Serum Otologus dan human Epidermal Growth Factor (hEGF) Mempercepat Proliferasi dan Migrasi Keratinosit pada Proses Re-Epitelisasi

Abstract

The shaky ladder hyperplane-defined functions (sl-hdfs) are a testsuite utilized for exploring the behavior of the genetic algorithm(GA) in dynamic environments. We present three ways of constructingthe sl-hdfs by manipulating the way building blocks are constructed,combined, and changed. We examine the effect of the length of elementarybuilding blocks used to create higher building blocks, and the wayin which those building blocks are combined. We show that the effectsof building block construction on the behavior of the GA are complex.Our results suggest that construction routines which increase theroughness of the changes in the environment allow the GA to performbetter by preventing premature convergence. Moreover, short lengthelementary building blocks permit early rapid progress.