CZSR CZZC GDP SSZE CZSR 1.000000 0.998729 0.992838 0.999832 CZZC 0.998729 1.000000 0.992536 0.998575 GDP 0.992838 0.992536 1.000000 0.994370 SSZE 0.999832 0.998575 0.994370 1.000000 由上表可知,CZZC与GDP,CZZC与SSZE,GDP与SSZE之间的相关系数都非常高,说明确实存在多重共线性。
(3)做辅助回归 被解释变量 CZZC GDP SSZE 可决系数 0.997168 0.988833 0.997862 方差扩大因子 353 90 468 方差扩大因子均大于10,存在严重多重共线性。并且通过以上分析,两两被解释变量之间相关性都很高。
(4)解决方式:分别作出财政收入与财政支出、国内生产总值、税收总额之间的一元回归。 5.2 (1)
①用图形法检验
绘制e2的散点图,用Eviews分析如下:
30,00025,00020,000E215,00010,0005,00001,0001,5002,0002,500X3,0003,5004,000 由上图可知,模型可能存在异方差,
② Goldfeld-Quanadt检验
1)定义区间为1-7时,由软件分析得: Dependent Variable: Y Method: Least Squares
Date: 12/10/14 Time: 14:52 Sample: 1 7
Included observations: 7
Variable Coefficient Std. Error t-Statistic Prob. T 35.20664 4.901492 7.182843 0.0020 X 0.109949 0.061965 1.774380 0.1507 C 77.12588 82.32844 0.936807 0.4019 R-squared 0.943099 Mean dependent var 565.6857
Adjusted R-squared 0.914649 S.D. dependent var 108.2755 S.E. of regression 31.63265 Akaike info criterion 10.04378 Sum squared resid 4002.499 Schwarz criterion 10.02060 Log likelihood -32.15324 Hannan-Quinn criter. 9.757267 F-statistic 33.14880 Durbin-Watson stat 1.426262 Prob(F-statistic) 0.003238
2 得∑e1i=4002.499
2)定义区间为12-18时,由软件分析得:
Dependent Variable: Y Method: Least Squares Date: 12/10/14 Time: 13:50 Sample: 12 18 Included observations: 7
Variable Coefficient Std. Error t-Statistic Prob. T 52.40588 6.923378 7.569409 0.0016 X 0.068689 0.053763 1.277635 0.2705 C -8.789265 79.92542 -0.109968 0.9177 R-squared 0.984688 Mean dependent var 887.6143
Adjusted R-squared 0.977032 S.D. dependent var 274.4148 S.E. of regression 41.58810 Akaike info criterion 10.59103 Sum squared resid 6918.280 Schwarz criterion 10.56785 Log likelihood -34.06861 Hannan-Quinn criter. 10.30451 F-statistic 128.6166 Durbin-Watson stat 2.390329 Prob(F-statistic) 0.000234
2 得∑e2i=6918.280
3)根据Goldfeld-Quanadt检验,F统计量为: F=∑e2i2 /∑e1i2 =6918.280/4002.499=1.7285
在α=0.05水平下,分子分母的自由度均为4,查分布表得临界值F0.05(4,4)=6.39,因为F=1.7285< F0.05(4,4)=6.39,所以接受原假设,此检验表明模型不存在异方差。
(2)存在异方差,估计参数的方法: ①可以对模型进行变换
②使用加权最小二乘法进行计算,得出模型方程,并对其进行相关检验 ③对模型进行对数变换,进行分析
(3)评价:
3.3所得结论是可以相信的,随机扰动项之间不存在异方差。回归方程是显著的。
5.3
(1)由Eviews软件分析得: Dependent Variable: Y Method: Least Squares Date: 12/10/14 Time: 16:00 Sample: 1 31 Included observations: 31
Variable Coefficient Std. Error t-Statistic Prob. X 1.244281 0.079032 15.74411 0.0000 C 242.4488 291.1940 0.832602 0.4119 R-squared 0.895260 Mean dependent var 4443.526
Adjusted R-squared 0.891649 S.D. dependent var 1972.072 S.E. of regression 649.1426 Akaike info criterion 15.85152 Sum squared resid 12220196 Schwarz criterion 15.94404 Log likelihood -243.6986 Hannan-Quinn criter. 15.88168 F-statistic 247.8769 Durbin-Watson stat 1.078581 Prob(F-statistic) 0.000000
由上表可知,2007年我国农村居民家庭人均消费支出(x)对人均纯收入(y)的模型为:
Y=1.244281X+242.4488
(2)
①由图形法检验
6,000,0005,000,0004,000,000E23,000,0002,000,0001,000,000002,0004,000X6,0008,00010,000 由上图可知,模型可能存在异方差。
②Goldfeld-Quanadt检验
1)定义区间为1-12时,由软件分析得:
Dependent Variable: Y1 Method: Least Squares Date: 12/10/14 Time: 11:34 Sample: 1 12 Included observations: 12
Variable Coefficient Std. Error t-Statistic X1 1.485296 0.500386 2.968297 C -550.5492 1220.063 -0.451247 R-squared 0.468390 Mean dependent var
Adjusted R-squared 0.415229 S.D. dependent var S.E. of regression 420.9803 Akaike info criterion Sum squared resid 1772245. Schwarz criterion Log likelihood -88.44437 Hannan-Quinn criter. F-statistic 8.810789 Durbin-Watson stat Prob(F-statistic) 0.014087
2 得∑e1i=1772245.
2)定义区间为20-31时,由软件分析得: Dependent Variable: Y1 Method: Least Squares Date: 12/10/14 Time: 16:36 Sample: 20 31
Prob. 0.0141 0.6614 3052.950 550.5148 15.07406 15.15488 15.04414 2.354167
Included observations: 12
Variable Coefficient Std. Error t-Statistic X1 1.086940 0.148863 7.301623 C 1173.307 733.2520 1.600141 R-squared 0.842056 Mean dependent var
Adjusted R-squared 0.826262 S.D. dependent var S.E. of regression 889.3633 Akaike info criterion Sum squared resid 7909670. Schwarz criterion Log likelihood -97.41940 Hannan-Quinn criter. F-statistic 53.31370 Durbin-Watson stat Prob(F-statistic) 0.000026
2 得∑e2i=7909670.
Prob. 0.0000 0.1407 6188.329 2133.692 16.56990 16.65072 16.53998 2.339767
3)根据Goldfeld-Quanadt检验,F统计量为: F=∑e2i2 /∑e1i2 =7909670./ 1772245=4.4631
在α=0.05水平下,分子分母的自由度均为10,查分布表得临界值F0.05(10,10)=2.98,因为F=4.4631> F0.05(10,10)=2.98,所以拒绝原假设,此检验表明模型存在异方差。 (3)
1)采用WLS法估计过程中, ①用权数w1=1/X,建立回归得: Dependent Variable: Y Method: Least Squares Date: 12/09/14 Time: 11:13 Sample: 1 31 Included observations: 31 Weighting series: W1
Variable Coefficient Std. Error t-Statistic Prob. X 1.425859 0.119104 11.97157 0.0000 C -334.8131 344.3523 -0.972298 0.3389 Weighted Statistics R-squared 0.831707 Mean dependent var 3946.082
Adjusted R-squared 0.825904 S.D. dependent var 536.1907 S.E. of regression 536.6796 Akaike info criterion 15.47102 Sum squared resid 8352726. Schwarz criterion 15.56354 Log likelihood -237.8008 Hannan-Quinn criter. 15.50118 F-statistic 143.3184 Durbin-Watson stat 1.369081 Prob(F-statistic) 0.000000
Unweighted Statistics
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