Measuring the Performance of Computer Vision Systems in Malaria Studies

Authors

  • Juan Valentín Lorenzo-Ginori Universidad Central "Marta Abreu" de Las Villas (UCLV). https://orcid.org/0000-0002-1521-1244
  • Lyanett Chinea-Valdés Electro-Medicine Dept. in Villa Clara Province, Ministry of Public Health.
  • Niurka Mollineada-Diogo Center for the Study of Chemical Bioactives, Universidad Central "Marta Abreu" de Las Villas (UCLV).
  • Alfredo Meneses-Marcel Center for the Study of Chemical Bioactives, Universidad Central "Marta Abreu" de Las Villas (UCLV).

DOI:

https://doi.org/10.3991/ijoe.v16i11.16035

Keywords:

Malaria, Plasmodium, Digital Image Processing, Computer Vision, Statistical Measures

Abstract


Digital image processing-computer vision (DIP-CV) systems are used to automate malaria diagnosis through microscopy analysis of thin blood smears. Some variability is observed in the experimental design to evaluate the statistical measures of performance (SMP) of such systems. The objective of this work is assessing good practices when using SMP to evaluate DIP-CV systems for malaria diagnosis. A mathematical model was built to characterize diagnosis using DIP-CV systems and used to obtain curve families showing the relationships among various SMP of these systems, both using theoretical equations and computer simulation. Curve families showing (a) the relationships among the minimum number of positive erythrocytes (RBCs) to be observed, the per object (RBC) sensitivity and the probability to detect at least one positive, (b) per specimen sensitivity vs. total number of RBCs observed for a typical per object sensitivity and a range of parasite densities (c) per object positive predictive value vs. per object specificity for a typical per object sensitivity and various parasite densities. When determining the per specimen sensitivity, the parasite density p showed to have more influence on the number of RBCs that must be analyzed than the per object sensitivity. Measuring p accurately depends heavily upon the per object positive predictive value of the classifier. For low p values, this would require very high per object specificity and a high enough value of observed RBCs to measure this accurately.

Author Biographies

Juan Valentín Lorenzo-Ginori, Universidad Central "Marta Abreu" de Las Villas (UCLV).

Dr. in Technical Sciences, Consultant and Emeritus Professor at Informatics Research Center, Faculty of Mathematics, Phisics and Computing, UCLV.

Lyanett Chinea-Valdés, Electro-Medicine Dept. in Villa Clara Province, Ministry of Public Health.

B. Sc., M. Sc., Biomedical Engineer. Former Researcher and Instuctor, Informatics Research Center, Faculty of Mathematics, Physics and Computing, UCLV.

Niurka Mollineada-Diogo, Center for the Study of Chemical Bioactives, Universidad Central "Marta Abreu" de Las Villas (UCLV).

M.Sc.  in Preventive Medicine. Associate Professor and Researcher at the Parasitology Group, Center for the Study of Chemical Bioactives at UCLV

Alfredo Meneses-Marcel, Center for the Study of Chemical Bioactives, Universidad Central "Marta Abreu" de Las Villas (UCLV).

Dr. in Veterinary Medicine, M. Sc. from Instituto de Medicina Tropical “Pedro Kouri”, Cuba and Ph. D. degree (with award) in Parasitology and Microbiology from Universidad Complutense de Madrid, Spain. Associate Professor and Researcher and Head of the Biological Department at the Center for the Study of Chemical Bioactives,  Universidad Central "Marta Abreu" de Las Villas (UCLV).

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Published

2020-10-05

How to Cite

Lorenzo-Ginori, J. V., Chinea-Valdés, L., Mollineada-Diogo, N., & Meneses-Marcel, A. (2020). Measuring the Performance of Computer Vision Systems in Malaria Studies. International Journal of Online and Biomedical Engineering (iJOE), 16(11), pp. 120–136. https://doi.org/10.3991/ijoe.v16i11.16035

Issue

Vol. 16 No. 11 (2020)

Section

Papers

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