Article Per Year (5 Year)
p-Index From 2020 - 2025
3.545
P-Index
This Author published in this journals
All Journal Journal International of Lingua and Technology Journal International Inspire Education Technology (JIIET) World Psychology Journal Markcount Finance Lingeduca: Journal of Language and Education Studies Pengabdian Jurnal Abdimas International Journal of Educational Narratives Rechtsnormen Journal of Law Sharia Oikonomia Law Journal Journal Neosantara Hybrid Learning Journal Emerging Technologies in Education Journal of World Future Medicine, Health and Nursing Journal of Computer Science Advancements Journal of Moeslim Research Technik Journal of Tecnologia Quantica Journal of Social Entrepreneurship and Creative Technology
Barroso, Uwe
Unknown Affiliation
Religion Aerospace Engineering Humanities Automotive Engineering Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Health Professions Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Medicine & Pharmacology Nursing Physics Public Health Social Sciences Veterinary Other

Published : 27 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 27 Documents
Search

 1   2   3 
The Effectiveness of Interactive Videos in Increasing Student Engagement in Online Learning Haerawan, Haerawan; Cale, Woolnough; Barroso, Uwe
Journal of Computer Science Advancements Vol. 2 No. 5 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/jsca.v2i5.1322

Abstract

The shift towards online learning has highlighted the need for innovative approaches to maintain student engagement. Traditional video lectures often fail to captivate students, decreasing attention and learning outcomes. Interactive videos incorporating quizzes, clickable hotspots, and branching scenarios have emerged as a potential solution to this challenge. This study aimed to evaluate the effectiveness of interactive videos in increasing student engagement in online learning environments compared to traditional video lectures. Additionally, it sought to identify the most impactful interactive elements and their correlation with learning outcomes. A mixed-methods approach was employed, involving 200 undergraduate students from diverse disciplines. Participants were randomly assigned to either an experimental group using interactive videos or a control group using traditional video lectures for a 6-week online course. Data collection methods included pre-and post-tests, engagement metrics (time spent, interaction frequency), and qualitative feedback through surveys and focus group discussions. Results demonstrated a significant increase in student engagement for the interactive video group, with 45% higher interaction rates and 30% longer viewing times than the control group. Quiz-based interactions and branching scenarios were found to be the most effective elements. Moreover, the experimental group showed a 25% improvement in learning outcomes as measured by post-test scores. In conclusion, this study provides strong evidence for the efficacy of interactive videos in enhancing student engagement and learning outcomes in online education. These findings suggest that incorporating interactive elements into video content can significantly improve the online learning experience, offering educators a valuable tool to address engagement challenges in digital learning environments.
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

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

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.
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)
Publisher : Yayasan Adra Karima Hubbi

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

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
Sustainability in Quantum Optics: Future Research in Renewable Energy Intes, Amina; Barroso, Uwe; Cale, Wolnough
Journal of Tecnologia Quantica Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/quantica.v1i1.894

Abstract

Quantum optics is a field that has shown great potential in developing renewable energy technology. The interaction between light and matter on the quantum scale opens up opportunities for higher energy efficiency and more sustainable energy sources. However, further research is needed to integrate the principles of quantum optics into technologies that can be widely applied in the renewable energy sector. This research explores how quantum optics-based technologies can be developed and integrated into renewable energy applications to increase efficiency and sustainability. This research seeks to identify and test various approaches in quantum optics that can improve renewable energy generation and storage methods. The methods used include laboratory experiments and computer simulations to test the effectiveness of various quantum optical configurations in enhancing the energy conversion process. A multi-disciplinary approach with collaboration between physicists, engineers, and materials experts is used to achieve a deeper understanding of the potential of this technology. The research results show that using quantum entanglement and non-linear phenomena in quantum optics can significantly improve the efficiency of solar energy collection and conversion. This technique has succeeded in increasing the conversion efficiency of solar cells from conventional models by 10 to 15 percent in laboratory conditions. The conclusions of this study confirm that quantum optics have significant potential to improve sustainability and efficiency in renewable energy technologies. With further research and development, quantum optics-based technologies could contribute to global efforts to reduce dependence on fossil fuels and tackle climate change. Thus, integrating quantum optical principles into renewable energy systems should be a significant focus in future research
Quantum Optics Research Prospects: Transformation Towards Faster Quantum Computing Barroso, Uwe; Nitin, Mahon; Bradford, Snyder
Journal of Tecnologia Quantica Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/quantica.v1i2.895

Abstract

Advancements in quantum computing have become a primary focus in modern computer science. However, one of the major challenges in creating more powerful quantum computers is developing more stable and efficient qubits. In this context, research in quantum optics offers game-changing solutions. By leveraging quantum physics principles and quantum optics technology, this research aims to transform the quantum computing landscape by creating more stable and faster qubits. The goal of this study is to explore the potential of quantum optics in creating more stable and efficient qubits for quantum computing. This research method involves a combination of experimental and theoretical approaches. Data obtained from these experiments will be analyzed using advanced theoretical methods to understand the quantum properties of the produced qubits. The results indicate that the quantum optics approach can be key in creating more stable and faster qubits for quantum computing. Experiments have successfully demonstrated better control over qubits in photonic systems and compressed matter, producing qubits with higher reliability. Theoretical analysis also reveals a deeper understanding of the quantum properties of the produced qubits, opening the door for further development in this field. The conclusion of this research shows that quantum optics has great potential to transform quantum computing by creating more stable and faster qubits. By continuing to develop quantum optics technology and deepening the understanding of quantum properties of compressed matter and photonic systems, quantum computing can be taken to a new level.
The Future of Quantum Optics: Mapping the Path to Scalable Quantum Computing Maharjan, Kailie; Wei, Zhang; Barroso, Uwe
Journal of Tecnologia Quantica Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/quantica.v1i2.905

Abstract

quantum computing. However, the main challenge in creating a scalable quantum computer involves overcoming the technical and physical obstacles of manipulating and maintaining stable quantum states. This research aims to identify and map potential pathways that could lead to the realization of scalable quantum computing. This research explores various approaches in Quantum Optics that can support scalability in quantum computing, focusing on innovations in quantum state control techniques, more efficient system design, and the development of new materials. The methods include comprehensive literature analysis, laboratory experiments, and mathematical modelling. The literature analysis aims to identify recent advances and shortcomings in current techniques. Experiments were conducted to test the feasibility of newly developed techniques in controlling quantum states, while mathematical modelling was used to predict system performance under various operational conditions. This study's results show that using phase and amplitude modulation techniques in quantum state settings offers increased stability and reduced errors. Additionally, new nano-based materials show the potential to enhance interactions between qubits, which is crucial for scalability. This research concludes that combining more advanced state control techniques with innovative materials could significantly advance the prospects for scalable quantum computing. Further research aimed at systems integration and automation of quantum state control is needed to overcome the remaining obstacles.
Harnessing Creative Technology for Social Entrepreneurship: Innovations in Virtual Reality and Augmented Reality for Community Development Barroso, Uwe; Xavier, Murphy; Elliot, McCarty
Journal of Social Entrepreneurship and Creative Technology Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/jseact.v1i1.1007

Abstract

The intersection of creative technology and social entrepreneurship presents new opportunities for community development. Virtual Reality (VR) and Augmented Reality (AR) technologies have the potential to create immersive experiences that can address social issues and foster sustainable development. Despite the growing interest in these technologies, there is a lack of comprehensive research on their application in social entrepreneurship. This study aims to explore how innovations in VR and AR can be harnessed to support social entrepreneurship initiatives focused on community development. The research seeks to identify best practices, challenges, and the impact of these technologies on social businesses. A mixed-methods approach was employed, combining qualitative and quantitative research. The qualitative phase involved interviews with social entrepreneurs who have integrated VR and AR into their projects. The quantitative phase included surveys to measure the impact of these technologies on community engagement and development. Case studies of successful implementations were also analyzed to provide practical insights. The findings reveal that VR and AR technologies significantly enhance community engagement and participation in social entrepreneurship projects. Social entrepreneurs reported improved outreach, better visualization of social issues, and increased empathy among participants. Quantitative data showed a positive correlation between the use of these technologies and the effectiveness of community development initiatives. Innovations in VR and AR offer promising tools for social entrepreneurs aiming to create positive social impacts. These technologies enhance the ability to engage communities and address complex social issues. Future research should focus on scaling these innovations and exploring their long-term effects on sustainable development.
Co-Authors Akhmad Feri Fatoni Alam, Putra Raihan Nur Alpian Jayadi, Alpian Amanda, Amelia Ariyanto, M.Dwiky Awaliyah, Dian Nafiatul Azizah, Sarmila Yanti Bradford, Snyder Cale, Wolnough Cale, Woolnough Durya, Ngurah Panji Mertha Agung Elliot, McCarty Emdat Suprayitno Haerawan, Haerawan Handayani, Desyntia Amanda Putri Imani, Azizah Nur indah mukarromah Intes, Amina Jonathan, Bouyea Joshua, Wang Khairat, Annisaul Khoirul Mustofa Kundharu Saddhono Latifah, Ani Lewar, Emanuel Suban Bala M, Usman Maharjan, Kailie Maja, Gergely Margarida, Kruger Mark, Eladdadi Mark, Elladdadi Mimah, Mimah Mirnawati, Rosi Monika, Viki Indah Muhammad Takdir, Muhammad Muslim, Shohib Nitin, Mahon Niva, Matteson Nopiyanti, Heni Novita Kusumaning Tyas, Novita Kusumaning Puspitasari, Alfi Syahidah Dyah Qoidul Khoir Rahmawati, Rahmawati Rini Nuraini, Rini Sam Hermansyah Saputri, Jessica Adelia Sari, Resti Komala Setyaningsih, Arinda Oktariski Siyono, Siyono Sugeng Wahyudiono, Sugeng Syam, Anna Rahma Tri Yusnanto Tusi, Juandri Seprianto Utama, Sunu Setiawan Vanchapo, Antonius Rino Wantu, Hasyim Mahmud Xavier, Embrechts Xavier, Murphy Xu, Shanshan Zhang Wei Zulaiha Zulaiha, Zulaiha Zulhidayat, Muhammad