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EL之Bagging:利用Bagging算法实现回归预测(实数值评分预测)问题
输出结果
设计思路
核心思路
#4.1、当treeDepth=1,对图进行可视化
#(1)、定义numTreesMax、treeDepth
numTreesMax = 30
treeDepth = 1 # ----------------------▲▲▲▲▲
modelList = []
predList = []
#number of samples to draw for stochastic bagging
nBagSamples = int(len(xTrain) * 0.5)
for iTrees in range(numTreesMax):
idxBag = []
for i in range(nBagSamples):
idxBag.append(random.choice(range(len(xTrain))))
xTrainBag = [xTrain[i] for i in idxBag]
yTrainBag = [yTrain[i] for i in idxBag]
modelList.append(DecisionTreeRegressor(max_depth=treeDepth))
modelList[-1].fit(xTrainBag, yTrainBag)
latestPrediction = modelList[-1].predict(xTest)
predList.append(list(latestPrediction))
mse = []
allPredictions = []
for iModels in range(len(modelList)):
prediction = []
for iPred in range(len(xTest)):
prediction.append(sum([predList[i][iPred] for i in range(iModels + 1)])/(iModels + 1))
allPredictions.append(prediction)
errors = [(yTest[i] - prediction[i]) for i in range(len(yTest))]
mse.append(sum([e * e for e in errors]) / len(yTest))
#4.2、当treeDepth=1,对图进行可视化
#(1)、定义numTreesMax、treeDepth
numTreesMax = 30
treeDepth = 5 # ----------------------▲▲▲▲▲
#4.3、当treeDepth=12,对图进行可视化
#(1)、定义numTreesMax、treeDepth
numTreesMax = 100 # ----------------------☆☆☆☆☆
treeDepth = 12 # ----------------------☆☆☆☆☆