1. Simulating the Integration of Urban Air Mobility into Existing Transportation Systems: A Survey
- Author
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Jiang, Xuan, Tang, Yuhan, Tang, Zhiyi, Cao, Junzhe, Bulusu, Vishwanath, Peng, Xin, Poliziani, Cristian, and Sengupta, Raja
- Subjects
FOS: Computer and information sciences ,Computer Science - Robotics ,Computer Science - Computers and Society ,Artificial Intelligence (cs.AI) ,Computer Science - Artificial Intelligence ,Computers and Society (cs.CY) ,Robotics (cs.RO) - Abstract
Urban air mobility (UAM) has the potential to revolutionize transportation in metropolitan areas, providing a new mode of transportation that could alleviate congestion and improve accessibility. However, the integration of UAM into existing transportation systems is a complex task that requires a thorough understanding of its impact on traffic flow and capacity. In this paper, we conduct a survey to investigate the current state of research on UAM in metropolitan-scale traffic using simulation techniques. We identify key challenges and opportunities for the integration of UAM into urban transportation systems, including impacts on existing traffic patterns and congestion; safety analysis and risk assessment; potential economic and environmental benefits; and the development of shared infrastructure and routes for UAM and ground-based transportation. We also discuss the potential benefits of UAM, such as reduced travel times and improved accessibility for underserved areas. Our survey provides a comprehensive overview of the current state of research on UAM in metropolitan-scale traffic using simulation and highlights key areas for future research and development., Comment: I found significant inaccuracies that greatly affect its findings. To maintain scientific integrity and prevent misleading readers, I request its withdrawal. Once corrected, I plan to resubmit the revised paper to arXiv. I appreciate your understanding
- Published
- 2023
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