Open AccessNumerical Simulation of a Tumor Growth Dynamics Model Using Particle Swarm Optimization
Author(s) -
Zhijun Wang,
Qing Wang
Publication year - 2016
Publication title -
journal of computer science and systems biology
Language(s) - English
Resource type - Journals
ISSN - 0974-7230
DOI - 10.4172/jcsb.1000213
Subject(s) - particle swarm optimization , computer science , multi swarm optimization , mathematical optimization , process (computing) , fitness function , swarm behaviour , function (biology) , metaheuristic , genetic algorithm , dynamics (music) , biological system , algorithm , mathematics , physics , biology , evolutionary biology , acoustics , operating system
Tumor cell growth models involve high-dimensional parameter spaces that require computationally tractable methods to solve. To address a proposed tumor growth dynamics mathematical model, an instance of the particle swarm optimization method was implemented to speed up the search process in the multi-dimensional parameter space to find optimal parameter values that fit experimental data from mice cancel cells. The fitness function, which measures the difference between calculated results and experimental data, was minimized in the numerical simulation process. The results and search efficiency of the particle swarm optimization method were compared to those from other evolutional methods such as genetic algorithms.
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