Optimization of collision-free trajectories for advanced air mobility under risk of a non-cooperative intruder
Author:
Affiliation:
1. Electronics and Telecommunications Research Institute,Mobility Infra Research Section Air Mobility Research Division Digital Convergence Research Laboratory,Daejeon,South Korea
Funder
Electronics and Telecommunications Research Institute
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/10391854/10391860/10393649.pdf?arnumber=10393649
Reference5 articles.
1. Distributed Computational Guidance for High-Density Urban Air Mobility with Cooperative and Non-Cooperative Collision Avoidance
2. MADER: Trajectory Planner in Multiagent and Dynamic Environments
3. Conflict-free four-dimensional path planning for urban air mobility considering airspace occupancy
4. Successive Convexification for 6-DoF Mars Rocket Powered Landing with Free-Final-Time
5. Joint Trajectory and Communication Design for Multi-UAV Enabled Wireless Networks
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