Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning

Edouard Rolland; Kasper Andreas Rømer Grøntved; Anders Christensen; Matthew Watson; Tom Richardson

doi:10.1109/ICUAS60882.2024.10556912

Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning

Edouard Rolland^*, Kasper Andreas Rømer Grøntved, Anders Christensen, Matthew Watson, Tom Richardson

^*Corresponding author for this work

University of Bristol

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

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Abstract

Drones currently serve as a valuable tool for in-situ sampling of volcanic plumes, but they still involve manual piloting. In this paper, we enable autonomous dual plume sampling by using a machine vision model to detect eruptions. When an eruption is detected, a sampling trajectory is automatically generated to intercept the plume twice to collect comparative samples. The machine vision model is developed by training a YOLOv8 object detection model thanks to a database of 1505 images that feature labelled plumes. The obtained average precision value of the model's plume class, at 90.7%, is comparable to that of state-of-the-art models for wildfire smoke monitoring. The performance of this method is assessed using a software-in-the-loop simulation of the drone and a simulated plume model. Although the results confirm the efficacy of using a machine vision model for triggering an onboard path-planning algorithm, it also suggests the potential for a hybrid strategy that integrates visual servoing with our proposed path-planning approach.

Original language	English
Title of host publication	2024 International Conference on Unmanned Aircraft Systems (ICUAS)
Publisher	IEEE
Publication date	7. Jun 2024
Pages	1064-1071
ISBN (Electronic)	979-8-3503-5788-2
DOIs	https://doi.org/10.1109/ICUAS60882.2024.10556912
Publication status	Published - 7. Jun 2024
Event	International Conference on Unmanned Aircraft Systems - Chania, Greece Duration: 4. Jun 2024 → 8. Jun 2024 Conference number: 2024 https://icuas.com/

Conference

Conference	International Conference on Unmanned Aircraft Systems
Number	2024
Country/Territory	Greece
City	Chania
Period	04/06/2024 → 08/06/2024
Internet address	https://icuas.com/

Series	Proceedings of International Conference on Unmanned Aircraft Systems
ISSN	2373-6720

Keywords

Volcanic Monitoring
Volcanic Plume Detection
Path Planning
YOLO-V8
WildDrone

Documents & Links

10.1109/ICUAS60882.2024.10556912

Open Access VersionFinal published version, 3.78 MBLicence: CC BY

WildDrone
Lundquist, U. P. S. (Head coordinator), Pastucha, E. (Project manager), Møldrup, M. (Project participant), Panadevo, M. (Project participant), Christensen, A. (Project participant) & Jensen, K. (Project participant)
01/01/2023 → 31/12/2026
Project: EU

Cite this

@inproceedings{97ebe6563cc14afd9a5ce03998525ab6,

title = "Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning",

abstract = "Drones currently serve as a valuable tool for in-situ sampling of volcanic plumes, but they still involve manual piloting. In this paper, we enable autonomous dual plume sampling by using a machine vision model to detect eruptions. When an eruption is detected, a sampling trajectory is automatically generated to intercept the plume twice to collect comparative samples. The machine vision model is developed by training a YOLOv8 object detection model thanks to a database of 1505 images that feature labelled plumes. The obtained average precision value of the model's plume class, at 90.7%, is comparable to that of state-of-the-art models for wildfire smoke monitoring. The performance of this method is assessed using a software-in-the-loop simulation of the drone and a simulated plume model. Although the results confirm the efficacy of using a machine vision model for triggering an onboard path-planning algorithm, it also suggests the potential for a hybrid strategy that integrates visual servoing with our proposed path-planning approach.",

keywords = "Volcanic Monitoring, Volcanic Plume Detection, Path Planning, YOLO-V8, WildDrone",

author = "Edouard Rolland and Gr{\o}ntved, {Kasper Andreas R{\o}mer} and Anders Christensen and Matthew Watson and Tom Richardson",

year = "2024",

month = jun,

day = "7",

doi = "10.1109/ICUAS60882.2024.10556912",

language = "English",

series = "Proceedings of International Conference on Unmanned Aircraft Systems",

publisher = "IEEE",

pages = "1064--1071",

booktitle = "2024 International Conference on Unmanned Aircraft Systems (ICUAS)",

address = "United States",

note = "International Conference on Unmanned Aircraft Systems, ICUAS ; Conference date: 04-06-2024 Through 08-06-2024",

url = "https://icuas.com/",

}

Rolland, E , Grøntved, KAR , Christensen, A, Watson, M & Richardson, T 2024, Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning. in 2024 International Conference on Unmanned Aircraft Systems (ICUAS). IEEE, Proceedings of International Conference on Unmanned Aircraft Systems, pp. 1064-1071, International Conference on Unmanned Aircraft Systems, Chania, Greece, 04/06/2024. https://doi.org/10.1109/ICUAS60882.2024.10556912

Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning. / Rolland, Edouard ; Grøntved, Kasper Andreas Rømer ; Christensen, Anders et al.
2024 International Conference on Unmanned Aircraft Systems (ICUAS). IEEE, 2024. p. 1064-1071 (Proceedings of International Conference on Unmanned Aircraft Systems).

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

TY - GEN

T1 - Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning

AU - Rolland, Edouard

AU - Grøntved, Kasper Andreas Rømer

AU - Christensen, Anders

AU - Watson, Matthew

AU - Richardson, Tom

N1 - Conference code: 2024

PY - 2024/6/7

Y1 - 2024/6/7

N2 - Drones currently serve as a valuable tool for in-situ sampling of volcanic plumes, but they still involve manual piloting. In this paper, we enable autonomous dual plume sampling by using a machine vision model to detect eruptions. When an eruption is detected, a sampling trajectory is automatically generated to intercept the plume twice to collect comparative samples. The machine vision model is developed by training a YOLOv8 object detection model thanks to a database of 1505 images that feature labelled plumes. The obtained average precision value of the model's plume class, at 90.7%, is comparable to that of state-of-the-art models for wildfire smoke monitoring. The performance of this method is assessed using a software-in-the-loop simulation of the drone and a simulated plume model. Although the results confirm the efficacy of using a machine vision model for triggering an onboard path-planning algorithm, it also suggests the potential for a hybrid strategy that integrates visual servoing with our proposed path-planning approach.

AB - Drones currently serve as a valuable tool for in-situ sampling of volcanic plumes, but they still involve manual piloting. In this paper, we enable autonomous dual plume sampling by using a machine vision model to detect eruptions. When an eruption is detected, a sampling trajectory is automatically generated to intercept the plume twice to collect comparative samples. The machine vision model is developed by training a YOLOv8 object detection model thanks to a database of 1505 images that feature labelled plumes. The obtained average precision value of the model's plume class, at 90.7%, is comparable to that of state-of-the-art models for wildfire smoke monitoring. The performance of this method is assessed using a software-in-the-loop simulation of the drone and a simulated plume model. Although the results confirm the efficacy of using a machine vision model for triggering an onboard path-planning algorithm, it also suggests the potential for a hybrid strategy that integrates visual servoing with our proposed path-planning approach.

KW - Volcanic Monitoring

KW - Volcanic Plume Detection

KW - Path Planning

KW - YOLO-V8

KW - WildDrone

U2 - 10.1109/ICUAS60882.2024.10556912

DO - 10.1109/ICUAS60882.2024.10556912

M3 - Article in proceedings

T3 - Proceedings of International Conference on Unmanned Aircraft Systems

SP - 1064

EP - 1071

BT - 2024 International Conference on Unmanned Aircraft Systems (ICUAS)

PB - IEEE

T2 - International Conference on Unmanned Aircraft Systems

Y2 - 4 June 2024 through 8 June 2024

ER -

Autonomous UAV Volcanic Plume Sampling Based on Machine Vision and Path Planning

Abstract

Conference

Keywords

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