Heterogeneous Parallel Island Models (HePIMs) run different bio-inspired algorithms (BAs) in their islands. From a variety of communication topologies and migration policies fine-tuned for homogeneous PIMs (HoPIMs), which run the same BA in all their islands, previous work introduced HePIMs that provided competitive quality solutions regarding the best-adapted BA in HoPIMs. This work goes a step forward, maintaining the population diversity provided by HePIMs, and increasing their flexibility, allowing BA reconfiguration on islands during execution: according to their performance, islands may substitute their BAs dynamically during the evolutionary process. Experiments with the introduced architectures (RecHePIMs) were applied to the NP-hard problem of sorting permutations by reversals, using four different BAs, namely, simple Genetic Algorithm, Double-point crossover Genetic Algorithm, Differential Evolution, and self-adjusting Particle Swarm Optimization. The results showed that the new reconfigurable heterogeneous models compute better quality solutions than the HePIMs closing the gap with the HoPIM running the best-adapted BA.
翻译:不同平行岛屿模型(HEPIMS)在其岛屿上运行不同的生物激励算法(BAs),从对单一PIMs(HOPIMS)进行微调的通信结构学和移民政策(HOPIMS)进行微调,所有岛屿都使用相同的BA(HOPIMS),以前的工作采用了HEPIMS,为HoPIMS中最佳适应的BA提供有竞争力的高质量解决方案。这项工作向前迈出了一步,保持了HEPIMS提供的人口多样性,并增加了其灵活性,允许岛屿在执行过程中进行BA再配置:根据它们的性能,岛屿在演进过程中可以动态地取代BAs。与引入的建筑(RecHEPIMs)的实验应用了NP-硬性问题,即简单的遗传Algorithm、双点交叉遗传Algorithm、差异进化和自我调整Pocrime Swarm Oppimization。与HEPIMs相比,与HPIPMs相比, 正在与最佳运行的BAPAIM的缺口。
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