TopicFM+:提高主题辅助特征匹配的准确性和效率

Khang Truong Giang;Soohwan Song;Sungho Jo
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引用次数: 0

摘要

本研究解决了图像匹配中的难题,如具有明显变化或有限纹理的场景,并着重强调了计算效率。以往的研究试图通过使用变形器编码全局场景上下文来应对这一挑战。然而,这些方法的计算成本较高,而且可能无法捕捉到足够的高级上下文信息,如空间结构或语义形状。为了克服这些局限性,我们提出了一种新颖的图像匹配方法,利用主题建模策略来捕捉图像中的高层语境。我们的方法将每幅图像表示为主题的多叉分布,其中每个主题代表语义结构。通过纳入这些主题,我们可以有效捕捉到全面的上下文信息,并获得具有区分性的高质量特征。值得注意的是,我们的粗层匹配网络只对固定大小的主题和小尺寸的特征采用注意层,从而提高了效率。最后,我们设计了一个动态特征细化网络,以便在更精细的匹配阶段获得精确的结果。通过大量实验,我们证明了我们的方法在具有挑战性的场景中的优越性。具体来说,我们的方法在不使用集合技术的情况下,在 2023 年图像匹配挑战赛中排名前 9%。此外,与其他基于变换器的方法相比,我们的计算成本降低了约 50%。代码见 https://github.com/TruongKhang/TopicFM。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TopicFM+: Boosting Accuracy and Efficiency of Topic-Assisted Feature Matching
This study tackles image matching in difficult scenarios, such as scenes with significant variations or limited texture, with a strong emphasis on computational efficiency. Previous studies have attempted to address this challenge by encoding global scene contexts using Transformers. However, these approaches have high computational costs and may not capture sufficient high-level contextual information, such as spatial structures or semantic shapes. To overcome these limitations, we propose a novel image-matching method that leverages a topic-modeling strategy to capture high-level contexts in images. Our method represents each image as a multinomial distribution over topics, where each topic represents semantic structures. By incorporating these topics, we can effectively capture comprehensive context information and obtain discriminative and high-quality features. Notably, our coarse-level matching network enhances efficiency by employing attention layers only to fixed-sized topics and small-sized features. Finally, we design a dynamic feature refinement network for precise results at a finer matching stage. Through extensive experiments, we have demonstrated the superiority of our method in challenging scenarios. Specifically, our method ranks in the top 9% in the Image Matching Challenge 2023 without using ensemble techniques. Additionally, we achieve an approximately 50% reduction in computational costs compared to other Transformer-based methods. Code is available at https://github.com/TruongKhang/TopicFM .
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