### Table VI. Parameter Estimates and Percentages of Total Variances (diagonal) and Covariances (off diagonal) for Boys and Girls Based on the Bivariate Psychometric Model with Mother and Father Ratings for Rule-Breaking and Aggressive Behavior

### Table 4: Computation times for secret sharing and secret recovery of an 8 KB block using the XOR secret sharing scheme

2005

"... In PAGE 6: ... In practice, XOR secret sharing can be implemented with word-wide operations for efficiency. Table4 lists the computation times during secret sharing and secret recovery for a selection of (q, q) values for XOR secret sharing. Note that XOR secret sharing is also a perfect secret sharing scheme.... ..."

Cited by 8

### Table 1. Comparison between encryption, digital signatures and steganography.

1998

"... In PAGE 9: ... As a result, in some cases the data inserted should be robust to attacks. If in one application we want to achieve confidentiality, than we have two alternatives: encryption or steganographic techniques for protection against detection (see Table1 and Confidentiality Steganography (hide existence of the secret message, but do not use encryption) Encryption (encrypt the message, but do not hide the message) Figure 2. Achieving confidentiality.... ..."

### Table 1. A Secret Sharing Scheme for C6 S

1995

"... In PAGE 10: ... If we consider n = 6 and jSj = 2, then from the previous corollary we get that 2:5 (C6; 2) 3. Brickell and Stinson [12] gave the secret sharing scheme for C6 depicted in Table1 . It is easy to see that in this case the dealer apos;s randomness is log2 6 lt; 2:58497, and hence (C6; 2) log2 6.... ..."

Cited by 9

### Table 4. A secret-sharing scheme for AR,G.

2001

Cited by 4

### Table 2: Sectoral Export and Import Shares in World Trade (Percent)

"... In PAGE 8: ...PEC Model Regions ....................... 6 Table2 : Sectoral Export and Import Shares in World Trade .... In PAGE 8: ...able 19: Parameters in the APEC CGE Model ............................... 57 Table2 0: Variables in the APEC CGE Model .... In PAGE 8: ...able 20: Variables in the APEC CGE Model ................................ 58 Table2 1: Quantity Equations .... In PAGE 8: ...able 21: Quantity Equations .......................................... 59 Table2 2: Price Equations .... In PAGE 8: ...able 22: Price Equations ............................................. 59 Table2 3: Income and Expenditure Equations .... In PAGE 8: .................................. 60 Table2 4: Export and Externality Equations .... In PAGE 8: ................................... 61 Table2 5: AIDS Import Demand Equations .... In PAGE 8: ...able 25: AIDS Import Demand Equations .................................. 62 Table2 6: Migration Relations .... In PAGE 8: ...able 26: Migration Relations .......................................... 62 Table2 7: Market-Clearing Equations .... In PAGE 16: ...Table2 presents the share of each region apos;s exports and imports in total world trade from the base data used in the model. Aggregation of individual economies into regions for use in the model involved netting out trade among the combined economies, so that these data will not match data from other statistical sources on world trade volumes.... In PAGE 68: ...Table2 0: Variables in the APEC CGE Model Price block Migration block EXR(k) Exchange rate WGDFL(la,k,lb,l) Wage differentials PC(i,k) Consumption price of composite MIGL(la,k) Labor migration flows (within good category) PD(i,k) Domestic prices MIGRU(la,k) Labor migration flows (across PDA(i,k) Processors actual domestic sales category) price including subsidy PE(i,k,ctyl) Domestic price of exports Income and expenditure block PEK(i,k) Average domestic price of exports CDD(i,k) Private consumption demand PINDCON(k) Consumer price index CONTAX(k) Consumption taxes PM(i,k,ctyl) Domestic price of imports ENTSAV(k) Enterprise savings PQ(i,k) Price of composite goods ENTAX(k) Enterprise taxes PREM(i,k) Premium income from import ENTT(k) Government transfers to enterprises rationing ESR(k) Enterprise savings rate PVA(i,k) Value added price including EXPTAX(k) Export tax revenue subsidies FBAL(k) Overall current account balance PVAB(i,k) Value added price net of subsidies FBOR(k) Foreign borrowing by government PWE(i,ctyl,cty2) World price of exports FKAP(k) Foreign capital flow to enterprises PWM(i,ctyl,cty2) World price of imnports FSAV(k,ctyl) Bilateral net foreign savings PWERAT(i,k) Ratio of world export prices FSAVE(k) Foreign savings PWEFX(i) benchmark world export price FTAX(k) Factor taxes PX(i,k) Average output price GD(i,k) Government demand by sector TM2(i,k,ctyl) Import premium rates GDPVA(k) Nominal expenditure GDP GDTOT(k) Government real consumption Production block GOVSAV(k) Government saving D(i,k) Domestic sales of domestic output GOVREV(k) Government revenue E(i.ctyl,cty2) Bilateral exports HHT(k) Government transfers to households EK(i,k) Aggregate sectoral exports HSAV(k) Aggregate household savings INT(i,k) Intermediate demand HTAX(k) Household taxes M(i,cty],cty2) Bilateral imports ID(i,k) Investment demand (by sector of Q(i,k) Composite goods supply origin) SMQ(i,k,ctyl) Import value share in total sectoral INDTAX(k) Indirect tax revenue demand MPS(hh,k) Savings propensities by households X(i,k) Domestic output REMIT(k) Remittance income to households TARIPF(k,ctyl) Tariff revenue Factor block VATAX(k) Value added taxes AVWF(iff,k) Average wage with current weights YH(hh,k) Household income FDSC(i,iff,k) Factor demand by sector YINST(ins,k) Institutional income FPE(k) Total farm program expenditures ZPIX(k) Fixed aggregate real investment FS(iff,k) Factor supply ZTOT(k) Aggregate nominal investment FT(k) Factor tax rate WF(iff,k) Average factor price Externality effects WFDIST(i,iff,k) Factor differential SAD(i,k) Aggregate exports externality YFCTR(iff,k) Factor income parameter SAD2(i,k) Intermediate inputs externality parameter SAC(iff,k) Capital goods externality parameter EKPTL(k) Aggregate exports MKPTL(k) Capital goods imports Lewis, Robinson, and Wang ... In PAGE 69: ...Table2 1: Quantity Equations (1) X(i,k) = SAD(i,k)*SAD2(i,k)*AD2(i,k)*(SUM(iff,ALPHA2(i,iff,k)*FDSC(i,iff,k)**(-RHOP(i,k)))) **(-1IlRH0P(i,k)); (2) (1-ft(k))*WF(iff,k)*WFDIST(i,iff,k) = I - vatr(i,k))*pva(i,k)*SAD(i,k)*SAD2(i,k)*AD2(i,k) * ( SUM(f, ALPHA2(i,f,k) *FDSC(i ,f,k) **(-RHOP(i,k))))**((- I/RHOP(i,k))-I ) *ALPHA2(i,iff,k)*FDSC(i,iff,k)**(-RHOP(i,k)-1); (3) INT(i,k) = SUM(j, Io(i,j,k)*X(,k)); Model Specirication In addition to ten sectors for each country model, the model has four factors of production (two labor types, land, and capital), as identified in Table 18. The output-supply and input-demand equations are shown in Table 21.... In PAGE 69: ... In each economy, factors are not assumed to receive a uniform wage or quot;rental quot; (in the case of capital) across sectors; quot;factor market distortion quot; parameters (the WFDIST that appears in equation 2) are imposed that fix the ratio of the sectoral return to a factor relative to the economywide average return for that factor. Table2 2: Price Equations (4) PM(imi,k,ctyl) = PWM(imi,k,ctyl)*EXR(k) * (I + TM(imi,k,ctyl) + tm2(imi,k,ctyl) ); (5) PE(iei,k.cty1) = PWE(iei,k,c(yI) * (I - te(iei,k))*EXR(k); (6) PEK(ie,k) = SUM(ctyl$pt(k,ctyl), PE(i,k,ctyl) * E(i,k,ctyl) ) / EK(i,k); (7) PDA(i,k) = (1 - TX(i,k)) * PD(i,k); (8) PQ(i,k)*Q(i,k) = PD(i,k)*D(i.... In PAGE 71: ...Table2 3: Income and Expenditure Equations (14) YFCTR(iff,k) = SUM(i, (1 -ft(k))*WF(iff,k)*WFDIST(i,iff,k)*FDSC(i,iff,k)); (15) TARIFF(k,ctyl) = SUM(i$imi(i.k,cty1), TM(i,k,ctyl)*M(i,k,ctyl)*PWM(i,k,ctyl))*EXR(k); (16) PREM(i,k) = SUM(cty1 $imi(i,k,cty1), TM2(i,k,ctyl )*M(i,k,ctyl)*PWM(i,k,ctyl))*EXR(k); (17) INDTAX(k) = SUM(i, TX(i,k)*PD(i,k)*D(i,k)); (18) EXPTAX(k) = SUM((i,ctyl), te(i,k)*PWE(i,k,ctyl)*E(i,k,ctyl )*EXR(k)); (19) YINST( quot;labr quot;,k) = SUM(la, YFCTR(la,k)); (20) YINST( quot;enl quot;,k) = YFCTR(`capital quot;,k) + EXR(k)*FKAP(k) - ENTSAV(k) - ENTAX(k) + ENTT(k) + SUM(i ,( I-sprem(i,k))*PREM(i, k)); (21) YINST( quot;prop quot;.... In PAGE 72: ...Table2 4: Export and Externality Equations (42) X(iel,k) = AT(iel,k)*(GAMMAK(iel,k)*EK(iel,k)**(-RHOT(iel,k)) + (I - GAMMAK(iel,k))*D(iel,k) * apos;(-RHOT(iel ,k)))**(-l/RHOT(iel ,k)); (43) X(ien,k) = D(ien,k); (44) EK(iel,k) = D(ie I ,k)*(PDA(iel ,k)/PEK(iel .k)*GAMMAK(iel,k)/(I-GAMMAK(iel .... In PAGE 72: ... Increased aggregate exports yields a higher value of SAC, which is quot;embodied quot; in the capital stock input into the production process. Table2 5: AIDS Import Demand Equations (56) PM(i,k,k) = PD(i,k). (57) LOG(PQ(i.... In PAGE 73: ... The composite price index, PQ, is defined in equation 57 as a translog price index [Deaton and Muellbauer (1980)].33 Table2 6: Migration Relations (62) (AVWF(la,k)/EXR(k)) = wgdfl(la,k.la,l)*(AVWF(la,l)/EXR(l)) (63) FS(la,k) = FSO(la.... In PAGE 73: ... Domestic labor supply in each skill category in each country is then adjusted by the migrant labor flow (equation 63), while the other two equations insure that workers do not apos;disappear quot; or get quot;created quot; in the migration process. Table2 7: Market-Clearing Equations (66) Q(i,k) = INT(i,k) + CDD(i.k) + GD(i,k) + ID(i.... ..."