Wild visual navigation: fast traversability learning via pre-trained models and online self-supervision

IF 4.3 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Autonomous Robots Pub Date : 2025-07-18 DOI:10.1007/s10514-025-10202-x

Matias Mattamala, Jonas Frey, Piotr Libera, Nived Chebrolu, Georg Martius, Cesar Cadena, Marco Hutter, Maurice Fallon

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引用次数: 0

Abstract

Natural environments such as forests and grasslands are challenging for robotic navigation because of the false perception of rigid obstacles from high grass, twigs, or bushes. In this work, we present Wild Visual Navigation (WVN), an online self-supervised learning system for visual traversability estimation. The system is able to continuously adapt from a short human demonstration in the field, only using onboard sensing and computing. One of the key ideas to achieve this is the use of high-dimensional features from pre-trained self-supervised models, which implicitly encode semantic information that massively simplifies the learning task. Further, the development of an online scheme for supervision generator enables concurrent training and inference of the learned model in the wild. We demonstrate our approach through diverse real-world deployments in forests, parks, and grasslands. Our system is able to bootstrap the traversable terrain segmentation in less than 5 min of in-field training time, enabling the robot to navigate in complex, previously unseen outdoor terrains.

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野生视觉导航：通过预训练模型和在线自我监督快速遍历学习

森林和草原等自然环境对机器人导航来说是一个挑战，因为它们会错误地感知来自高草、树枝或灌木丛的坚硬障碍物。在这项工作中，我们提出了野生视觉导航（WVN），一个用于视觉遍历估计的在线自监督学习系统。该系统仅使用机载传感和计算，就能从现场短暂的人类演示中持续适应。实现这一目标的关键思想之一是使用来自预训练的自监督模型的高维特征，它隐含地编码语义信息，从而大大简化了学习任务。此外，开发了一种在线监督生成器方案，使学习模型能够在野外进行并发训练和推理。我们通过在森林、公园和草原上的各种实际部署来展示我们的方法。我们的系统能够在不到5分钟的现场训练时间内引导可穿越的地形分割，使机器人能够在复杂的、以前看不见的室外地形中导航。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Autonomous Robots 工程技术-机器人学

CiteScore

7.90

自引率

5.70%

发文量

审稿时长

3 months

期刊介绍： Autonomous Robots reports on the theory and applications of robotic systems capable of some degree of self-sufficiency. It features papers that include performance data on actual robots in the real world. Coverage includes: control of autonomous robots · real-time vision · autonomous wheeled and tracked vehicles · legged vehicles · computational architectures for autonomous systems · distributed architectures for learning, control and adaptation · studies of autonomous robot systems · sensor fusion · theory of autonomous systems · terrain mapping and recognition · self-calibration and self-repair for robots · self-reproducing intelligent structures · genetic algorithms as models for robot development. The focus is on the ability to move and be self-sufficient, not on whether the system is an imitation of biology. Of course, biological models for robotic systems are of major interest to the journal since living systems are prototypes for autonomous behavior.