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Hybrid chaotic firefly decision making model for Parkinson’s disease diagnosis

Author

Listed:
  • Sujata Dash
  • Ajith Abraham
  • Ashish Kr Luhach
  • Jolanta Mizera-Pietraszko
  • Joel JPC Rodrigues

Abstract

Parkinson’s disease is found as a progressive neurodegenerative condition which affects motor circuit by the loss of up to 70% of dopaminergic neurons. Thus, diagnosing the early stages of incidence is of great importance. In this article, a novel chaos-based stochastic model is proposed by combining the characteristics of chaotic firefly algorithm with Kernel-based Naïve Bayes (KNB) algorithm for diagnosis of Parkinson’s disease at an early stage. The efficiency of the model is tested on a voice measurement dataset that is collected from “UC Irvine Machine Learning Repository.†The dynamics of chaos optimization algorithm will enhance the firefly algorithm by introducing six types of chaotic maps which will increase the diversification and intensification capability of chaos-based firefly algorithm. The objective of chaos-based maps is to select initial values of the population of fireflies and change the value of absorption coefficient so as to increase the diversity of populations and improve the search process to achieve global optima avoiding the local optima. For selecting the most discriminant features from the search space, Naïve Bayesian stochastic algorithm with kernel density estimation as learning algorithm is applied to evaluate the discriminative features from different perspectives, namely, subset size, accuracy, stability, and generalization. The experimental study of the problem established that chaos-based logistic model overshadowed other chaotic models. In addition, four widely used classifiers such as Naïve Bayes classifier, k-nearest neighbor, decision tree, and radial basis function classifier are used to prove the generalization and stability of the logistic chaotic model. As a result, the model identified as the best one and could be used as a decision making tool by clinicians to diagnose Parkinson’s disease patients.

Suggested Citation

  • Sujata Dash & Ajith Abraham & Ashish Kr Luhach & Jolanta Mizera-Pietraszko & Joel JPC Rodrigues, 2020. "Hybrid chaotic firefly decision making model for Parkinson’s disease diagnosis," International Journal of Distributed Sensor Networks, , vol. 16(1), pages 15501477198, January.
    • Handle: RePEc:sae:intdis:v:16:y:2020:i:1:p:1550147719895210
    DOI: 10.1177/1550147719895210
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    References listed on IDEAS

    as
    1. Sujata Dash & Ruppa Thulasiram & Parimala Thulasiraman, 2019. "Modified Firefly Algorithm With Chaos Theory for Feature Selection: A Predictive Model for Medical Data," International Journal of Swarm Intelligence Research (IJSIR), IGI Global, vol. 10(2), pages 1-20, April.
    2. Jessica Minnier & Ming Yuan & Jun S. Liu & Tianxi Cai, 2015. "Risk Classification With an Adaptive Naive Bayes Kernel Machine Model," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 110(509), pages 393-404, March.
    3. Ivona Brajević & Jelena Ignjatović, 2019. "An upgraded firefly algorithm with feasibility-based rules for constrained engineering optimization problems," Journal of Intelligent Manufacturing, Springer, vol. 30(6), pages 2545-2574, August.
    4. Fister, Iztok & Perc, Matjaž & Kamal, Salahuddin M. & Fister, Iztok, 2015. "A review of chaos-based firefly algorithms: Perspectives and research challenges," Applied Mathematics and Computation, Elsevier, vol. 252(C), pages 155-165.
    5. Isler, Yalcin & Narin, Ali & Ozer, Mahmut & Perc, Matjaž, 2019. "Multi-stage classification of congestive heart failure based on short-term heart rate variability," Chaos, Solitons & Fractals, Elsevier, vol. 118(C), pages 145-151.
    6. Xin-She Yang, 2011. "Chaos-Enhanced Firefly Algorithm with Automatic Parameter Tuning," International Journal of Swarm Intelligence Research (IJSIR), IGI Global, vol. 2(4), pages 1-11, October.
    7. Narin, Ali & Isler, Yalcin & Ozer, Mahmut & Perc, Matjaž, 2018. "Early prediction of paroxysmal atrial fibrillation based on short-term heart rate variability," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 509(C), pages 56-65.
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