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All Journal International Journal of Multidisciplinary Sciences and Arts BULLET : Jurnal Multidisiplin Ilmu
George Edison
Independent Researcher, France
Humanities Computer Science & IT Economics, Econometrics & Finance Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Medicine & Pharmacology Nursing

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Transforming Medical Decision-Making: A Comprehensive Review of AI's Impact on Diagnostics And Treatment George Edison
BULLET : Jurnal Multidisiplin Ilmu Vol. 2 No. 4 (2023): BULLET : Jurnal Multidisiplin Ilmu (INPRESS)
Publisher : CV. Multi Kreasi Media

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Abstract

A new era of medical innovations has begun as a result of the quick adoption of artificial intelligence (AI) in healthcare, which is changing many aspects of patient care and medical practice. The various applications of AI in healthcare are examined in this study, with a particular emphasis on the fields of medical imaging, tailored treatment paths, ethical issues, drug development, clinical practice integration, and mental health. Each section explores the potential advantages, difficulties, and probable future directions of AI application, illuminating how AI is changing medical procedures. Artificial intelligence (AI) algorithms are transforming illness detection and patient care outcomes in the field of medical imaging analysis by improving speed and accuracy. Artificial intelligence (AI)-enabled personalized treatment pathways optimize interventions based on unique patient profiles, opening the door for more efficient or patient-centered healthcare. As AI's influence expands, ethical issues including transparency, privacy, and algorithmic bias are crucial, necessitating a careful balance between technological development and ethical behavior. The influence of AI on drug research is broad, enabling faster identification of prospective candidates and therapy personalization. Strong infrastructure, open communication, and alignment of AI with human expertise are required for the integration of AI into clinical practice. While early detection, individualized therapy, and continuous support are made possible by the intersection of AI and mental health, ethical considerations are still crucial to protect patient safety and data privacy. Collaborations between healthcare practitioners, AI developers, researchers, ethicists, and patients become a recurrent theme throughout the study. Interdisciplinary collaboration makes that AI-driven solutions are created, tested, and applied with a focus on ethical, responsible, and patient-centered care. A dedication to achieving a healthy balance between technological advancement and ethical responsibility is necessary to navigate the difficulties of AI as its revolutionary potential continues to emerge in the pursuit of better medical care and wellbeing.
Revolutionizing Solar Cell Efficiency: Unleashing Radio waves for Unprecedented Energy Conversion from Signals to Watts George Edison
BULLET : Jurnal Multidisiplin Ilmu Vol. 2 No. 4 (2023): BULLET : Jurnal Multidisiplin Ilmu (INPRESS)
Publisher : CV. Multi Kreasi Media

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The development of solar cells has made significant strides thanks to the search for effective and sustainable energy sources. This paper explores the ground-breaking idea of radio wave-integrated solar cells, a cutting-edge strategy that makes use of the interaction between radio waves and solar cells to improve energy conversion efficiency. The theoretical underpinnings, experimental approaches, case studies, prospective applications, difficulties, and future prospects in radio wave-driven energy conversion are all thoroughly explored in this article. The article begins by describing the underlying issues with current solar cell technology, highlighting the significance of boosting efficiency and taking a bigger picture approach to sustainability. The use of radio waves in solar cells is then covered in detail, along with the principles that enable improved energy conversion. Radio wave-integrated solar cells present a novel approach for enhancing the spectral sensitivity and energy production of the solar cell via radio wave-induced resonances and synergistic energy capture. Numerous case studies demonstrate the usefulness and effects of radio wave-integrated solar cells in various contexts. These case studies highlight the adaptability and revolutionary potential of this technology, which ranges from urban energy harvesting to powering wearable and enabling communication networks. The paper also discusses the effects of radio wave-driven energy conversion on decentralization, IoT device power, and applications for space-based solar power on global energy sustainability goals. Despite the potential of radio wave-integrated solar cells, difficulties still exist. The main challenges of efficiency optimization, material choice, environmental variability, integration, energy storage, standards, regulation, and economic viability are described in the article. Each difficulty provides a chance for creativity and teamwork to advance technology. Future developments in solar cells with radio wave integration will use a multidisciplinary approach. Radio wave-absorbing materials will need to be improved, and advances in materials science, nanotechnology, and electromagnetic engineering will be essential. While partnerships with governments and international organizations will encourage integration and acceptance, collaborative efforts between researchers, politicians, and companies will set standards and rules. This review paper highlights how radio wave-integrated solar cells have the potential to revolutionize energy conversion efficiency and sustainability. This article contributes to a thorough understanding of radio wave-driven energy conversion, paving the way for a more effective and sustainable energy future by clarifying the theoretical underpinnings, showcasing successful case studies, and addressing difficulties and future directions.
Harvesting Power from Thin Air: The Radiowave Revolution in Transforming Solar Cells into Energy Powerhouses George Edison
BULLET : Jurnal Multidisiplin Ilmu Vol. 2 No. 5 (2023): BULLET : Jurnal Multidisiplin Ilmu
Publisher : CV. Multi Kreasi Media

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In the search for sustainable energy solutions, the revolutionary potential of radio wave energy conversion has come to light as a ray of hope. This study examines the multidimensional field of radio wave energy conversion, whereby a wide range of applications, such as solar cells, wireless sensors, communication devices, etc., are powered by ambient radio waves. The journey starts with an investigation of the Radio wave Revolution, which charts the development of radio wave energy conversion from a fledgling idea to a flourishing field ready to transform energy production. Mechanisms of Radio wave Energy Harvesting explains the complex procedures involved in converting radio waves into usable power and highlights the role of rectifiers, resonant circuits, and met materials as the conversion's main building blocks. By supplying continuous radio wave-generated electricity alongside solar energy, the revolutionary marriage of radio waves with solar cells increases the efficiency and operating hours of solar energy. By combining radio wave harvesting components, improvements in radio wave-integrated photovoltaic technology increase the potential of solar cells and provide a flexible answer to problems with energy production. These integrated systems improve dependability and energy yield by utilizing the complementary powers of sunlight and radio waves. By utilizing the latent energy existing in the environment, harvesting energy from ambient radio waves can be done sustainably. In radio wave-powered solar cells, the synergy between radio waves and solar cells is investigated, revealing a range of new applications ranging from Internet of Things (IoT) devices and remote monitoring systems to healthcare and smart cities. The complexity of radio wave energy conversion are highlighted by Challenges and Opportunities, which balance efficiency optimization with potential interference issues and environmental implications. The use of radio wave energy conversion responsibly is examined in Environmental Impacts & Considerations, which weighs its advantages against issues like electromagnetic interference and material waste. In the end, improvements in efficiency, integration, material science, and wireless power transmission are anticipated in the future prospects and technological development of radio wave energy conversion. Our shared commitment to a greener and more sustainable energy future is aligned with the transformative trajectory that the convergence of interdisciplinary synergies and educational initiatives promise. This essay provides a thorough investigation of radio wave energy conversion, illuminating its potential to change energy production, reshape industries, and promote a more resilient and sustainable global community.
Unlocking Synergy: Solar Cell Integration, Radio Wave Optimization, AI Advancements, and Their Transformative Impact on Business Sustainability George Edison
International Journal of Multidisciplinary Sciences and Arts Vol. 1 No. 2 (2022): International Journal of Multidisciplinary Sciences and Arts, Article December
Publisher : Information Technology and Science (ITScience)

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The convergence of solar cells, radio waves, and artificial intelligence (AI) represents a transformative force at the intersection of sustainability, technology, and business innovation. This article explores the multifaceted implications, benefits, challenges, and future directions arising from this convergence. Solar cells, with their ability to harness clean, renewable energy, are increasingly integrated with radio wave technology, which offers wireless energy transfer and data communication. The synergy between these two technologies is further empowered by AI, which optimizes energy production, distribution, and consumption. This integrated approach has far-reaching implications for businesses, across a wide range of industries and sectors. The benefits are manifold. Businesses can reduce their environmental footprint by adopting renewable energy sources, demonstrating their commitment to sustainability, and attracting eco-conscious customers. Energy cost savings, operational efficiency improvements, and enhanced resilience against grid disruptions are also notable advantages. AI-driven predictive maintenance and energy management systems optimize resource allocation and provide a competitive edge. Real-world applications abound, including smart grids, smart homes, agricultural innovations, telecommunications, electric vehicles, and much more. These applications demonstrate the potential to create intelligent, adaptable systems that improve energy efficiency and contribute to a more sustainable future. However, the convergence is not without challenges. Technical hurdles include the need to improve the efficiency of solar cells, extend the range of wireless energy transfer, and enhance AI integration. Regulatory considerations encompass grid integration, safety standards, and privacy and security. Economic and business aspects involve upfront investments, demonstrating return on investment, and innovative business models. Environmental impact and sustainability considerations span the entire life cycle of these technologies, from production to disposal. Public awareness and education are critical to ensuring that users can effectively operate and maintain these integrated systems. Future directions involve continuous research and development, standardization efforts, government support, education and training programs, environmental responsibility, and enhanced security and privacy features. Encouraging market adoption across various industries will be pivotal in realizing the full potential of the convergence. The convergence of solar cells, radio waves, and AI offers a path to a more sustainable and efficient energy future. While challenges exist, the potential for businesses to reduce costs, improve efficiency, and demonstrate environmental responsibility is profound. The ongoing commitment to research, innovation, and responsible practices will shape a greener, more interconnected future, redefining the relationship between technology, sustainability, and business success.
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