Article Per Year (5 Year)
p-Index From 2021 - 2026
1.407
P-Index
This Author published in this journals
All Journal International Journal of Science Education and Cultural Studies International Journal of Management Science and Application Jurnal Komputer dan Elektro Sains Jurnal Pengabdian Masyarakat Sultan Indonesia
Budi wibowo
Institut Teknologi Budi Utomo Jakarta
Religion Humanities Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Languange, Linguistic, Communication & Media Social Sciences Other

Published : 9 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 9 Documents
Search

 1 
Designing a Water Temperature control and Monitoring System for Vaname Shrimp cultivation based on the Internet of Things ( IoT ) Suka Hermawan; Santi Rahmawati; Qhansa Aditia; Budi Wibowo; Andrie Yuswanto
Jurnal Komputer dan Elektro Sains Vol. 1 No. 1 (2023): Komets
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/komets.v1i1.96

Abstract

Vannamei shrimp cultivation (Litopenaeus Vannamei) is one of the rapidly growing industries in fisheries. Optimal water quality, including the appropriate water temperature, is a crucial factor in maintaining the growth and health of vannamei shrimp. Therefore, this research aims to design and implement a monitoring and water temperature control system using a microcontroller in vannamei shrimp cultivation. The research method involves the development of a system prototype consisting of water temperature sensors, microcontrollers, and temperature control modules. The water temperature sensor is used to measure the water temperature in the vannamei shrimp cultivation pond, while the microcontrollers are responsible for acquiring temperature data from the sensor and controlling the temperature control modules based on predetermined parameters. The research results show that the monitoring and water temperature control system using microcontrollers can accurately measure the water temperature with high precision. The obtained temperature data can be displayed in real-time through the microcontroller's screen or accessed via computer-based applications. Moreover, the system is also capable of adjusting the temperature according to the setpoint, utilizing LEDs lights (red, green, yellow) US indicators for activating and deactivating the heating and cooling device. in field trials, this system was implemented in vannamei shrimp cultivation ponds of a specific size.
Cyber Resilience to Digital Threats for Education Institutions 4.0 Budi Wibowo; Andrie Yuswanto; Taufik Hidayat; Nadim Ibrahim
International Journal of Management Science and Application Vol. 4 No. 1 (2025): IJMSA
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/ijmsa.v4i1.370

Abstract

The emergence of Education 4.0, characterized by personalized learning, smart technologies, and digital interconnectivity, has revolutionized academic environments. However, this digital transformation has simultaneously increased the exposure of educational institutions to sophisticated cyber threats. This research addresses the pressing need for a robust cyber resilience framework tailored to the education sector. Employing a qualitative descriptive methodology, supported by secondary data analysis and case study reviews, the study identifies core vulnerabilities in digital infrastructure, policy shortcomings, and a general lack of cybersecurity awareness among stakeholders. In response, the paper proposes a contextualized cyber resilience framework grounded in layered security principles, zero-trust architecture, and institution-wide digital hygiene initiatives. Key findings indicate that effective cyber resilience in Education 4.0 must be multidimensional, incorporating stringent policy enforcement, continuous digital skills training, and adaptive technological strategies. The primary contribution of this study lies in offering a practical, scalable framework that aligns cybersecurity practices with the evolving demands of digital education. Future research is encouraged to explore real-time implementation metrics, cross-institutional collaborations, and the integration of AI-driven threat detection systems to further strengthen educational cyber resilience.
Enhancing Network Security and Performance using DNS Sinkhole and QoS: A Practical ISO/IEC 27001:2022 Implementation Budi Wibowo; Taufik Hidayat; Andrie Yuswanto; Aji Nurrohman
International Journal of Management Science and Application Vol. 4 No. 2 (2025): IJMSA
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/ijmsa.v4i2.421

Abstract

This study aims to design and validate a low-cost network security model based on open-source solutions by integrating Pi-hole and Quality of Service (QoS) as a technical implementation of ISO/IEC 27001:2022 controls for resource-constrained organizations. The implementation results demonstrate a significant improvement in security posture by blocking 14.1% of malicious and irrelevant DNS queries, while simultaneously enhancing network performance by reducing critical application latency by 45%. The key advantage of this model lies in its cost efficiency and its dual benefits of improved security and optimized performance within a single framework. However, the study also identifies limitations, particularly the potential for false positives that require manual whitelist management and reliance on trained personnel to ensure operational sustainability. The main contribution of this research is the provision of a simple, cost-effective, and standards-compliant technical framework, while also introducing a mathematical formulation to assess the trade-offs between security, performance, and cost. Future directions include integrating Intrusion Detection/Prevention Systems (IDS/IPS) for layered Defense and replicating the model into a turnkey security appliance that can be widely adopted by other organizations facing similar challenges.
Optimalisasi Bot Telegram untuk Deteksi Situs Perjudian Online di Dunia Pendidikan dan Sektor Pemerintah Budi wibowo; Annisa Fathl Jannah; Luqman Hafiz
Jurnal Pengabdian Masyarakat Sultan Indonesia Vol. 2 No. 1 (2025): Abdisultan
Publisher : Sultan Publsiher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/abdisultan.v2i1.316

Abstract

Maraknya perjudian online telah menjadi ancaman yang signifikan terhadap keamanan digital, terutama untuk situs web pemerintah dan institusi pendidikan. Situs-situs ini, yang sering menjadi sasaran penjahat siber untuk menampung konten terkait perjudian, membuat pengguna terpapar pada berbagai risiko online. Penelitian ini menyajikan pengembangan bot Telegram yang bertujuan untuk mendeteksi situs perjudian online di situs web pemerintah dan institusi pendidikan. Bot ini menggunakan teknik dorking untuk mencari pola spesifik yang mengindikasikan konten perjudian online, memberikan peringatan waktu nyata kepada pengguna ketika situs tersebut teridentifikasi. Tujuan utama dari aplikasi ini adalah untuk meningkatkan kesadaran tentang bahaya perjudian online dan mempromosikan literasi keamanan siber, terutama di kalangan pelajar dan pengguna muda. Dengan mengirimkan notifikasi langsung ke Telegram, bot memastikan bahwa pengguna menerima pembaruan langsung tentang potensi ancaman, mendorong pendekatan proaktif terhadap keamanan online. Penelitian ini menyoroti pentingnya penggunaan teknologi untuk menjembatani kesenjangan dalam literasi digital dan menumbuhkan budaya kesadaran keamanan siber, terutama di lingkungan pendidikan. Temuan ini menunjukkan bahwa perangkat semacam itu dapat memainkan peran penting dalam mengedukasi pengguna dan melindungi mereka dari praktik-praktik online yang berbahaya, yang pada akhirnya berkontribusi pada pengembangan lingkungan internet yang lebih aman.
Social Engineering as a Major Cybersecurity Threat: Analysis of Challenges and Solutions for Organizations Budi Wibowo
International Journal of Science Education and Cultural Studies Vol. 3 No. 2 (2024): ijsecs
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/ijsecs.v3i2.306

Abstract

Social engineering is a psychological manipulation technique used by attackers to exploit human weaknesses in information security. This research aims to identify the challenges organizations face in protecting themselves from social engineering attacks and offer effective solutions. Through analysis of case studies and relevant literature, it was found that a lack of employee awareness and training is one of the main causes of the success of these attacks. In addition, many organizations still rely on inadequate technology to detect threats. To address these issues, this paper recommends implementing regular training programs, strengthening security policies, and using advanced technology. With this comprehensive approach, organizations can strengthen their defences and reduce the risks associated with social engineering. Organizations should prioritize continuous education programs, foster a culture cantered on security, and establish protocols that encourage alertness. Moreover, robust access controls, defined incident reporting processes, and the use of technology like behavioural analytics can further reduce the risks posed by social engineering.
Unveiling the Cybercrime Ecosystem: Impact of Ransomware-as-a-Service (RaaS) in Indonesia Budi wibowo; Luqman Hafiz; Taufik Hidayat
International Journal of Science Education and Cultural Studies Vol. 4 No. 1 (2025): IJSECS
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/ijsecs.v4i1.320

Abstract

This study explores the rise of Ransomware-as-a-Service (RaaS) in Indonesia’s cybercrime ecosystem, highlighting its role as a significant digital security threat. RaaS lowers the technical barriers to executing ransomware attacks, enabling individuals with minimal expertise to launch sophisticated cyberattacks. Analyzing data from 2020 to 2024, this study identified Indonesia as a hotspot for RaaS-driven cybercrime in Southeast Asia due to low cybersecurity awareness and weak regulatory frameworks. Key findings reveal that government administration, healthcare, and finance are the most frequently targeted sectors due to their sensitive data and inadequate defense capabilities. Ransomware variants such as Luna Moth and WannaCry, dominate the malware landscape by employing tactics like phishing and exploiting outdated systems. These attacks result in severe socioeconomic consequences, including financial losses, operational disruptions, and reputational damage. This study contributes to our understanding of RaaS by examining its operational, economic, and regulatory dimensions in the Indonesian context. This underscores the urgent need for strengthened cybersecurity policies, public-private sector collaboration, and international cooperation to address transnational cybercrime. By providing actionable insights into attack patterns and mitigation strategies, this study aims to guide efforts to combat ransomware threats and enhance Indonesia’s digital resilience.
Design and Evaluation of an Automatic Roof Drive Prototype in Optimizing Tomato Cultivation Budi Wibowo; Affan Nawly Tanjung; Nur Afandi; Tio Dwi Ananpasha; Taufik Hidayat
Jurnal Komputer dan Elektro Sains Vol. 3 No. 2 (2025): komets
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/komets.v3i2.286

Abstract

This study introduces the design and evaluation of an automatic roof drive prototype aimed at optimizing tomato cultivation. Developed to address the challenges of erratic weather, the system seeks to enhance the efficiency of tomato farming. The prototype integrates a weather sensor, microcontroller, and roof drive mechanism, allowing it to operate automatically based on real-time environmental conditions. Effectiveness was assessed through field trials measuring key growth parameters such as plant height, fruit number, and fruit quality. Results indicate that the automatic roof drive system significantly improves both the productivity and quality of tomato crops. Additionally, the system effectively mitigates losses due to extreme weather conditions, including heavy rain and excessive heat. These findings highlight the potential of automated roof drive technology to support more efficient and sustainable agriculture. Future work will focus on refining the system for broader applications and integrating advanced technologies such as IoT and machine learning for further optimization.
Smart Aquaculture: Automated Fish Feeding with Blynk Alerts Budi Wibowo; Nida Pristyan Ramadhani; Fachri Alfianza; Febriano Anggawa Rizky; Taufik Hidayat
Jurnal Komputer dan Elektro Sains Vol. 3 No. 2 (2025): komets
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/komets.v3i2.299

Abstract

Rapid developments in aquaculture have driven the need for efficient and sustainable feeding systems. This study presents the design and implementation of an automatic fish feeder using the Wokwi platform, integrated with the Blynk application. The system aims to deliver feed at optimal intervals and quantities, improving fish growth while minimizing waste. The research utilizes ESP32 as the main controller and servo motors to operate the feeder mechanism. Feeding schedules can be remotely controlled via the Blynk mobile app, allowing for flexible and precise feed management. Testing results indicate that the system consistently provides accurate feed portions at designated intervals, demonstrating reliability and ease of use. This automated feeder offers a cost-effective and environmentally friendly solution for aquaculture, reducing the labor and inefficiencies associated with manual feeding. Consequently, this innovation represents a significant advancement in aquaculture technology, promoting sustainable practices and enhancing overall operational efficiency.
Design of Prototype Temperature and Humidity Control System for Oyster Mushroom Barns Integrated with ThingsBoard for Real-Time Monitoring Riko Adytia Anggara; Budi wibowo; Muhamad Riko Arafi; Mudrika Afdila
Jurnal Komputer dan Elektro Sains Vol. 3 No. 2 (2025): komets
Publisher : Sultan Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58291/komets.v3i2.304

Abstract

Oyster mushrooms grow optimally at 24-27°C and 80-95% relative humidity. Environmental conditioning through manual spraying water in the mushroom barn in the morning and evening is considered less effective and requires high effort. The application of technology in mushroom cultivation can help control temperature and humidity automatically. This study aims to design an automatic control system to regulate temperature and humidity in oyster mushroom farms. The research was conducted at an altitude of 125 meters above sea level with an automatic control system that has a setpoint temperature of 24-27 ° C and humidity of 80-95%. The test was conducted in a 4 × 2 × 2 m mushroom barn with a capacity of 600 mushroom bag logs. The performance test results showed that the daily temperature and humidity without control ranged from 24.10-35.19 °C and 64.28-99.90%. In contrast, with automatic control, daily temperature and humidity were recorded between 25.10-30.09 °C and 80.84-99.90%. This study shows that the automatic control system Effectively maintains optimal environmental conditions for oyster mushroom growth.
Co-Authors Affan Nawly Tanjung Aji Nurrohman Andrie Yuswanto Andrie Yuswanto Annisa Fathl Jannah Fachri Alfianza Febriano Anggawa Rizky Luqman Hafiz Mudrika Afdila Muhamad Riko Arafi Nadim Ibrahim Nida Pristyan Ramadhani Nur Afandi Qhansa Aditia Riko Adytia Anggara Santi Rahmawati Suka Hermawan Taufik Hidayat Taufik Hidayat Tio Dwi Ananpasha