4.7 Article

Binary handwriting image enhancement by directional field-guided morphology

Journal

INFORMATION SCIENCES
Volume 551, Issue -, Pages 168-183

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.ins.2020.11.019

Keywords

Handwriting; Image Filtering; Binarisation; Guided morphology; Directional field

Funding

  1. Bialystok University of Technology [WZ/WI-IIT/3/2020, WZ/WI-IIT/4/2020]
  2. Ministry of Science and Higher Education in Poland

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This paper proposes a technique for processing handwriting images with an improved algorithm for binarisation process, achieving significant accuracy improvement and reducing unwanted artefacts compared to standard approaches.
This paper proposes a technique for processing handwriting images. The algorithm used in this study is an improvement to the binarisation process. The enhancement focuses on correcting damaged lines that usually arise during the binarisation process, particularly, spurious holes, discontinuities, and eroded boundaries. The presented method uses a morphogical dilation operation in which a structural element is locally adapted using the information from a directional field. The adaptation process involves a new criterion for selecting orientation and shape of a structural element that combines directional field, a coherence measure, and a circular histogram. The field was computed using gradient-based approach, and a method based on a Hessian matrix. During experiments, our method was applied to the output of selected binarisation algorithms. The experiments were conducted on grayscale signature images (from the CEDAR database) and handwriting images (from the DIBCO database). The results of the algorithm were compared to the results of standard morphological operations (dilation, erosion, opening, and closing) and median filtering. The experiments show that the proposed method achieves significant accuracy improvement (8%-12% for Acc, 15%-32% for Acct measures), reduces the number of unwanted artefacts, and produces images with less distortion compared to those from standard approaches. (C) 2020 Elsevier Inc. All rights reserved.

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