Methods for calculating gliding-box lacunarity efficiently on large datasets

IF 3.7 4区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Pattern Analysis and Applications Pub Date : 2024-09-13 DOI:10.1007/s10044-024-01332-6
Bálint Barna H. Kovács, Miklós Erdélyi
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Abstract

Lacunarity has proven to be a useful, multifaceted tool for image analysis in several different scientific fields, from geography to virology, which has lent increasing importance to the lacunarity analysis of large datasets. It can be most reliably calculated with the so-called gliding-box method, but the evaluation process can be exceedingly time-consuming and unviable as this algorithm is not designed to operate on large datasets. Here we introduce two novel methods that can calculate gliding-box lacunarity orders of magnitude faster than the original method without any loss of accuracy. We compare these methods with the original as well as with two already existing optimized methods based on runtime memory usage and complexity. The application of all five methods for both 2D and 3D datasets analysis confirms that each of the four optimized methods are orders of magnitude faster than the original one, but each has its advantages and limitations.

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在大型数据集上高效计算滑动盒缺陷的方法
在从地理学到病毒学等多个不同的科学领域,裂隙度已被证明是一种有用的、多方面的图像分析工具,这使得对大型数据集进行裂隙度分析变得越来越重要。利用所谓的滑动盒方法可以最可靠地计算出裂隙度,但由于这种算法并非专为大型数据集而设计,因此评估过程可能会非常耗时且不可行。在这里,我们介绍了两种新方法,它们计算滑动盒裂隙度的速度比原始方法快很多,而且准确性丝毫无损。我们将这些方法与原始方法以及现有的两种基于运行时内存使用和复杂性的优化方法进行了比较。将所有五种方法应用于二维和三维数据集分析证实,四种优化方法都比原始方法快几个数量级,但每种方法都有其优势和局限性。
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来源期刊
Pattern Analysis and Applications
Pattern Analysis and Applications 工程技术-计算机:人工智能
CiteScore
7.40
自引率
2.60%
发文量
76
审稿时长
13.5 months
期刊介绍: The journal publishes high quality articles in areas of fundamental research in intelligent pattern analysis and applications in computer science and engineering. It aims to provide a forum for original research which describes novel pattern analysis techniques and industrial applications of the current technology. In addition, the journal will also publish articles on pattern analysis applications in medical imaging. The journal solicits articles that detail new technology and methods for pattern recognition and analysis in applied domains including, but not limited to, computer vision and image processing, speech analysis, robotics, multimedia, document analysis, character recognition, knowledge engineering for pattern recognition, fractal analysis, and intelligent control. The journal publishes articles on the use of advanced pattern recognition and analysis methods including statistical techniques, neural networks, genetic algorithms, fuzzy pattern recognition, machine learning, and hardware implementations which are either relevant to the development of pattern analysis as a research area or detail novel pattern analysis applications. Papers proposing new classifier systems or their development, pattern analysis systems for real-time applications, fuzzy and temporal pattern recognition and uncertainty management in applied pattern recognition are particularly solicited.
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