Deployment of an Aerial Multi-agent System for Automated Task Execution in Large-scale Underground Mining Environments
In this article, we present a framework for deploying an aerial multi-agent system in large-scale subterranean environments with minimal infrastructure for supporting multi-agent operations. The multi-agent objective is to optimally and reactively allocate and execute inspection tasks in a mine, whi...
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| creator | Dahlquist, Niklas Nordström, Samuel Stathoulopoulos, Nikolaos Lindqvist, Björn Saradagi, Akshit Nikolakopoulos, George |
| description | In this article, we present a framework for deploying an aerial multi-agent
system in large-scale subterranean environments with minimal infrastructure for
supporting multi-agent operations. The multi-agent objective is to optimally
and reactively allocate and execute inspection tasks in a mine, which are
entered by a mine operator on-the-fly. The assignment of currently available
tasks to the team of agents is accomplished through an auction-based system,
where the agents bid for available tasks, which are used by a central
auctioneer to optimally assigns tasks to agents. A mobile Wi-Fi mesh supports
inter-agent communication and bi-directional communication between the agents
and the task allocator, while the task execution is performed completely
infrastructure-free. Given a task to be accomplished, a reliable and modular
agent behavior is synthesized by generating behavior trees from a pool of agent
capabilities, using a back-chaining approach. The auction system in the
proposed framework is reactive and supports addition of new operator-specified
tasks on-the-go, at any point through a user-friendly operator interface. The
framework has been validated in a real underground mining environment using
three aerial agents, with several inspection locations spread in an environment
of almost 200 meters. The proposed framework can be utilized for missions
involving rapid inspection, gas detection, distributed sensing and mapping etc.
in a subterranean environment. The proposed framework and its field deployment
contributes towards furthering reliable automation in large-scale subterranean
environments to offload both routine and dangerous tasks from human operators
to autonomous aerial robots. |
| doi_str_mv | 10.48550/arxiv.2501.10262 |
| format | Article |
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system in large-scale subterranean environments with minimal infrastructure for
supporting multi-agent operations. The multi-agent objective is to optimally
and reactively allocate and execute inspection tasks in a mine, which are
entered by a mine operator on-the-fly. The assignment of currently available
tasks to the team of agents is accomplished through an auction-based system,
where the agents bid for available tasks, which are used by a central
auctioneer to optimally assigns tasks to agents. A mobile Wi-Fi mesh supports
inter-agent communication and bi-directional communication between the agents
and the task allocator, while the task execution is performed completely
infrastructure-free. Given a task to be accomplished, a reliable and modular
agent behavior is synthesized by generating behavior trees from a pool of agent
capabilities, using a back-chaining approach. The auction system in the
proposed framework is reactive and supports addition of new operator-specified
tasks on-the-go, at any point through a user-friendly operator interface. The
framework has been validated in a real underground mining environment using
three aerial agents, with several inspection locations spread in an environment
of almost 200 meters. The proposed framework can be utilized for missions
involving rapid inspection, gas detection, distributed sensing and mapping etc.
in a subterranean environment. The proposed framework and its field deployment
contributes towards furthering reliable automation in large-scale subterranean
environments to offload both routine and dangerous tasks from human operators
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system in large-scale subterranean environments with minimal infrastructure for
supporting multi-agent operations. The multi-agent objective is to optimally
and reactively allocate and execute inspection tasks in a mine, which are
entered by a mine operator on-the-fly. The assignment of currently available
tasks to the team of agents is accomplished through an auction-based system,
where the agents bid for available tasks, which are used by a central
auctioneer to optimally assigns tasks to agents. A mobile Wi-Fi mesh supports
inter-agent communication and bi-directional communication between the agents
and the task allocator, while the task execution is performed completely
infrastructure-free. Given a task to be accomplished, a reliable and modular
agent behavior is synthesized by generating behavior trees from a pool of agent
capabilities, using a back-chaining approach. The auction system in the
proposed framework is reactive and supports addition of new operator-specified
tasks on-the-go, at any point through a user-friendly operator interface. The
framework has been validated in a real underground mining environment using
three aerial agents, with several inspection locations spread in an environment
of almost 200 meters. The proposed framework can be utilized for missions
involving rapid inspection, gas detection, distributed sensing and mapping etc.
in a subterranean environment. The proposed framework and its field deployment
contributes towards furthering reliable automation in large-scale subterranean
environments to offload both routine and dangerous tasks from human operators
to autonomous aerial robots.</description><subject>Computer Science - Robotics</subject><subject>Computer Science - Systems and Control</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2025</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNqFzjGPgkAQBeBtrjB39wOsnD8AAsrF1txhLM5KrclEBjJxmSWzC4F_bzD2Vq94L3mfMcs0ibe7PE_WqCMPcZYnaZwm2U-2MMMfddZNLUkAVwMK7EkZLZx6GzjCZi7Okw_UQu0U9n1wLQaq4IL-DsVItz6wE2CBf9SGIn9DS3CVirRR10sFJxaWBgoZWJ3MV_7LfNRoPX2_8tOsDsXl9xg9hWWn3KJO5Swtn9LN-8UD-CNKog</recordid><startdate>20250117</startdate><enddate>20250117</enddate><creator>Dahlquist, Niklas</creator><creator>Nordström, Samuel</creator><creator>Stathoulopoulos, Nikolaos</creator><creator>Lindqvist, Björn</creator><creator>Saradagi, Akshit</creator><creator>Nikolakopoulos, George</creator><scope>AKY</scope><scope>GOX</scope></search><sort><creationdate>20250117</creationdate><title>Deployment of an Aerial Multi-agent System for Automated Task Execution in Large-scale Underground Mining Environments</title><author>Dahlquist, Niklas ; Nordström, Samuel ; Stathoulopoulos, Nikolaos ; Lindqvist, Björn ; Saradagi, Akshit ; Nikolakopoulos, George</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-arxiv_primary_2501_102623</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2025</creationdate><topic>Computer Science - Robotics</topic><topic>Computer Science - Systems and Control</topic><toplevel>online_resources</toplevel><creatorcontrib>Dahlquist, Niklas</creatorcontrib><creatorcontrib>Nordström, Samuel</creatorcontrib><creatorcontrib>Stathoulopoulos, Nikolaos</creatorcontrib><creatorcontrib>Lindqvist, Björn</creatorcontrib><creatorcontrib>Saradagi, Akshit</creatorcontrib><creatorcontrib>Nikolakopoulos, George</creatorcontrib><collection>arXiv Computer Science</collection><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Dahlquist, Niklas</au><au>Nordström, Samuel</au><au>Stathoulopoulos, Nikolaos</au><au>Lindqvist, Björn</au><au>Saradagi, Akshit</au><au>Nikolakopoulos, George</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Deployment of an Aerial Multi-agent System for Automated Task Execution in Large-scale Underground Mining Environments</atitle><date>2025-01-17</date><risdate>2025</risdate><abstract>In this article, we present a framework for deploying an aerial multi-agent
system in large-scale subterranean environments with minimal infrastructure for
supporting multi-agent operations. The multi-agent objective is to optimally
and reactively allocate and execute inspection tasks in a mine, which are
entered by a mine operator on-the-fly. The assignment of currently available
tasks to the team of agents is accomplished through an auction-based system,
where the agents bid for available tasks, which are used by a central
auctioneer to optimally assigns tasks to agents. A mobile Wi-Fi mesh supports
inter-agent communication and bi-directional communication between the agents
and the task allocator, while the task execution is performed completely
infrastructure-free. Given a task to be accomplished, a reliable and modular
agent behavior is synthesized by generating behavior trees from a pool of agent
capabilities, using a back-chaining approach. The auction system in the
proposed framework is reactive and supports addition of new operator-specified
tasks on-the-go, at any point through a user-friendly operator interface. The
framework has been validated in a real underground mining environment using
three aerial agents, with several inspection locations spread in an environment
of almost 200 meters. The proposed framework can be utilized for missions
involving rapid inspection, gas detection, distributed sensing and mapping etc.
in a subterranean environment. The proposed framework and its field deployment
contributes towards furthering reliable automation in large-scale subterranean
environments to offload both routine and dangerous tasks from human operators
to autonomous aerial robots.</abstract><doi>10.48550/arxiv.2501.10262</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Robotics Computer Science - Systems and Control |
| title | Deployment of an Aerial Multi-agent System for Automated Task Execution in Large-scale Underground Mining Environments |
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