{smcl} {com}{sf}{ul off}{txt}{.-} name: {res} {txt}log: {res}E:\E-BOOK Semester 6\Do file.smcl {txt}log type: {res}smcl {txt}opened on: {res}23 Aug 2020, 13:28:40 {com}. log close {txt}name: {res} {txt}log: {res}E:\E-BOOK Semester 6\Do file.smcl {txt}log type: {res}smcl {txt}closed on: {res}23 Aug 2020, 13:28:56 {txt}{.-} {smcl} {txt}{sf}{ul off}{smcl} {com}{sf}{ul off}{txt}{.-} name: {res} {txt}log: {res}E:\E-BOOK Semester 6\Do file.smcl {txt}log type: {res}smcl {txt}opened on: {res}23 Aug 2020, 13:29:31 {com}. clear . use "E:\E-BOOK Semester 6\Kajian Perekonomian Asia Tenggara\[DTA] Food And Agriculture Resilience The Case Of Asean And Asean+3 Economic Integration And Cooperation.dta", clear . xtset Country Tahun {res}{txt}{col 8}panel variable: {res}Country (strongly balanced) {txt}{col 9}time variable: {res}{col 25}Tahun, 2002 to 2016 {txt}{col 17}delta: {res}1 unit {com}. xtreg ln_AVFOODP OPEN ln_INTTRA ln_AGRIHA ln_AVACONS EIAGRI POPGR POLINS ln_REALGDP, fe {res} {txt}Fixed-effects (within) regression{col 49}Number of obs{col 67}={col 69}{res} 195 {txt}Group variable: {res}Country{txt}{col 49}Number of groups{col 67}={col 69}{res} 13 {txt}R-sq:{col 49}Obs per group: within = {res}0.4337{col 63}{txt}min{col 67}={col 69}{res} 15 {txt} between = {res}0.6928{col 63}{txt}avg{col 67}={col 69}{res} 15.0 {txt} overall = {res}0.6853{col 63}{txt}max{col 67}={col 69}{res} 15 {txt}{col 49}F({res}8{txt},{res}174{txt}){col 67}={col 70}{res} 16.66 {txt}corr(u_i, Xb){col 16}= {res}-0.9437{txt}{col 49}Prob > F{col 67}={col 73}{res}0.0000 {txt}{hline 13}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} {col 1} ln_AVFOODP{col 14}{c |} Coef.{col 26} Std. Err.{col 38} t{col 46} P>|t|{col 54} [95% Con{col 67}f. Interval] {hline 13}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} {space 8}OPEN {c |}{col 14}{res}{space 2} .0017833{col 26}{space 2} .0005745{col 37}{space 1} 3.10{col 46}{space 3}0.002{col 54}{space 4} .0006494{col 67}{space 3} .0029171 {txt}{space 3}ln_INTTRA {c |}{col 14}{res}{space 2} .1555955{col 26}{space 2} .0331363{col 37}{space 1} 4.70{col 46}{space 3}0.000{col 54}{space 4} .0901947{col 67}{space 3} .2209962 {txt}{space 3}ln_AGRIHA {c |}{col 14}{res}{space 2} .3764167{col 26}{space 2} .1372008{col 37}{space 1} 2.74{col 46}{space 3}0.007{col 54}{space 4} .1056246{col 67}{space 3} .6472088 {txt}{space 2}ln_AVACONS {c |}{col 14}{res}{space 2} .791292{col 26}{space 2} .1755509{col 37}{space 1} 4.51{col 46}{space 3}0.000{col 54}{space 4} .4448087{col 67}{space 3} 1.137775 {txt}{space 6}EIAGRI {c |}{col 14}{res}{space 2} .0037686{col 26}{space 2} .0040872{col 37}{space 1} 0.92{col 46}{space 3}0.358{col 54}{space 4}-.0042983{col 67}{space 3} .0118355 {txt}{space 7}POPGR {c |}{col 14}{res}{space 2}-.0495738{col 26}{space 2} .0214082{col 37}{space 1} -2.32{col 46}{space 3}0.022{col 54}{space 4} -.091827{col 67}{space 3}-.0073205 {txt}{space 6}POLINS {c |}{col 14}{res}{space 2} .0347817{col 26}{space 2} .0318569{col 37}{space 1} 1.09{col 46}{space 3}0.276{col 54}{space 4}-.0280941{col 67}{space 3} .0976574 {txt}{space 2}ln_REALGDP {c |}{col 14}{res}{space 2}-.4663538{col 26}{space 2} .1032905{col 37}{space 1} -4.51{col 46}{space 3}0.000{col 54}{space 4}-.6702173{col 67}{space 3}-.2624903 {txt}{space 7}_cons {c |}{col 14}{res}{space 2}-4.660479{col 26}{space 2} 2.061781{col 37}{space 1} -2.26{col 46}{space 3}0.025{col 54}{space 4}-8.729799{col 67}{space 3}-.5911585 {txt}{hline 13}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} sigma_u {c |} {res} 1.9267642 {txt}sigma_e {c |} {res} .11505036 {txt}rho {c |} {res} .99644718{txt} (fraction of variance due to u_i) {hline 13}{c BT}{hline 64} F test that all u_i=0: F({res}12{txt}, {res}174{txt}) = {res}52.39{col 62}{txt}Prob > F = {res}0.0000 {com}. est store fe1 . xtreg ln_AVFOODP OPEN ln_INTTRA ln_AGRIHA ln_AVACONS EIAGRI POPGR POLINS ln_REALGDP, re {res} {txt}Random-effects GLS regression Number of obs = {res} 195 {txt}Group variable: {res}Country {txt}Number of groups = {res} 13 {txt}R-sq: Obs per group: within = {res}0.3469 {txt}min = {res} 15 {txt} between = {res}0.8683 {txt}avg = {res} 15.0 {txt} overall = {res}0.8595 {txt}max = {res} 15 {txt}Wald chi2({res}8{txt}) = {res} 250.95 {txt}corr(u_i, X) = {res}0{txt} (assumed) Prob > chi2 = {res}0.0000 {txt}{hline 13}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} {col 1} ln_AVFOODP{col 14}{c |} Coef.{col 26} Std. Err.{col 38} z{col 46} P>|z|{col 54} [95% Con{col 67}f. Interval] {hline 13}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} {space 8}OPEN {c |}{col 14}{res}{space 2} .0004329{col 26}{space 2} .0005691{col 37}{space 1} 0.76{col 46}{space 3}0.447{col 54}{space 4}-.0006826{col 67}{space 3} .0015484 {txt}{space 3}ln_INTTRA {c |}{col 14}{res}{space 2} .1939638{col 26}{space 2} .0316643{col 37}{space 1} 6.13{col 46}{space 3}0.000{col 54}{space 4} .1319029{col 67}{space 3} .2560248 {txt}{space 3}ln_AGRIHA {c |}{col 14}{res}{space 2} .1655964{col 26}{space 2} .0914918{col 37}{space 1} 1.81{col 46}{space 3}0.070{col 54}{space 4}-.0137242{col 67}{space 3} .3449171 {txt}{space 2}ln_AVACONS {c |}{col 14}{res}{space 2} .4464438{col 26}{space 2} .1553194{col 37}{space 1} 2.87{col 46}{space 3}0.004{col 54}{space 4} .1420234{col 67}{space 3} .7508642 {txt}{space 6}EIAGRI {c |}{col 14}{res}{space 2}-.0113208{col 26}{space 2} .0035702{col 37}{space 1} -3.17{col 46}{space 3}0.002{col 54}{space 4}-.0183182{col 67}{space 3}-.0043233 {txt}{space 7}POPGR {c |}{col 14}{res}{space 2}-.0500212{col 26}{space 2} .0227977{col 37}{space 1} -2.19{col 46}{space 3}0.028{col 54}{space 4}-.0947039{col 67}{space 3}-.0053385 {txt}{space 6}POLINS {c |}{col 14}{res}{space 2} .0501513{col 26}{space 2} .0340622{col 37}{space 1} 1.47{col 46}{space 3}0.141{col 54}{space 4}-.0166094{col 67}{space 3} .116912 {txt}{space 2}ln_REALGDP {c |}{col 14}{res}{space 2}-.6058583{col 26}{space 2} .0877228{col 37}{space 1} -6.91{col 46}{space 3}0.000{col 54}{space 4}-.7777918{col 67}{space 3}-.4339248 {txt}{space 7}_cons {c |}{col 14}{res}{space 2} 5.298791{col 26}{space 2} .9783148{col 37}{space 1} 5.42{col 46}{space 3}0.000{col 54}{space 4} 3.381329{col 67}{space 3} 7.216253 {txt}{hline 13}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} sigma_u {c |} {res} .25499364 {txt}sigma_e {c |} {res} .11505036 {txt}rho {c |} {res} .83086039{txt} (fraction of variance due to u_i) {hline 13}{c BT}{hline 64} {com}. est store re1 . hausman fe1 re1 {txt}{col 18}{hline 4} Coefficients {hline 4} {col 14}{c |}{col 21}(b){col 34}(B){col 49}(b-B){col 59}sqrt(diag(V_b-V_B)) {col 14}{c |}{col 17} fe1 {col 30} re1 {col 46}Difference{col 66}S.E. {hline 13}{c +}{hline 64} {space 8}OPEN {c |}{res}{col 18} .0017833{col 31} .0004329{col 47} .0013504{col 63} .0000782 {txt}{space 3}ln_INTTRA {c |}{res}{col 18} .1555955{col 31} .1939638{col 47}-.0383684{col 63} .0097664 {txt}{space 3}ln_AGRIHA {c |}{res}{col 18} .3764167{col 31} .1655964{col 47} .2108203{col 63} .1022415 {txt}{space 2}ln_AVACONS {c |}{res}{col 18} .791292{col 31} .4464438{col 47} .3448482{col 63} .0818169 {txt}{space 6}EIAGRI {c |}{res}{col 18} .0037686{col 31}-.0113208{col 47} .0150893{col 63} .0019898 {txt}{space 7}POPGR {c |}{res}{col 18}-.0495738{col 31}-.0500212{col 47} .0004475{col 63} . {txt}{space 6}POLINS {c |}{res}{col 18} .0347817{col 31} .0501513{col 47}-.0153696{col 63} . {txt}{space 2}ln_REALGDP {c |}{res}{col 18}-.4663538{col 31}-.6058583{col 47} .1395045{col 63} .0545311 {txt}{hline 13}{c BT}{hline 64} {ralign 78:b = consistent under Ho and Ha; obtained from xtreg} {ralign 78:B = inconsistent under Ha, efficient under Ho; obtained from xtreg} Test: Ho: difference in coefficients not systematic {ralign 25:chi2({res:8})} = (b-B)'[(V_b-V_B)^(-1)](b-B) {col 27}= {res} 102.37 {txt}{col 17}Prob>chi2 = {res} 0.0000 {txt}{col 17}(V_b-V_B is not positive definite) {com}. hausman fe1 re1, sigma {txt}{col 18}{hline 4} Coefficients {hline 4} {col 14}{c |}{col 21}(b){col 34}(B){col 49}(b-B){col 59}sqrt(diag(V_b-V_B)) {col 14}{c |}{col 17} fe1 {col 30} re1 {col 46}Difference{col 66}S.E. {hline 13}{c +}{hline 64} {space 8}OPEN {c |}{res}{col 18} .0017833{col 31} .0004329{col 47} .0013504{col 63} .0002969 {txt}{space 3}ln_INTTRA {c |}{res}{col 18} .1555955{col 31} .1939638{col 47}-.0383684{col 63} .0191913 {txt}{space 3}ln_AGRIHA {c |}{res}{col 18} .3764167{col 31} .1655964{col 47} .2108203{col 63} .1230133 {txt}{space 2}ln_AVACONS {c |}{res}{col 18} .791292{col 31} .4464438{col 47} .3448482{col 63} .1198092 {txt}{space 6}EIAGRI {c |}{res}{col 18} .0037686{col 31}-.0113208{col 47} .0150893{col 63} .0028481 {txt}{space 7}POPGR {c |}{res}{col 18}-.0495738{col 31}-.0500212{col 47} .0004475{col 63} .0072454 {txt}{space 6}POLINS {c |}{res}{col 18} .0347817{col 31} .0501513{col 47}-.0153696{col 63} .0103387 {txt}{space 2}ln_REALGDP {c |}{res}{col 18}-.4663538{col 31}-.6058583{col 47} .1395045{col 63} .0750036 {txt}{hline 13}{c BT}{hline 64} {ralign 78:b = consistent under Ho and Ha; obtained from xtreg} {ralign 78:B = inconsistent under Ha, efficient under Ho; obtained from xtreg} Test: Ho: difference in coefficients not systematic {ralign 25:chi2({res:8})} = (b-B)'[(V_b-V_B)^(-1)](b-B) {col 27}= {res} 43.44 {txt}{col 17}Prob>chi2 = {res} 0.0000 {com}. xtreg ln_AVFOODP OPEN ln_INTTRA ln_AGRIHA ln_AVACONS EIAGRI POPGR POLINS ln_REALGDP, fe {res} {txt}Fixed-effects (within) regression{col 49}Number of obs{col 67}={col 69}{res} 195 {txt}Group variable: {res}Country{txt}{col 49}Number of groups{col 67}={col 69}{res} 13 {txt}R-sq:{col 49}Obs per group: within = {res}0.4337{col 63}{txt}min{col 67}={col 69}{res} 15 {txt} between = {res}0.6928{col 63}{txt}avg{col 67}={col 69}{res} 15.0 {txt} overall = {res}0.6853{col 63}{txt}max{col 67}={col 69}{res} 15 {txt}{col 49}F({res}8{txt},{res}174{txt}){col 67}={col 70}{res} 16.66 {txt}corr(u_i, Xb){col 16}= {res}-0.9437{txt}{col 49}Prob > F{col 67}={col 73}{res}0.0000 {txt}{hline 13}{c TT}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} {col 1} ln_AVFOODP{col 14}{c |} Coef.{col 26} Std. Err.{col 38} t{col 46} P>|t|{col 54} [95% Con{col 67}f. Interval] {hline 13}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} {space 8}OPEN {c |}{col 14}{res}{space 2} .0017833{col 26}{space 2} .0005745{col 37}{space 1} 3.10{col 46}{space 3}0.002{col 54}{space 4} .0006494{col 67}{space 3} .0029171 {txt}{space 3}ln_INTTRA {c |}{col 14}{res}{space 2} .1555955{col 26}{space 2} .0331363{col 37}{space 1} 4.70{col 46}{space 3}0.000{col 54}{space 4} .0901947{col 67}{space 3} .2209962 {txt}{space 3}ln_AGRIHA {c |}{col 14}{res}{space 2} .3764167{col 26}{space 2} .1372008{col 37}{space 1} 2.74{col 46}{space 3}0.007{col 54}{space 4} .1056246{col 67}{space 3} .6472088 {txt}{space 2}ln_AVACONS {c |}{col 14}{res}{space 2} .791292{col 26}{space 2} .1755509{col 37}{space 1} 4.51{col 46}{space 3}0.000{col 54}{space 4} .4448087{col 67}{space 3} 1.137775 {txt}{space 6}EIAGRI {c |}{col 14}{res}{space 2} .0037686{col 26}{space 2} .0040872{col 37}{space 1} 0.92{col 46}{space 3}0.358{col 54}{space 4}-.0042983{col 67}{space 3} .0118355 {txt}{space 7}POPGR {c |}{col 14}{res}{space 2}-.0495738{col 26}{space 2} .0214082{col 37}{space 1} -2.32{col 46}{space 3}0.022{col 54}{space 4} -.091827{col 67}{space 3}-.0073205 {txt}{space 6}POLINS {c |}{col 14}{res}{space 2} .0347817{col 26}{space 2} .0318569{col 37}{space 1} 1.09{col 46}{space 3}0.276{col 54}{space 4}-.0280941{col 67}{space 3} .0976574 {txt}{space 2}ln_REALGDP {c |}{col 14}{res}{space 2}-.4663538{col 26}{space 2} .1032905{col 37}{space 1} -4.51{col 46}{space 3}0.000{col 54}{space 4}-.6702173{col 67}{space 3}-.2624903 {txt}{space 7}_cons {c |}{col 14}{res}{space 2}-4.660479{col 26}{space 2} 2.061781{col 37}{space 1} -2.26{col 46}{space 3}0.025{col 54}{space 4}-8.729799{col 67}{space 3}-.5911585 {txt}{hline 13}{c +}{hline 11}{hline 11}{hline 9}{hline 8}{hline 13}{hline 12} sigma_u {c |} {res} 1.9267642 {txt}sigma_e {c |} {res} .11505036 {txt}rho {c |} {res} .99644718{txt} (fraction of variance due to u_i) {hline 13}{c BT}{hline 64} F test that all u_i=0: F({res}12{txt}, {res}174{txt}) = {res}52.39{col 62}{txt}Prob > F = {res}0.0000 {com}. xttest3 {txt}Modified Wald test for groupwise heteroskedasticity in fixed effect regression model {res}H0: sigma(i)^2 = sigma^2 for all i {txt}chi2 (13) = {res} 5.13 {txt}Prob>chi2 = {res} 0.9722 {com}. save "E:\E-BOOK Semester 6\Kajian Perekonomian Asia Tenggara\[DTA] Food And Agriculture Resilience The Case Of Asean And Asean+3 Economic Integration And Cooperation.dta", replace {txt}file E:\E-BOOK Semester 6\Kajian Perekonomian Asia Tenggara\[DTA] Food And Agriculture Resilience The Case Of Asean And Asean+3 Economic Integration And Cooperation.dta saved {com}. log close {txt}name: {res} {txt}log: {res}E:\E-BOOK Semester 6\Do file.smcl {txt}log type: {res}smcl {txt}closed on: {res}23 Aug 2020, 13:30:12 {txt}{.-} {smcl} {txt}{sf}{ul off}