信用评分卡模型在Python中实践（下）

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上一篇已经完成数据集的准备和指标筛选，本篇继续介绍模型构建和评分卡的创建。

五、模型训练

信用评分卡的模型一般采用逻辑回归模型，属于二分类模型，Python 中的sklearn.linear_model导入LogisticRegression即可。

#入模定量和定性指标
model_data = data[np.append(quant_model_vars,qual_model_vars)]
#
model_data_WOE = pd.DataFrame()
model_data_WOE['duration']=duration_WoE
model_data_WOE['amount']=amount_WoE
model_data_WOE['age']=age_WoE
model_data_WOE['installment_rate']=installment_rate_WoE
model_data_WOE['status']=status_WoE
model_data_WOE['credit_history']=credit_history_WoE
model_data_WOE['savings']=savings_WoE
model_data_WOE['property']=property_WoE
model_data_WOE['employment_duration']=employment_duration_WoE
model_data_WOE['purpose']=purpose_WoE
#model_data_WOE['credit_risk']=credit_risk
#逻辑回归
model = LogisticRegression()
model.fit(model_data_WOE,credit_risk)
coefficients = model.coef_.ravel()
intercept = model.intercept_[0]

注：Python中的模型不够R中模型友好，想看模型的变量、系数、检验之类的都比较麻烦，要一个变量一个变量去找，然后输出打印，反之R的模型结果就友好很多了，一个summary函数就把全部概况显示出来了。

###########自定义ks函数#############
def predict_df(model,data,label,feature=None):
    if feature:
        df_feature=data.loc[:,feature]
    else:
        all_feature = list(data.columns.values)
        all_feature.remove(label)
        df_feature=data.loc[:,all_feature]
    df_prob=model.predict(df_feature)
    df_pred=pd.Series(df_prob).map(lambda x:1 if x>0.5 else 0)
    df=pd.DataFrame()
    df['predict']=df_pred
    df['label']=data.loc[:,label].values
    df['score']=df_prob
    return df
  
def ks(data,model,label):
    data_df = predict_df(model,data,label)
    KS_data = data_df.sort_values(by='score',ascending=True)
    KS_data['Bad'] = KS_data['label'].cumsum() / KS_data['label'].sum()
    KS_data['Count'] = np.arange(1 , len(KS_data['label']) + 1)
    KS_data['Good'] = (KS_data['Count'] - KS_data['label'].cumsum() ) / (len(KS_data['label']) - KS_data['label'].sum())
    KS_data.index=KS_data['Count']
     
    ks = KS_data.iloc[::int(len(KS_data)/100),:]
    ks.index = np.arange(len(ks))
    return ks
  
def ks_plot(ks_df):
    plt.figure(figsize=(6, 5))
    plt.subplot(111)
    plt.plot(ks_df['Bad'], lw=3.5, color='r', label='Bad')  # train_ks['Bad']
    plt.plot(ks_df['Good'], lw=3.5, color='g',
             label='Good')  # train_ks['Good']
    plt.legend(loc=4)
    plt.grid(True)
    plt.axis('tight')
    plt.title('The KS Curve of data')
    plt.show()

KS(Kolmogorov-Smirnov)：KS用于模型风险区分能力进行评估，
指标衡量的是好坏样本累计分部之间的差值。好坏样本累计差异越大，KS指标越大，那么模型的风险区分能力越强，通常来讲，KS>0.2即表示模型有较好的预测准确性。经过计算，模型的KS值为0.35，模型效果较好，如下：

六、评分卡

引用文献的评分卡计算方法：

一般评分卡公式：Score=A - B * log(Odds)

通常情况下，需要设定两个假设：
（1）给某个特定的比率设定特定的预期分值；
（2）确定比率翻番的分数（PDO）
根据以上的分析，我们首先假设比率为x的特定点的分值为P。则比率为2x的点的分值应该为P+PDO。代入式中，可以得到如下两个等式：

P = A - B * log(x)

P - PDO = A - B * log(2x)

本文中通过指定特定比率（好坏比）（1/20）的特定分值（50）和比率翻番的分数（10），来计算评分卡的系数alpha和beta

def alpha_beta(basepoints,baseodds,pdo):
    beta = pdo/math.log(2)
    alpha = basepoints + beta * math.log(baseodds)
    return alpha,beta

评分卡公式：Score=6.78 - 14.43 * log(Odds)

而 $log(Odds) = eta _{0} + eta _{1} x _{1}+ eta _{2} x _{2} + ... +eta _{n } x _{n}$ ，代入WOE转换后的变量并进行变化，可得到最终的评分卡公式：

$Score = (A - Beta _{0}) - (Beta _{1} w_{11})delta _{11} - (Beta _{1} w_{12})delta _{12} - (Beta _{x} w_{x1})delta _{x1} - (Beta _{x} w_{x2})delta _{x2} - ...$

式中ωijωij 为第i行第j个变量的WOE，为已知变量；βiβi为逻辑回归方程中的系数，为已知变量；δijδij为二元变量，表示变量i是否取第j个值。

根据以上表格可计算出指标各分段的分值

#计算基础分值
basepoint = round(alpha - beta * intercept)
#变量_score
duration_score = np.round(model_data_WOE['duration']*coefficients[0]*beta)
amount_score = np.round(model_data_WOE['amount']*coefficients[1]*beta)
age_score = np.round(model_data_WOE['age']*coefficients[2]*beta)
installment_rate_score = np.round(model_data_WOE['installment_rate']*coefficients[2]*beta)
status_score = np.round(model_data_WOE['status']*coefficients[4]*beta)
credit_history_score = np.round(model_data_WOE['credit_history']*coefficients[5]*beta)
savings_score = np.round(model_data_WOE['savings']*coefficients[6]*beta)
property_score = np.round(model_data_WOE['property']*coefficients[7]*beta)
employment_duration_score = np.round(model_data_WOE['employment_duration']*coefficients[8]*beta)
purpose_score = np.round(model_data_WOE['purpose']*coefficients[9]*beta)
#变量的分值
duration_scoreCard = pd.DataFrame(duration_Cutpoint,duration_score).drop_duplicates()
amount_scoreCard = pd.DataFrame(amount_Cutpoint,amount_score).drop_duplicates()
age_scoreCard = pd.DataFrame(age_Cutpoint,age_score).drop_duplicates()
installment_rate_scoreCard = pd.DataFrame(installment_rate_Cutpoint,installment_rate_score).drop_duplicates()
status_scoreCard = pd.DataFrame(np.array(discrete_data['status']),status_score).drop_duplicates()
credit_history_scoreCard = pd.DataFrame(np.array(discrete_data['credit_history']),credit_history_score).drop_duplicates()
savings_scoreCard = pd.DataFrame(np.array(discrete_data['savings']),savings_score).drop_duplicates()
property_scoreCard = pd.DataFrame(np.array(discrete_data['property']),property_score).drop_duplicates()
employment_duration_scoreCard = pd.DataFrame(np.array(discrete_data['employment_duration']),employment_duration_score).drop_duplicates()
purpose_scoreCard = pd.DataFrame(np.array(discrete_data['purpose']),purpose_score).drop_duplicates()

转载https://blog.csdn.net/kxiaozhuk/article/details/84612632

至此，信用评分卡的建模介绍到这里，欢迎学习我的python信用评分卡课程。