Feature Point Extraction and Matching Method Based on Akaze in Illumination Invariant Color Space

Yongyuan Xue, Tianhang Gao
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引用次数: 2

Abstract

Visual SLAM is the technology that complete self-localization and build environment map synchronously. The feature point extraction and matching of the input image is very important for visual SLAM to achieve pose calculation and map building. For most of the literature feature point extraction and matching algorithms, the change of illumination may have a great impact on the final matching results. To address the issue, this paper proposes a novel feature point extraction and matching method based on Akaze algorithm (IICS-Akaze). Histogram equalization and dark channel prior theory are combined to construct a color space with constant illumination. Akaze algorithm is adopted for fast multi-scale feature extraction to generate feature point descriptors. The feature points are then quickly matched through the FLANN, and RANSC is introduced to eliminate the mismatches. In addition, the experiments on open data set are conducted in terms of feature extraction quantity, matching accuracy, and illumination robustness among the related methods. The experimental results show that the proposed method is able to accurately extract and match image feature points when the illumination changes dramatically.
光照不变颜色空间中基于Akaze的特征点提取与匹配方法
可视化SLAM是一种同步完成自定位和构建环境地图的技术。输入图像的特征点提取与匹配是视觉SLAM实现姿态计算和地图构建的关键。对于大多数文献中的特征点提取和匹配算法,光照的变化可能会对最终的匹配结果产生很大的影响。针对这一问题,本文提出了一种新的基于Akaze算法的特征点提取与匹配方法(IICS-Akaze)。将直方图均衡化和暗通道先验理论相结合,构造出具有恒定照度的色彩空间。采用Akaze算法进行快速多尺度特征提取,生成特征点描述子。然后通过FLANN快速匹配特征点,并引入RANSC来消除不匹配。此外,在开放数据集上对相关方法进行了特征提取量、匹配精度、光照鲁棒性等方面的实验。实验结果表明,该方法能够在光照剧烈变化的情况下准确提取和匹配图像特征点。
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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