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HENGKI TAMANDO
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INDONESIA
Journal Basic Science and Technology
Published by Institute of Computer Science
ISSN : 20898185     EISSN : 28081498     DOI : https://doi.org/10.35335/jbst
Core Subject : Science, Engineering,
Biochemistry, Genetics & Molecular Biology Computer Science & IT Electrical & Electronics Engineering Materials Science & Nanotechnology Mechanical Engineering
This journal is devoted to identifying, mapping, understanding, and interpreting new trends and patterns in the development of science & technology especially in developing countries in this world. The journal endeavors to highlight science & technology development from different perspectives. The aim is to promote broader dissemination of the results of scholarly endeavors into a broader subject of knowledge and practices and to establish an effective means of communication among academic and research institutions, policymakers, government agencies, and persons concerned with the complex issue of science & technology development
Arjuna Subject : Umum - Umum
Articles 5 Documents
 1 
Search results for , issue "Vol 12 No 3 (2023): October: Basic Science and Technology" : 5 Documents clear
Blockchain-Powered Fortification: Transformative Security Measures in Data Distribution Systems Dikki Saputra Irawan
Journal Basic Science and Technology Vol 12 No 3 (2023): October: Basic Science and Technology
Publisher : Institute of Computer Science (IOCS)

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Abstract

This research embarks on an exploration of the transformative role played by blockchain technology in fortifying the security landscape of data distribution systems. As the digital ecosystem evolves, the need for resilient and secure mechanisms becomes paramount. Our study unravels the multifaceted contributions of blockchain in this context, focusing on decentralization, immutability, smart contracts, collaborative trust, privacy features, resistance to unauthorized alterations, and the interplay of transparency, accountability, and trust. These findings not only redefine the paradigm of data security but also offer a roadmap for future research, suggesting avenues for scalability, interoperability, quantum-resistant measures, adaptive smart contracts, decentralized governance models, economic and environmental impact assessments, user experience enhancements, and cross-domain applications. As we navigate the digital frontier, this research signifies a transformative beacon, inviting further exploration into reshaping the foundations of secure data distribution in the dynamic landscapes of tomorrow.
Diphtheria Diagnosis Expert System: Leveraging Fuzzy Logic for Precision and Efficiency in Infectious Disease Detection Apandi Bukhori; Felisyane Misadela
Journal Basic Science and Technology Vol 12 No 3 (2023): October: Basic Science and Technology
Publisher : Institute of Computer Science (IOCS)

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Abstract

This research introduces the Diphtheria Diagnosis Expert System (DDES), a pioneering computational tool employing fuzzy logic for the accurate and rapid identification of diphtheria cases. The study builds upon previous research, addressing the limitations of conventional diagnostic methods in recognizing the diverse and evolving presentations of diphtheria. Through meticulous data acquisition from diverse sources, including medical records, public health databases, and historical case studies, a comprehensive dataset was curated, laying the foundation for the DDES's development. The DDES's utilization of fuzzy logic, a dynamic computational framework, empowers it to navigate the intricacies of diphtheria symptomatology. This study demonstrates the system's enhanced diagnostic accuracy, adaptability to varied clinical presentations, and efficiency in delivering rapid outcomes. Comparative analyses with previous research highlight the DDES's advancements, showcasing superior diagnostic precision and speed. Its potential impact on resource optimization within healthcare systems, ethical considerations, and seamless integration into clinical practice are significant contributions to the broader field of infectious disease diagnosis. The expert system's practical utility is emphasized through positive user feedback, indicating its potential acceptance among healthcare professionals. Ethical considerations, including privacy and transparency, are meticulously addressed, aligning the DDES with the highest standards of responsible technological deployment.
Revolutionizing Salt Purification: Integrating Natural Zeolite for Enhanced Crystallization and Impurity Reduction Ayu Lestari; Muhammad Arif Rahman; Kiki Amelia
Journal Basic Science and Technology Vol 12 No 3 (2023): October: Basic Science and Technology
Publisher : Institute of Computer Science (IOCS)

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Abstract

This research explores a groundbreaking approach to salt purification, introducing natural zeolite as an impurity binder in the crystallization process. The study aims to enhance salt purity, improve crystal quality, and assess the environmental impact of this innovative method compared to traditional techniques. Rigorous experimentation reveals a significant reduction in impurities, showcasing the selective adsorption capabilities of natural zeolite during crystallization. Microscopic analyses confirm larger, well-defined crystals, substantiating the enhanced crystal purity achieved. Environmental assessments demonstrate comparable or lower energy consumption and reduced waste generation, positioning the new process as an eco-friendly alternative. Taste tests affirm that the impurity reduction does not compromise salt's sensory qualities. Implications extend beyond salt production, influencing sustainability, cost-efficiency, and diversification of salt applications. This research marks a transformative shift, offering a sustainable and high-quality solution for salt purification with broad implications for industrial practices and environmental stewardship.
Unraveling the Dynamics of Indole Acetic Acid-Producing Endophytic Bacteria: Insights into Plant Growth and Sustainable Agriculture Gelfara Abednego; Christabel Haurisa
Journal Basic Science and Technology Vol 12 No 3 (2023): October: Basic Science and Technology
Publisher : Institute of Computer Science (IOCS)

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Abstract

This research delves into the intricate world of plant-microbe interactions, focusing on the role of endophytic bacteria capable of producing Indole Acetic Acid (IAA). The investigation unfolds as a multidimensional exploration, encompassing the mechanisms, variability, and practical applications of IAA-producing endophytic bacteria for sustainable agriculture and environmental resilience. The study unveils the remarkable variability among different bacterial strains in their synthesis of IAA. Statistical analyses underscore significant differences, highlighting the individualistic nature of each strain and emphasizing the diversity encoded within the microbial ensemble. Strain-specific trends, temporal dynamics, and environmental responsiveness enrich our understanding of the nuanced contributions of these bacteria to plant growth. Mechanistically, IAA emerges as a key growth regulator influencing root morphogenesis, nutrient uptake, and stress tolerance. The research demonstrates how IAA-producing endophytic bacteria foster improved water use efficiency, nutrient mobilization, and disease resistance, presenting a holistic picture of their multifaceted role in shaping the resilience and productivity of plants. The development of bio-stimulants derived from robust IAA producers promises enhanced crop yields, reduced reliance on synthetic growth-promoting agents, and improved nutrient use efficiency. Mitigation of abiotic stress, promotion of symbiotic relationships, and contributions to biocontrol underscore the potential of IAA-producing endophytic bacteria in fostering sustainable agricultural practices.
Microbial Fuel Cells: A Dual Approach for Environmental Pollution Mitigation and Microenergy Production Giandra Adiwilaga
Journal Basic Science and Technology Vol 12 No 3 (2023): October: Basic Science and Technology
Publisher : Institute of Computer Science (IOCS)

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Abstract

This research delves into the multifaceted capabilities of Microbial Fuel Cells (MFCs) as pioneering tools at the nexus of environmental science and sustainable energy. With a dual focus on addressing environmental pollution and generating microenergy, the study explores the versatility and potential applications of MFCs across varied environmental matrices. Simulated scenarios encompassing water, soil, and air pollution elucidate the remarkable pollutant removal efficiencies of MFCs, highlighting their adaptability and effectiveness in diverse contexts. Intricate DNA sequencing analyses provide novel insights into the microbial community dynamics within MFCs, contributing to the evolving field of microbial ecology. The study reveals key microorganisms orchestrating electrochemical processes, furthering our understanding of the symbiotic relationships vital for MFC functionality. This microbial insight enhances the broader discourse on the role of microorganisms in bioelectrochemical systems. Practical guidelines for optimizing MFC performance are derived from systematic manipulations of operational parameters, electrode materials, and microbial consortia. This optimization framework not only refines MFC technology within the laboratory setting but also provides a tangible roadmap for practical implementations in real-world environmental contexts. The research pioneers the exploration of microenergy production at the microscale using MFCs.

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