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Journal of Moeslim Research Technik
Published by Yayasan Adra Karima Hubbi
ISSN : 30476704     EISSN : 30476690     DOI : 10.70177/technik
Core Subject : Engineering,
Aerospace Engineering Automotive Engineering Control & Systems Engineering Electrical & Electronics Engineering Engineering
Journal of Moeslim Research Technik is is a Bimonthly, open-access, peer-reviewed publication that publishes both original research articles and reviews in all fields of Engineering including Civil, Mechanical, Industrial, Electrical, Computer, Chemical, Petroleum, Aerospace, Architectural, etc. It uses an entirely open-access publishing methodology that permits free, open, and universal access to its published information. Scientists are urged to disclose their theoretical and experimental work along with all pertinent methodological information. Submitted papers must be written in English for initial review stage by editors and further review process by minimum two international reviewers.
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 56 Documents
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Exploring the Potential of Renewable Energy in Today's Engineering Development Joshua, Wang; Barroso, Uwe; Niva, Matteson
Journal of Moeslim Research Technik Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The utilization of renewable energy is becoming increasingly important in today's engineering development to address environmental challenges and energy sustainability. However, the full potential of renewable energy sources has yet to be fully explored. This study aims to explore the potential of renewable energy in the context of contemporary engineering development with a focus on identifying renewable energy sources that can be optimized and integrated in engineering infrastructure. The research methods used include literature survey, data analysis, and modeling to evaluate various renewable energy sources that can be applied in engineering development. An interdisciplinary approach was used to gain a holistic understanding of the potential and limitations of each energy source. The study identified that renewable energy, such as solar, wind, hydro, and biomass, has great potential in providing clean and sustainable energy sources for today's engineering development. In-depth analysis also shows that the integration of renewable energy systems can reduce dependence on fossil fuels and reduce greenhouse gas emissions. By tapping into the potential of renewable energy, today's engineering developments can become more sustainable and environmentally friendly. The integration of renewable energy in engineering infrastructure not only reduces negative environmental impacts but also creates new opportunities for innovation and sustainable economic growth.
Implementation of Blockchain Technology in Construction Project Management: A Contemporary Approach Guilin, Xie; Maharjan, Kailie; Mark, Elladdadi
Journal of Moeslim Research Technik Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The construction industry is a sector known for its complexity in terms of project management. The involvement of various parties, the large flow of information, and the challenge of maintaining data validity are major challenges. In an effort to improve efficiency and transparency, blockchain technology is emerging as a potential solution. However, the applicability of this technology in the context of construction project management still requires further research. Research Objectives: This study aims to investigate the possibility and potential application of blockchain technology in construction project management. The main focus is to understand how this technology can improve efficiency, transparency, and data reliability in various aspects of construction project management. Research Methods: This research utilized a qualitative approach with descriptive analysis. Data was collected through a review of related literature as well as case studies of blockchain technology implementation in construction project management in several large-scale projects. An in-depth analysis was conducted to understand the challenges, benefits, and key factors affecting successful implementation. Research Results: The results show that blockchain technology has great potential in improving efficiency and transparency in construction project management. By utilizing features such as distributed ledgers, smart contracts, and secure transaction confirmation, the project management process can become more structured, efficient, and trustworthy. Research Conclusion: In the context of construction project management, the implementation of blockchain technology offers an attractive solution to address existing challenges. Although there are still some technical and policy hurdles that need to be overcome, the long-term potential of this technology in improving the productivity and quality of construction projects is promising. Therefore, strategic steps need to be taken to encourage wider adoption of this technology in the construction industry.
Application of Internet of Things (IoT) in Monitoring and Controlling Engineering Equipment Intes, Amina; Xavier, Embrechts; Barra, Ling
Journal of Moeslim Research Technik Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

Research Background: The development of Internet of Things (IoT) technology has presented new opportunities in the field of monitoring and controlling engineering equipment. The use of IoT in this context enables real-time data collection and automatic control of equipment via internet networks, bringing the potential to improve the efficiency and performance of engineering systems. Research Objectives: This research aims to explore the application of Internet of Things technology in the monitoring and control of engineering equipment, and to evaluate its benefits in the context of operational efficiency and cost reduction. Research Methods: The research methods used include literature review, system requirements analysis, IoT infrastructure design, prototype implementation, and functionality testing. The collected data were analyzed to evaluate the performance of the system and the benefits obtained. Research Results: The implementation of IoT in the monitoring and control of engineering equipment successfully shows an increase in operational efficiency and cost reduction. The developed system is able to collect data in real-time, provide accurate and timely information, and enable automatic or remote control of equipment via the internet. Research Conclusion: The application of the Internet of Things in monitoring and controlling engineering equipment promises significant advances in operational efficiency and resource management. By leveraging this technology, organizations can increase productivity, reduce operational costs, and improve overall system reliability.
Optimizing Renewable Energy System Performance with Real-Time Monitoring Techniques Jiao, Deng; Jonathan, Bouyea; Bradford, Snyder
Journal of Moeslim Research Technik Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

Research Background: In the face of climate change challenges and the need for sustainable energy, renewable energy systems are becoming increasingly important. However, to maximize the efficiency and performance of renewable energy systems, monitoring techniques are needed that can provide real-time information about the operational conditions of the system. Research Objectives: This research aims to optimize the performance of renewable energy systems through the application of real-time monitoring techniques. This is done by utilizing data obtained directly from sensors connected to the energy system. Research Methods: The research methods used include literature study, system requirements analysis, real-time monitoring infrastructure design, prototype implementation, and functionality testing. The collected data was analyzed to evaluate the system performance and effectiveness of real-time monitoring techniques. Research Results: The implementation of real-time monitoring techniques successfully improves the performance of renewable energy systems by providing accurate and timely information about operational conditions. This allows for more efficient management and responsiveness to changes in environmental conditions or energy demand. Research Conclusion: The application of real-time monitoring techniques can significantly improve the efficiency and performance of renewable energy systems. With real-time information, better decision-making can be made, enabling more effective management and responsiveness to system and environmental dynamics.
Environmental Engineering Innovation to Tackle Water Crisis in Modern Era Wang, Yuanyuan; Xu, Shanshan; Kathryn, Morse
Journal of Moeslim Research Technik Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

Water crisis has become one of the major challenges of the modern era, with increasing demand for clean water and decreasing availability of quality water resources. In this context, environmental engineering innovations are crucial to effectively address this challenge. This research aims to explore various environmental engineering innovations that can be used to address the water crisis in the modern era. The main focus of this research is to identify technical solutions that can be applied to improve water management and increase the availability of clean water. The research method used involved an in-depth literature survey to gather information on recent environmental engineering innovations in addressing the water crisis. In addition, the research also involved a comparative analysis of various solutions that have been implemented in different regions around the world. The results show that there are various environmental engineering innovations that can be effective in addressing the water crisis in the modern era, including water treatment technologies, sustainable water resource management, and the use of renewable energy in water treatment systems. The conclusion of this research is that environmental engineering innovations play an important role in addressing the water crisis in the modern era. By implementing these innovative solutions, it is expected to achieve water quality restoration and sustainable increase in clean water availability.
Structural Engineering's Readiness to Face the Challenges of Natural Disasters in the 21st Century Jie, Lie; Guilin, Xie; Jiao, Deng
Journal of Moeslim Research Technik Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

Research Background: In the modern era, the challenges of natural disasters are increasing as a result of climate change and uncontrolled development. Therefore, structural engineering preparedness in the face of natural disasters is crucial to minimize losses and negative impacts. This research aims to investigate structural engineering preparedness in facing the challenges of natural disasters in the 21st century. This is done by analyzing technical approaches, regulations, and innovations in structural engineering that can improve the resilience of infrastructure to natural disasters. The research methods used include literature review, policy analysis, and interviews with structural engineering experts. Data were collected and analyzed to understand recent developments in structural technology that can cope with natural disasters, and to evaluate the successful implementation of regulations and best practices. The results showed that structural engineering has undergone significant developments in dealing with natural disasters in the 21st century. Approaches such as anti-earthquake design, sensor technology for structural monitoring, and construction of disaster-resistant infrastructure have helped improve the resilience of infrastructure to natural disasters. From the results of this study, it can be concluded that the readiness of structural engineering to face the challenges of natural disasters in the 21st century has improved significantly. However, further efforts in technology development, regulation, and public awareness are still needed to ensure more resilient infrastructure against natural disasters in the future.
Transportation Engineering Revolution: Towards Sustainable and Intelligent Mobility Jixiong, Cai; Wang, Yuanyuan; Zou, Guijiao
Journal of Moeslim Research Technik Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The revolution in the field of transportation engineering has been a major highlight in efforts towards achieving more sustainable and intelligent mobility. This development is triggered by increasing awareness of the negative impacts of traffic congestion and air pollution on society’s quality of life and the environment. This research aims to investigate and identify innovative solutions to address existing transportation problems, focusing on developing more efficient, environmentally friendly, and sustainable transportation systems. The approach used in this research is a comprehensive analysis of recent developments in transportation technology and case studies to evaluate the implementation of proposed solutions. Based on the analysis, the research results show that the development of transportation technology based on renewable energy, the application of artificial intelligence in traffic management, and the promotion of efficient public transportation are critical steps in achieving sustainable and intelligent mobility. The conclusion of this research emphasizes the importance of adopting innovative solutions in addressing modern transportation challenges. We can build transportation systems that promote more sustainable, efficient, and environmentally friendly mobility by leveraging the latest technology and implementing appropriate policies.
Application of 3D Printing Techniques in Modern Infrastructure Development Mela Amelia Santika Xu, Shanshan; Cale, Wolnough; Nitin, Mahon
Journal of Moeslim Research Technik Vol. 1 No. 2 (2024)
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Abstract

Modern infrastructure development faces complex challenges in terms of speed, cost and sustainability. In an effort to meet these demands, 3D printing techniques have emerged as a promising innovative solution. However, there are still few studies that comprehensively examine the application of 3D printing techniques in the context of modern infrastructure development. This research aims to explore the potential application of 3D printing techniques in modern infrastructure development and to provide a deeper understanding of its benefits, challenges and practical implications. The research methods used include an in-depth literature study, case analysis, and interviews with relevant experts and practitioners. This approach allows us to have a holistic understanding of how 3D printing techniques can be applied in modern infrastructure development. The results show that the application of 3D printing techniques in modern infrastructure development has significant potential in terms of construction efficiency, design flexibility, and material waste reduction. However, there are still some challenges that need to be overcome, such as limited materials and standards, and limited availability of technology. Overall, this study concludes that 3D printing techniques have great potential to change the paradigm of modern infrastructure development. However, to fully realize this potential, cross-sectoral cooperation, investment in research and development, and the development of adequate regulations are required to overcome the challenges faced.
Utilization of Drones Technology in Infrastructure Inspection and Maintenance Kathryn, Morse; Joshua, Wang; Mark, Elladdadi
Journal of Moeslim Research Technik Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The utilization of drones technology in infrastructure inspection and maintenance has become an important topic in civil engineering and infrastructure management studies. Adequate infrastructure supports the social and economic progress of a country, but requires regular maintenance to ensure its reliability. This research aims to investigate the effectiveness of utilizing drone technology in performing infrastructure inspection and maintenance, and to evaluate its impact on the efficiency and accuracy of the process. The research method used was a literature study and analysis of data from previous studies relevant to this topic. In addition, the research also involved primary data collection through interviews with experts in the field of drones and infrastructure technology. The results show that the utilization of drones technology can significantly improve the efficiency and accuracy in conducting infrastructure inspection and maintenance. Drones are able to reach areas that are difficult to reach manually and provide detailed and real-time data. The utilization of drone technology is a very potential solution in improving efficiency and accuracy in infrastructure inspection and maintenance. By utilizing drones, the process can be done more quickly, cheaply, and safely, so that it can support sustainable infrastructure development.
Development of Miniaturized Satellite Technology for Global Environmental Monitoring Jonathan, Bouyea; Barroso, Uwe; Intes, Amina
Journal of Moeslim Research Technik Vol. 1 No. 2 (2024)
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Abstract

Research Background: Global environmental monitoring is becoming increasingly important in an effort to maintain the balance of the earth's ecosystems. However, the limitations of conventional technology often become an obstacle in obtaining accurate and timely data. Research Objectives: This study aims to develop miniaturized satellite technology that can be used for global environmental monitoring effectively and efficiently. Research Methods: In this study, we analyzed existing miniaturized satellite technology and identified shortcomings and potential for further development. In addition, we conducted simulations and field trials to validate the performance of the developed technology. Research Results: The developed miniaturized satellite technology is capable of providing global environmental monitoring data with high accuracy and in a relatively short time. In addition, this technology also has the potential to be integrated with other monitoring systems. Research Conclusion: The development of miniaturized satellite technology has great potential in improving the effectiveness and efficiency of global environmental monitoring. With this technology, it is expected to make a significant contribution to efforts to preserve the earth's environment

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