namur. (2022). PERAN TEKNOLOGI PEMBELAJARAN DALAM MENINGKATKAN LITERASI DIGITAL MATEMATIKA. https://doi.org/10.5281/ZENODO.7033331 Kaban, R., Sembiring, D. J., & Tarigan, I. M. B. (2023). Monitoring System for Student Internships Using the Rapid Application Development (RAD) Method. 15(02). Neef, T., Müller, S., & Mechtcherine, V. (2024). Integrating continuous mineral-impregnated carbon fibers into digital fabrication with concrete. Materials & Design, 239, 112794. https://doi.org/10.1016/j.matdes.2024.112794 Perez, A. S., Nieto-Jalil, J. M., Chim, A. I. T., Huerta, J. M. M., & Cavazos, L. L. (2025). Scientific Research Model Applied to Mathematical Modeling and Prototype Construction. 2025 IEEE Global Engineering Education Conference (EDUCON), 1–7. https://doi.org/10.1109/EDUCON62633.2025.11016324 Sa’dijah, C., Anwar, L., Hidayah, I. R., Abdullah, A. H., & Cahyowati, E. T. D. (2024). Mathematics learning models based on local wisdom of Malang to support critical and creative thinking of secondary school students. 030025. https://doi.org/10.1063/5.0234944 Salinas, P., González-Mendívil, E., Quintero, E., Ríos, H., Ramírez, H., & Morales, S. (2013). The Development of a Didactic Prototype for the Learning of Mathematics through Augmented Reality. Procedia Computer Science, 25, 62–70. https://doi.org/10.1016/j.procs.2013.11.008 Soomro, S. A., Casakin, H., & Georgiev, G. V. (2021). Sustainable Design and Prototyping Using Digital Fabrication Tools for Education. Sustainability, 13(3), 1196. https://doi.org/10.3390/su13031196 Swist, T., Gulson, K. N., & Thompson, G. (2024). Education Prototyping: A Methodological Device for Technical Democracy. Postdigital Science and Education, 6(1), 342–359. https://doi.org/10.1007/s42438-023-00426-4 Syafril, S., Asril, Z., Engkizar, E., Zafirah, A., Agusti, F. A., & Sugiharta, I. (2021). Designing prototype model of virtual geometry in mathematics learning using augmented reality. Journal of Physics: Conference Series, 1796(1), 012035. https://doi.org/10.1088/1742-6596/1796/1/012035 Tarigan, I. M. B., Tarigan, S. J. B., & Ginting, R. B. (2024). Optimalisasi Efektivitas Program MBKM: Sistem Monitoring Berbasis Lokasi dan Analisis aktivitas dengan TF-IDF. 6(1). Tarigan, I. M., Simanjorang, M. M., & Siagian, P. (2022). Analisis Kemampuan Pemecahan Masalah Matematis Siswa Ditinjau dari Perbedaan Gender di SMP N 1 Kuta Buluh. Jurnal Cendekia : Jurnal Pendidikan Matematika, 6(3), 2984–2998. https://doi.org/10.31004/cendekia.v6i3.1791 Taufikurrahman, Budiyono, & Slamet, I. (2021). Development of mathematics module based on meaningful learning. 040032. https://doi.org/10.1063/5.0043239
Co-Authors Delima Astuti Rambe Dwi Anggita Ramanda Husna Juli Gulvira Kitu Gea Meiliyani Br Ginting Muhammad Ilham Siregar Rasme Kita Kaban Riska Andian Turnip Sumarlin Yoga Pramadio Purba