Gopi E. S.

Work place: Department Electronics and Communication Engineering, National Institute of Technology Tiruchirappalli-620015, Tamil Nadu, India

E-mail: esgopi@nitt.edu

Website:

Research Interests:

Biography

Dr. E. S. Gopi received his Ph.D. degree from the National Institute of Technology Tiruchirappalli (NITT). He is currently an Associate Professor, coordinator, and head of the Pattern Recognition and Computational Intelligence Laboratory at NITT. Dr. Gopi is the author of seven books and more than 50 journal articles and conference papers in the area of pattern recognition, machine learning, deep learning, computational intelligence, and digital signal processing. He is currently an IEEE senior member of the Computational Intelligence Society and the Signal Processing Society. He is one of the editors for the book series signals and communication technology, Springer publications. He is also serving as one of the officers for Emerging Technology Initiative Machine Learning for Communications Emerging Technology Initiative of IEEE Communications Society.

Author Articles
Data-driven Approximation of Cumulative Distribution Function Using Particle Swarm Optimization based Finite Mixtures of Logistic Distribution

By Rajasekharreddy Poreddy Gopi E. S.

DOI: https://doi.org/10.5815/ijisa.2024.05.02, Pub. Date: 8 Oct. 2024

This paper proposes a data-driven approximation of the Cumulative Distribution Function using the Finite Mixtures of the Cumulative Distribution Function of Logistic distribution. Since it is not possible to solve the logistic mixture model using the Maximum likelihood method, the mixture model is modeled to approximate the empirical cumulative distribution function using the computational intelligence algorithms. The Probability Density Function is obtained by differentiating the estimate of the Cumulative Distribution Function. The proposed technique estimates the Cumulative Distribution Function of different benchmark distributions. Also, the performance of the proposed technique is compared with the state-of-the-art kernel density estimator and the Gaussian Mixture Model. Experimental results on κ−μ distribution show that the proposed technique performs equally well in estimating the probability density function. In contrast, the proposed technique outperforms in estimating the cumulative distribution function. Also, it is evident from the experimental results that the proposed technique outperforms the state-of-the-art Gaussian Mixture model and kernel density estimation techniques with less training data.

[...] Read more.
Other Articles