TAPE: Tether-Aware Path Planning for Autonomous Exploration of Unknown 3D Cavities Using a Tangle-Compatible Tethered Aerial Robot

This letter presents the first method for autonomous exploration of unknown cavities in three dimensions (3D) that focuses on minimizing the distance traveled and the length of tether unwound. Considering that the tether entanglements are little influenced by the global path, our approach employs a...

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Bibliographic Details
Published in:IEEE robotics and automation letters 2022-10, Vol.7 (4), p.10550-10557
Main Authors: Petit, Louis, Desbiens, Alexis Lussier
Format: Article
Language:English
Subjects:
Aerial systems: perception and autonomy
Autonomous aerial vehicles
Costs
Field tests
motion and path planning
Path planning
Planning
Robot sensing systems
Robots
Sensors
Tethers
Three-dimensional displays
Traveling salesman problem
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Summary:This letter presents the first method for autonomous exploration of unknown cavities in three dimensions (3D) that focuses on minimizing the distance traveled and the length of tether unwound. Considering that the tether entanglements are little influenced by the global path, our approach employs a 2-level hierarchical architecture. The global frontier-based planning solves a Traveling Salesman Problem (TSP) to minimize the distance. The local planning attempts to minimize the path cost and the tether length using an adjustable decision function whose parameters play on the trade-off between these two values. The proposed method, TAPE, is evaluated through detailed simulation studies as well as field tests. On average, our method generates a 4.1% increase in distance traveled compared to the TSP solution without our local planner, with which the length of the tether remains below the maximum allowed value in 53% of the simulated cases against 100% with our method.
ISSN:2377-3766
2377-3766
DOI:10.1109/LRA.2022.3194691