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Bibliographic Details
Main Authors: Lima, Oscar, Vinci, Marc, Patra, Sunandita, Stock, Sebastian, Hertzberg, Joachim, Atzmueller, Martin, Ghallab, Malik, Nau, Dana, Traverso, Paolo
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.11345
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author Lima, Oscar
Vinci, Marc
Patra, Sunandita
Stock, Sebastian
Hertzberg, Joachim
Atzmueller, Martin
Ghallab, Malik
Nau, Dana
Traverso, Paolo
author_facet Lima, Oscar
Vinci, Marc
Patra, Sunandita
Stock, Sebastian
Hertzberg, Joachim
Atzmueller, Martin
Ghallab, Malik
Nau, Dana
Traverso, Paolo
contents Robotic task execution faces challenges due to the inconsistency between symbolic planner models and the rich control structures actually running on the robot. In this paper, we present the first physical deployment of an integrated actor-planner system that shares hierarchical operational models for both acting and planning, interleaving the Reactive Acting Engine (RAE) with an anytime UCT-like Monte Carlo planner (UPOM). We implement RAE+UPOM on a mobile manipulator in a real-world deployment for an object collection task. Our experiments demonstrate robust task execution under action failures and sensor noise, and provide empirical insights into the interleaved acting-and-planning decision making process.
format Preprint
id arxiv_https___arxiv_org_abs_2507_11345
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Acting and Planning with Hierarchical Operational Models on a Mobile Robot: A Study with RAE+UPOM
Lima, Oscar
Vinci, Marc
Patra, Sunandita
Stock, Sebastian
Hertzberg, Joachim
Atzmueller, Martin
Ghallab, Malik
Nau, Dana
Traverso, Paolo
Robotics
Artificial Intelligence
Robotic task execution faces challenges due to the inconsistency between symbolic planner models and the rich control structures actually running on the robot. In this paper, we present the first physical deployment of an integrated actor-planner system that shares hierarchical operational models for both acting and planning, interleaving the Reactive Acting Engine (RAE) with an anytime UCT-like Monte Carlo planner (UPOM). We implement RAE+UPOM on a mobile manipulator in a real-world deployment for an object collection task. Our experiments demonstrate robust task execution under action failures and sensor noise, and provide empirical insights into the interleaved acting-and-planning decision making process.
title Acting and Planning with Hierarchical Operational Models on a Mobile Robot: A Study with RAE+UPOM
topic Robotics
Artificial Intelligence
url https://arxiv.org/abs/2507.11345