台部落口袋里的小小哥

public class str_caozuo { public static void main(String args[]){ String result="heLlo"; String A=

2020-07-03 03:13:58

https://www.mysql.com/cn/downloads/ 拉倒最下下載MySQL Community (GPL) Downloads »即可參考博客 https://www.cnblogs.com/xiaokang0

2020-07-03 03:13:48

# 　將文字型數據轉換爲數值型 import pandas as pd from sklearn.impute import SimpleImputer data = pd.read_csv('缺失預處理數據22222.csv'

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import pandas as pd from sklearn.impute import SimpleImputer # 專門補缺的類 from sklearn.preprocessing import LabelEncoder

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from pprint import pprint # 決策樹 from sklearn import tree from sklearn.datasets import load_wine # 自帶數據庫，可以導入知名數據 from

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from sklearn.datasets import fetch_lfw_people from sklearn.decomposition import PCA import matplotlib.pyplot as plt im

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# 激活函數 # 1.relu 屏蔽掉爲0的 # 2.sigmoid 輸出範圍 x軸靠近0，梯度變化大，，遠離0的時候，就變化很小 # 3.tanh 範圍-1 到 +1 # 4.leak relu import tensorflo

2020-07-03 03:13:47

# todo 重要參數 solver & multi_class # multi_class 輸入告知模型，我們要處理分類問題的模型 # 1. 輸入 'ovr' 處理二分類，或者讓模型使用‘一對多’的形式來處理多分類問題

2020-07-03 03:13:47

# 分類問題的時候用交叉熵損失函數會更有效 # binary_crossentropy 來計算二元交叉熵 import tensorflow as tf import numpy as np import pandas as pd im

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# PCA和SVD from sklearn.decomposition import PCA # PCA(n_components=None # , copy=True # , whiten=False # ,

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# todo: 集成算法模塊集成學習 ensemble # 決策樹非常容易過擬合：在訓練集上表現優秀，卻在測試集上表現糟糕，一般用剪枝 # 目前最受歡迎的集成算法GBDT # todo:三類集成算法： # ·裝袋法（Baggi

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from sklearn.datasets import fetch_lfw_people from sklearn.decomposition import PCA import matplotlib.pyplot as plt im

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from sklearn.preprocessing import StandardScaler data = [[-1, 2], [-0.5, 6], [0, 10], [1, 18]] scaler = StandardScale

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2020-07-03 03:13:47

import tensorflow as tf import numpy as np import pandas as pd import matplotlib.pyplot as plt (train_image, train_la

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