Đề tài Phân tích định lượng về tác động của chính sách tiền tệ tới một số nhân tố vĩ mô của Việt Nam trong thời kỳ đổi mới
Lời giới thiệu 1. Đặc điểm chung của nền kinh tế V o giữa những n ̈m 1980 của thế kỷ 20, nền kinh tế Việt nam rơi v o cuộc khủng hoảng trầm trọng với l1m ph ̧t t ̈ng nhanh tới 3 con số, h ng n ̈m t ̈ng tr−ởng kinh tế chỉ xung quanh 2 phần tr ̈m. Để phản ứng cuộc khủng hoảng n y, Chính phủ Việt nam đ đ−a ra chính s ̧ch đổi mới kinh tế v o n ̈m 1986 m trong đó cơ chế thị tr−ờng đ đ−ợc thừa nhận. Sau hơn 20 n ̈m theo đuổi chính s ̧ch kinh tế thị tr−ờng có sự điều tiết của Nh n−ớc, nền kinh tế Việt nam đ đ1t đ−ợc những th nh tựu to lớn. Từ một nền kinh tế với tỷ lệ l1m ph ̧t có tốc độ phi m , ng y nay kinh tế Việt nam có tốc độ t ̈ng tr−ởng cao, ổn định tran 7%, tỷ lệ l1m ph ̧t thấp v luôn giữ mức d−ới 10%. Kết quả cho thấy sự điều tiết của Chính phủ đối với nền kinh tế, đặc biệt l nền kinh tế đang chuyển đổi có một vai trò cực kỳ quan trọng. Một chính s ̧ch đúng sẽ thúc đẩy qu ̧ trình ph ̧t triển, đẩy nhanh qu ̧ trình chuyển đổi kinh tế. Một chính s ̧ch không đúng sẽ có hậu quả nghiam trọng l kìm h m sự ph ̧t triển của nền kinh tế, l m chậm qúa trình chuyển đổi. Với những th nh tựu nh− hiện nay, tr−ớc hết đó l th nh quả của công cuộc đổi mới nền kinh tế. Đồng thời đó cũng l kết quả của việc điều tiết đúng đ3⁄4n c ̧c chính s ̧ch vĩ mô của Chính phủ, trong đó có chính s ̧ch về tiền tệ. Theo luật NHNN (th ̧ng 4/1998), NHNN ho1t động vì mục tiau “ổn định gi ̧ trị của đồng tiền, góp phần đảm bảo an to n cho ho1t động ngân h ng v hệ thống c ̧c tổ chức tín dụng, thúc đẩy ph ̧t triển kinh tế – x hội theo định h−ớng x hội chủ nghĩa” (Điều 1, khoản 3). Với nhiệm vụ đ−ợc giao, từ nửa cuối thập nian 90, NHNN đ xây dựng một c ̧ch có hệ thống một khuôn khổ chính s ̧ch tiền tệ gi ̧n tiếp v b3⁄4t đầu ̧p dụng c ̧c công cụ chính s ̧ch tiền tệ gi ̧n tiếp, phối hợp đồng bộ giữa c ̧c công cụ chính s ̧ch tiền tệ, góp phần duy trì ổn định l i suất, ổn định tiền tệ. Vì vậy việc nghian cứu vai trò v ảnh 2 h−ởng của chính s ̧ch tiền tệ đối với sự ổn định, t ̈ng tr−ởng của nền kinh tế Việt nam l một vấn đề hết sức cần thiết. 2. Đối t−ợng v mục đích nghian cứu của đề t i Việc nghian cứu ảnh h−ởng của chính s ̧ch tiền tệ tới c ̧c nhân tố vĩ mô của nền kinh tế Việt nam trong giai đo1n chuyển đổi đ đ−ợc nhiều nh kinh tế trong n−ớc cũng nh− của n−ớc ngo i đề cập tới. Tuy nhian việc phân tích ảnh h−ởng của chính s ̧ch tiền tệ về mặt định l−ợng tới từng nhân tố vĩ mô, mối quan hệ nhân quả giữa l−ợng tiền cung ứng với c ̧c nhân tố n y l ch−a có nhiều. Bởi vậy đề t i “Phân tích định l−ợng về t ̧c động của chính s ̧ch tiền tệ tới một số nhân tố vĩ mô của Việt Nam trong thời kỳ đổi mới” đ−ợc luận ̧n lựa chọn nghian cứu nhằm phân tích t ̧c động trực tiếp về mặt định l−ợng của chính s ̧ch tiền tệ thông qua sự thay đổi l−ợng tiền cung ứng tới sự thay đổi của một số biến vĩ mô nh− thu nhập, gi ̧ cả v c ̧n cân thanh to ̧n của Việt nam trong giai đo1n vừa qua. Những kết quả thu nhận đ−ợc dựa tran c ̧c lý thuyết cơ bản về tiền tệ v những mô hình thực nghiệm đ đ−ợc kiểm chứng ở c ̧c nền kinh tế kh ̧c tran thế giới sẽ l những c ̈n cứ góp phần nghian cứu vai trò v t ̧c động của chính s ̧ch hiện nay của NHTW đối với mục tiau ổn định gi ̧ cả, thúc đẩy t ̈ng tr−ởng kinh tế v t1o công ̈n việc l m, giảm tỷ lệ thất nghiệp. 3. Ph1m vi nghian cứu của đề t i Ph1m vi của luận ̧n sẽ đề cập tới c ̧c vấn đề sau: vai trò của cung tiền tệ ở Việt nam, ảnh h−ởng trực tiếp của chính s ̧ch tiền tệ m đ1i diện l l−ợng tiền cung ứng trong c ̧c mối quan hệ giữa tiền tệ v thu nhập, giữa tiền tệ v gi ̧ cả, giữa tiền tệ v c ̧n cân thanh to ̧n. Từ c ̧c kết quả thu đ−ợc, luận ̧n sẽ phân tích vai trò của chính s ̧ch tiền tệ đối với sự ph ̧t triển kinh tế v ổn định gi ̧ cả trong giai đo1n vừa qua. 3 Với mục đích đ nau, dựa tran lý thuyết tiền tệ hiện đ1i v ̧p dụng cho c ̧c n−ớc đang ph ̧t triển, luận ̧n sẽ −ớc l−ợng một số mô hình dựa tran số liệu thu thập đ−ợc trong thời gian từ 1995 đến 2006 nhằm phân tích ảnh h−ởng của chính s ̧ch tiền tệ thông qua l−ợng tiền cung ứng tới c ̧c nhân tố vĩ mô. Việc lựa chọn ph1m vi nghian cứu trong giai đo1n n y do những nguyan nhân sau: ã Đây l giai đo1n m l1m ph ̧t đ đ−ợc kiềm chế, nền kinh tế b3⁄4t đầu đi v o thế ổn định v ph ̧t triền đều đặn h ng n ̈m. ã Mọi chính s ̧ch đang h−ớng tới một nền kinh tế thị tr−ờng có sự điều tiết của Nh n−ớc v chuẩn bị những cơ sở cần thiết để h−ớng tới sự hội nhập đầy đủ với nền kinh tế thế giới. ã B3⁄4t đầu từ n ̈m 1994, mọi số liệu thống ka đều đ−ợc tính theo tiau chuẩn của IMF, từ đó chúng ta mới có t−ơng đối đầy đủ số liệu cần thiết trong phân tích hồi qui. Từ mục đích, đối t−ợng v ph1m vi nghian cứu, ngo i phần tổng quan v mở đầu, luận ̧n bao gồm 3 ch−ơng chính nh− sau: Ch−ơng 1: Mối quan hệ giữa chính s ̧ch cung tiền với một số nhân tố vĩ mô Ch−ơng 2: Phân tích định l−ợng ảnh h−ởng của chính s ̧ch cung tiền tới một số nhân tố vĩ mô của Việt Nam trong giai đo1n gần đây Ch−ơng 3: Tổng kết v c ̧c kiến nghị nhằm nâng cao hiệu lực của chính s ̧ch tiền tệ Mục lục Trang Lời giới thiệu 1 Tổng quan c ̧c nghian cứu đ có 4 Ch−ơng 1: Mối quan hệ giữa chính s ̧ch cung tiền với một số nhân tố vĩ mô 7 1.1 Phân tích chính s ̧ch tiền tệ thông qua c ̧c mô hình cho tiền cơ sở khả dụng 7 1.2 Phân tích mối quan hệ giữa tiền tệ v thu nhập 21 1.3 Phân tích mối quan hệ giữa tiền tệ v gi ̧ cả 27 1.4 Phân tích mối quan hệ giữa tiền tệ v c ̧n cân thanh to ̧n 30 1.5 Mối quan hệ nhân quả giữa tiền tệ v c ̧c nhân tố vĩ mô 41 Ch−ơng 2: Phân tích định l−ợng ảnh h−ởng của chính s ̧ch cung tiền tới một số nhân tố vĩ mô của việt nam trong giai đo1n gần đây 52 2.1 Kinh tế Việt nam v chính s ̧ch tiền tệ trong giai đo1n 1995- 2006 52 2.1 Phân tích chính s ̧ch tiền tệ thông qua c ̧c mô hình cho tiền cơ sở 56 2.3 ảnh h−ởng của l−ợng cung tiền tới thu nhập 77 2.4 ảnh h−ởng của tiền tệ đến gi ̧ cả 94 2.5 ảnh h−ởng của tiền tệ đến c ̧n cân thanh to ̧n 111 Ch−ơng 3: Tổng kết v c ̧c kiến nghị nhằm nâng cao hiệu lực của chính s ̧ch tiền tệ 131 3.1 Tổng kết 131 3.2 C ̧c kiến nghị nhằm nâng cao hiệu lực của chính s ̧ch tiền tệ 137 Kết luận 142 Danh mục c ̧c công trình của t ̧c giả 144 Danh mục t i liệu tham khảo 145 Phụ lục 156 MụC LụC CHI TIếT 219
Bạn đang xem trước 20 trang tài liệu Đề tài Phân tích định lượng về tác động của chính sách tiền tệ tới một số nhân tố vĩ mô của Việt Nam trong thời kỳ đổi mới, để xem tài liệu hoàn chỉnh bạn click vào nút DOWNLOAD ở trên
sion 25183.84 Akaike info criterion 23.14830
Sum squared resid 2.79E+10 Schwarz criterion 23.22780
Log likelihood -530.4108 F-statistic 397.8256
Durbin-Watson stat 2.226775 Prob(F-statistic) 0.000000
182
Augmented Dickey-Fuller test statistic 2.664886 0.9977
Test critical values: 1% level -2.616203
5% level -1.948140
10% level -1.612320
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(ADY)
Method: Least Squares
Date: 11/28/07 Time: 11:24
Sample (adjusted): 1995Q3 2006Q4
Included observations: 46 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
ADY(-1) 0.062486 0.023448 2.664886 0.0107
D(ADY(-1)) -0.721605 0.112786 -6.397986 0.0000
R-squared 0.471798 Mean dependent var 4801.820
Adjusted R-squared 0.459794 S.D. dependent var 28504.56
S.E. of regression 20950.49 Akaike info criterion 22.78022
Sum squared resid 1.93E+10 Schwarz criterion 22.85972
Log likelihood -521.9450 Durbin-Watson stat 2.525635
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(ADY,2)
Method: Least Squares
Date: 11/28/07 Time: 11:29
Sample (adjusted): 1995Q4 2006Q4
Included observations: 45 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(ADY(-1)) -2.263035 0.273590 -8.271616 0.0000
D(ADY(-1),2) 0.346059 0.149390 2.316479 0.0255
C 10280.83 3249.877 3.163452 0.0029
R-squared 0.857642 Mean dependent var 83.28527
Adjusted R-squared 0.850863 S.D. dependent var 52801.91
S.E. of regression 20391.16 Akaike info criterion 22.74793
Sum squared resid 1.75E+10 Schwarz criterion 22.86837
Log likelihood -508.8284 F-statistic 126.5157
Durbin-Watson stat 2.107294 Prob(F-statistic) 0.000000
183
ADF Test Statistic -4.133047 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(GDPAG/GDP)
Method: Least Squares
Date: 11/22/07 Time: 10:00
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
GDPAG/GDP(-1) -1.313217 0.317736 -4.133047 0.0003
D(GDPAG/GDP(-1)) -0.044385 0.193386 -0.229515 0.8200
C 0.300903 0.072604 4.144420 0.0002
R-squared 0.686851 Mean dependent var 0.000618
Adjusted R-squared 0.666648 S.D. dependent var 0.071002
S.E. of regression 0.040994 Akaike info criterion -3.466691
Sum squared resid 0.052095 Schwarz criterion -3.332012
Log likelihood 61.93374 F-statistic 33.99724
Durbin-Watson stat 1.924345 Prob(F-statistic) 0.000000
ADF Test Statistic -5.758198 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(GDPAG/GDP,2)
Method: Least Squares
Date: 11/22/07 Time: 10:01
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(GDPAG/GDP(-1)) -1.945436 0.337855 -5.758198 0.0000
D(GDPAG/GDP(-1),2) 0.129003 0.182913 0.705272 0.4861
C 0.002794 0.008977 0.311229 0.7578
R-squared 0.859518 Mean dependent var -0.001636
Adjusted R-squared 0.850153 S.D. dependent var 0.132933
S.E. of regression 0.051458 Akaike info criterion -3.009582
Sum squared resid 0.079439 Schwarz criterion -2.873536
Log likelihood 52.65811 F-statistic 91.77552
Durbin-Watson stat 2.178968 Prob(F-statistic) 0.000000
184
ADF Test Statistic -4.133047 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(GDPNA/GDP)
Method: Least Squares
Date: 11/22/07 Time: 10:07
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
GDPNA/GDP(-1) -1.313217 0.317736 -4.133047 0.0003
D(GDPNA/GDP(-1)) -0.044385 0.193386 -0.229515 0.8200
C 1.012314 0.245574 4.122241 0.0003
R-squared 0.686851 Mean dependent var -0.000618
Adjusted R-squared 0.666648 S.D. dependent var 0.071002
S.E. of regression 0.040994 Akaike info criterion -3.466691
Sum squared resid 0.052095 Schwarz criterion -3.332012
Log likelihood 61.93374 F-statistic 33.99724
Durbin-Watson stat 1.924345 Prob(F-statistic) 0.000000
ADF Test Statistic -5.758198 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(GDPNA/GDP,2)
Method: Least Squares
Date: 11/22/07 Time: 10:08
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(GDPNA/GDP(-1)) -1.945436 0.337855 -5.758198 0.0000
D(GDPNA/GDP(-1),2) 0.129003 0.182913 0.705272 0.4861
C -0.002794 0.008977 -0.311229 0.7578
R-squared 0.859518 Mean dependent var 0.001636
Adjusted R-squared 0.850153 S.D. dependent var 0.132933
S.E. of regression 0.051458 Akaike info criterion -3.009582
Sum squared resid 0.079439 Schwarz criterion -2.873536
Log likelihood 52.65811 F-statistic 91.77552
Durbin-Watson stat 2.178968 Prob(F-statistic) 0.000000
185
ADF Test Statistic -1.319814 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(TD)
Method: Least Squares
Date: 11/22/07 Time: 10:11
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
TD(-1) -0.173953 0.131801 -1.319814 0.1966
D(TD(-1)) -0.202722 0.182112 -1.113175 0.2742
C 0.104789 0.078109 1.341582 0.1895
R-squared 0.138351 Mean dependent var 0.001618
Adjusted R-squared 0.082761 S.D. dependent var 0.040062
S.E. of regression 0.038368 Akaike info criterion -3.599063
Sum squared resid 0.045636 Schwarz criterion -3.464384
Log likelihood 64.18407 F-statistic 2.488767
Durbin-Watson stat 2.139721 Prob(F-statistic) 0.099453
ADF Test Statistic -6.870556 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(TD,2)
Method: Least Squares
Date: 11/22/07 Time: 10:12
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(TD(-1)) -1.839110 0.267680 -6.870556 0.0000
D(TD(-1),2) 0.412908 0.165917 2.488633 0.0186
C 0.003347 0.006359 0.526332 0.6025
R-squared 0.710976 Mean dependent var 0.000121
Adjusted R-squared 0.691708 S.D. dependent var 0.065616
S.E. of regression 0.036433 Akaike info criterion -3.700203
Sum squared resid 0.039820 Schwarz criterion -3.564156
Log likelihood 64.05334 F-statistic 36.89883
Durbin-Watson stat 1.977247 Prob(F-statistic) 0.000000
186
ADF Test Statistic -0.852357 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(TD/DD)
Method: Least Squares
Date: 11/22/07 Time: 10:13
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
TD/DD(-1) -0.092069 0.108017 -0.852357 0.4006
D(TD/DD(-1)) -0.221019 0.182717 -1.209626 0.2356
C 0.153220 0.164322 0.932437 0.3583
R-squared 0.098200 Mean dependent var 0.013048
Adjusted R-squared 0.040019 S.D. dependent var 0.210238
S.E. of regression 0.205988 Akaike info criterion -0.237900
Sum squared resid 1.315364 Schwarz criterion -0.103221
Log likelihood 7.044294 F-statistic 1.687845
Durbin-Watson stat 2.100093 Prob(F-statistic) 0.201469
ADF Test Statistic -5.797645 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(TD/DD,2)
Method: Least Squares
Date: 11/22/07 Time: 10:14
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(TD/DD(-1)) -1.626571 0.280557 -5.797645 0.0000
D(TD/DD(-1),2) 0.269446 0.175280 1.537227 0.1347
C 0.023855 0.035618 0.669747 0.5081
R-squared 0.667461 Mean dependent var 0.000589
Adjusted R-squared 0.645292 S.D. dependent var 0.341464
S.E. of regression 0.203367 Akaike info criterion -0.261103
Sum squared resid 1.240742 Schwarz criterion -0.125057
Log likelihood 7.308194 F-statistic 30.10754
Durbin-Watson stat 1.954623 Prob(F-statistic) 0.000000
187
ADF Test Statistic -3.597625 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LR)
Method: Least Squares
Date: 11/22/07 Time: 10:18
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
LR(-1) -0.162191 0.045083 -3.597625 0.0011
D(LR(-1)) -0.130104 0.154949 -0.839653 0.4075
C 0.015787 0.005504 2.868160 0.0074
R-squared 0.294802 Mean dependent var -0.003162
Adjusted R-squared 0.249305 S.D. dependent var 0.009797
S.E. of regression 0.008488 Akaike info criterion -6.616140
Sum squared resid 0.002234 Schwarz criterion -6.481461
Log likelihood 115.4744 F-statistic 6.479647
Durbin-Watson stat 1.984306 Prob(F-statistic) 0.004455
ADF Test Statistic -4.545284 1% Critical Value* -3.6576
5% Critical Value -2.9591
10% Critical Value -2.6181
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LR,2)
Method: Least Squares
Date: 11/22/07 Time: 10:24
Sample(adjusted): 1997:2 2004:4
Included observations: 31 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(LR(-1)) -1.061160 0.233464 -4.545284 0.0001
D(LR(-1),2) -0.032840 0.208053 -0.157843 0.8758
D(LR(-2),2) 0.313052 0.191600 1.633879 0.1143
D(LR(-3),2) 0.222647 0.138126 1.611914 0.1191
C -0.001821 0.001494 -1.218719 0.2339
R-squared 0.757374 Mean dependent var 0.001390
Adjusted R-squared 0.720047 S.D. dependent var 0.013292
S.E. of regression 0.007033 Akaike info criterion -6.929702
Sum squared resid 0.001286 Schwarz criterion -6.698413
Log likelihood 112.4104 F-statistic 20.29021
Durbin-Watson stat 1.919358 Prob(F-statistic) 0.000000
188
ADF Test Statistic -2.049136 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(ER)
Method: Least Squares
Date: 11/22/07 Time: 10:27
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
ER(-1) -0.178483 0.087102 -2.049136 0.0490
D(ER(-1)) 0.185022 0.170922 1.082495 0.2874
C 0.011329 0.008851 1.279942 0.2101
R-squared 0.130904 Mean dependent var -0.005088
Adjusted R-squared 0.074833 S.D. dependent var 0.025685
S.E. of regression 0.024705 Akaike info criterion -4.479503
Sum squared resid 0.018921 Schwarz criterion -4.344824
Log likelihood 79.15155 F-statistic 2.334623
Durbin-Watson stat 1.934981 Prob(F-statistic) 0.113645
ADF Test Statistic -4.746136 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(ER,2)
Method: Least Squares
Date: 11/22/07 Time: 10:28
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(ER(-1)) -1.119784 0.235936 -4.746136 0.0000
D(ER(-1),2) 0.265894 0.179333 1.482688 0.1486
C -0.005339 0.004632 -1.152624 0.2582
R-squared 0.480842 Mean dependent var 0.000212
Adjusted R-squared 0.446231 S.D. dependent var 0.034691
S.E. of regression 0.025816 Akaike info criterion -4.389157
Sum squared resid 0.019994 Schwarz criterion -4.253111
Log likelihood 75.42109 F-statistic 13.89293
Durbin-Watson stat 2.002556 Prob(F-statistic) 0.000054
189
ADF Test Statistic -0.892820 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(BR)
Method: Least Squares
Date: 11/22/07 Time: 10:29
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
BR(-1) -0.035740 0.040031 -0.892820 0.3788
D(BR(-1)) 0.242670 0.178248 1.361420 0.1832
C 0.672189 0.522472 1.286555 0.2078
R-squared 0.074826 Mean dependent var 0.312941
Adjusted R-squared 0.015138 S.D. dependent var 1.332462
S.E. of regression 1.322338 Akaike info criterion 3.480777
Sum squared resid 54.20592 Schwarz criterion 3.615456
Log likelihood -56.17321 F-statistic 1.253612
Durbin-Watson stat 1.965278 Prob(F-statistic) 0.299544
ADF Test Statistic -3.048970 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(BR,2)
Method: Least Squares
Date: 11/22/07 Time: 10:34
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(BR(-1)) -0.700858 0.229867 -3.048970 0.0048
D(BR(-1),2) -0.092177 0.192227 -0.479521 0.6350
C 0.240172 0.244300 0.983102 0.3334
R-squared 0.374401 Mean dependent var 0.062061
Adjusted R-squared 0.332694 S.D. dependent var 1.659507
S.E. of regression 1.355631 Akaike info criterion 3.532919
Sum squared resid 55.13206 Schwarz criterion 3.668965
Log likelihood -55.29316 F-statistic 8.977007
Durbin-Watson stat 1.944748 Prob(F-statistic) 0.000880
190
ADF Test Statistic -2.379063 1% Critical Value* -4.2505
5% Critical Value -3.5468
10% Critical Value -3.2056
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(RR)
Method: Least Squares
Date: 11/22/07 Time: 10:37
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
RR(-1) -0.273408 0.114923 -2.379063 0.0239
D(RR(-1)) 0.066658 0.174315 0.382402 0.7049
C 3.074154 1.881565 1.633828 0.1127
@TREND(1996:1) -0.063132 0.051078 -1.235996 0.2261
R-squared 0.214597 Mean dependent var -0.408824
Adjusted R-squared 0.136057 S.D. dependent var 1.560569
S.E. of regression 1.450526 Akaike info criterion 3.691860
Sum squared resid 63.12075 Schwarz criterion 3.871432
Log likelihood -58.76162 F-statistic 2.732319
Durbin-Watson stat 2.080302 Prob(F-statistic) 0.061173
ADF Test Statistic -4.381474 1% Critical Value* -4.2605
5% Critical Value -3.5514
10% Critical Value -3.2081
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(RR,2)
Method: Least Squares
Date: 11/22/07 Time: 10:37
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(RR(-1)) -1.165900 0.266098 -4.381474 0.0001
D(RR(-1),2) 0.084450 0.182043 0.463900 0.6462
C -1.473686 0.688633 -2.140017 0.0409
@TREND(1996:1) 0.051716 0.030770 1.680725 0.1036
R-squared 0.545699 Mean dependent var 0.000000
Adjusted R-squared 0.498703 S.D. dependent var 2.241791
S.E. of regression 1.587241 Akaike info criterion 3.875084
Sum squared resid 73.06064 Schwarz criterion 4.056478
Log likelihood -59.93888 F-statistic 11.61146
Durbin-Watson stat 2.048318 Prob(F-statistic) 0.000036
191
ADF Test Statistic -1.143821 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LATL)
Method: Least Squares
Date: 11/22/07 Time: 10:38
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
LATL(-1) -0.075906 0.066362 -1.143821 0.2615
D(LATL(-1)) -0.141778 0.177237 -0.799931 0.4298
C 0.065044 0.043780 1.485704 0.1475
R-squared 0.070422 Mean dependent var 0.014265
Adjusted R-squared 0.010449 S.D. dependent var 0.071171
S.E. of regression 0.070798 Akaike info criterion -2.373861
Sum squared resid 0.155385 Schwarz criterion -2.239182
Log likelihood 43.35564 F-statistic 1.174228
Durbin-Watson stat 1.970289 Prob(F-statistic) 0.322428
ADF Test Statistic -3.883735 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LATL,2)
Method: Least Squares
Date: 11/22/07 Time: 10:39
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(LATL(-1)) -1.088995 0.280399 -3.883735 0.0005
D(LATL(-1),2) -0.076231 0.183623 -0.415150 0.6810
C 0.015907 0.013444 1.183215 0.2460
R-squared 0.587835 Mean dependent var -0.001303
Adjusted R-squared 0.560358 S.D. dependent var 0.110477
S.E. of regression 0.073253 Akaike info criterion -2.303300
Sum squared resid 0.160978 Schwarz criterion -2.167254
Log likelihood 41.00446 F-statistic 21.39322
Durbin-Watson stat 1.968881 Prob(F-statistic) 0.000002
192
ADF Test Statistic -1.477786 1% Critical Value* -3.6353
5% Critical Value -2.9499
10% Critical Value -2.6133
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DIR)
Method: Least Squares
Date: 11/23/07 Time: 22:49
Sample(adjusted): 1996:3 2004:4
Included observations: 34 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
DIR(-1) -0.119905 0.081138 -1.477786 0.1496
D(DIR(-1)) -0.066243 0.175718 -0.376985 0.7088
C 0.097050 0.065049 1.491947 0.1458
R-squared 0.078458 Mean dependent var 0.022059
Adjusted R-squared 0.019003 S.D. dependent var 0.250814
S.E. of regression 0.248420 Akaike info criterion 0.136702
Sum squared resid 1.913081 Schwarz criterion 0.271381
Log likelihood 0.676063 F-statistic 1.319631
Durbin-Watson stat 2.003373 Prob(F-statistic) 0.281829
ADF Test Statistic -4.230400 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DIR,2)
Method: Least Squares
Date: 11/23/07 Time: 22:46
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(DIR(-1)) -1.153589 0.272690 -4.230400 0.0002
D(DIR(-1),2) 0.033105 0.182474 0.181423 0.8573
C 0.026218 0.045870 0.571571 0.5719
R-squared 0.558795 Mean dependent var 0.000000
Adjusted R-squared 0.529382 S.D. dependent var 0.380583
S.E. of regression 0.261086 Akaike info criterion 0.238577
Sum squared resid 2.044983 Schwarz criterion 0.374623
Log likelihood -0.936522 F-statistic 18.99784
Durbin-Watson stat 2.009707 Prob(F-statistic) 0.000005
193
Augmented Dickey-Fuller test statistic 7.192745 1.0000
Test critical values: 1% level -3.581152
5% level -2.926622
10% level -2.601424
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(GE)
Method: Least Squares
Date: 11/28/07 Time: 21:31
Sample (adjusted): 1995Q3 2006Q4
Included observations: 46 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
GE(-1) 0.244489 0.033991 7.192745 0.0000
D(GE(-1)) -0.882124 0.283792 -3.108343 0.0033
C -4779.409 1035.892 -4.613811 0.0000
R-squared 0.617292 Mean dependent var 2729.398
Adjusted R-squared 0.599491 S.D. dependent var 5327.443
S.E. of regression 3371.512 Akaike info criterion 19.14710
Sum squared resid 4.89E+08 Schwarz criterion 19.26636
Log likelihood -437.3834 F-statistic 34.67857
Durbin-Watson stat 1.614532 Prob(F-statistic) 0.000000
194
Null Hypothesis: DENTAGE has a unit root
Exogenous: Constant, Linear Trend
Lag Length: 3 (Automatic based on SIC, MAXLAG=3)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic 10.82491 1.0000
Test critical values: 1% level -4.186481
5% level -3.518090
10% level -3.189732
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DENTAGE)
Method: Least Squares
Date: 11/28/07 Time: 21:39
Sample (adjusted): 1996Q2 2006Q4
Included observations: 43 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DENTAGE(-1) 1.815059 0.167674 10.82491 0.0000
D(DENTAGE(-1)) -1.984408 0.121602 -16.31882 0.0000
D(DENTAGE(-2)) -1.901942 0.186021 -10.22434 0.0000
D(DENTAGE(-3)) -3.608940 0.201201 -17.93700 0.0000
C -225.4312 519.3777 -0.434041 0.6668
@TREND(1995Q1) -59.88258 25.92988 -2.309404 0.0266
R-squared 0.942849 Mean dependent var 752.2587
Adjusted R-squared 0.935126 S.D. dependent var 5119.981
S.E. of regression 1304.082 Akaike info criterion 17.31317
Sum squared resid 62923350 Schwarz criterion 17.55892
Log likelihood -366.2333 F-statistic 122.0809
Durbin-Watson stat 1.877173 Prob(F-statistic) 0.000000
195
ADF Test Statistic 3.809474 1% Critical Value* -3.5778
5% Critical Value -2.9256
10% Critical Value -2.6005
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(M1)
Method: Least Squares
Date: 11/23/07 Time: 21:18
Sample(adjusted): 1995:3 2006:4
Included observations: 46 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
M1(-1) 0.066136 0.017361 3.809474 0.0004
D(M1(-1)) -0.295409 0.154361 -1.913759 0.0623
C 499.5466 1883.785 0.265182 0.7921
R-squared 0.252335 Mean dependent var 5731.553
Adjusted R-squared 0.217560 S.D. dependent var 8179.191
S.E. of regression 7234.958 Akaike info criterion 20.67423
Sum squared resid 2.25E+09 Schwarz criterion 20.79349
Log likelihood -472.5073 F-statistic 7.256180
Durbin-Watson stat 2.172867 Prob(F-statistic) 0.001926
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(M1,2)
Method: Least Squares
Date: 11/23/07 Time: 21:20
Sample(adjusted): 1995:4 2006:4
Included observations: 45 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(M1(-1)) -0.986481 0.230274 -4.283943 0.0001
D(M1(-1),2) -0.024416 0.160634 -0.151999 0.8799
C 5779.101 1749.599 3.303100 0.0020
R-squared 0.498475 Mean dependent var 351.0016
Adjusted R-squared 0.474592 S.D. dependent var 11625.62
S.E. of regression 8426.828 Akaike info criterion 20.98057
Sum squared resid 2.98E+09 Schwarz criterion 21.10101
Log likelihood -469.0628 F-statistic 20.87226
Durbin-Watson stat 1.970975 Prob(F-statistic) 0.000001
196
ADF Test Statistic 4.946573 1% Critical Value* -3.5778
5% Critical Value -2.9256
10% Critical Value -2.6005
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(M2)
Method: Least Squares
Date: 11/23/07 Time: 22:01
Sample(adjusted): 1995:3 2006:4
Included observations: 46 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
M2(-1) 0.060062 0.012142 4.946573 0.0000
D(M2(-1)) 0.076471 0.162569 0.470389 0.6405
C 265.3183 2256.037 0.117604 0.9069
R-squared 0.709708 Mean dependent var 18341.73
Adjusted R-squared 0.696206 S.D. dependent var 17202.37
S.E. of regression 9481.524 Akaike info criterion 21.21507
Sum squared resid 3.87E+09 Schwarz criterion 21.33433
Log likelihood -484.9466 F-statistic 52.56327
Durbin-Watson stat 1.964084 Prob(F-statistic) 0.000000
ADF Test Statistic -5.270747 1% Critical Value* -3.6422
5% Critical Value -2.9527
10% Critical Value -2.6148
*MacKinnon critical values for rejection of hypothesis of a unit root.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DMB,2)
Method: Least Squares
Date: 11/23/07 Time: 21:59
Sample(adjusted): 1996:4 2004:4
Included observations: 33 after adjusting endpoints
Variable Coefficient Std. Error t-Statistic Prob.
D(DMB(-1)) -1.369534 0.259837 -5.270747 0.0000
D(DMB(-1),2) 0.344306 0.193646 1.778019 0.0855
C 3.854014 1.113959 3.459744 0.0016
R-squared 0.536896 Mean dependent var 0.393424
Adjusted R-squared 0.506023 S.D. dependent var 7.276339
S.E. of regression 5.114066 Akaike info criterion 6.188375
Sum squared resid 784.6102 Schwarz criterion 6.324421
Log likelihood -99.10818 F-statistic 17.39017
Durbin-Watson stat 1.997137 Prob(F-statistic) 0.000010
197
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DGDP)
Method: Least Squares
Date: 11/27/07 Time: 02:00
Sample (adjusted): 1995Q2 2006Q4
Included observations: 47 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DGDP(-1) -1.142371 0.145739 -7.838450 0.0000
C 123.3626 16.72552 7.375713 0.0000
@TREND(1995Q1) 2.726689 0.380039 7.174752 0.0000
R-squared 0.584849 Mean dependent var 2.063404
Adjusted R-squared 0.565978 S.D. dependent var 26.57145
S.E. of regression 17.50536 Akaike info criterion 8.624592
Sum squared resid 13483.25 Schwarz criterion 8.742687
Log likelihood -199.6779 F-statistic 30.99275
Durbin-Watson stat 2.029273 Prob(F-statistic) 0.000000
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DGDP,2)
Method: Least Squares
Date: 11/27/07 Time: 02:07
Sample (adjusted): 1995Q4 2006Q4
Included observations: 45 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(DGDP(-1)) -2.224218 0.243549 -9.132543 0.0000
D(DGDP(-1),2) 0.411328 0.137163 2.998817 0.0045
C 5.635364 3.071956 1.834455 0.0737
R-squared 0.827415 Mean dependent var 0.336667
Adjusted R-squared 0.819197 S.D. dependent var 47.76966
S.E. of regression 20.31213 Akaike info criterion 8.924654
Sum squared resid 17328.47 Schwarz criterion 9.045098
Log likelihood -197.8047 F-statistic 100.6791
Durbin-Watson stat 2.288699 Prob(F-statistic) 0.000000
198
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(P)
Method: Least Squares
Date: 11/29/07 Time: 02:08
Sample (adjusted): 1995Q2 2006Q4
Included observations: 47 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
P(-1) 0.011648 0.002144 5.433090 0.0000
R-squared 0.037223 Mean dependent var 1.517473
Adjusted R-squared 0.037223 S.D. dependent var 2.013046
S.E. of regression 1.975225 Akaike info criterion 4.220289
Sum squared resid 179.4697 Schwarz criterion 4.259654
Log likelihood -98.17679 Durbin-Watson stat 1.562802
Dependent Variable: D(LNP)
Method: Least Squares
Date: 11/29/07 Time: 02:12
Sample (adjusted): 1995Q2 2006Q4
Included observations: 47 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
LNP(-1) 0.002262 0.000449 5.039169 0.0000
R-squared 0.002688 Mean dependent var 0.011026
Adjusted R-squared 0.002688 S.D. dependent var 0.015057
S.E. of regression 0.015037 Akaike info criterion -5.535546
Sum squared resid 0.010401 Schwarz criterion -5.496181
Log likelihood 131.0853 Durbin-Watson stat 1.611529
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LNP,2)
Method: Least Squares
Date: 11/29/07 Time: 02:14
Sample (adjusted): 1995Q3 2006Q4
Included observations: 46 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(LNP(-1)) -0.557097 0.128109 -4.348620 0.0001
R-squared 0.295484 Mean dependent var -0.000458
Adjusted R-squared 0.295484 S.D. dependent var 0.019271
S.E. of regression 0.016175 Akaike info criterion -5.389157
Sum squared resid 0.011774 Schwarz criterion -5.349404
Log likelihood 124.9506 Durbin-Watson stat 2.028417
199
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DGDP)
Method: Least Squares
Date: 11/29/07 Time: 02:17
Sample (adjusted): 1995Q3 2006Q4
Included observations: 46 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DGDP(-1) 0.027026 0.006057 4.461622 0.0001
D(DGDP(-1)) -0.632124 0.118746 -5.323308 0.0000
R-squared 0.390704 Mean dependent var 2.618998
Adjusted R-squared 0.376857 S.D. dependent var 8.087951
S.E. of regression 6.384583 Akaike info criterion 6.588154
Sum squared resid 1793.568 Schwarz criterion 6.667660
Log likelihood -149.5275 Durbin-Watson stat 1.944581
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LNDGDP)
Method: Least Squares
Date: 11/29/07 Time: 02:21
Sample (adjusted): 1995Q3 2006Q4
Included observations: 46 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
LNDGDP(-1) 0.005043 0.001210 4.168930 0.0001
D(LNDGDP(-1)) -0.627392 0.115145 -5.448696 0.0000
R-squared 0.401890 Mean dependent var 0.015289
Adjusted R-squared 0.388297 S.D. dependent var 0.050613
S.E. of regression 0.039585 Akaike info criterion -3.578238
Sum squared resid 0.068946 Schwarz criterion -3.498732
Log likelihood 84.29947 Durbin-Watson stat 1.894240
200
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(LNDGDP,2)
Method: Least Squares
Date: 11/29/07 Time: 02:22
Sample (adjusted): 1995Q3 2006Q4
Included observations: 46 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(LNDGDP(-1)) -1.624554 0.115005 -14.12592 0.0000
C 0.025539 0.006137 4.161614 0.0001
R-squared 0.819333 Mean dependent var -0.001123
Adjusted R-squared 0.815227 S.D. dependent var 0.092135
S.E. of regression 0.039604 Akaike info criterion -3.577245
Sum squared resid 0.069015 Schwarz criterion -3.497739
Log likelihood 84.27663 F-statistic 199.5415
Durbin-Watson stat 1.888487 Prob(F-statistic) 0.000000
201
Null Hypothesis: D1 has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -9.061295 0.0000
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(D1)
Method: Least Squares
Date: 11/30/07 Time: 22:53
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D1(-1) -0.779980 0.086078 -9.061295 0.0000
C 0.008772 0.001713 5.120363 0.0000
R-squared 0.390787 Mean dependent var 9.78E-05
Adjusted R-squared 0.386027 S.D. dependent var 0.020673
S.E. of regression 0.016199 Akaike info criterion -5.392519
Sum squared resid 0.033586 Schwarz criterion -5.348404
Log likelihood 352.5138 F-statistic 82.10706
Durbin-Watson stat 2.009412 Prob(F-statistic) 0.000000
Ghi chó: D1 =
DMB
NFA∆
202
Null Hypothesis: D(D1) has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -12.71662 0.0000
Test critical values: 1% level -3.482035
5% level -2.884109
10% level -2.578884
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(D1,2)
Method: Least Squares
Date: 11/30/07 Time: 22:56
Sample (adjusted): 1995M05 2005M12
Included observations: 128 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(D1(-1)) -1.852058 0.145641 -12.71662 0.0000
D(D1(-1),2) 0.275942 0.084692 3.258182 0.0014
C 3.50E-06 0.001556 0.002249 0.9982
R-squared 0.749255 Mean dependent var 0.000180
Adjusted R-squared 0.745244 S.D. dependent var 0.034867
S.E. of regression 0.017599 Akaike info criterion -5.218837
Sum squared resid 0.038714 Schwarz criterion -5.151992
Log likelihood 337.0055 F-statistic 186.7576
Durbin-Watson stat 2.189221 Prob(F-statistic) 0.000000
Ghi chó: D(D1) =
DMB
NFA∆
- )1(−
∆
DMB
NFA
203
Null Hypothesis: D2 has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -16.95536 0.0000
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(D2)
Method: Least Squares
Date: 11/30/07 Time: 22:58
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D2(-1) -1.383946 0.081623 -16.95536 0.0000
C 0.015174 0.012661 1.198434 0.2330
R-squared 0.691926 Mean dependent var 0.000555
Adjusted R-squared 0.689519 S.D. dependent var 0.258479
S.E. of regression 0.144027 Akaike info criterion -1.022373
Sum squared resid 2.655188 Schwarz criterion -0.978257
Log likelihood 68.45421 F-statistic 287.4844
Durbin-Watson stat 2.099705 Prob(F-statistic) 0.000000
Ghi chó: D2 =
DMB
NDA∆
204
Null Hypothesis: D(D2) has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -16.62772 0.0000
Test critical values: 1% level -3.482035
5% level -2.884109
10% level -2.578884
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(D2,2)
Method: Least Squares
Date: 02/14/08 Time: 22:59
Sample (adjusted): 1995M05 2005M12
Included observations: 128 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(D2(-1)) -2.396979 0.144156 -16.62772 0.0000
D(D2(-1),2) 0.456072 0.079323 5.749541 0.0000
C -3.77E-05 0.015673 -0.002407 0.9981
R-squared 0.860591 Mean dependent var 0.001853
Adjusted R-squared 0.858361 S.D. dependent var 0.471158
S.E. of regression 0.177320 Akaike info criterion -0.598560
Sum squared resid 3.930311 Schwarz criterion -0.531715
Log likelihood 41.30782 F-statistic 385.8215
Durbin-Watson stat 2.299690 Prob(F-statistic) 0.000000
Ghi chó: D(D2) =
DMB
NDA∆
- )1(−
∆
DMB
NDA
205
Null Hypothesis: D3 has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -13.64040 0.0000
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(D3)
Method: Least Squares
Date: 11/30/07 Time: 23:01
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D3(-1) -1.154739 0.084656 -13.64040 0.0000
C 0.003604 0.001749 2.060555 0.0414
R-squared 0.592435 Mean dependent var -0.000400
Adjusted R-squared 0.589251 S.D. dependent var 0.030678
S.E. of regression 0.019662 Akaike info criterion -5.005020
Sum squared resid 0.049483 Schwarz criterion -4.960904
Log likelihood 327.3263 F-statistic 186.0605
Durbin-Watson stat 2.028342 Prob(F-statistic) 0.000000
Ghi chó: D3 =
DMB
RR∆
206
Null Hypothesis: D(D3) has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -14.09772 0.0000
Test critical values: 1% level -3.482035
5% level -2.884109
10% level -2.578884
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(D3,2)
Method: Least Squares
Date: 11/30/07 Time: 23:02
Sample (adjusted): 1995M05 2005M12
Included observations: 128 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(D3(-1)) -2.104380 0.149271 -14.09772 0.0000
D(D3(-1),2) 0.322347 0.083437 3.863370 0.0002
C -0.000252 0.002082 -0.121174 0.9037
R-squared 0.817449 Mean dependent var 2.74E-05
Adjusted R-squared 0.814528 S.D. dependent var 0.054674
S.E. of regression 0.023546 Akaike info criterion -4.636544
Sum squared resid 0.069303 Schwarz criterion -4.569700
Log likelihood 299.7388 F-statistic 279.8702
Durbin-Watson stat 2.228705 Prob(F-statistic) 0.000000
Ghi chó: D(D3) =
DMB
RR∆
- )1(−
∆
DMB
RR
207
Null Hypothesis: DQP has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -7.059484 0.0000
Test critical values: 1% level -3.483751
5% level -2.884856
10% level -2.579282
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DQP)
Method: Least Squares
Date: 11/30/07 Time: 23:09
Sample (adjusted): 1995M06 2005M09
Included observations: 124 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DQP(-1) -0.611634 0.086640 -7.059484 0.0000
D(DQP(-1)) 0.253971 0.087819 2.891984 0.0045
C 0.003967 0.002434 1.629560 0.1058
R-squared 0.293625 Mean dependent var 0.000201
Adjusted R-squared 0.281950 S.D. dependent var 0.031211
S.E. of regression 0.026447 Akaike info criterion -4.403416
Sum squared resid 0.084636 Schwarz criterion -4.335184
Log likelihood 276.0118 F-statistic 25.14858
Durbin-Watson stat 2.172706 Prob(F-statistic) 0.000000
Ghi chó: DQP = ∆lnQp
208
Null Hypothesis: D(DQP) has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -11.63619 0.0000
Test critical values: 1% level -3.483751
5% level -2.884856
10% level -2.579282
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DQP,2)
Method: Least Squares
Date: 11/30/07 Time: 23:10
Sample (adjusted): 1995M06 2005M09
Included observations: 124 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(DQP(-1)) -1.051858 0.090395 -11.63619 0.0000
C 0.000201 0.002810 0.071376 0.9432
R-squared 0.526031 Mean dependent var 0.000204
Adjusted R-squared 0.522146 S.D. dependent var 0.045274
S.E. of regression 0.031296 Akaike info criterion -4.074630
Sum squared resid 0.119495 Schwarz criterion -4.029141
Log likelihood 254.6271 F-statistic 135.4009
Durbin-Watson stat 1.969240 Prob(F-statistic) 0.000000
Ghi chó: D(DQP) = ∆lnQp - ∆lnQp(-1)
209
Null Hypothesis: DP has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -9.117925 0.0000
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DP)
Method: Least Squares
Date: 11/30/07 Time: 23:13
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DP(-1) -0.721368 0.079115 -9.117925 0.0000
C 0.002656 0.000733 3.625564 0.0004
R-squared 0.393757 Mean dependent var -0.000226
Adjusted R-squared 0.389021 S.D. dependent var 0.009642
S.E. of regression 0.007537 Akaike info criterion -6.922759
Sum squared resid 0.007271 Schwarz criterion -6.878643
Log likelihood 451.9794 F-statistic 83.13656
Durbin-Watson stat 1.862472 Prob(F-statistic) 0.000000
Ghi chó: DP = ∆lnP
210
Null Hypothesis: D(DP) has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -13.00915 0.0000
Test critical values: 1% level -3.482035
5% level -2.884109
10% level -2.578884
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DP,2)
Method: Least Squares
Date: 11/30/07 Time: 23:14
Sample (adjusted): 1995M05 2005M12
Included observations: 128 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(DP(-1)) -1.714230 0.131771 -13.00915 0.0000
D(DP(-1),2) 0.308190 0.079665 3.868553 0.0002
C -2.72E-05 0.000737 -0.036941 0.9706
R-squared 0.691743 Mean dependent var 3.11E-05
Adjusted R-squared 0.686811 S.D. dependent var 0.014890
S.E. of regression 0.008333 Akaike info criterion -6.714010
Sum squared resid 0.008680 Schwarz criterion -6.647165
Log likelihood 432.6966 F-statistic 140.2527
Durbin-Watson stat 2.127470 Prob(F-statistic) 0.000000
Ghi chó: D(DP) = ∆lnP - ∆lnP(-1)
211
Null Hypothesis: DM has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -15.72114 0.0000
Test critical values: 1% level -3.481623
5% level -2.883930
10% level -2.578788
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DM)
Method: Least Squares
Date: 11/30/07 Time: 23:17
Sample (adjusted): 1995M04 2005M12
Included observations: 129 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DM(-1) -2.297599 0.146147 -15.72114 0.0000
D(DM(-1)) 0.417455 0.081443 5.125726 0.0000
C -0.012169 0.023933 -0.508466 0.6120
R-squared 0.842705 Mean dependent var -0.001780
Adjusted R-squared 0.840208 S.D. dependent var 0.679650
S.E. of regression 0.271683 Akaike info criterion 0.254619
Sum squared resid 9.300266 Schwarz criterion 0.321127
Log likelihood -13.42295 F-statistic 337.5212
Durbin-Watson stat 2.245614 Prob(F-statistic) 0.000000
Ghi chó: DM = ∆lnm
212
Null Hypothesis: D(DM) has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -19.63407 0.0000
Test critical values: 1% level -3.482035
5% level -2.884109
10% level -2.578884
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DM,2)
Method: Least Squares
Date: 11/30/07 Time: 23:17
Sample (adjusted): 1995M05 2005M12
Included observations: 128 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(DM(-1)) -2.715056 0.138283 -19.63407 0.0000
D(DM(-1),2) 0.566786 0.074353 7.622962 0.0000
C 0.001374 0.034279 0.040090 0.9681
R-squared 0.907542 Mean dependent var -0.008503
Adjusted R-squared 0.906063 S.D. dependent var 1.265306
S.E. of regression 0.387806 Akaike info criterion 0.966533
Sum squared resid 18.79915 Schwarz criterion 1.033378
Log likelihood -58.85813 F-statistic 613.4844
Durbin-Watson stat 2.537391 Prob(F-statistic) 0.000000
Ghi chó: D(DM) = ∆lnm- ∆lnm(-1)
213
Null Hypothesis: X has a unit root
Exogenous: None
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic 3.276941 0.9997
Test critical values: 1% level -2.582872
5% level -1.943304
10% level -1.615087
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(X)
Method: Least Squares
Date: 11/30/07 Time: 23:20
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
X(-1) 0.003073 0.000938 3.276941 0.0014
D(X(-1)) -0.203320 0.086778 -2.342985 0.0207
R-squared 0.034332 Mean dependent var 37.46852
Adjusted R-squared 0.026787 S.D. dependent var 146.7014
S.E. of regression 144.7232 Akaike info criterion 12.80279
Sum squared resid 2680933. Schwarz criterion 12.84690
Log likelihood -830.1812 Durbin-Watson stat 2.029361
Ghi chó: X = TYGIA
214
Null Hypothesis: D(X) has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -13.97498 0.0000
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(X,2)
Method: Least Squares
Date: 11/30/07 Time: 23:21
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(X(-1)) -1.208072 0.086445 -13.97498 0.0000
C 45.24881 13.04092 3.469757 0.0007
R-squared 0.604083 Mean dependent var 0.076215
Adjusted R-squared 0.600990 S.D. dependent var 228.0445
S.E. of regression 144.0494 Akaike info criterion 12.79345
Sum squared resid 2656029. Schwarz criterion 12.83757
Log likelihood -829.5745 F-statistic 195.3002
Durbin-Watson stat 2.033391 Prob(F-statistic) 0.000000
Ghi chó: DX = TYGIA – TYGIA(-1)
215
Null Hypothesis: DAPF has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -344.3452 0.0001
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DAPF)
Method: Least Squares
Date: 11/30/07 Time: 23:24
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
DAPF(-1) -1.000364 0.002905 -344.3452 0.0000
C 0.000674 0.001166 0.578102 0.5642
R-squared 0.998922 Mean dependent var 0.035227
Adjusted R-squared 0.998913 S.D. dependent var 0.401653
S.E. of regression 0.013241 Akaike info criterion -5.795749
Sum squared resid 0.022441 Schwarz criterion -5.751633
Log likelihood 378.7237 F-statistic 118573.6
Durbin-Watson stat 2.117251 Prob(F-statistic) 0.000000
216
Null Hypothesis: D(DAPF) has a unit root
Exogenous: Constant
Lag Length: 0 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -235.7732 0.0001
Test critical values: 1% level -3.481623
5% level -2.883930
10% level -2.578788
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(DAPF,2)
Method: Least Squares
Date: 11/30/07 Time: 23:25
Sample (adjusted): 1995M04 2005M12
Included observations: 129 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(DAPF(-1)) -0.999539 0.004239 -235.7732 0.0000
C 2.34E-05 0.001709 0.013691 0.9891
R-squared 0.997721 Mean dependent var -0.035434
Adjusted R-squared 0.997703 S.D. dependent var 0.403483
S.E. of regression 0.019339 Akaike info criterion -5.037976
Sum squared resid 0.047499 Schwarz criterion -4.993638
Log likelihood 326.9494 F-statistic 55589.01
Durbin-Watson stat 3.032300 Prob(F-statistic) 0.000000
217
Null Hypothesis: CGG has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -5.297726 0.0000
Test critical values: 1% level -3.481217
5% level -2.883753
10% level -2.578694
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(CGG)
Method: Least Squares
Date: 11/29/07 Time: 23:28
Sample (adjusted): 1995M03 2005M12
Included observations: 130 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
CGG(-1) -0.545747 0.103015 -5.297726 0.0000
D(CGG(-1)) -0.228721 0.086499 -2.644211 0.0092
C 16172.60 3567.957 4.532735 0.0000
R-squared 0.387175 Mean dependent var 295.5270
Adjusted R-squared 0.377525 S.D. dependent var 28551.03
S.E. of regression 22525.94 Akaike info criterion 22.90553
Sum squared resid 6.44E+10 Schwarz criterion 22.97170
Log likelihood -1485.859 F-statistic 40.11855
Durbin-Watson stat 2.082944 Prob(F-statistic) 0.000000
218
Null Hypothesis: D(CGG) has a unit root
Exogenous: Constant
Lag Length: 1 (Automatic based on SIC, MAXLAG=1)
t-Statistic Prob.*
Augmented Dickey-Fuller test statistic -13.74743 0.0000
Test critical values: 1% level -3.481623
5% level -2.883930
10% level -2.578788
*MacKinnon (1996) one-sided p-values.
Augmented Dickey-Fuller Test Equation
Dependent Variable: D(CGG,2)
Method: Least Squares
Date: 11/29/07 Time: 23:28
Sample (adjusted): 1995M04 2005M12
Included observations: 129 after adjustments
Variable Coefficient Std. Error t-Statistic Prob.
D(CGG(-1)) -2.002017 0.145628 -13.74743 0.0000
D(CGG(-1),2) 0.333083 0.084029 3.963900 0.0001
C 557.6965 2074.968 0.268773 0.7885
R-squared 0.778486 Mean dependent var 21.84752
Adjusted R-squared 0.774970 S.D. dependent var 49672.58
S.E. of regression 23563.35 Akaike info criterion 22.99575
Sum squared resid 7.00E+10 Schwarz criterion 23.06226
Log likelihood -1480.226 F-statistic 221.4065
Durbin-Watson stat 2.163454 Prob(F-statistic) 0.000000
Các file đính kèm theo tài liệu này:
LA_Bui.Duy.Phu_NEU.pdf
