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Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH): A Novel Feature Extraction Technique

Publication ,  Journal Article
Wajid, SK; Hussain, A; Huang, K
Published in: Expert Systems with Applications
December 1, 2018

In this paper, we present a novel feature extraction technique, termed Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH), and exploit it to detect breast cancer in volumetric medical images. The technique is incorporated as part of an intelligent expert system that can aid medical practitioners making diagnostic decisions. Analysis of volumetric images, slice by slice, is cumbersome and inefficient. Hence, 3D-LESH is designed to compute a histogram-based feature set from a local energy map, calculated using a phase congruency (PC) measure of volumetric Magnetic Resonance Imaging (MRI) scans in 3D space. 3D-LESH features are invariant to contrast intensity variations within different slices of the MRI scan and are thus suitable for medical image analysis. The contribution of this article is manifold. First, we formulate a novel 3D-LESH feature extraction technique for 3D medical images to analyse volumetric images. Further, the proposed 3D-LESH algorithmis, for the first time, applied to medical MRI images. The final contribution is the design of an intelligent clinical decision support system (CDSS) as a multi-stage approach, combining novel 3D-LESH feature extraction with machine learning classifiers, to detect cancer from breast MRI scans. The proposed system applies contrast-limited adaptive histogram equalisation (CLAHE) to the MRI images before extracting 3D-LESH features. Furthermore, a selected subset of these features is fed into a machine-learning classifier, namely, a support vector machine (SVM), an extreme learning machine (ELM) or an echo state network (ESN) classifier, to detect abnormalities and distinguish between different stages of abnormality. We demonstrate the performance of the proposed technique by its application to benchmark breast cancer MRI images. The results indicate high-performance accuracy of the proposed system (98%±0.0050, with an area under a receiver operating charactertistic curve value of 0.9900 ± 0.0050) with multiple classifiers. When compared with the state-of-the-art wavelet-based feature extraction technique, statistical analysis provides conclusive evidence of the significance of our proposed 3D-LESH algorithm.

Duke Scholars

Published In

Expert Systems with Applications

DOI

ISSN

0957-4174

Publication Date

December 1, 2018

Volume

112

Start / End Page

388 / 400

Related Subject Headings

  • Artificial Intelligence & Image Processing
  • 09 Engineering
  • 08 Information and Computing Sciences
  • 01 Mathematical Sciences
 

Citation

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Wajid, S. K., Hussain, A., & Huang, K. (2018). Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH): A Novel Feature Extraction Technique. Expert Systems with Applications, 112, 388–400. https://doi.org/10.1016/j.eswa.2017.11.057
Wajid, S. K., A. Hussain, and K. Huang. “Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH): A Novel Feature Extraction Technique.” Expert Systems with Applications 112 (December 1, 2018): 388–400. https://doi.org/10.1016/j.eswa.2017.11.057.
Wajid SK, Hussain A, Huang K. Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH): A Novel Feature Extraction Technique. Expert Systems with Applications. 2018 Dec 1;112:388–400.
Wajid, S. K., et al. “Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH): A Novel Feature Extraction Technique.” Expert Systems with Applications, vol. 112, Dec. 2018, pp. 388–400. Scopus, doi:10.1016/j.eswa.2017.11.057.
Wajid SK, Hussain A, Huang K. Three-Dimensional Local Energy-Based Shape Histogram (3D-LESH): A Novel Feature Extraction Technique. Expert Systems with Applications. 2018 Dec 1;112:388–400.
Journal cover image

Published In

Expert Systems with Applications

DOI

ISSN

0957-4174

Publication Date

December 1, 2018

Volume

112

Start / End Page

388 / 400

Related Subject Headings

  • Artificial Intelligence & Image Processing
  • 09 Engineering
  • 08 Information and Computing Sciences
  • 01 Mathematical Sciences