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Automated High-Resolution Structure Analysis of Plant Root with a Morphological Image Filtering Algorithm

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  • Liang Gong
  • Xiaofeng Du
  • Chenhui Lin
  • Kai Zhu
  • Chengliang Liu
  • Wanqi Liang

Abstract

Research on rice ( Oryza sativa ) roots demands the automatic analysis of root architecture during image processing. It is challenging for a digital filter to identify the roots from the obscure and cluttered background. The original Frangi algorithm, presented by Alejandro F. Frangi in 1998, is a successful low-pass filter dedicated to blood vessel image enhancement. Considering the similarity between vessels and roots, the Frangi filter algorithm is applied to outline the roots. However, the original Frangi only enhances the tube-like primary roots but erases the lateral roots during filtering. In this paper, an improved Frangi filtering algorithm (IFFA), designed for plant roots, is proposed. Firstly, an automatic root phenotyping system is designed to fulfill the high-throughput root image acquisition. Secondly, multilevel image thresholding, connected components labeling, and width correction are used to optimize the output binary image. Thirdly, to enhance the local structure, the Gaussian filtering operator in the original Frangi is redesigned with a truncated Gaussian kernel, resulting in more discernible lateral roots. Compared to the original Frangi filter and commercially available software, IFFA is faster and more accurate, achieving a pixel accuracy of 97.48%. IFFA is an effective morphological filtering approach to enhance the roots of rice for segmentation and further biological research. It is convincing that IFFA is suitable for different 2-D plant root image processing and morphological analysis.

Suggested Citation

  • Liang Gong & Xiaofeng Du & Chenhui Lin & Kai Zhu & Chengliang Liu & Wanqi Liang, 2021. "Automated High-Resolution Structure Analysis of Plant Root with a Morphological Image Filtering Algorithm," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-14, July.
  • Handle: RePEc:hin:jnlmpe:4021426
    DOI: 10.1155/2021/4021426
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