M. Rajeswari scite author profile

The harmony search (HS) algorithm is a relatively new population-based metaheuristic optimization algorithm. It imitates the music improvisation process where musicians improvise their instruments' pitch by searching for a perfect state of harmony. Since the emergence of this algorithm in 2001, it attracted many researchers from various fields especially those working on solving optimization problems. Consequently, this algorithm guided researchers to improve on its performance to be in line with the requirements of the applications being developed. These improvements primarily cover two aspects: (1) improvements in terms of parameters setting, and (2) improvements in terms of hybridizing HS components with other metaheuristic algorithms. This paper presents an overview of these aspects, with a goal of providing useful references to fundamental concepts accessible to the broad community of optimization practitioners.

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Automatic white matter lesion segmentation using an adaptive outlier detection method

Ong

Ramachandram

Rajeswari

et al. 2012

Magnetic Resonance Imaging

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Multi-objective nature-inspired clustering and classification techniques for image segmentation

Bong¹,

Rajeswari²

2011

Applied Soft Computing

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A hybrid Harmony Search algorithm to MRI brain segmentation

Alia

Rajeswari

Aziz

2010

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A hybrid harmony search algorithm for MRI brain segmentation

2011

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Automatic magnetic resonance imaging (MRI) brain segmentation is a challenging problem that has received significant attention in the field of medical image processing. In this paper, we present a new dynamic clustering algorithm based on the hybridization of harmony search (HS) and fuzzy c-means to automatically segment MRI brain images in an intelligent manner. In our algorithm, the capability of standard HS is modified to automatically evolve the appropriate number of clusters as well as the locations of cluster centers. By incorporating the concept of variable length encoding in each harmony memory vector, this algorithm is able to represent variable numbers of candidate cluster centers at each iteration. A new HS operator, called the ''empty operator'', has been introduced to support the selection of empty decision variables in the harmony memory vector. The PBMF cluster validity index is used as an objective function to validate the clustering result obtained from each harmony memory vector. Evaluation of the proposed algorithm has been performed using both real MRI data obtained from the Center for Morphometric Analysis at Massachusetts General Hospital and simulated MRI data generated using the McGill University BrainWeb MRI simulator. Experimental results show the ability of this algorithm to find the appropriate number of naturally occurring regions in brain images. Furthermore, the superiority of the proposed algorithm over various state-of-the-art segmentation algorithms is demonstrated quantitatively.

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M. Rajeswari

The variants of the harmony search algorithm: an overview

Automatic white matter lesion segmentation using an adaptive outlier detection method

Multi-objective nature-inspired clustering and classification techniques for image segmentation

A hybrid Harmony Search algorithm to MRI brain segmentation

A hybrid harmony search algorithm for MRI brain segmentation

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