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Systematic Literature Review terhadap Kinerja Jaringan pada Arsitektur Software Defined Networking (SDN): Indonesia Riska Andini; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2354

Abstract

The increasing complexity of modern computer networks requires flexible, efficient, and manageable network architectures. Software Defined Networking has emerged as a networking paradigm that separates the control plane from the data plane, enabling centralized and dynamic network management. This study aims to analyze network performance in SDN architecture using a Systematic Literature Review (SLR) approach. The methodology follows the PRISMA framework to ensure a systematic and transparent literature selection process. Relevant studies were collected from major scientific databases and analyzed based on performance parameters, including throughput, latency, jitter, and scalability. The results indicate that SDN implementation improves throughput by 20%–84.6% with an average of 53.2%, reduces latency by 15%–39.3% with an average of 27.4%, reduces jitter by 10%–31.5% with an average of 18.8%, and improves scalability by 18%–42% with an average of 29.6%. Routing optimization and programmable data plane approaches contributed the most to throughput improvement, while machine learning-based approaches were more effective in reducing latency and optimizing network traffic adaptively. However, no single approach can be considered universally optimal, as effectiveness depends on the implementation context. Furthermore, the dominance of simulation-based studies highlights the need for further validation in real-world network environments. This study provides a comprehensive synthesis to support SDN performance optimization strategies and future research directions.
Analisis Literatur Strategi Handover pada Infrastruktur Telekomunikasi Berbasis Multi-Radio Access Technology Zahra Haiva Meydina; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2362

Abstract

The evolution of telecommunication networks toward 5G and Beyond 5G (B5G)/6G introduces new challenges in mobility management, particularly in the handover process within Multi-Radio Access Technology (Multi-RAT) environments. This study aims to comprehensively analyze handover strategies developed for heterogeneous networks. The method employed is a Systematic Literature Review (SLR) using the PRISMA approach on reputable international journal publications from 2020 to 2026. The results indicate that AI/ML-based methods are capable of reducing latency by approximately 30–50% and decreasing handover failure by 40–60% compared to traditional methods. In addition, hybrid approaches demonstrate improved performance with latency reductions of up to 50–70%, while dual connectivity is able to reduce handover interruption time by more than 95% and decrease latency by approximately 50%. MEC-based approaches have also been proven to improve network efficiency through latency reductions of around 20–40%.
Perkembangan Konsep Open Radio Access Network (O-RAN) dalam Arsitektur Jaringan Seluler Modern: Tinjauan Literatur Taura Ramadhani; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2363

Abstract

The development of cellular networks toward 5G and 6G introduces new challenges related to flexibility, efficiency, and interoperability in the Radio Access Network (RAN) architecture. Traditional RAN architectures, which are monolithic and proprietary in nature, are considered insufficient to meet the increasingly complex demands of modern communication networks. Therefore, the concept of Open Radio Access Network (O-RAN) has emerged as a solution through an open, distributed, and virtualization-based approach. This study aims to examine the development of the O-RAN concept in modern cellular network architectures using a literature review method with a qualitative approach. The research data were obtained from 10 reputable international journals published between 2020 and 2025 and analyzed using descriptive, comparative, and critical approaches. The results show that O-RAN represents a significant evolution from previous RAN architectures by improving network flexibility and interoperability through the implementation of open interfaces and the multi-vendor concept. The integration of supporting technologies such as Software Defined Networking (SDN), Network Function Virtualization (NFV), and Artificial Intelligence/Machine Learning (AI/ML) also enhances network efficiency, automation, and adaptive capabilities in real-time. Furthermore, several implementation studies indicate that O-RAN is capable of delivering competitive network performance while supporting deployment flexibility for 5G networks and future 6G development. However, the implementation of O-RAN still faces several challenges, including system integration complexity, interoperability among vendors, high computational requirements, and network security issues. This study contributes a comprehensive literature synthesis regarding the evolution, supporting technologies, implementation challenges, and future development directions of O-RAN in modern cellular networks. The findings are expected to serve as a reference for developing more open, flexible, adaptive, and sustainable cellular network architectures.
Systematic Literature Review terhadap Keamanan dan Otomatisasi pada Intent-Based Networking: Indonesia Wisra Yandi; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2371

Abstract

The increasing complexity of modern computer networks requires network management systems that are more automated, flexible, secure, and adaptive. Intent-Based Networking (IBN) has emerged as a network management approach that enables user requirements to be translated into automated network configurations based on high-level intents. This study aims to analyze research developments related to security and automation in Intent-Based Networking using the Systematic Literature Review (SLR) method. The research methodology follows the PRISMA 2020 framework to ensure a systematic and transparent literature selection process. Relevant studies were collected from several international scientific databases, including IEEE Xplore, ScienceDirect, SpringerLink, Google Scholar, and ACM Digital Library during the 2021–2026 period. The results show that IBN implementation improves network management efficiency through automated configuration, real-time network monitoring, and network service optimization based on Artificial Intelligence (AI). The integration of Software Defined Networking (SDN), Machine Learning, and security orchestration also supports the development of more adaptive and intelligent networks. However, IBN implementation still faces several challenges, such as intent manipulation, policy translation errors, increased attack surface, and the complexity of integrating network automation systems. This study provides a comprehensive synthesis of security and automation developments in Intent-Based Networking and can serve as a reference for developing more secure, flexible, and adaptive automated networks in the future.
STUDI LITERATUR ANALISIS PENGARUH KEPADATAN PENGGUNA TERHADAP RSRP, SINR, THROUGHPUT PADA JARINGAN 5G DI AREA URBAN Nurwahid Fil Qodri; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2377

Abstract

The rapid development of cellular communication technology demands networks with high capacity, low latency, and optimal service quality, particularly in urban areas with high user density. 5G networks have emerged as a solution to meet these demands by offering improved speed and network efficiency. However, the performance of 5G networks is still influenced by the number of users connected within a cell. The main parameters used to measure network quality include Reference Signal Received Power (RSRP), Signal to Interference plus Noise Ratio (SINR), and throughput. This study aims to analyze the effect of user density on these three parameters in 5G networks in urban areas. The research method used is a qualitative approach through a literature review by examining various relevant scientific journals, conference proceedings, and academic publications. Data collection was conducted through documentation study, while data analysis employed a descriptive qualitative method. The results show that user density has different impacts on each network parameter. RSRP tends to remain stable and is more influenced by environmental factors, while SINR decreases due to increased interference. Throughput is the most affected parameter due to the sharing of network resources. Overall, an increase in user density leads to a decline in the quality of 5G networks in urban areas.
Tinjauan Pustaka Perkembangan Sistem Monitoring Jaringan Berbasis Open Source: Studi Kasus Zabbix dan Uptime Kuma Siti Aisyah Aliyah; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2444

Abstract

The increasing complexity of network infrastructure requires monitoring systems capable of maintaining service availability and detecting disruptions quickly. Various open-source network monitoring platforms have been widely adopted, including Zabbix and Uptime Kuma. This study aims to analyze the development and characteristics of these two platforms through a literature review approach. Research data were collected from relevant scientific journal articles published between 2022 and 2026. The analysis was conducted by comparing several aspects, including monitoring mechanisms, feature capabilities, implementation complexity, and notification systems provided by each platform. The results indicate that Zabbix offers more comprehensive monitoring capabilities by providing real-time monitoring of network and server resources as well as historical performance analysis. In contrast, Uptime Kuma provides easier deployment, lower resource consumption, and effective service availability monitoring with real-time notification support. The development of open-source network monitoring systems demonstrates a trend toward solutions that are more flexible, easier to implement, and more responsive to network failures. The findings of this study are expected to serve as a reference for network administrators in selecting monitoring platforms that best suit their operational requirements and infrastructure characteristics.
Integrasi ESP32-CAM WROVER dan Radar LD2410C untuk Klasifikasi Manusia dan Hewan Berbasis Edge Impulse Shalma Zopi Habibah; Yulindon Yulindon
JURNAL ILMIAH PENELITIAN MAHASISWA Vol 4 No 3 (2026): JUNI
Publisher : Kampus Akademik Publiser

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jipm.v4i3.2497

Abstract

This study aims to design and implement a human and animal classification system based on ESP32-CAM WROVER and LD2410C radar sensor, supported by Edge Impulse and integrated with the Telegram Bot API. The system operates in real-time, utilizing image data from the camera and presence data from the radar to improve classification accuracy. Data collection was conducted directly at the testing site to ensure the model adapts to real environmental conditions. The implementation results show that the integration of camera and radar successfully overcomes the limitations of camera-only systems, particularly under low-light conditions. Furthermore, the use of Telegram as a communication medium provides practical remote monitoring without additional applications. This system demonstrates strong potential for applications in smart homes, security, and wildlife monitoring with low cost and high flexibility.
Design of Rectangular Patch Microstrip Antenna with Rectangular Slot on 2.4 GHz Ground plane for Wifi Application Gebriola Permata Isra; Nasrul Nasrul; Yulindon Yulindon
International Journal of Wireless And Multimedia Communications Vol. 1 No. 1 (2024): International Journal of Wireless And Multimedia Communications
Publisher : Politeknik Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62671/jowim.v1i1.3

Abstract

This research aims to design a rectangular patch microstrip antenna design with rectangular slots on the 2.4 GHz ground plane for Wi-Fi applications using CST Studio Suite 2019 software and antenna measurements using Vector Network Analyser. Some of the antenna parameters produced are return loss, bandwidth, VSWR, radiation pattern, and gain.  This antenna has a rectangular patch shape and has a ground plane that has a rectangular slot. The antenna is designed on a circuit board (PCB) with a permittivity of 4.6 and a thickness of 1.6 mm. The antenna is designed based on the characteristics of several antenna parameters, namely having a return loss-10 dB gain value ≥1 dB, and VSWR < 2 dB. After several simulations, the results at a frequency of 2.4 GHz obtained a return loss value of -14.84 dB, a bandwidth of 53 MHz, a VSWR value of 1.442, a gain of 2.063 dbi, and has a Unidirectional radiation pattern. The measurement of the fabricated microstrip antenna using a Vector Network Analyser shows a return loss value of -11.68 dB, and a VSWR of 1.747 dB.
Design and Build of a Blynk-Based Automatic Cat Food and Drinking Water Dispenser Gus Erniati Ani; Firdaus B; Yulindon
International Journal of Wireless And Multimedia Communications Vol. 1 No. 1 (2024): International Journal of Wireless And Multimedia Communications
Publisher : Politeknik Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62671/jowim.v1i1.11

Abstract

Abstract — There are many people who like to keep cats. When keeping cats, the things you need to pay attention to are eating and drinking so that the cat's health is maintained. As it should be, food and drinking water must be given according to the dosage. However, if the cat owner is outside the house, it will make it difficult for the owner to feed and drink it. Through this final project, cats can eat and drink at any time by implementing the Internet of Things called an automatic dispenser. Automatic food and drinking water dispenser uses NodeMCU8266, 2 servo motors, 2 ultrasonic sensors, HX711 load cell and Blynk software. The Blynk software functions to display the on/off switch, the distance the cat is approaching, the amount of food and drinking water available in the cat food and drinking water dispenser which is connected via nodeMCU8266 which can be accessed on the cat owner's smartphone. If the food and drinking water is less than capacity, a notification will immediately appear on the cat owner's smartphone and email.
International Design and Development of a 1x4 Microstrip Monopole Antenna Array at 5 GHz U-NII-2A Bands (5150 - 5350 MHz) For Wireless Fidelity Devices Sandya Firstha Nofianti; Yulindon Yulindon; Sahid Ridho; Rezky Cahaya Nabila
International Journal of Wireless And Multimedia Communications Vol. 3 No. 1 (2026): International Journal of Wireless And Multimedia Communications
Publisher : Politeknik Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62671/jowim.v3i1.183

Abstract

High-fidelity antennas are necessary due to the quick advancement of wireless communication technology, particularly for Wireless Fidelity (Wi-Fi) networks. Low antenna gain and a short signal range are two issues that frequently arise in Wi-Fi networks and can degrade the quality of data transmission. Consequently, an antenna design that can increase the overall system fidelity is required, particularly in the 5 GHz frequency band that is frequently utilized by Wi-Fi modem devices. This final project involves designing and developing a 1x4 microstrip monopole antenna array for Wireless Fidelity (Wi-Fi) devices that operate at the 5 GHz U-NII-1 and U-NII-2A bands (5150–5350 MHz). In order to facilitate Wi-Fi data transmission, this design aims to create an antenna with a higher gain, denser bandwidth, and appropriate radiation coverage. CST Studio Suite 2019 software was used to carry out the design on an FR4 substrate that was 1.6 mm thick and had a dielectric constant of 4.3. A Vector Network Analyzer (VNA) was then used to simulate, optimize, fabricate, and measure the design. With a simulated return loss of -51 dB, a VSWR of 1, and a bandwidth of 1 GHz with a bidirectional radiation pattern, the simulation and measurement results of the antenna demonstrate good performance. According to the measurement results, the bandwidth is 1.1 GHz, the VSWR is 1.2, and the return loss is -20 dB. The simulation and fabrication results demonstrate good suitability and conform to the requirements for creating Wi-Fi microstrip antennas.