Rapid Quadrotor Navigation in Diverse Environments Using an Onboard Depth Camera
Search and rescue environments exhibit challenging 3D geometry (e.g., confined spaces, rubble, and breakdown), which necessitates agile and maneuverable aerial robotic systems. Because these systems are size, weight, and power ( S WaP) constrained, rapid navigation is essential for maximizing enviro...
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| Published in | IEEE International Symposium on Safety, Security and Rescue Robotics pp. 18 - 25 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
12.11.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2475-8426 |
| DOI | 10.1109/SSRR62954.2024.10770033 |
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| Abstract | Search and rescue environments exhibit challenging 3D geometry (e.g., confined spaces, rubble, and breakdown), which necessitates agile and maneuverable aerial robotic systems. Because these systems are size, weight, and power ( S WaP) constrained, rapid navigation is essential for maximizing environment coverage. Onboard autonomy must be robust to prevent collisions, which may endanger rescuers and victims. Prior works have developed high-speed navigation solutions for autonomous aerial systems, but few have considered safety for search and rescue applications. These works have also not demonstrated their approaches in diverse environments. We bridge this gap in the state of the art by developing a reactive planner using forward-arc motion primitives, which leverages a history of RGB-D observations to safely maneuver in close proximity to obstacles. At every planning round, a safe stopping action is scheduled, which is executed if no feasible motion plan is found at the next planning round. The approach is evaluated in thousands of simulations and deployed in diverse environments, including caves and forests. The results demonstrate a 24 % increase in success rate compared to state-of-the-art approaches. |
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| AbstractList | Search and rescue environments exhibit challenging 3D geometry (e.g., confined spaces, rubble, and breakdown), which necessitates agile and maneuverable aerial robotic systems. Because these systems are size, weight, and power ( S WaP) constrained, rapid navigation is essential for maximizing environment coverage. Onboard autonomy must be robust to prevent collisions, which may endanger rescuers and victims. Prior works have developed high-speed navigation solutions for autonomous aerial systems, but few have considered safety for search and rescue applications. These works have also not demonstrated their approaches in diverse environments. We bridge this gap in the state of the art by developing a reactive planner using forward-arc motion primitives, which leverages a history of RGB-D observations to safely maneuver in close proximity to obstacles. At every planning round, a safe stopping action is scheduled, which is executed if no feasible motion plan is found at the next planning round. The approach is evaluated in thousands of simulations and deployed in diverse environments, including caves and forests. The results demonstrate a 24 % increase in success rate compared to state-of-the-art approaches. |
| Author | Goel, Kshitij Tabib, Wennie Stecklein, John Rathod, Abhishek Lee, Jonnthan |
| Author_xml | – sequence: 1 givenname: Jonnthan surname: Lee fullname: Lee, Jonnthan email: jlee6@andrew.emu.edu organization: Robotics Institute, Carnegie Mellon University,Pittsburgh,PA,USA,15213 – sequence: 2 givenname: Abhishek surname: Rathod fullname: Rathod, Abhishek email: arathod2@andrew.emu.edu organization: Robotics Institute, Carnegie Mellon University,Pittsburgh,PA,USA,15213 – sequence: 3 givenname: Kshitij surname: Goel fullname: Goel, Kshitij email: kgoell@andrew.emu.edu organization: Robotics Institute, Carnegie Mellon University,Pittsburgh,PA,USA,15213 – sequence: 4 givenname: John surname: Stecklein fullname: Stecklein, John email: jsteekle@andrew.emu.edu organization: Robotics Institute, Carnegie Mellon University,Pittsburgh,PA,USA,15213 – sequence: 5 givenname: Wennie surname: Tabib fullname: Tabib, Wennie email: wtabib@andrew.emu.edu organization: Robotics Institute, Carnegie Mellon University,Pittsburgh,PA,USA,15213 |
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| Snippet | Search and rescue environments exhibit challenging 3D geometry (e.g., confined spaces, rubble, and breakdown), which necessitates agile and maneuverable aerial... |
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| SubjectTerms | Cameras Collision avoidance Forests History Navigation Planning Robots Safety Trajectory Visualization |
| Title | Rapid Quadrotor Navigation in Diverse Environments Using an Onboard Depth Camera |
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