Related papers: Laser: Efficient Language-Guided Segmentation in Neural Radiance Fields

Laser: Efficient Language-Guided Segmentation in Neural Radiance Fields

URL: http://arxiv.org/abs/2501.19084v1
Date: Fri, 31 Jan 2025 12:19:14 GMT
Title: Laser: Efficient Language-Guided Segmentation in Neural Radiance Fields
Authors: Xingyu Miao, Haoran Duan, Yang Bai, Tejal Shah, Jun Song, Yang Long, Rajiv Ranjan, Ling Shao,
Abstract summary: We propose a method that leverages CLIP feature distillation, achieving efficient 3D segmentation through language guidance. To achieve this, we introduce an adapter module and mitigate the noise issue in the dense CLIP feature distillation process. Our method surpasses current state-of-the-art technologies in both training speed and performance.
Score: 49.66011190843893
License:
Abstract: In this work, we propose a method that leverages CLIP feature distillation, achieving efficient 3D segmentation through language guidance. Unlike previous methods that rely on multi-scale CLIP features and are limited by processing speed and storage requirements, our approach aims to streamline the workflow by directly and effectively distilling dense CLIP features, thereby achieving precise segmentation of 3D scenes using text. To achieve this, we introduce an adapter module and mitigate the noise issue in the dense CLIP feature distillation process through a self-cross-training strategy. Moreover, to enhance the accuracy of segmentation edges, this work presents a low-rank transient query attention mechanism. To ensure the consistency of segmentation for similar colors under different viewpoints, we convert the segmentation task into a classification task through label volume, which significantly improves the consistency of segmentation in color-similar areas. We also propose a simplified text augmentation strategy to alleviate the issue of ambiguity in the correspondence between CLIP features and text. Extensive experimental results show that our method surpasses current state-of-the-art technologies in both training speed and performance. Our code is available on: https://github.com/xingy038/Laser.git.

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