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Main Authors: Ko, Heeju, Kim, Sungjune, Oh, Gyeongrok, Yoon, Jeongyoon, Lee, Honglak, Jang, Sujin, Kim, Seungryong, Kim, Sangpil
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.06630
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author Ko, Heeju
Kim, Sungjune
Oh, Gyeongrok
Yoon, Jeongyoon
Lee, Honglak
Jang, Sujin
Kim, Seungryong
Kim, Sangpil
author_facet Ko, Heeju
Kim, Sungjune
Oh, Gyeongrok
Yoon, Jeongyoon
Lee, Honglak
Jang, Sujin
Kim, Seungryong
Kim, Sangpil
contents Vision-Language Navigation (VLN) policies trained on offline datasets often exhibit degraded task performance when deployed in unfamiliar navigation environments at test time, where agents are typically evaluated without access to external interaction or feedback. Entropy minimization has emerged as a practical solution for reducing prediction uncertainty at test time; however, it can suffer from accumulated errors, as agents may become overconfident in incorrect actions without sufficient contextual grounding. To tackle these challenges, we introduce ATENA (Active TEst-time Navigation Agent), a test-time active learning framework that enables a practical human-robot interaction via episodic feedback on uncertain navigation outcomes. In particular, ATENA learns to increase certainty in successful episodes and decrease it in failed ones, improving uncertainty calibration. Here, we propose mixture entropy optimization, where entropy is obtained from a combination of the action and pseudo-expert distributions-a hypothetical action distribution assuming the agent's selected action to be optimal-controlling both prediction confidence and action preference. In addition, we propose a self-active learning strategy that enables an agent to evaluate its navigation outcomes based on confident predictions. As a result, the agent stays actively engaged throughout all iterations, leading to well-grounded and adaptive decision-making. Extensive evaluations on challenging VLN benchmarks-REVERIE, R2R, and R2R-CE-demonstrate that ATENA successfully overcomes distributional shifts at test time, outperforming the compared baseline methods across various settings.
format Preprint
id arxiv_https___arxiv_org_abs_2506_06630
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Active Test-time Vision-Language Navigation
Ko, Heeju
Kim, Sungjune
Oh, Gyeongrok
Yoon, Jeongyoon
Lee, Honglak
Jang, Sujin
Kim, Seungryong
Kim, Sangpil
Robotics
Artificial Intelligence
Vision-Language Navigation (VLN) policies trained on offline datasets often exhibit degraded task performance when deployed in unfamiliar navigation environments at test time, where agents are typically evaluated without access to external interaction or feedback. Entropy minimization has emerged as a practical solution for reducing prediction uncertainty at test time; however, it can suffer from accumulated errors, as agents may become overconfident in incorrect actions without sufficient contextual grounding. To tackle these challenges, we introduce ATENA (Active TEst-time Navigation Agent), a test-time active learning framework that enables a practical human-robot interaction via episodic feedback on uncertain navigation outcomes. In particular, ATENA learns to increase certainty in successful episodes and decrease it in failed ones, improving uncertainty calibration. Here, we propose mixture entropy optimization, where entropy is obtained from a combination of the action and pseudo-expert distributions-a hypothetical action distribution assuming the agent's selected action to be optimal-controlling both prediction confidence and action preference. In addition, we propose a self-active learning strategy that enables an agent to evaluate its navigation outcomes based on confident predictions. As a result, the agent stays actively engaged throughout all iterations, leading to well-grounded and adaptive decision-making. Extensive evaluations on challenging VLN benchmarks-REVERIE, R2R, and R2R-CE-demonstrate that ATENA successfully overcomes distributional shifts at test time, outperforming the compared baseline methods across various settings.
title Active Test-time Vision-Language Navigation
topic Robotics
Artificial Intelligence
url https://arxiv.org/abs/2506.06630