• Title/Summary/Keyword: UAM(Urban Air Mobility)

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Strategic Conflict Management for Safe Urban Air Mobility Operations (안전한 도심항공교통 운영을 위한 전략적 충돌 관리 방안)

  • Tae gyeong Yun;Soohwan Oh
    • Journal of Advanced Navigation Technology
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    • v.28 no.4
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    • pp.450-458
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    • 2024
  • Urban air mobility (UAM) shows great promise for commercialization, yet the technical foundations for ensuring safety in large-scale operations remain a challenge. The purpose of this paper was to analyze current air traffic conflict management techniques in order to develop strategies for implementing strategic conflict management within UAM traffic management systems. We found that UAM conflict management can benefit from demand and capacity balancing techniques, and a system-wide approach is essential. Specifically, the use of data sharing and probabilistic methods is essential for addressing flight time uncertainty and large-scale UAM operations effectively.

Cyber Threat Analysis of UAM Communications, Navigation, Surveillance and Information System (UAM 통신, 항법, 감시 및 정보 시스템의 사이버 위협 분석)

  • Kyungwook Kim;Hyoung-keun Yoon
    • Journal of Advanced Navigation Technology
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    • v.28 no.4
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    • pp.442-449
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    • 2024
  • In this paper, we aim to propose a comprehensive framework for cyber threat analysis of urban air mobility (UAM) or advanced air mobility (AAM) communications, navigation, surveillance, and information system infrastructure. By examining potential vulnerabilities and threat vectors, we seek to enhance the security and resilience of UAM infrastructure. We conduct a detailed cyber threat analysis to identify and categorize various types of cyber threats, assess their impact on the CNSi systems, and evaluate the vulnerabilities within these systems that may be exploited by such threats. This analysis will provide valuable insights for stakeholders involved in the deployment and operation of UAM systems, ultimately contributing to the safe and efficient integration of urban air transportation.

A Study on the Concept of Operation of Low-density Operation in Urban Air Mobility from the Perspective of an Airline (운항사 관점의 저밀도 도심항공교통 운항통제 운용개념 연구)

  • Sunghyun Jin;Heeduk Cho;Daniel Kim;Jaewoo Kim
    • Journal of Advanced Navigation Technology
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    • v.28 no.2
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    • pp.201-209
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    • 2024
  • This study investigates the operational facets of low-density urban air mobility (UAM) from an airline's perspective amid burgeoning concerns about urban congestion in megacities. UAM, employing electric vertical takeoff and landing (eVTOL) technology, emerges as a potential remedy to the challenges of traffic gridlock and environmental degradation. As the UAM market progresses from initial stages to maturity, tailored traffic control systems become paramount. Focused on the context of low-density environments during UAM's inception, this research scrutinizes operational frameworks, essential infrastructure, and likely scenarios. It aims to bolster the safety and efficiency of UAM operations by delving into the specifics of traffic control concepts designed for these unique settings. The study seeks to significantly contribute to optimizing UAM's initial phases, providing insights into crucial operational dynamics for a smoother integration of urban air mobility into contemporary urban landscapes.

Perspectives on Noise Issues Arising from the Introduction of Urban Air Mobility (UAM) -Characteristics and Potential Health Effects of UAM Noise: Research Directions and Policy Considerations- (도심환경교통(Urban Air Mobility, UAM) 도입에 따른 소음 문제에 대한 시론 -UAM 소음의 특성과 잠재적 건강영향: 연구 방향 및 관리를 위한 정책적 고려사항-)

  • Seunghon Ham
    • Journal of Environmental Health Sciences
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    • v.50 no.2
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    • pp.81-82
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    • 2024
  • Urban air mobility (UAM) is emerging as an innovative transportation solution for cities. However, the potential noise impact on urban life must be carefully examined. Continuous exposure to UAM noise, with its unique frequency characteristics and temporal variability, may adversely affect citizens' health by causing sleep disorders, cardiovascular disease, and cognitive impairmenet, particularly in children. NASA has formed a UAM Noise Working Group to study this issue comprehensively. In Korea, the Seoul Metropolitan Government's UAM demonstration project is expected to accelerate related research and development. Scientific analysis, including noise measurement, prediction modeling, and health impact assessment, must be prioritized. Measures to minimize noise should be established based on this evidence, such as optimizing flight modes, developing noise reduction technologies, and establishing new noise management standards. Transparency and social consensus are crucial throughout this process. Expert review and open communication with civil society are necessary to address related concerns. Sharing demonstration project results and providing opportunities to experience UAM noise through digital twin simulations can help address public concerns and build social consensus. Proactively and scientifically tackling noise issues is essential for the sustainable development and successful integration of UAM into daily life.

Establishment of Safety Alert Systems for Urban Air Mobility Operations (도심항공교통(UAM) 운항을 위한 안전 경고 기능 구축)

  • Sang-il Choi;Seung-yeon Nam;Hui-yang Kim
    • Journal of Advanced Navigation Technology
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    • v.28 no.2
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    • pp.163-171
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    • 2024
  • In the existing air traffic management (ATM) system, various types of safety alert features are provided based on trajectory data to ensure the safety of aircraft operations, along with aircraft position and detailed flight information. The urban air traffic management (UATM) system for urban air mobility (UAM) should also provide safety alert features to ensure the safety of UAM operations. Considering the operational environment of UAM, it is necessary that the safety alert features provided at least match or exceed those available in the existing ATM system. This study aims to present the safety alert features of the new UATM system that differ from those provided by the existing ATM system before introduction and commercialization of UAM. The study was conducted focusing on the safety alert features that should be provided in the event of a deviation from the UAM's path, and the establishment of the safety alert features was carried out in two parts: approach path monitor (APM), which is applied during the approach phase, and route adherence monitoring (RAM), which is applied during the cruise phase.

Recommendation of Navigation Performance for K-UAM Considering Multipath Error in Urban Environment Operation

  • Sangdo Park;Dongwon Jung;Hyang Sig Jun
    • Journal of Positioning, Navigation, and Timing
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    • v.12 no.4
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    • pp.379-389
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    • 2023
  • According to the Korea Urban Air Mobility (K-UAM) Concept of Operation (ConOps), the Global Navigation Satellite System (GNSS) is recommended as the primary navigation system and the performance specification will be implemented considering the standard of Performance Based Navigation (PBN). However, by taking into account the characteristics of an urban environment and the concurrent operations of multiple UAM aircraft, the current PBN standards for civil aviation seem difficult to be directly applied to an UAM aircraft. Therefore, by referring to technical documents published in the literature, this paper examines the feasibility of applying the proposed performance requirements to K-UAM, which follows the recommendation of navigation performance requirements for K-UAM. In accordance with the UAM ConOps, the UAM aircraft is anticipated to maintain low altitude during approach and landing phases. Subsequently, the navigation performance degradation could occur in the urban environment, and the primary degradation factor is identified as multipath error. For this reason, to ensure the safety and reliability of the K-UAM aircraft, it is necessary to analyze the degree of performance degradation related to the urban environment and then propose an alternative aid to enhance the navigation performance. To this end, the aim of this paper is to model the multipath effects of the GNSS in an urban environment and to carry out the simulation studies using the real GNSS datasets. Finally, the initial navigation performance requirement is proposed based on the results of the numerical simulation for the K-UAM.

A Study on the Military Operation of Urban Air Mobility (UAM) (도심항공모빌리티(UAM)의 군사적 운용방안에 관한연구)

  • Kang-Il Seo;Sang-Hyuk Park
    • The Journal of the Convergence on Culture Technology
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    • v.9 no.3
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    • pp.287-292
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    • 2023
  • The U.S. National Aeronautics and Space Administration proposed a new concept of urban air mobility in the city's short-range air transport ecosystem in order to build a new low-altitude air, and the term uam is currently used worldwide. This paradigm is also being promoted by the Korean government with the goal of commercializing urban air transport services by 2025, and furthermore, the need to secure air maneuvers and transportation capacity is emerging due to the rapidly changing future operating environment and battlefield space. In other words, this study started to present the military necessity and military operation plan by introducing the 'Agility Prime' program of the US Air Force. 'Agility Prime' program was organized in order of background and concept of urban air mobility, development trend of Korean urban air mobility and analysis of the US Air Force's 'Agility Prime' program, and it is expected that this study will be followed by a follow-up study.

Policy and Industry Trends in Urban Air Mobility (도심항공모빌리티(UAM) 관련 정책·산업 동향 및 이슈)

  • A. Hong;A.S. Park;M.S. Kim
    • Electronics and Telecommunications Trends
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    • v.38 no.4
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    • pp.36-46
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    • 2023
  • This paper presents concepts, policies, industry trends, and related issues in urban air mobility (UAM). UAM will contribute to transportation by mitigating traffic congestion and environmental problems in the future. Accordingly, governments of major countries are promoting UAM policies and demonstration projects as well as preparing laws and certification standards. In UAM, overseas startups lead airframe developments, and major companies from the aircraft, automotive, and information technology industries are also participating. In addition, startups and major companies are building the corresponding infrastructure. For the development of UAM, issues related to technology, regulation systems, and infrastructure still need to be resolved.

An Empirical Study on Establishing the Cross-track Corridor Dimension for UAM Operations (도심항공교통(UAM) 운영을 위한 횡적 회랑 규격 실증 연구)

  • Do-hyun Kim;Kyung-han Lee;Hyo-seok Chang;Seung-jun Lee
    • Journal of Advanced Navigation Technology
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    • v.28 no.1
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    • pp.21-26
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    • 2024
  • Urban air mobility (UAM) is being considered as an alternative to transportation in urban areas where traffic congestion is increasing. It is judged that it will be difficult to manage the complex UAM operation environment with the existing Air Traffic Service, which is a person-centered service. Therefore, an advanced information processing-based traffic management system for UAM (UATM) is needed. Airspace management is essential to establish a systematic UAM traffic management (UATM) environment. In particular, the establishment of exclusive corridors where UAM aircraft can operate safely can provide opportunities to operate UAM aircraft without violating the minimum flight altitude regulations. This study conducted an empirical analysis using a helicopter of similar size to UAM to establish the cross-track dimension of the corridor for UAM operation. The research results can be used as a guideline when designing UAM corridors.

A Study on Ground and Object Separation Techniques Utilizing 3D Point Cloud Data in Urban Air Mobility (UAM) Environments (UAM 환경에서의 3D Point Cloud Data 지면/객체 분리 기법 연구)

  • Bon-soo Koo;In-ho choi;Jae-rim Yu
    • Journal of Advanced Navigation Technology
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    • v.27 no.4
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    • pp.481-487
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    • 2023
  • Recently, interest in UAM (Urban Air Mobility) has surged as a critical solution to urban traffic congestion and air pollution issues. However, efficient UAM operation requires accurate 3D Point Cloud data processing, particularly in separating the ground and objects. This paper proposes and validates a method for effectively separating ground and objects in a UAM environment, taking into account its dynamic and complex characteristics. Our approach combines attitude information from MEMS sensors with ground plane estimation using RANSAC, allowing for ground/object separation that isless affected by GPS errors. Simulation results demonstrate that this method effectively operates in UAM settings, marking a significant step toward enhancing safety and efficiency in urban air mobility. Future research will focus on improving the accuracy of this algorithm, evaluating its performance in various UAM scenarios, and proceeding with actual drone tests.