参考文献:
[1]Awad, N. H., Ali, M. Z., Liang, J. J., Qu, B. Y., & Suganthan, P. N. (2016). “Problem definitions and evaluation criteria for the CEC2017 special session and competition on single objective real-parameter numerical optimization,” Technical Report. Nanyang Technological University, Singapore.
import cec2017.functions as functions import numpy as np import matplotlib.pyplot as plt from RFO import RFO from SSA import SSA from PSO import PSO from DBO import DBO from DE import DE from GWO import GWO from HHO import HHO plt.rcParams['font.sans-serif']=['Microsoft YaHei'] #主程序 function_name =1 #CEC2017 测试函数 1-29 SearchAgents_no = 50#种群大小 Max_iter = 100#最大迭代次数 dim=30;#维度只能是 10/30/50/100 lb = -100*np.ones(dim)#下界 ub = 100*np.ones(dim)#上界 fobj= functions.all_functions[function_name-1] BestX1,BestF1,curve1 = SSA(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 BestX2,BestF2,curve2 = PSO(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 BestX3,BestF3,curve3 = DBO(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 BestX4,BestF4,curve4 = DE(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 BestX5,BestF5,curve5 = GWO(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 BestX6,BestF6,curve6 = HHO(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 BestX7,BestF7,curve7 = RFO(SearchAgents_no, Max_iter,lb,ub,dim,fobj)#问题求解 #画收敛曲线图 Labelstr=['SSA','PSO','DBO','DE','GWO','HHO','RFO'] Colorstr=['r','g','b','k','c','m','y'] if BestF1>0: ? ? plt.semilogy(curve1,color=Colorstr[0],linewidth=2,label=Labelstr[0]) ? ? plt.semilogy(curve2,color=Colorstr[1],linewidth=2,label=Labelstr[1]) ? ? plt.semilogy(curve3,color=Colorstr[2],linewidth=2,label=Labelstr[2]) ? ? plt.semilogy(curve4,color=Colorstr[3],linewidth=2,label=Labelstr[3]) ? ? plt.semilogy(curve5,color=Colorstr[4],linewidth=2,label=Labelstr[4]) ? ? plt.semilogy(curve6,color=Colorstr[5],linewidth=2,label=Labelstr[5]) ? ? plt.semilogy(curve7,color=Colorstr[6],linewidth=2,label=Labelstr[6]) else: ? ? plt.plot(curve1,color=Colorstr[0],linewidth=2,label=Labelstr[0]) ? ? plt.plot(curve2,color=Colorstr[1],linewidth=2,label=Labelstr[1]) ? ? plt.plot(curve3,color=Colorstr[2],linewidth=2,label=Labelstr[2]) ? ? plt.plot(curve4,color=Colorstr[3],linewidth=2,label=Labelstr[3]) ? ? plt.plot(curve5,color=Colorstr[4],linewidth=2,label=Labelstr[4]) ? ? plt.plot(curve6,color=Colorstr[5],linewidth=2,label=Labelstr[5]) ? ? plt.plot(curve7,color=Colorstr[6],linewidth=2,label=Labelstr[6]) plt.xlabel("Iteration") plt.ylabel("Fitness") plt.xlim(0,Max_iter) plt.title("CEC2017-F"+str(function_name)) plt.legend() plt.savefig(str(function_name)+'.png') plt.show() #