متاورس؛ فرصت ها و چالش ها در پایداری شهرهای آینده (مقاله علمی وزارت علوم)
درجه علمی: نشریه علمی (وزارت علوم)
آرشیو
چکیده
متاورس، به عنوان یک جهان مجازی موازی، با بهره گیری از فناوری های پیشرفته نظیر هوش مصنوعی، اینترنت اشیاء و دوقلوهای دیجیتال، به یکی از مفاهیم کلیدی در بازتعریف زندگی شهری و توسعه شهرهای آینده تبدیل شده است. این فناوری پتانسیل ایجاد تحولاتی بنیادین در نحوه زندگی، کار، تعاملات اجتماعی و مدیریت شهری را داراست. هدف این پژوهش، بررسی جامع تأثیرات متاورس بر پایداری زیست محیطی، اقتصادی و اجتماعی شهرهای هوشمند است و با بهره گیری از روش کیفی و تحلیل محتوای اسناد علمی به انجام رسیده است. در تحلیل داده ها از روش کدگذاری موضوعی استفاده می شود که در آن مفاهیم کلیدی استخراج و در دسته بندی های مرتبط مانند چالش ها، فرصت ها و نقش های متاورس در پایداری شهری قرار می گیرند. یافته ها نشان می دهند که متاورس می تواند از طریق بهینه سازی مدیریت منابع، کاهش مصرف انرژی در حمل ونقل فیزیکی، و ایجاد فرصت های جدید برای تعاملات اجتماعی مجازی، نقش بسزایی در تقویت پایداری شهری ایفا کند. همچنین، متاورس با ارائه محیط های شبیه سازی شده برای آموزش، طراحی شهری و برنامه ریزی، به بهبود فرآیندهای تصمیم گیری کمک می کند. این فناوری می تواند ابزار مؤثری برای کاهش اثرات تغییرات اقلیمی از طریق مدل سازی دقیق و اجرای سیاست های هوشمند باشد. بااین حال، توسعه متاورس با چالش های قابل توجهی نیز همراه است، از جمله مصرف بالای انرژی برای زیرساخت های دیجیتال، تعمیق شکاف های اقتصادی و اجتماعی ناشی از دسترسی نابرابر به فناوری، و نگرانی های اخلاقی و حریم خصوصی. علی رغم این چالش ها، نتایج پژوهش نشان می دهد که متاورس ظرفیت بی نظیری برای بازتعریف محیط های شهری و تقویت ابعاد مختلف پایداری دارد و افق های جدیدی برای تحقیقات و نوآوری های آینده فراهم می کندThe Metaverse: Opportunities and Challenges for Sustainable Future Cities
The metaverse, as a parallel virtual world leveraging advanced technologies such as artificial intelligence, the Internet of Things, and digital twins, has emerged as a pivotal concept in redefining urban life and shaping future cities. This technology holds the potential to revolutionize how people live, work, engage in social interactions, and manage urban systems. This study aims to comprehensively analyze the metaverse's impacts on the environmental, economic, and social sustainability of smart cities, employing a qualitative research approach and content analysis of scientific documents. Data analysis utilizes thematic coding to extract key concepts, categorizing them into themes such as challenges, opportunities, and the roles of the metaverse in urban sustainability. The findings reveal that the metaverse can significantly enhance urban sustainability by optimizing resource management, reducing energy consumption associated with physical transportation, and creating new opportunities for virtual social interactions. Furthermore, the metaverse contributes to improving decision-making processes by offering simulated environments for education, urban design, and planning. This technology is a powerful tool for mitigating the effects of climate change through precise modeling and implementing intelligent policies. However, the development of the metaverse is not without significant challenges, including the high energy demands of digital infrastructure, the deepening of economic and social disparities due to unequal access to technology, and ethical and privacy concerns. Despite these challenges, the study's findings underscore the unparalleled potential of the metaverse to redefine urban environments and enhance various dimensions of sustainability, opening new horizons for future research and innovation. Extended Abstract Introduction The Metaverse, as an emerging concept in the digital world, presents a vision of a parallel virtual universe capable of transforming lifestyles, work environments, and social interactions. Leveraging advanced tools such as artificial intelligence (AI), the Internet of Things (IoT), augmented reality (AR), and digital twins, the Metaverse creates novel experiences both within urban environments and beyond. Its role in urban planning and development, particularly in the context of future smart cities, has garnered significant attention from researchers and policymakers. Through precise simulations of urban environments, the Metaverse facilitates urban management, enabling the creation of more sustainable, resilient, and human-centered cities. This research comprehensively examines the implications of the Metaverse on the environmental, economic, and social sustainability of future cities while analyzing the opportunities and challenges it introduces. Methodology This study is fundamental research conducted using qualitative methods and content analysis of scientific documents. Data were gathered from library resources, scholarly articles, theses, and urban development reports. The data analysis framework was designed based on thematic coding, identifying key concepts related to the Metaverse and categorizing them into themes such as challenges, opportunities, and the role of this technology in achieving urban sustainability goals. Results and discussion The findings indicate that the Metaverse can play a pivotal role in accelerating urban sustainability. One of its notable advantages is reducing the need for physical travel and lowering energy consumption and emissions. Furthermore, the Metaverse enables optimized management of urban resources, such as energy and water, through accurate simulation and predictive modeling. Providing virtual social interaction platforms can enhance citizens' quality of life and address socio-economic inequalities. In education and urban design, the Metaverse offers advanced simulation tools for modeling urban structures and implementing environmental policies. For instance, simulating the impacts of climate change on urban environments can assist policymakers in making informed decisions. The realization of concepts such as the "15-minute city," focusing on proximity to services and meeting residents' needs, is also achievable through the Metaverse’s capabilities. However, the development of the Metaverse is accompanied by significant challenges. High energy consumption associated with digital infrastructure poses environmental risks. Additionally, the deepening digital divide due to unequal access to technology may exacerbate socio-economic disparities. Ethical concerns and privacy issues remain critical, as user data in Metaverse environments can be collected and analyzed uncontrolled. Extensive adoption of the Metaverse might also lead to phenomena such as urban sprawl, increased formation of ghettos, and a decline in physical interactions within society, potentially undermining social cohesion and cultural integrity. Conclusion The emergence of the Metaverse, highlighted by Facebook’s rebranding to Meta, signifies a major technological transformation with undeniable potential to redefine urban environments. In an era marked by challenges such as climate change, rapid urbanization, and socio-economic inequalities, the Metaverse offers innovative solutions. By reducing the consumption of physical resources, enhancing decision-making efficiency in urban governance, and creating new opportunities for social interaction, this technology paves the way for more sustainable and intelligent cities. However, harnessing the full potential of the Metaverse requires intelligent management and comprehensive planning. This necessitates close collaboration among policymakers, researchers, and the technology industry to establish ethical and technical standards that maximize the benefits while minimizing the risks. The Metaverse also introduces a novel approach to cultural heritage preservation, offering tools to represent and protect historical and cultural artifacts within virtual environments. Furthermore, its ability to connect individuals across the globe without physical presence can strengthen social ties and reduce social isolation. In summary, the Metaverse opens new horizons for future research and innovation. Despite existing challenges, it has the potential to become a cornerstone in achieving sustainable development goals and shaping smart cities. Funding There is no funding support. Authors’ Contribution Authors contributed equally to the conceptualization and writing of the article. All of the authors approved thecontent of the manuscript and agreed on all aspects of the work declaration of competing interest none. Conflict of Interest Authors declared no conflict of interest. Acknowledgments We are grateful to all the scientific consultants of this paper.
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