Framework for the Development of Data-Driven Mamdani-Type Fuzzy Clinical Decision Support Systems

Yamid Fabián Hernández-Julio; Martha Janeth Prieto-Guevara; Wilson Nieto-Bernal; Inés Meriño-Fuentes; Alexander Guerrero-Avendaño

doi:10.3390/diagnostics9020052

Framework for the Development of Data-Driven Mamdani-Type Fuzzy Clinical Decision Support Systems

Diagnostics (Basel). 2019 May 9;9(2):52. doi: 10.3390/diagnostics9020052.

Authors

Yamid Fabián Hernández-Julio¹, Martha Janeth Prieto-Guevara², Wilson Nieto-Bernal³, Inés Meriño-Fuentes^{4

5}, Alexander Guerrero-Avendaño⁶

Affiliations

¹ Facultad de Ciencias Económicas, Administrativas y Contables, Universidad del Sinú Elías Bechara Zainúm, Montería, Córdoba 230001, Colombia. yafaheju@hotmail.com.
² Departamento de Ciencias Acuícolas⁻Medicina Veterinaria y Zootecnia (CINPIC), Universidad de Córdoba, Montería, Córdoba 230001, Colombia. mprieto@correo.unicordoba.edu.co.
³ Facultad de Ingeniería, Departamento de Ingeniería de Sistemas, Universidad del Norte, Puerto Colombia, Atlántico 080001, Colombia. wnieto@uninorte.edu.co.
⁴ Facultad de Ingeniería, Departamento de Ingeniería de Sistemas, Universidad del Norte, Puerto Colombia, Atlántico 080001, Colombia. imerino@unimagdalena.edu.co.
⁵ Facultad de Ingeniería, Departamento de Ingeniería de Sistemas, Universidad del Magdalena, Santa Marta, Magdalena 470001, Colombia. imerino@unimagdalena.edu.co.
⁶ Facultad de Ingeniería, Universidad Francisco de Paula Santander, Cúcuta, Santander, 540001, Colombia. imerino@uninorte.edu.co.

Abstract

Clinical decision support systems (CDSS) have been designed, implemented, and validated to help clinicians and practitioners for decision-making about diagnosing some diseases. Within the CDSSs, we can find Fuzzy inference systems. For the reasons above, the objective of this study was to design, to implement, and to validate a methodology for developing data-driven Mamdani-type fuzzy clinical decision support systems using clusters and pivot tables. For validating the proposed methodology, we applied our algorithms on five public datasets including Wisconsin, Coimbra breast cancer, wart treatment (Immunotherapy and cryotherapy), and caesarian section, and compared them with other related works (Literature). The results show that the Kappa Statistics and accuracies were close to 1.0% and 100%, respectively for each output variable, which shows better accuracy than some literature results. The proposed framework could be considered as a deep learning technique because it is composed of various processing layers to learn representations of data with multiple levels of abstraction.

Keywords: clusters; deep learning; fuzzy sets; knowledge base; rule base.