## Set file for off_gtos.ode on Thu Nov 30 16:03:49 2000 96 Number of equations and auxiliaries 126 Number of parameters # Numerical stuff 1 nout 40 nullcline mesh 8 Qual RK 999 total 0.2 DeltaT 0 T0 0 Transient 5000 Bound 1e-12 DtMin 1 DtMax 0.001 Tolerance 0.001 Abs. Tolerance 0 Max Delay 100 Eigenvector iterates 0.001 Eigenvector tolerance 0.001 Newton tolerance 0 Poincare plane 1e-05 Boundary value tolerance 1e-05 Boundary value epsilon 20 Boundary value iterates 0 Poincare None 1 Poincare variable 1 Poincare sign 0 Stop on Section 0 Delay flag 998.8000000000001 Current time 998.8000000000001 Last Time 1 MyStart 1 INFLAG # Delays 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 # Bndry conds 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 # Old ICs -77 V1 0.19 H1 0.15 N1 0.23 R1 0.06 CA1 0 S1 -77 V2 0.19 H2 0.15 N2 0.23 R2 0.06 CA2 0 S2 -53.2 V3 0.1 H3 0.45 N3 0.6 R3 0.12 CA3 0.44 S3 -53.2 V4 0.1 H4 0.45 N4 0.6 R4 0.12 CA4 0.44 S4 -77 V5 0.19 H5 0.15 N5 0.23 R5 0.06 CA5 0 S5 -77 V6 0.19 H6 0.15 N6 0.23 R6 0.06 CA6 0 S6 -53.2 V7 0.1 H7 0.45 N7 0.6 R7 0.12 CA7 0.44 S7 -53.2 V8 0.1 H8 0.45 N8 0.6 R8 0.12 CA8 0.44 S8 -95 VG1 -95 VG2 -77 VG3 -77 VG4 -95 VG5 -95 VG6 -77 VG7 -77 VG8 0.04 NG1 0.04 NG2 0.78 NG3 0.78 NG4 0.04 NG5 0.04 NG6 0.78 NG7 0.78 NG8 0.95 HG1 0.95 HG2 0.2 HG3 0.2 HG4 0.95 HG5 0.95 HG6 0.2 HG7 0.2 HG8 0.9 RG1 0.9 RG2 0.9 RG3 0.9 RG4 0.9 RG5 0.9 RG6 0.9 RG7 0.9 RG8 0 CAG1 0 CAG2 0.035 CAG3 0.035 CAG4 0 CAG5 0 CAG6 0.035 CAG7 0.035 CAG8 0.09 SG1 0.09 SG2 0.5 SG3 0.5 SG4 0.09 SG5 0.09 SG6 0.5 SG7 0.5 SG8 # Ending ICs -60.71791026671416 V1 0.1050817070569929 H1 0.3339047915553423 N1 0.5597894302066979 R1 0.2036376651616488 CA1 0.007004151871627591 S1 -60.71791026671416 V2 0.1050817070569929 H2 0.3339047915553423 N2 0.5597894302066979 R2 0.2036376651616488 CA2 0.007004151871627591 S2 -77.47069786413695 V3 0.2873203571604054 H3 0.04663827771005361 N3 0.5103140380255553 R3 0.3004438757198344 CA3 0.0009344040466171509 S3 -77.47069786413695 V4 0.2873203571604054 H4 0.04663827771005361 N4 0.5103140380255553 R4 0.3004438757198344 CA4 0.0009344040466171509 S4 -60.71791026671416 V5 0.1050817070569929 H5 0.3339047915553423 N5 0.5597894302066979 R5 0.2036376651616488 CA5 0.007004151871627591 S5 -60.71791026671416 V6 0.1050817070569929 H6 0.3339047915553423 N6 0.5597894302066979 R6 0.2036376651616488 CA6 0.007004151871627591 S6 -77.47069786413695 V7 0.2873203571604054 H7 0.04663827771005361 N7 0.5103140380255553 R7 0.3004438757198344 CA7 0.0009344040466171509 S7 -77.47069786413695 V8 0.2873203571604054 H8 0.04663827771005361 N8 0.5103140380255553 R8 0.3004438757198344 CA8 0.0009344040466171509 S8 -75.10391218638624 VG1 -75.10391218638624 VG2 -72.92625188400277 VG3 -72.92625188400277 VG4 -75.10391218638624 VG5 -75.10391218638624 VG6 -72.92625188400277 VG7 -72.92625188400277 VG8 0.2125076036533668 NG1 0.2125076036533668 NG2 0.1598693544220592 NG3 0.1598693544220592 NG4 0.2125076036533668 NG5 0.2125076036533668 NG6 0.1598693544220592 NG7 0.1598693544220592 NG8 0.7466959712543473 HG1 0.7466959712543473 HG2 0.7805846551106687 HG3 0.7805846551106687 HG4 0.7466959712543473 HG5 0.7466959712543473 HG6 0.7805846551106687 HG7 0.7805846551106687 HG8 0.7677417604636313 RG1 0.7677417604636313 RG2 0.7813970669429506 RG3 0.7813970669429506 RG4 0.7677417604636313 RG5 0.7677417604636313 RG6 0.7813970669429506 RG7 0.7813970669429506 RG8 0.05416816967535378 CAG1 0.05416816967535378 CAG2 0.06618847501824002 CAG3 0.06618847501824002 CAG4 0.05416816967535378 CAG5 0.05416816967535378 CAG6 0.06618847501824002 CAG7 0.06618847501824002 CAG8 0.5740762310666904 SG1 0.5740762310666904 SG2 0.005156071270063888 SG3 0.005156071270063888 SG4 0.5740762310666904 SG5 0.5740762310666904 SG6 0.005156071270063888 SG7 0.005156071270063888 SG8 # Parameters 2.25 gl 37.5 gna 45 gk 9 gahp 0.5 gca 0.5 gt -60 vl 55 vna -80 vk 140 vca -30 thetam -15 sigmam -39 thetah 3.1 sigmah -32 thetan -8 sigman -67 thetar 2 sigmar -63 thetaa -7.8 sigmaa 0.4 thetab -0.1 sigmab -39 thetas -8 sigmas 1 tauh0 500 tauh1 -57 thh 3 sigmaht 0.75 phi 1 taun0 100 taun1 -80 thn 26 sigmant 40 taur0 17.5 taur1 68 thr 2.2 sigmart 0.2 phir 15 k1 5e-05 eps 22.5 kca 0 i1 0 i2 0 i3 0 i4 0 i5 0 i6 0 i7 0 i8 0 i9 0 i10 0 i11 0 i12 0 i13 0 i14 0 i15 0 i16 5 alpha 1 beta 30 thetag 4.5 gGtoS -85 vGtoS -39 thetH -8 sigmH 120 gnag 30 gkg 30 gahpg 0.5 gtg 0.15 gcag 0.1 glg 55 vnag -80 vkg 120 vcag -55 vlg -37 thmg -10 sigmg -58 thhg 12 sighg -50 thng -14 signg -70 thrg 2 sigrg 30 taurg -57 thag -2 sigag -35 thsg -2 sigsg 0.05 tauhg0 0.27 tauhg1 -40 thhgt 12 shg 0.05 taung0 0.27 taung1 -40 thngt 12 sng 30 k1g 20 kcag 0.0001 epsg 1 phirg 0.05 phing 0.05 phihg -0.6 ig1 -0.6 ig2 -0.6 ig3 -0.6 ig4 -0.6 ig5 -0.6 ig6 -0.6 ig7 -0.6 ig8 -1 ig9 -1 ig10 -1 ig11 -1 ig12 -1 ig13 -1 ig14 -1 ig15 -1 ig16 0.2 gStoG 0 vStoG 2 alphag 0.04 betag 20 thetagg -85 vGtoG 0.1 gGtoG -57 thetHg -2 sigmHg # Graphics 0.7071097251469876 rm -0.4999999999826661 rm 0.4999958366025517 rm 0.7071038372138506 rm 0.5000041633974484 rm -0.4999999999826661 rm 0 rm 0.7071038372138506 rm 0.7071097251469876 rm 0 51 2 1 0 0 13 2 1 3 0 1 2 1 0 0 1 2 1 0 0 1 2 1 0 0 1 2 1 0 0 1 2 1 0 0 1 2 1 0 0 1 2 1 0 0 1 2 1 0 -1000 1000 0 0 3DFlag 1 Timeflag 0 Colorflag 0 Type 1 color scale 0 minscale 998.7999877929688 xmax 0 xmin 54.69213485717773 ymax -79.85974884033203 ymin 12 zmax -12 zmin 499.3999938964844 0.002002402907932915 -12.58380699157715 0.01486415459256045 0 0.08333333333333333 45 Theta 45 Phi 0 xshft 0 yshft 0 zshft 0 xlo -79.85974884033203 ylo 0 -80 998.7999877929688 xhi 54.69213485717773 yhi 1000 20 # Transpose variables etc V1 2 n columns 1 n rows 1 row skip 1 col skip 1 row 0 # Coupling stuff for H funs 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 # Array plot stuff vg1 8 NCols 0 Row 1 5000 NRows 1 RowSkip -90 Zmin 20 Zmax # Torus information 0 Torus flag 1=ON 6.283185308 Torus period # Range information gl -1 eq-range stab col 0 shoot flag 1=on 10 eq-range steps 0 eq_range low 1 eq_range high V1 V1 20 Range steps 0 Cycle color 1=on 1 Reset data 1=on 1 Use old I.C.s 1=yes 0 Par1 low 0 Par2 low 1 Par1 high 1 Par2 high gl 0 BVP side 0 color cycle flag 1=on 10 BVP range steps 0 BVP range low 1 BVP range high RHS etc ... dV1/dT=-(CURR(V1,H1,N1,CA1,R1))-(ISYN(V1,SG3)+ISYN(V1,SG7))+I1 dH1/dT=PHI*( HINF(V1)-H1 )/TAUH(V1) dN1/dT=PHI*( NINF(V1)-N1 )/TAUN(V1) dR1/dT=PHIR*(RINF(V1)-R1)/TAUR(V1) dCA1/dT=PHI*EPS*(-GCA*((SINF(V1))^2)*(V1-VCA)-IT(V1,R1) - KCA*CA1) dS1/dT=ALPHA*(1-S1)*HIN(V1-THETAG)-BETA*S1 dV2/dT=-(CURR(V2,H2,N2,CA2,R2))-(ISYN(V2,SG4)+ISYN(V2,SG8))+I2 dH2/dT=PHI*( HINF(V2)-H2)/TAUH(V2) dN2/dT=PHI*( NINF(V2)-N2)/TAUN(V2) dR2/dT=PHIR*(RINF(V2)-R2)/TAUR(V2) dCA2/dT=PHI*EPS*(-GCA*((SINF(V2))^2)*(V2-VCA)-IT(V2,R2) - KCA*CA2) dS2/dT=ALPHA*(1-S2)*HIN(V2-THETAG)-BETA*S2 dV3/dT=-(CURR(V3,H3,N3,CA3,R3))-(ISYN(V3,SG5)+ISYN(V3,SG1))+I3 dH3/dT=PHI*( HINF(V3)-H3)/TAUH(V3) dN3/dT=PHI*( NINF(V3)-N3)/TAUN(V3) dR3/dT=PHIR*(RINF(V3)-R3)/TAUR(V3) dCA3/dT=PHI*EPS*(-GCA*((SINF(V3))^2)*(V3-VCA)-IT(V3,R3) - KCA*CA3) dS3/dT=ALPHA*(1-S3)*HIN(V3-THETAG)-BETA*S3 dV4/dT=-(CURR(V4,H4,N4,CA4,R4))-(ISYN(V4,SG6)+ISYN(V4,SG2))+I4 dH4/dT=PHI*( HINF(V4)-H4)/TAUH(V4) dN4/dT=PHI*( NINF(V4)-N4)/TAUN(V4) dR4/dT=PHIR*(RINF(V4)-R4)/TAUR(V4) dCA4/dT=PHI*EPS*(-GCA*((SINF(V4))^2)*(V4-VCA)-IT(V4,R4) - KCA*CA4) dS4/dT=ALPHA*(1-S4)*HIN(V4-THETAG)-BETA*S4 dV5/dT=-(CURR(V5,H5,N5,CA5,R5))-(ISYN(V5,SG7)+ISYN(V5,SG3))+I5 dH5/dT=PHI*( HINF(V5)-H5)/TAUH(V5) dN5/dT=PHI*( NINF(V5)-N5)/TAUN(V5) dR5/dT=PHIR*(RINF(V5)-R5)/TAUR(V5) dCA5/dT=PHI*EPS*(-GCA*((SINF(V5))^2)*(V5-VCA)-IT(V5,R5) - KCA*CA5) dS5/dT=ALPHA*(1-S5)*HIN(V5-THETAG)-BETA*S5 dV6/dT=-(CURR(V6,H6,N6,CA6,R6))-(ISYN(V6,SG8)+ISYN(V6,SG4))+I6 dH6/dT=PHI*( HINF(V6)-H6)/TAUH(V6) dN6/dT=PHI*( NINF(V6)-N6)/TAUN(V6) dR6/dT=PHIR*(RINF(V6)-R6)/TAUR(V6) dCA6/dT=PHI*EPS*(-GCA*((SINF(V6))^2)*(V6-VCA)-IT(V6,R6) - KCA*CA6) dS6/dT=ALPHA*(1-S6)*HIN(V6-THETAG)-BETA*S6 dV7/dT=-(CURR(V7,H7,N7,CA7,R7))-(ISYN(V7,SG1)+ISYN(V7,SG5))+I7 dH7/dT=PHI*( HINF(V7)-H7)/TAUH(V7) dN7/dT=PHI*( NINF(V7)-N7)/TAUN(V7) dR7/dT=PHIR*(RINF(V7)-R7)/TAUR(V7) dCA7/dT=PHI*EPS*(-GCA*((SINF(V7))^2)*(V7-VCA)-IT(V7,R7) - KCA*CA7) dS7/dT=ALPHA*(1-S7)*HIN(V7-THETAG)-BETA*S7 dV8/dT=-(CURR(V8,H8,N8,CA8,R8))-(ISYN(V8,SG2)+ISYN(V8,SG6))+I8 dH8/dT=PHI*( HINF(V8)-H8)/TAUH(V8) dN8/dT=PHI*( NINF(V8)-N8)/TAUN(V8) dR8/dT=PHIR*(RINF(V8)-R8)/TAUR(V8) dCA8/dT=PHI*EPS*(-GCA*((SINF(V8))^2)*(V8-VCA)-IT(V8,R8) - KCA*CA8) dS8/dT=ALPHA*(1-S8)*HIN(V8-THETAG)-BETA*S8 dVG1/dT=-CURRG(VG1,HG1,NG1,CAG1,RG1)-ISYNG(VG1,S1)+IG1-ISYNGG(VG1,SG2+SG8) dVG2/dT=-CURRG(VG2,HG2,NG2,CAG2,RG2)-ISYNG(VG2,S2)+IG2-ISYNGG(VG2,SG1+SG3) dVG3/dT=-CURRG(VG3,HG3,NG3,CAG3,RG3)-ISYNG(VG3,S3)+IG3-ISYNGG(VG3,SG2+SG4) dVG4/dT=-CURRG(VG4,HG4,NG4,CAG4,RG4)-ISYNG(VG4,S4)+IG4-ISYNGG(VG4,SG3+SG5) dVG5/dT=-CURRG(VG5,HG5,NG5,CAG5,RG5)-ISYNG(VG5,S5)+IG5-ISYNGG(VG5,SG4+SG6) dVG6/dT=-CURRG(VG6,HG6,NG6,CAG6,RG6)-ISYNG(VG6,S6)+IG6-ISYNGG(VG6,SG5+SG7) dVG7/dT=-CURRG(VG7,HG7,NG7,CAG7,RG7)-ISYNG(VG7,S7)+IG7-ISYNGG(VG7,SG6+SG8) dVG8/dT=-CURRG(VG8,HG8,NG8,CAG8,RG8)-ISYNG(VG8,S8)+IG8-ISYNGG(VG8,SG1+SG7) dNG1/dT= PHING*(NINFG(VG1)-NG1)/TAUNG(VG1) dNG2/dT= PHING*(NINFG(VG2)-NG2)/TAUNG(VG2) dNG3/dT= PHING*(NINFG(VG3)-NG3)/TAUNG(VG3) dNG4/dT= PHING*(NINFG(VG4)-NG4)/TAUNG(VG4) dNG5/dT= PHING*(NINFG(VG5)-NG5)/TAUNG(VG5) dNG6/dT= PHING*(NINFG(VG6)-NG6)/TAUNG(VG6) dNG7/dT= PHING*(NINFG(VG7)-NG7)/TAUNG(VG7) dNG8/dT= PHING*(NINFG(VG8)-NG8)/TAUNG(VG8) dHG1/dT= PHIHG*(HINFG(VG1)-HG1)/TAUHG(VG1) dHG2/dT= PHIHG*(HINFG(VG2)-HG2)/TAUHG(VG2) dHG3/dT= PHIHG*(HINFG(VG3)-HG3)/TAUHG(VG3) dHG4/dT= PHIHG*(HINFG(VG4)-HG4)/TAUHG(VG4) dHG5/dT= PHIHG*(HINFG(VG5)-HG5)/TAUHG(VG5) dHG6/dT= PHIHG*(HINFG(VG6)-HG6)/TAUHG(VG6) dHG7/dT= PHIHG*(HINFG(VG7)-HG7)/TAUHG(VG7) dHG8/dT= PHIHG*(HINFG(VG8)-HG8)/TAUHG(VG8) dRG1/dT=PHIRG*(RINFG(VG1)-RG1)/TAURG dRG2/dT=PHIRG*(RINFG(VG2)-RG2)/TAURG dRG3/dT=PHIRG*(RINFG(VG3)-RG3)/TAURG dRG4/dT=PHIRG*(RINFG(VG4)-RG4)/TAURG dRG5/dT=PHIRG*(RINFG(VG5)-RG5)/TAURG dRG6/dT=PHIRG*(RINFG(VG6)-RG6)/TAURG dRG7/dT=PHIRG*(RINFG(VG7)-RG7)/TAURG dRG8/dT=PHIRG*(RINFG(VG8)-RG8)/TAURG dCAG1/dT=EPSG*(-ICAG(VG1)-ITG(VG1,RG1) - KCAG*CAG1) dCAG2/dT=EPSG*(-ICAG(VG2)-ITG(VG2,RG2) - KCAG*CAG2) dCAG3/dT=EPSG*(-ICAG(VG3)-ITG(VG3,RG3) - KCAG*CAG3) dCAG4/dT=EPSG*(-ICAG(VG4)-ITG(VG4,RG4) - KCAG*CAG4) dCAG5/dT=EPSG*(-ICAG(VG5)-ITG(VG5,RG5) - KCAG*CAG5) dCAG6/dT=EPSG*(-ICAG(VG6)-ITG(VG6,RG6) - KCAG*CAG6) dCAG7/dT=EPSG*(-ICAG(VG7)-ITG(VG7,RG7) - KCAG*CAG7) dCAG8/dT=EPSG*(-ICAG(VG8)-ITG(VG8,RG8) - KCAG*CAG8) dSG1/dT=ALPHAG*(1-SG1)*HING(VG1-THETAGG)-BETAG*SG1 dSG2/dT=ALPHAG*(1-SG2)*HING(VG2-THETAGG)-BETAG*SG2 dSG3/dT=ALPHAG*(1-SG3)*HING(VG3-THETAGG)-BETAG*SG3 dSG4/dT=ALPHAG*(1-SG4)*HING(VG4-THETAGG)-BETAG*SG4 dSG5/dT=ALPHAG*(1-SG5)*HING(VG5-THETAGG)-BETAG*SG5 dSG6/dT=ALPHAG*(1-SG6)*HING(VG6-THETAGG)-BETAG*SG6 dSG7/dT=ALPHAG*(1-SG7)*HING(VG7-THETAGG)-BETAG*SG7 dSG8/dT=ALPHAG*(1-SG8)*HING(VG8-THETAGG)-BETAG*SG8 User-defined functions: MINF(V) = 1./(1.+EXP((V-THETAM)/SIGMAM)) HINF(V) = 1./(1.+EXP((V-THETAH)/SIGMAH)) NINF(V) = 1./(1.+EXP((V-THETAN)/SIGMAN)) RINF(V) = 1/(1+EXP((V-THETAR)/SIGMAR)) AINF(V) = 1/(1+EXP((V-THETAA)/SIGMAA)) BINF(R) = 1/(1+EXP((R-THETAB)/SIGMAB))-1/(1+EXP(-THETAB/SIGMAB)) SINF(V) = 1./(1.+EXP((V-THETAS)/SIGMAS)) TAUH(V) = TAUH0+TAUH1/(1+EXP((V-THH)/SIGMAHT)) TAUN(V) = TAUN0+TAUN1/(1+EXP((V-THN)/SIGMANT)) TAUR(V) = TAUR0+TAUR1/(1+EXP((V-THR)/SIGMART)) HIN(V) = 1/(1+EXP((V-THETH)/SIGMH)) MINFG(V) = 1./(1.+EXP((V-THMG)/SIGMG)) HINFG(V) = 1/(1+EXP((V-THHG)/SIGHG)) NINFG(V) = 1./(1.+EXP((V-THNG)/SIGNG)) RINFG(V) = 1/(1+EXP((V-THRG)/SIGRG)) AINFG(V) = 1/(1+EXP((V-THAG)/SIGAG)) SINFG(V) = 1/(1+EXP((V-THSG)/SIGSG)) TAUHG(V) = TAUHG0+TAUHG1/(1+EXP((V-THHGT)/SHG)) TAUNG(V) = TAUNG0+TAUNG1/(1+EXP((V-THNGT)/SNG)) HING(V) = 1/(1+EXP((V-THETHG)/SIGMHG)) IL(V) = GL*(V-VL) INA(V,H) = GNA*(MINF(V))^3*H*(V-VNA) IK(V,N) = GK*N^4*(V-VK) IAHP(V,CA) = GAHP*(V-VK)*CA/(CA+K1) ICA(V) = GCA*((SINF(V))^2)*(V-VCA) IT(V,R) = GT*(AINF(V)**3)*(BINF(R)^2)*(V-VCA) ISYN(V,S) = GGTOS*S*(V-VGTOS) CURR(V,H,N,CA,R) = IL(V)+INA(V,H)+IK(V,N)+IAHP(V,CA)+ICA(V)+IT(V,R) ILG(V) = GLG*(V-VLG) INAG(V,H) = GNAG*(MINFG(V)^3)*H*(V-VNAG) IKG(V,N) = GKG*(N^4)*(V-VKG) IAHPG(V,CA) = GAHPG*(V-VKG)*CA/(CA+K1G) ICAG(V) = GCAG*((SINFG(V))^2)*(V-VCAG) ITG(V,R) = GTG*(AINFG(V)^3)*R*(V-VCAG) ISYNG(VG,S) = GSTOG*S*(VG-VSTOG) ISYNGG(VG,S) = GGTOG*S*(VG-VGTOG) CURRG(V,H,N,CA,R) = ITG(V,R)+INAG(V,H)+IKG(V,N)+ILG(V)+IAHPG(V,CA)+ICAG(V)