Urban Air Mobility: A Review of Recent Advances in Communication, Management, and Sustainability
By: Zhitong He, Zijing Wang, Lingxi Li
Potential Business Impact:
Flying taxis will soon be a reality.
Urban Air Mobility (UAM) offers a transformative approach to addressing urban congestion, improving accessibility, and advancing environmental sustainability. Rapid progress has emerged in three tightly linked domains since 2020: (1) Communication, where dynamic spectrum allocation and low-altitude channel characterization support reliable air-ground data exchange; (2) UAM management, with novel air-traffic control concepts for dense, largely autonomous urban airspace; and (3) Sustainability, driven by energy-efficient propulsion, integrated charging infrastructure, and holistic environmental assessment. This paper reviews and synthesizes the latest research across these areas, compares the state-of-the-art solutions, and outlines the technological and infrastructural milestones that are critical to realizing a scalable, sustainable UAM ecosystem.
Similar Papers
Urban Air Mobility as a System of Systems: An LLM-Enhanced Holonic Approach
Artificial Intelligence
Lets flying taxis and scooters work together smoothly.
From Patchwork to Network: A Comprehensive Framework for Demand Analysis and Fleet Optimization of Urban Air Mobility
Distributed, Parallel, and Cluster Computing
Flies people faster in cities using airports.
Optimized Conflict Management for Urban Air Mobility Using Swarm UAV Networks
Robotics
Drones fly safely together in cities.