十年网站开发经验 + 多家企业客户 + 靠谱的建站团队
量身定制 + 运营维护+专业推广+无忧售后,网站问题一站解决
这篇文章主要介绍“Java线性回归基础代码怎么写”,在日常操作中,相信很多人在Java线性回归基础代码怎么写问题上存在疑惑,小编查阅了各式资料,整理出简单好用的操作方法,希望对大家解答”Java线性回归基础代码怎么写”的疑惑有所帮助!接下来,请跟着小编一起来学习吧!
我们提供的服务有:成都网站设计、成都网站制作、微信公众号开发、网站优化、网站认证、琼山ssl等。为1000+企事业单位解决了网站和推广的问题。提供周到的售前咨询和贴心的售后服务,是有科学管理、有技术的琼山网站制作公司
# Use linear model to model this data. from sklearn.linear_model import LinearRegression import numpy as np lr=LinearRegression() lr.fit(pga.distance[:,np.newaxis],pga['accuracy']) # Another way is using pga[['distance']] theta0=lr.intercept_ theta1=lr.coef_ print(theta0) print(theta1) #calculating cost-function for each theta1 #计算平均累积误差 def cost(x,y,theta0,theta1): J=0 for i in range(len(x)): mse=(x[i]*theta1+theta0-y[i])**2 J+=mse return J/(2*len(x)) theta0=100 theta1s = np.linspace(-3,2,197) costs=[] for theta1 in theta1s: costs.append(cost(pga['distance'],pga['accuracy'],theta0,theta1)) plt.plot(theta1s,costs) plt.show() print(pga.distance) #调整theta def partial_cost_theta0(x,y,theta0,theta1): #我们的模型是线性拟合函数时:y=theta1*x + theta0,而不是sigmoid函数,当非线性时我们可以用sigmoid #直接多整个x series操作,省的一个一个计算,最终求sum 再平均 h=theta1*x+theta0 diff=(h-y) partial=diff.sum()/len(diff) return partial partial0=partial_cost_theta0(pga.distance,pga.accuracy,1,1) def partial_cost_theta1(x,y,theta0,theta1): #我们的模型是线性拟合函数:y=theta1*x + theta0,而不是sigmoid函数,当非线性时我们可以用sigmoid h=theta1*x+theta0 diff=(h-y)*x partial=diff.sum()/len(diff) return partial partial1=partial_cost_theta1(pga.distance,pga.accuracy,0,5) print(partial0) print(partial1) def gradient_descent(x,y,alpha=0.1,theta0=0,theta1=0): #设置默认参数 #计算成本 #调整权值 #计算错误代价,判断是否收敛或者达到最大迭代次数 most_iterations=1000 convergence_thres=0.000001 c=cost(x,y,theta0,theta1) costs=[c] cost_pre=c+convergence_thres+1.0 counter=0 while( (np.abs(c-cost_pre)>convergence_thres) & (counter数据集 :
复制下面数据,保存为: pga.csv
distance,accuracy 290.3,59.5 302.1,54.7 287.1,62.4 282.7,65.4 299.1,52.8 300.2,51.1 300.9,58.3 279.5,73.9 287.8,67.6 284.7,67.2 296.7,60 283.3,59.4 284,72.2 292,62.1 282.6,66.5 287.9,60.9 279.2,67.3 291.7,64.8 289.9,58.1 289.8,61.7 298.8,56.4 280.8,60.5 294.9,57.5 287.5,61.8 282.7,56 277.7,72.5 270.5,71.7 285.2,66 315.1,55.2 281.9,67.6 293.3,58.2 286,59.9 285.6,58.2 289.9,65.7 277.5,59 293.6,56.8 301.1,65.4 300.8,63.4 287.4,67.3 281.8,72.6 277.4,63.1 279.1,66.5 287.4,66.4 280.9,62.3 287.8,57.2 261.4,69.2 272.6,69.4 291.3,65.3 294.2,52.8 285.5,49 287.9,61.1 282.2,65.6 301.3,58.2 276.2,61.7 281.6,68.1 275.5,61.2 309.7,53.1 287.7,56.4 291.6,56.9 284.1,65 299.6,57.5 282.7,60 271.5,72 292.1,58.2 295,59.4 274.9,69 273.6,68.7 299.9,60.1 279.9,74 289.9,66 283.6,59.8 310.3,52.4 291.7,65.6 284.2,63.2 295,53.5 298.6,55.1 297.4,60.4 299.7,67.7 284.4,69.7 286.4,72.4 285.9,66.9 297.6,54.3 272.5,62 277,66.2 287.6,60.9 280.4,69.4 280,63.7 295.4,52.8 274.4,68.8 286.5,73.1 287.7,65.2 291.5,65.9 279,69.4 299,65.2 290.1,69.1 288.9,67.9 288.8,68.2 283.2,61 293.2,58.4 285.3,67.3 284.1,65.7 281.4,67.7 286.1,61.4 284.9,62.3 284.8,68.1 296,62 282.9,71.8 280.9,67.8 291.2,62 292.8,62.2 291,61.9 285.7,62.4 283.9,62.9 298.4,61.5 285.1,65.3 286.1,60.1 283.1,65.4 289.4,58.3 284.6,70.7 296.6,62.3 295.9,64.9 295.2,62.8 293.9,54.5 275,65.5 286.8,69.5 291.1,64.4 284.8,62.5 283.7,59.5 295.4,66.9 291.8,62.7 274.9,72.3 302.9,61.2 272.1,80.4 274.9,74.9 296.3,59.4 286.2,58.8 294.2,63.3 284.1,66.5 299.2,62.4 275.4,71 273.2,70.9 281.6,65.9 295.7,55.3 287.1,56.8 287.7,66.9 296.7,53.7 282.2,64.2 291.7,65.6 281.6,73.4 311,56.2 278.6,64.7 288,65.7 276.7,72.1 292,62 286.4,69.9 292.7,65.7 294.2,62.9 278.6,59.6 283.1,69.2 284.1,66 278.6,73.6 291.1,60.4 294.6,59.4 274.3,70.5 274,57.1 283.8,62.7 272.7,66.9 303.2,58.3 282,70.4 281.9,61 287,59.9 293.5,63.8 283.6,56.3 296.9,55.3 290.9,58.2 303,58.1 292.8,61.1 281.1,65 293,61.1 284,66.5 279.8,66.7 292.9,65.4 284,66.9 282,64.5 280.6,64 287.7,63.4 287.7,63.4 298.3,59.5 299.6,53.4 291.3,62.5 295.2,61.4 288,62.4 297.8,59.5 286,62.6 285.3,66.2 286.9,63.4 275.1,73.7到此,关于“Java线性回归基础代码怎么写”的学习就结束了,希望能够解决大家的疑惑。理论与实践的搭配能更好的帮助大家学习,快去试试吧!若想继续学习更多相关知识,请继续关注创新互联网站,小编会继续努力为大家带来更多实用的文章!
当前标题:Java线性回归基础代码怎么写
文章分享:http://shouzuofang.com/article/pceegc.html