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International Journal of Smart Systems
Published by Etunas Sukses Sistem
ISSN : -     EISSN : 29865263     DOI : -
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Electrical & Electronics Engineering Industrial & Manufacturing Engineering
International Journal of Smart Systems with eISSN: 2986-5263 is a peer-reviewed journal as a media for publishing research results that support the development of cities, villages, sectors, and other systems. The International Journal of Smart Systems is published by Etunas Suskes Sistem and is published every three months (February, May, August, and November). This journal is expected to be a forum for the publication of research results from practitioners, academics, and related interested parties. The scope of the system discussed is attached but not limited; Smart System System engineering Artificial Intelligence (AI) Technology Machine Learning & Deep Learning Internet of Things Big data Computer Vision Natural Language Processing Smart city security Smart infrastructure Smart Health Smart Education Robots process automation (RPA) etc.
Arjuna Subject : Ilmu Komputer (semua kategori) - Ilmu Komputer (Lain-Lain)
Articles 5 Documents
 1 
Search results for , issue "Vol. 1 No. 3 (2023): August" : 5 Documents clear
Optimizing Household Energy Consumption Using Numerical Approaches to Reduce Costs and Environmental Impacts Saluky; Fathimah , Aisya
International Journal of Smart Systems Vol. 1 No. 3 (2023): August
Publisher : Etunas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63876/ijss.v1i3.14

Abstract

In an effort to face the challenges of increasing global energy consumption and its environmental impacts, optimizing energy use in the household sector is one of the important solutions. This article proposes a numerical approach to optimize household energy consumption with the aim of reducing costs and environmental impacts. Through mathematical modeling and simulation, this method evaluates the energy use of household electrical devices, and analyzes efficient energy consumption patterns. The results of the study show that the implementation of this optimization strategy can reduce energy costs by up to 20% and reduce carbon emissions, thus supporting environmental sustainability. This approach can be applied by both urban and suburban households, making a significant contribution to green energy initiatives and national energy-saving policies.
Bacterial Population Growth Model with Runge-Kutta Method: Bacterial Population Growth Model with Runge-Kutta Method Ditha Pertiwi, Ratu Hindi; della Puspa, Rani
International Journal of Smart Systems Vol. 1 No. 3 (2023): August
Publisher : Etunas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63876/ijss.v1i3.23

Abstract

The bacterial population growth model is one way to understand the dynamics of microorganisms under various environmental conditions. This study aims to model the growth of bacterial populations using the Runge-Kutta method as a numerical approach to solve differential equations describing growth rates. This method was chosen because of its high accuracy in predicting the solution value at a given time interval compared to other numerical methods. In this study, a logistics model was applied that considered factors such as environmental capacity and the intrinsic growth rate of bacteria. The initial population data and model parameters were processed using the fourth-order Runge-Kutta method, which was then validated with analytical solutions or simulations based on experimental data. The results of the analysis show that this method is able to predict bacterial growth patterns with minimal error rates. In addition, this method is also flexible to be applied to scenarios with variable parameters, such as environmental changes or the influence of antibiotics. The conclusions of this study show that the Runge-Kutta method is an effective tool for modeling the dynamics of bacterial growth, providing a more accurate picture of population changes over time. These findings have the potential to support the development of strategies in various fields, such as biotechnology, waste treatment, and microorganism infection control. Further research is recommended to integrate other external factors to improve the accuracy of the model.
Modeling the Movement of Autonomous Vehicles with the Euler Method Fadila Akmalia Wardani; Rifka Khairunisa; Dede Setiawan, Dede Setiawan
International Journal of Smart Systems Vol. 1 No. 3 (2023): August
Publisher : Etunas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63876/ijss.v1i3.31

Abstract

The development of autonomous vehicle technology has brought about a revolution in transportation systems, presenting solutions for efficiency, safety, and comfort. One of the main challenges in the development of autonomous vehicles is accurate motion modeling to understand and predict vehicle dynamics in various conditions. This article discusses the application of the Euler Method, a simple but effective numerical method, to model the movement of autonomous vehicles. This method is used to solve differential equations that describe the dynamics of the vehicle, including acceleration, speed, and position based on the input of the control system. Modeling is done through a discrete approach, where changes in variable values are calculated at small time intervals. This study evaluates the performance of the method in various scenarios, such as straight trajectories, sharp turns, and sudden stop situations, which are often encountered by autonomous vehicles in the real world. The simulation was carried out using MATLAB software to visualize the dynamics of movement and analyze the accuracy of the prediction results. The results show that the Euler Method is able to produce fairly accurate modeling on simple scenarios, although there are limitations in dealing with more complex dynamics due to the linear nature of this method. Therefore, further development with more sophisticated numerical methods, such as the Runge-Kutta Method or adaptive algorithms, is needed to improve accuracy on more complex scenarios. This article makes a significant contribution in providing technical and practical references for researchers and developers in optimizing more reliable and efficient autonomous vehicle systems.
Security Analysis of the VoIP (Voice Over Internet Protocol) System wulan, alya; Rahman, Rakhmadi; Desvi
International Journal of Smart Systems Vol. 1 No. 3 (2023): August
Publisher : Etunas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63876/ijss.v1i3.69

Abstract

Voice over Internet Protocol (VoIP) is a communication technology that enables voice transmission over IP-based networks, offering advantages such as cost efficiency, flexibility, and service integration. Despite its benefits, VoIP faces significant security vulnerabilities due to its open architecture and dependence on public internet infrastructure. This study presents a literature-based analysis of the primary security threats targeting VoIP systems, including eavesdropping, Denial of Service (DoS) attacks, spoofing, session hijacking, and Network Address Translation (NAT) traversal problems. The research also discusses a range of countermeasures, including Secure Real-time Transport Protocol (SRTP), Transport Layer Security (TLS), Intrusion Detection and Prevention Systems (IDS/IPS), adaptive firewalls, and robust authentication protocols such as STIR/SHAKEN. While these technical solutions are effective, their success depends on proper implementation and continuous system monitoring. Although there may be minor trade-offs in performance, particularly in latency, such compromises are acceptable under global standards to ensure secure communication. The findings underscore the importance of a layered security strategy that maintains both protection and Quality of Service (QoS), making VoIP a dependable solution for critical sectors such as government, finance, and business.
The Role of AI-Powered Analytics in Building a Human-Centered Smart Campus Delgado, Samantha Joyce; Panganiban, Nathaniel Joseph; Robles, Kimberly Anne
International Journal of Smart Systems Vol. 1 No. 3 (2023): August
Publisher : Etunas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63876/ijss.v1i3.81

Abstract

The rapid digital transformation of higher education has accelerated the adoption of smart campus technologies integrating artificial intelligence (AI), Internet of Things (IoT), and cloud computing. While existing initiatives often emphasize operational efficiency and infrastructure optimization, limited attention has been given to building human-centered smart campuses that prioritize student engagement, well-being, and academic success. This study investigates the role of AI-powered analytics in shaping adaptive, inclusive, and student-focused campus ecosystems, with an observational study conducted at De La Salle University (DLSU), Manila, Philippines. AI-driven analytics were deployed to process multi-source datasets, including IoT-enabled classroom sensors, learning management system (LMS) activity logs, and student survey feedback. The system generated predictive insights to identify at-risk learners, support personalized learning pathways, and recommend interventions for improved academic outcomes. Preliminary findings from the DLSU pilot revealed a 19% increase in course participation and a 12% reduction in dropout risk among vulnerable student groups. Additionally, real-time analytics enhanced campus services by optimizing space utilization, energy efficiency, and scheduling flexibility, indirectly improving student comfort and productivity. The results suggest that AI-powered analytics extend the smart campus paradigm beyond efficiency, enabling higher education institutions to foster human-centered learning environments that integrate inclusivity, well-being, and sustainability. By demonstrating how data-driven systems can support both academic and non-academic aspects of student life, this research positions AI as not only a technological enabler but also a catalyst for equitable and student-centered digital transformation in higher education.

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