FHDT: Fuzzy and Hyco-entropy-based Decision Tree Classifier for Tuberculosis Diagnosis from Sputum Images

Tuberculosis (TB) is one of the infectious diseases spread by the infectious agent Mycobacterium tuberculosis . Sputum smear microscopy is the primary tool used for the diagnosis of pulmonary TB, but has its limitations such as low sensitivity and large observation time. Hence, an automated techniqu...

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Bibliographic Details
Published in:Sadhana (Bangalore) 2018-08, Vol.43 (8), p.1-15, Article 125
Main Authors: MITHRA, K S, EMMANUEL, W R SAM
Format: Article
Language:English
Subjects:
Classifiers
Decision trees
Diagnosis
Engineering
Entropy
Feature extraction
Image classification
Image segmentation
Infectious diseases
Medical imaging
Smear
Tuberculosis
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Summary:Tuberculosis (TB) is one of the infectious diseases spread by the infectious agent Mycobacterium tuberculosis . Sputum smear microscopy is the primary tool used for the diagnosis of pulmonary TB, but has its limitations such as low sensitivity and large observation time. Hence, an automated technique is preferred for the diagnosis of TB. This paper develops a technique for TB diagnosis based on the bacilli count by proposing Fuzzy and Hyco-entropy-based Decision Tree (FHDT) classifier using sputum smear microscopic images. The proposed technique involves three steps: segmentation, feature extraction and classification. Initially, the input sputum smear microscopic image is subjected to a colour space transformation, for which a thresholding is applied to obtain the segmented result. Important features such as length, density, area and few histogram features are extracted for FHDT-based classification that classifies the segments into few-bacilli, non-bacilli and overlapping bacilli. An entropy function, called hyco-entropy, is designed for the optimal selection of feature. For further analysis of classification, that is, to count the number in the overlapping bacilli, the fuzzy classifier is adopted. FHDT classifier is evaluated in terms of Segmentation Accuracy (SA), Mean Squared Error (MSE) and Missing Count (MC) using microscopic images taken from ZNSM-iDB, where it can attain maximum mean SA of 0.954 and mean MC of 2.4.
ISSN:0256-2499
0973-7677
DOI:10.1007/s12046-018-0878-y