Abstract
This paper presents a novel fuzzy rule-based interpolative reasoning system for mammographic mass shape classification that is interpretable to medical professionals. In particular, a feature ranking-guided fuzzy rule interpolation (FRI) method is embedded in the proposed system to make inference possible given a sparse rule base, which may occur in dealing with insufficient mammographic image data (and indeed in coping with many other computer-aided medical diagnostic problems). The rule base for inference is learned from a set of labelled morphological features which are extracted from mass shapes. A classical FRI mechanism is integrated with a procedure for feature selection to score the individual rule antecedents in the inducted sparse rule base for more accurate interpolative reasoning. The work is evaluated on a real-world mammographic image data base with promising results, demonstrating the efficacy of the proposed fuzzy rule-based interpolative classification system
Original language | English |
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DOIs | |
Publication status | Published - 14 Oct 2018 |
Event | Fuzzy Systems - Rio de Janeiro, Brazil Duration: 08 Jul 2018 → 13 Jul 2018 Conference number: 27 |
Conference
Conference | Fuzzy Systems |
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Abbreviated title | FUZZ-IEEE-2018 |
Country/Territory | Brazil |
City | Rio de Janeiro |
Period | 08 Jul 2018 → 13 Jul 2018 |
Keywords
- shape
- feature extraction
- interpolation
- cognition
- training
- medical diagnostic imaging