Title of article :
Optimal design of fractional-order digital integrators: An evolutionary approach
Author/Authors :
Mahata, S Department of Electronics and Communication Engineering - National Institute of Technology - Durgapur, India , Kumar Saha, S Department of Electronics and Telecomm Engineering - National Institute of Technology - Raipur - Chhattisgarh, India , Kar, R Department of Electronics and Communication Engineering - National Institute of Technology - Durgapur, India , Mandal, D Department of Electronics and Communication Engineering - National Institute of Technology - Durgapur, India
Abstract :
This paper presents an optimal approach to design Fractional-Order Digital
Integrators (FODIs) using a metaheuristic technique, called Hybrid Flower Pollination
Algorithm (HFPA). HFPA is a hybrid approach which combines the exploitation and
exploration capabilities of two different evolutionary optimization algorithms, namely,
Particle Swarm Optimization (PSO) and Flower Pollination Algorithm (FPA). The
proposed HFPA based designs are compared with the designs based on Real Coded
Genetic Algorithm (RGA), PSO, Differential Evolution (DE), and FPA. Simulation results
demonstrate that HFPA based FODIs of all the different orders consistently achieve the
best magnitude responses. The proposed technique yields FODIs which surpass all the
designs based on both classical and evolutionary optimization approaches reported in recent
literature.
Keywords :
Fractional-order integrators , Metaheuristics , Optimization , Hybrid flower pollination algorithm
Journal title :
Scientia Iranica(Transactions D: Computer Science and Electrical Engineering)
