A Modified Particle Swarm Optimization Algorithm for Solving DNA Problem

Abstract

DNA Sequencing is a complex problem since DNA computation depends on the biochemical reactions of DNA molecules that resulted in an improper or unwanted results. Thus, researchers are focusing to make the molecular computation for the DNA sequences design problem more consistent. Designing of DNA sequencing consists of several difficult and inconsistent designing parameters and typical optimization approaches do not perform well. As a result, a Modified Particle Swarm Optimization Algorithm (MPSO) is proposed to elucidate this problem. Four objective functions that are continuity, similarity, hairpin, and H-measure are used to evaluate this multi-objective problem. Different methods are used to explain DNA problem but to solve it with MPSO the multi-objective problem is converted into a single-objective problem. MPSO is presented to minimize the objective functions subject to two constraints. Average and Standard deviation values of the objective functions are used to calculate the efficiency of the presented method. The results obtained are compared with the other approaches and it showed that MPSO gives better performance.