NAMOUnc: Navigation Among Movable Obstacles with Decision Making on Uncertainty Interval

Kai Zhang; Eric Lucet; Julien Alexandre Dit Sandretto; Shoubin Chen; David Filliat

doi:10.5220/0013806300003982

NAMOUnc: Navigation Among Movable Obstacles with Decision Making on Uncertainty Interval

Kai Zhang
, Eric Lucet
, Julien Alexandre Dit Sandretto
, Shoubin Chen
, David Filliat

Université Paris-Saclay
Guangdong Laboratory of Artificial Intelligence and Digital Economy(SZ)

Résultats de recherche: Contribution à un journal › Article de conférence › Revue par des pairs

Résumé

Navigation among movable obstacles (NAMO) is a critical task in robotics, often challenged by real-world uncertainties such as observation noise, model approximations, action failures, and partial observability. Existing solutions frequently assume ideal conditions, leading to suboptimal or risky decisions. This paper introduces NAMOUnc, a novel framework designed to address these uncertainties by integrating them into the decision making process. We first estimate them and compare the corresponding time cost intervals for removing and bypassing obstacles, optimizing both the success rate and time efficiency, ensuring safer and more efficient navigation. We validate our method through extensive simulations and real-world experiments, demonstrating significant improvements over existing NAMO frameworks. More details can be found in our website: https://kai-zhang-er.github.io/namo-uncertainty/.

langue originale	Anglais
Pages (de - à)	139-149
Nombre de pages	11
journal	Proceedings of the International Conference on Informatics in Control, Automation and Robotics
Volume	2
Les DOIs	https://doi.org/10.5220/0013806300003982
état	Publié - 1 janv. 2025
Evénement	22nd International Conference on Informatics in Control, Automation and Robotics, ICINCO 2025 - Marbella, Espagne Durée: 20 oct. 2025 → 22 oct. 2025

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10.5220/0013806300003982

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title = "NAMOUnc: Navigation Among Movable Obstacles with Decision Making on Uncertainty Interval",

abstract = "Navigation among movable obstacles (NAMO) is a critical task in robotics, often challenged by real-world uncertainties such as observation noise, model approximations, action failures, and partial observability. Existing solutions frequently assume ideal conditions, leading to suboptimal or risky decisions. This paper introduces NAMOUnc, a novel framework designed to address these uncertainties by integrating them into the decision making process. We first estimate them and compare the corresponding time cost intervals for removing and bypassing obstacles, optimizing both the success rate and time efficiency, ensuring safer and more efficient navigation. We validate our method through extensive simulations and real-world experiments, demonstrating significant improvements over existing NAMO frameworks. More details can be found in our website: https://kai-zhang-er.github.io/namo-uncertainty/.",

keywords = "Decision Making, Navigation Among Movable Obstacles, Planning Under Uncertainty",

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NAMOUnc: Navigation Among Movable Obstacles with Decision Making on Uncertainty Interval. / Zhang, Kai; Lucet, Eric; Sandretto, Julien Alexandre Dit et al.
Dans: Proceedings of the International Conference on Informatics in Control, Automation and Robotics, Vol 2, 01.01.2025, p. 139-149.

Résultats de recherche: Contribution à un journal › Article de conférence › Revue par des pairs

TY - JOUR

T1 - NAMOUnc

T2 - 22nd International Conference on Informatics in Control, Automation and Robotics, ICINCO 2025

AU - Zhang, Kai

AU - Lucet, Eric

AU - Sandretto, Julien Alexandre Dit

AU - Chen, Shoubin

AU - Filliat, David

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Navigation among movable obstacles (NAMO) is a critical task in robotics, often challenged by real-world uncertainties such as observation noise, model approximations, action failures, and partial observability. Existing solutions frequently assume ideal conditions, leading to suboptimal or risky decisions. This paper introduces NAMOUnc, a novel framework designed to address these uncertainties by integrating them into the decision making process. We first estimate them and compare the corresponding time cost intervals for removing and bypassing obstacles, optimizing both the success rate and time efficiency, ensuring safer and more efficient navigation. We validate our method through extensive simulations and real-world experiments, demonstrating significant improvements over existing NAMO frameworks. More details can be found in our website: https://kai-zhang-er.github.io/namo-uncertainty/.

AB - Navigation among movable obstacles (NAMO) is a critical task in robotics, often challenged by real-world uncertainties such as observation noise, model approximations, action failures, and partial observability. Existing solutions frequently assume ideal conditions, leading to suboptimal or risky decisions. This paper introduces NAMOUnc, a novel framework designed to address these uncertainties by integrating them into the decision making process. We first estimate them and compare the corresponding time cost intervals for removing and bypassing obstacles, optimizing both the success rate and time efficiency, ensuring safer and more efficient navigation. We validate our method through extensive simulations and real-world experiments, demonstrating significant improvements over existing NAMO frameworks. More details can be found in our website: https://kai-zhang-er.github.io/namo-uncertainty/.

KW - Decision Making

KW - Navigation Among Movable Obstacles

KW - Planning Under Uncertainty

UR - https://www.scopus.com/pages/publications/105022111469

U2 - 10.5220/0013806300003982

DO - 10.5220/0013806300003982

M3 - Conference article

AN - SCOPUS:105022111469

SN - 2184-2809

VL - 2

SP - 139

EP - 149

JO - Proceedings of the International Conference on Informatics in Control, Automation and Robotics

JF - Proceedings of the International Conference on Informatics in Control, Automation and Robotics

Y2 - 20 October 2025 through 22 October 2025

ER -

NAMOUnc: Navigation Among Movable Obstacles with Decision Making on Uncertainty Interval

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