Fast MSER

2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) Pub Date : 2020-06-01 DOI:10.1109/cvpr42600.2020.00344

Hailiang Xu, Siqi Xie, FangFu Chen

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引用次数: 1

Abstract

Maximally Stable Extremal Regions (MSER) algorithms are based on the component tree and are used to detect invariant regions. OpenCV MSER, the most popular MSER implementation, uses a linked list to associate pixels with ERs. The data-structure of an ER contains the attributes of a head and a tail linked node, which makes OpenCV MSER hard to be performed in parallel using existing parallel component tree strategies. Besides, pixel extraction (i.e. extracting the pixels in MSERs) in OpenCV MSER is very slow. In this paper, we propose two novel MSER algorithms, called Fast MSER V1 and V2. They first divide an image into several spatial partitions, then construct sub-trees and doubly linked lists (for V1) or a labelled image (for V2) on the partitions in parallel. A novel sub-tree merging algorithm is used in V1 to merge the sub-trees into the final tree, and the doubly linked lists are also merged in the process. While V2 merges the sub-trees using an existing merging algorithm. Finally, MSERs are recognized, the pixels in them are extracted through two novel pixel extraction methods taking advantage of the fact that a lot of pixels in parent and child MSERs are duplicated. Both V1 and V2 outperform three open source MSER algorithms (28 and 26 times faster than OpenCV MSER), and reduce the memory of the pixels in MSERs by 78%.

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最大稳定极值区域(MSER)算法基于分量树，用于检测不变量区域。OpenCV MSER是最流行的MSER实现，它使用链表将像素与er关联起来。ER的数据结构包含了头部和尾部链接节点的属性，这使得OpenCV MSER很难使用现有的并行组件树策略并行执行。此外，OpenCV MSER中的像素提取(即在MSER中提取像素)非常慢。在本文中，我们提出了两种新的MSER算法，称为快速MSER V1和V2。他们首先将图像划分为几个空间分区，然后在分区上并行地构建子树和双链表(用于V1)或标记图像(用于V2)。在V1中使用了一种新的子树合并算法，将子树合并到最终树中，并在此过程中合并了双链表。而V2使用现有的合并算法合并子树。最后，利用父、子mser中大量像素重复的特点，采用两种新颖的像素提取方法对mser中的像素进行提取。V1和V2都优于三种开源MSER算法(比OpenCV MSER快28倍和26倍)，并且将MSER中的像素内存减少了78%。

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来源期刊

2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)

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