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hwm93_sub.f
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SUBROUTINE GWS5(IYD,SEC,ALT,GLAT,GLONG,STL,F107A,F107,AP,W)
C Horizontal wind model HWM93 covering all altitude regions
C A. E. HEDIN (1/25/93) (4/9/93)
C Calling argument list made similar to GTS5 subroutine for
C MSIS-86 density model and GWS4 for thermospheric winds.
C IYD - YEAR AND DAY AS YYDDD
C SEC - UT(SEC) (Not important in lower atmosphere)
C ALT - ALTITUDE(KM)
C GLAT - GEODETIC LATITUDE(DEG)
C GLONG - GEODETIC LONGITUDE(DEG)
C STL - LOCAL APPARENT SOLAR TIME(HRS)
C F107A - 3 MONTH AVERAGE OF F10.7 FLUX (Use 150 in lower atmos.)
C F107 - DAILY F10.7 FLUX FOR PREVIOUS DAY ( " )
C AP - Two element array with
C AP(1) = MAGNETIC INDEX(DAILY) (use 4 in lower atmos.)
C AP(2)=CURRENT 3HR ap INDEX (used only when SW(9)=-1.)
C Note: Ut, Local Time, and Longitude are used independently in the
C model and are not of equal importance for every situation.
C For the most physically realistic calculation these three
C variables should be consistent.
C OUTPUT
C W(1) = MERIDIONAL (m/sec + Northward)
C W(2) = ZONAL (m/sec + Eastward)
C ADDITIONAL COMMENTS
C TO TURN ON AND OFF PARTICULAR VARIATIONS CALL TSELEC(SW)
C WHERE SW IS A 25 ELEMENT ARRAY CONTAINING 0. FOR OFF, 1.
C FOR ON, OR 2. FOR MAIN EFFECTS OFF BUT CROSS TERMS ON
C FOR THE FOLLOWING VARIATIONS
C 1 - F10.7 EFFECT ON MEAN 2 - TIME INDEPENDENT
C 3 - SYMMETRICAL ANNUAL 4 - SYMMETRICAL SEMIANNUAL
C 5 - ASYMMETRICAL ANNUAL 6 - ASYMMETRICAL SEMIANNUAL
C 7 - DIURNAL 8 - SEMIDIURNAL
C 9 - DAILY AP 10 - ALL UT/LONG EFFECTS
C 11 - LONGITUDINAL 12 - UT AND MIXED UT/LONG
C 13 - MIXED AP/UT/LONG 14 - TERDIURNAL
C 16 - ALL WINDF VAR 17 - ALL WZL VAR
C 18 - ALL UN1 VAR 19 - ALL WDZL VAR
C 24 - ALL B FIELDS (DIV) 25 - ALL C FIELDS (CURL)
C
C To get current values of SW: CALL TRETRV(SW)
C
C For example, to get zonal averages (no diurnal or
C longitudinal variations) set SW(7),SW(8), SW(14),
C and SW(10) equal to 0. To just remove tidal variations
C set SW(7),SW(8), and SW(14) equal to 0.
integer, intent(in) :: IYD
real, intent(in) :: SEC,ALT,GLAT,GLONG,STL,F107A,F107
real, intent(in) :: AP(2)
real,intent(OUT) :: W(2)
CHARACTER(len=4) :: ISDATE(3),ISTIME(2),NAME(2),
& ISD(3),IST(2),NAM(2)
PARAMETER (MN1=5,MN2=14)
DIMENSION WINDF(2),WW(2),SV(25)
DIMENSION WZL(2),WDZL(2)
DIMENSION ZN1(MN1),zn2(mn2),UN1(MN1,2),UGN1(2,2)
DIMENSION UN2(MN2,2),UGN2(2,2)
COMMON/PARMW5/PWB(200),PWC(200),PWBL(150),PWCL(150),PWBLD(150),
$ PWCLD(150),PB12(150),PC12(150),PB13(150),PC13(150),
$ PB14(150),PC14(150),PB15(150),PC15(150),
$ PB15D(150),PC15D(150),PWP(100,26)
COMMON/CSW/SW(25),ISW,SWC(25)
COMMON/HWMC/WBT(2),WCT(2)
COMMON/DATW/ISD,IST,NAM
COMMON/DATIME/ISDATE,ISTIME,NAME
SAVE
DATA S/.016/,ZL/200./,SV/25*1./,NNN/3/,MN2S/1/,MN2M/1/
DATA ZN1/200.,150.,130.,115.,100./
data ZN2/100.,90.,82.5,75.,67.5,60.,52.5,
& 45.,37.5,30.,22.5, 15.,7.5, 0./
call INITW5()
call GWSBK5()
C Put identification data into common/datime/
DO I=1,3
ISDATE(I)=ISD(I)
enddo
DO I=1,2
ISTIME(I)=IST(I)
NAME(I)=NAM(I)
enddo
IF(ISW.NE.64999) CALL TSELEC(SV)
YRD=IYD
WW(1)=W(1)
WW(2)=W(2)
C
IF(ALT.LE.ZN1(MN1)) GOTO 50
C
C EXOSPHERE WIND
CALL GLBW5E(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PWB,PWC,WINDF)
WINDF(1)=SW(16)*WINDF(1)
WINDF(2)=SW(16)*WINDF(2)
C WIND AT ZL
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PWBL,PWCL,WW)
WZL(1)=(PWBL(1)*WINDF(1)+WW(1))*SW(17)*SW(18)
WZL(2)=(PWBL(1)*WINDF(2)+WW(2))*SW(17)*SW(18)
UN1(1,1)=WZL(1)
UN1(1,2)=WZL(2)
C WIND DERIVATIVE AT ZL
WW(1)=0
WW(2)=0
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PWBLD,PWCLD,WW)
WDZL(1)=(PWBLD(1)*WINDF(1)+WW(1))*SW(19)*SW(18)
WDZL(2)=(PWBLD(1)*WINDF(2)+WW(2))*SW(19)*SW(18)
UGN1(1,1)=WDZL(1)*S
UGN1(1,2)=WDZL(2)*S
C
IF(ALT.GE.ZL) GOTO 90
C
C WIND AT ZN1(2) (150)
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PB12,PC12,WW)
UN1(2,1)=(PB12(1)*WINDF(1)+WW(1))*SW(18)
UN1(2,2)=(PB12(1)*WINDF(2)+WW(2))*SW(18)
C WIND AT ZN1(3) (130)
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PB13,PC13,WW)
UN1(3,1)=WW(1)*SW(18)
UN1(3,2)=WW(2)*SW(18)
C WIND AT ZN1(4) (115)
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PB14,PC14,WW)
UN1(4,1)=WW(1)*SW(18)
UN1(4,2)=WW(2)*SW(18)
C
50 CONTINUE
MNN=MAX(1,MIN(MN2,NNN+1))
IF(ALT.LT.ZN2(MNN)) GOTO 40
C
C WIND AT ZN1(5) (100)
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PB15,PC15,WW)
UN1(5,1)=WW(1)*SW(18)
UN1(5,2)=WW(2)*SW(18)
C WIND DERIVATIVE AT ZN1(5) (100)
CALL GLBW5M(YRD,GLAT,STL,F107A,F107,AP,PB15D,PC15D,WW)
UGN1(2,1)=WW(1)*SW(18)
UGN1(2,2)=WW(2)*SW(18)
C
IF(ALT.GE.ZN1(MN1)) GOTO 90
C
UGN2(1,1)=UGN1(2,1)
UGN2(1,2)=UGN1(2,2)
UN2(1,1)=UN1(5,1)
UN2(1,2)=UN1(5,2)
GOTO 45
40 CONTINUE
UGN2(1,1)=1.E30
UGN2(1,2)=1.E30
UN2(1,1)=0
UN2(1,2)=0
45 CONTINUE
C
DO 10 I=1,MN2
IF(ALT.GT.ZN2(I)) GOTO 12
10 CONTINUE
I=MN2
12 IZ=I
MN2S=MAX(1,MIN(IZ-1,IZ-NNN))
MN2E=MIN(MN2,MAX(MN2S+1,IZ-1+NNN))
DO 20 I=MN2S,MN2E
II=2*(I-2)+1
IF(I.GT.1) THEN
CALL GLBW5S(IYD,GLAT,GLONG,STL,PWP(:,II),PWP(:,II+1),WW)
UN2(I,1)=WW(1)*SW(20)
UN2(I,2)=WW(2)*SW(20)
ENDIF
20 CONTINUE
MN2M=MN2E-MN2S+1
UGN2(2,1)=1.E30
UGN2(2,2)=1.E30
90 CONTINUE
C WIND AT ALTITUDE
IF(W(1).NE.9898)
$ W(1)= WPROF(ALT,ZL,S,WINDF(1),WZL(1),WDZL(1),
$ MN1,ZN1,UN1(1,1),UGN1(1,1),MN2M,ZN2(MN2S),UN2(MN2S,1),UGN2(1,1))
IF(W(2).NE.9898)
$ W(2)= WPROF(ALT,ZL,S,WINDF(2),WZL(2),WDZL(2),
$ MN1,ZN1,UN1(1,2),UGN1(1,2),MN2M,ZN2(MN2S),UN2(MN2S,2),UGN2(1,2))
RETURN
C Set number of nodes calculated each side of required altitude
C to adjust profile accuracy vs efficiency
! ENTRY SETNW5(NNW)
NNN=NNW
END SUBROUTINE GWS5
real FUNCTION WPROF(Z,ZL,S,UINF,ULB,ULBD,MN1,ZN1,UN1,UGN1,
$ MN2,ZN2,UN2,UGN2)
DIMENSION ZN1(MN1),UN1(MN1),UGN1(2),XS(15),YS(15),Y2OUT(15)
DIMENSION ZN2(MN2),UN2(MN2),UGN2(2)
SAVE
wprof = 0.
IF(Z.GE.ZL) THEN
X=S*(Z-ZL)
F=EXP(-X)
WPROF=UINF+(ULB-UINF)*F+(ULB-UINF+ULBD)*X*F
RETURN
ENDIF
IF(Z.GE.ZN1(MN1).AND.Z.LT.ZN1(1)) THEN
MN=MN1
Z1=ZN1(1)
Z2=ZN1(MN)
ZDIF=Z2-Z1
DO 10 K=1,MN
XS(K)=(ZN1(K)-Z1)/ZDIF
YS(K)=UN1(K)
10 CONTINUE
YD1=UGN1(1)*ZDIF
YD2=UGN1(2)*ZDIF
CALL SPLINE(XS,YS,MN,YD1,YD2,Y2OUT)
C Eq.
X=(Z-Z1)/ZDIF
C Eq.
CALL SPLINT(XS,YS,Y2OUT,MN,X,Y)
WPROF=Y
RETURN
ENDIF
IF(Z.LT.ZN2(1)) THEN
MN=MN2
Z1=ZN2(1)
Z2=ZN2(MN)
ZDIF=Z2-Z1
DO 20 K=1,MN
XS(K)=(ZN2(K)-Z1)/ZDIF
YS(K)=UN2(K)
20 CONTINUE
YD1=UGN2(1)
IF(UGN2(1).LT.1.E30) YD1=UGN2(1)*ZDIF
YD2=UGN2(2)
IF(UGN2(2).LT.1.E30) YD2=UGN2(2)*ZDIF
CALL SPLINE(XS,YS,MN,YD1,YD2,Y2OUT)
C Eq.
X=(Z-Z1)/ZDIF
C Eq.
CALL SPLINT(XS,YS,Y2OUT,MN,X,Y)
WPROF=Y
RETURN
ENDIF
END FUNCTION WPROF
SUBROUTINE GLBW5E(YRD,SEC,LAT,LONG,STL,F107A,F107,AP,PB,PC,WW)
REAL, intent(in) :: yrd, sec, LAT,LONG, stl,f107a, f107
real :: WB(2,15),WC(2,15)
real, intent(in) :: AP(2),PC(200)
real, intent(inout) :: PB(200),WW(2)
COMMON/CSW/SW(25),ISW,SWC(25)
COMMON/HWMC/WBT(2),WCT(2)
C COMMON/VPOLY/BT(20,20),BP(20,20),CSTL,SSTL,C2STL,S2STL,
C $ C3STL,S3STL,IYR,DAY,DF,DFA,DFC,APD,APDF,APDFC,APT,SLT
COMMON/VPOLY2/XVL,LVL,MVL,CLAT,SLAT,BT(20,20),BP(20,20)
COMMON/LTCOMP/TLL,NSVL,CSTL,SSTL,C2STL,S2STL,C3STL,S3STL
COMMON/LGCOMP/XLL,NGVL,CLONG,SLONG,C2LONG,S2LONG
SAVE
DATA DGTR/.017453/,SR/7.2722E-5/,HR/.2618/,DR/1.72142E-2/
DATA NSW/14/,WB/30*0/,WC/30*0/
DATA PB14/-1./,PB18/-1./
DATA SW9/1./,LV/12/,MV/3/,NSV/3/,NGV/2/,PSET/3./
G0(A)=(A-4.+(PB(26)-1.)*(A-4.+(EXP(-ABS(PB(25))*(A-4.))-1.)/
* ABS(PB(25))))
C CONFIRM PARAMETER SET
IF(PB(100).EQ.0) PB(100)=PSET
IF(PB(100).NE.PSET) THEN
WRITE(6,900) PB(100),PC(100)
900 FORMAT(1X,'WRONG PARAMETER SET FOR GLBW5E',3F10.1)
STOP 1
ENDIF
C
DO 10 J=1,NSW
WB(1,J)=0
WB(2,J)=0
WC(1,J)=0
WC(2,J)=0
10 CONTINUE
IF(SW(9).GT.0) SW9=1.
IF(SW(9).LT.0) SW9=-1.
IYR = int(YRD/1000.)
DAY = YRD - IYR*1000.
IF(XVL.NE.LAT.OR.LV.GT.LVL.OR.MV.GT.MVL) THEN
SLAT=SIN(DGTR*LAT)
CLAT=COS(DGTR*LAT)
CALL VSPHR1(SLAT,CLAT,LV,MV,BT,BP,20)
XVL=LAT
LVL=LV
MVL=MV
ENDIF
IF(TLL.NE.STL.OR.NSV.GT.NSVL) THEN
SSTL = SIN(HR*STL)
CSTL = COS(HR*STL)
S2STL = SIN(2.*HR*STL)
C2STL = COS(2.*HR*STL)
S3STL = SIN(3.*HR*STL)
C3STL = COS(3.*HR*STL)
TLL = STL
NSVL=NSV
ENDIF
IF(DAY.NE.DAYL.OR.PB(14).NE.PB14) THEN
CD14=COS(DR*(DAY-PB(14)))
C SD14=SIN(DR*(DAY-PB(14)))
ENDIF
IF(DAY.NE.DAYL.OR.PB(18).NE.PB18) CD18=COS(2.*DR*(DAY-PB(18)))
DAYL=DAY
PB14=PB(14)
PB18=PB(18)
IF(XLL.NE.LONG) THEN
SLONG=SIN(DGTR*LONG)
CLONG=COS(DGTR*LONG)
S2LONG=SIN(2.*DGTR*LONG)
C2LONG=COS(2.*DGTR*LONG)
XLL=LONG
NGVL=2
ENDIF
C F10.7 EFFECT
DF=F107-F107A
DFA=F107A-150.
DFC=DFA+PB(20)*DF
C TIME INDEPENDENT
F1B=1.+PB(22)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WB(1,2)=(PB(2)*BT(3,1)+PB(3)*BT(5,1)+PB(23)*BT(7,1))*F1B
ENDIF
WB(2,2)=0.
F1C=1.+PC(22)*DFC*SWC(1)
WC(1,2)=0.
IF(WW(2).NE.9898) THEN
WC(2,2)=-(PC(2)*BT(2,1)+PC(3)*BT(4,1)+PC(23)*BT(6,1))*F1C
$ -(PC(27)*BT(3,1)+PC(15)*BT(5,1)+PC(60)*BT(7,1)
$ +PC(161)*BT(9,1)+PC(162)*BT(11,1)+PC(163)*BT(13,1))*F1C
ENDIF
C SYMMETRICAL ANNUAL
C SYMMETRICAL SEMIANNUAL
IF(WW(1).NE.9898) THEN
WB(1,4)=(PB(17)*BT(3,1)+PB(31)*BT(5,1))*CD18
ENDIF
WB(2,4)=0
WC(1,4)=0
IF(WW(2).NE.9898) THEN
WC(2,4)=-(PC(17)*BT(2,1)+PC(31)*BT(4,1))*CD18
ENDIF
C ASYMMETRICAL ANNUAL
F5B=1.+PB(48)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WB(1,5)=(PB(10)*BT(2,1)+PB(11)*BT(4,1))*CD14*F5B
ENDIF
WB(2,5)=0
F5C=1.+PC(48)*DFC*SWC(1)
WC(1,5)=0
IF(WW(2).NE.9898) THEN
WC(2,5)=-(PC(10)*BT(3,1)+PC(11)*BT(5,1))*CD14*F5C
ENDIF
C ASYMMETRICAL SEMIANNUAL
C none
C DIURNAL
IF(SW(7).EQ.0) GOTO 200
F7B=1.+PB(50)*DFC*SWC(1)
F75B=1.+PB(83)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WB(1,7)=(PB(7)*BT(2,2)+PB(8)*BT(4,2)+PB(29)*BT(6,2)
$ +PB(142)*BT(8,2)+PB(144)*BT(10,2)
$ +PB(182)*BT(3,2)+PB(184)*BT(5,2)
$ )*SSTL*F7B
$ +(PB(13)*BT(3,2)+PB(146)*BT(5,2))
$ *CD14*SSTL*F75B*SWC(5)
$ +(PB(171)*BT(2,2)+PB(173)*BT(4,2))
$ *CD18*SSTL*F75B*SWC(4)
$ + (PB(4)*BT(2,2)+PB(5)*BT(4,2)+PB(28)*BT(6,2)
$ +PB(141)*BT(8,2)+PB(143)*BT(10,2)
$ +PB(181)*BT(3,2)+PB(183)*BT(5,2)
$ )*CSTL*F7B
$ +(PB(12)*BT(3,2)+PB(145)*BT(5,2))
$ *CD14*CSTL*F75B*SWC(5)
$ +(PB(170)*BT(2,2)+PB(172)*BT(4,2))
$ *CD18*CSTL*F75B*SWC(4)
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,7)=-(PB(4)*BP(2,2)+PB(5)*BP(4,2)+PB(28)*BP(6,2)
$ +PB(141)*BP(8,2)+PB(143)*BP(10,2)
$ +PB(181)*BP(3,2)+PB(183)*BP(5,2)
$ )*SSTL*F7B
$ -(PB(12)*BP(3,2)+PB(145)*BP(5,2))
$ *CD14*SSTL*F75B*SWC(5)
$ -(PB(170)*BP(2,2)+PB(172)*BP(4,2))
$ *CD18*SSTL*F75B*SWC(4)
$ + (PB(7)*BP(2,2)+PB(8)*BP(4,2)+PB(29)*BP(6,2)
$ +PB(142)*BP(8,2)+PB(144)*BP(10,2)
$ +PB(182)*BP(3,2)+PB(184)*BP(5,2)
$ )*CSTL*F7B
$ +(PB(13)*BP(3,2)+PB(146)*BP(5,2))
$ *CD14*CSTL*F75B*SWC(5)
$ +(PB(171)*BP(2,2)+PB(173)*BP(4,2))
$ *CD18*CSTL*F75B*SWC(4)
ENDIF
F7C=1.+PC(50)*DFC*SWC(1)
F75C=1.+PC(83)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WC(1,7)=-(PC(4)*BP(3,2)+PC(5)*BP(5,2)+PC(28)*BP(7,2)
$ +PC(141)*BP(9,2)+PC(143)*BP(11,2)
$ +PC(181)*BP(2,2)+PC(183)*BP(4,2)+PC(185)*BP(6,2)
$ +PC(187)*BP(8,2)+PC(189)*BP(10,2)
$ )*SSTL*F7C
$ -(PC(12)*BP(2,2)+PC(145)*BP(4,2))
$ *CD14*SSTL*F75C*SWC(5)
$ -(PC(170)*BP(3,2)+PC(172)*BP(5,2))
$ *CD18*SSTL*F75C*SWC(4)
$ +(PC(7)*BP(3,2)+PC(8)*BP(5,2)+PC(29)*BP(7,2)
$ +PC(142)*BP(9,2)+PC(144)*BP(11,2)
$ +PC(182)*BP(2,2)+PC(184)*BP(4,2)+PC(186)*BP(6,2)
$ +PC(188)*BP(8,2)+PC(190)*BP(10,2)
$ )*CSTL*F7C
$ +(PC(13)*BP(2,2)+PC(146)*BP(4,2))
$ *CD14*CSTL*F75C*SWC(5)
$ +(PC(171)*BP(3,2)+PC(173)*BP(5,2))
$ *CD18*CSTL*F75C*SWC(4)
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,7)=-(PC(7)*BT(3,2)+PC(8)*BT(5,2)+PC(29)*BT(7,2)
$ +PC(142)*BT(9,2)+PC(144)*BT(11,2)
$ +PC(182)*BT(2,2)+PC(184)*BT(4,2)+PC(186)*BT(6,2)
$ +PC(188)*BT(8,2)+PC(190)*BT(10,2)
$ )*SSTL*F7C
$ -(PC(13)*BT(2,2)+PC(146)*BT(4,2))
$ *CD14*SSTL*F75C*SWC(5)
$ -(PC(171)*BT(3,2)+PC(173)*BT(5,2))
$ *CD18*SSTL*F75C*SWC(4)
$ -(PC(4)*BT(3,2)+PC(5)*BT(5,2)+PC(28)*BT(7,2)
$ +PC(141)*BT(9,2)+PC(143)*BT(11,2)
$ +PC(181)*BT(2,2)+PC(183)*BT(4,2)+PC(185)*BT(6,2)
$ +PC(187)*BT(8,2)+PC(189)*BT(10,2)
$ )*CSTL*F7C
$ -(PC(12)*BT(2,2)+PC(145)*BT(4,2))
$ *CD14*CSTL*F75C*SWC(5)
$ -(PC(170)*BT(3,2)+PC(172)*BT(5,2))
$ *CD18*CSTL*F75C*SWC(4)
ENDIF
200 CONTINUE
C SEMIDIURNAL
IF(SW(8).EQ.0) GOTO 210
F8B=1.+PB(90)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WB(1,8)=(PB(9)*BT(3,3)+PB(43)*BT(5,3)
$ +PB(111)*BT(7,3)
$ +(PB(34)*BT(4,3)+PB(148)*BT(6,3))*CD14*SWC(5)
$ +(PB(134)*BT(3,3))*CD18*SWC(4)
$ +PB(152)*BT(4,3)+PB(154)*BT(6,3)+PB(156)*BT(8,3)
$ +PB(158)*BT(10,3)
$ )*S2STL*F8B
$ +(PB(6)*BT(3,3)+PB(42)*BT(5,3)
$ +PB(110)*BT(7,3)
$ +(PB(24)*BT(4,3)+PB(147)*BT(6,3))*CD14*SWC(5)
$ +(PB(135)*BT(3,3))*CD18*SWC(4)
$ +PB(151)*BT(4,3)+PB(153)*BT(6,3)+PB(155)*BT(8,3)
$ +PB(157)*BT(10,3)
$ )*C2STL*F8B
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,8)=-(PB(6)*BP(3,3)+PB(42)*BP(5,3)
$ +PB(110)*BP(7,3)
$ +(PB(24)*BP(4,3)+PB(147)*BP(6,3))*CD14*SWC(5)
$ +(PB(135)*BP(3,3))*CD18*SWC(4)
$ +PB(151)*BP(4,3)+PB(153)*BP(6,3)+PB(155)*BP(8,3)
$ +PB(157)*BP(10,3)
$ )*S2STL*F8B
$ + (PB(9)*BP(3,3)+PB(43)*BP(5,3)
$ +PB(111)*BP(7,3)
$ +(PB(34)*BP(4,3)+PB(148)*BP(6,3))*CD14*SWC(5)
$ +(PB(134)*BP(3,3))*CD18*SWC(4)
$ +PB(152)*BP(4,3)+PB(154)*BP(6,3)+PB(156)*BP(8,3)
$ +PB(158)*BP(10,3)
$ )*C2STL*F8B
ENDIF
F8C=1.+PC(90)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WC(1,8)=-(PC(6)*BP(4,3)+PC(42)*BP(6,3)
$ +PC(110)*BP(8,3)
$ +(PC(24)*BP(3,3)+PC(147)*BP(5,3))*CD14*SWC(5)
$ +(PC(135)*BP(4,3))*CD18*SWC(4)
$ +PC(151)*BP(3,3)+PC(153)*BP(5,3)+PC(155)*BP(7,3)
$ +PC(157)*BP(9,3)
$ )*S2STL*F8C
$ +(PC(9)*BP(4,3)+PC(43)*BP(6,3)
$ +PC(111)*BP(8,3)
$ +(PC(34)*BP(3,3)+PC(148)*BP(5,3))*CD14*SWC(5)
$ +(PC(134)*BP(4,3))*CD18*SWC(4)
$ +PC(152)*BP(3,3)+PC(154)*BP(5,3)+PC(156)*BP(7,3)
$ +PC(158)*BP(9,3)
$ )*C2STL*F8C
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,8)=-(PC(9)*BT(4,3)+PC(43)*BT(6,3)
$ +PC(111)*BT(8,3)
$ +(PC(34)*BT(3,3)+PC(148)*BT(5,3))*CD14*SWC(5)
$ +(PC(134)*BT(4,3))*CD18*SWC(4)
$ +PC(152)*BT(3,3)+PC(154)*BT(5,3)+PC(156)*BT(7,3)
$ +PC(158)*BT(9,3)
$ )*S2STL*F8C
$ - (PC(6)*BT(4,3)+PC(42)*BT(6,3)
$ +PC(110)*BT(8,3)
$ +(PC(24)*BT(3,3)+PC(147)*BT(5,3))*CD14*SWC(5)
$ +(PC(135)*BT(4,3))*CD18*SWC(4)
$ +PC(151)*BT(3,3)+PC(153)*BT(5,3)+PC(155)*BT(7,3)
$ +PC(157)*BT(9,3)
$ )*C2STL*F8C
ENDIF
210 CONTINUE
C TERDIURNAL
IF(SW(14).EQ.0) GOTO 220
F14B=1.
IF(WW(1).NE.9898) THEN
WB(1,14)=(PB(40)*BT(4,4)+PB(149)*BT(6,4)
$ +PB(114)*BT(8,4)
$ +(PB(94)*BT(5,4)+PB(47)*BT(7,4))*CD14*SWC(5)
$ )*S3STL*F14B
$ + (PB(41)*BT(4,4)+PB(150)*BT(6,4)
$ +PB(115)*BT(8,4)
$ +(PB(95)*BT(5,4)+PB(49)*BT(7,4))*CD14*SWC(5)
$ )*C3STL*F14B
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,14)=-(PB(41)*BP(4,4)+PB(150)*BP(6,4)
$ +PB(115)*BP(8,4)
$ +(PB(95)*BP(5,4)+PB(49)*BP(7,4))*CD14*SWC(5)
$ )*S3STL*F14B
$ + (PB(40)*BP(4,4)+PB(149)*BP(6,4)
$ +PB(114)*BP(8,4)
$ +(PB(94)*BP(5,4)+PB(47)*BP(7,4))*CD14*SWC(5)
$ )*C3STL*F14B
ENDIF
F14C=1.
IF(WW(1).NE.9898) THEN
WC(1,14)=-(PC(41)*BP(5,4)+PC(150)*BP(7,4)
$ +PC(115)*BP(9,4)
$ +(PC(95)*BP(4,4)+PC(49)*BP(6,4))*CD14*SWC(5)
$ )*S3STL*F14C
$ + (PC(40)*BP(5,4)+PC(149)*BP(7,4)
$ +PC(114)*BP(9,4)
$ +(PC(94)*BP(4,4)+PC(47)*BP(6,4))*CD14*SWC(5)
$ )*C3STL*F14C
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,14)=-(PC(40)*BT(5,4)+PC(149)*BT(7,4)
$ +PC(114)*BT(9,4)
$ +(PC(94)*BT(4,4)+PC(47)*BT(6,4))*CD14*SWC(5)
$ )*S3STL*F14C
$ - (PC(41)*BT(5,4)+PC(150)*BT(7,4)
$ +PC(115)*BT(9,4)
$ +(PC(95)*BT(4,4)+PC(49)*BT(6,4))*CD14*SWC(5)
$ )*C3STL*F14C
ENDIF
220 CONTINUE
C MAGNETIC ACTIVITY
IF(SW(9).EQ.0.) GOTO 40
IF(SW9.EQ.-1.) GOTO 30
C daily AP
APD=AP(1)-4.
APDF=(APD+(PB(45)-1.)*(APD+(EXP(-PB(44)*APD)-1.)/PB(44)))
C APDFC=(APD+(PC(45)-1.)*(APD+(EXP(-PC(44)*APD)-1.)/PC(44)))
APDFC=APDF
IF(APD.EQ.0.) GOTO 40
IF(WW(1).NE.9898) THEN
WB(1,9)=(PB(46)*BT(3,1)+PB(35)*BT(5,1)+PB(33)*BT(7,1))*APDF
$ +(PB(175)*BT(3,3)+PB(177)*BT(5,3))*S2STL*APDF
$ +(PB(174)*BT(3,3)+PB(176)*BT(5,3))*C2STL*APDF
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,9)=0
$ -(PB(174)*BP(3,3)+PB(176)*BP(5,3))*S2STL*APDF
$ +(PB(175)*BP(3,3)+PB(177)*BP(5,3))*C2STL*APDF
ENDIF
IF(WW(1).NE.9898) THEN
WC(1,9)=SWC(7)*WC(1,7)*PC(122)*APDFC
$ -(PC(174)*BP(4,3)+PC(176)*BP(6,3))*S2STL*APDFC
$ +(PC(175)*BP(4,3)+PC(177)*BP(6,3))*C2STL*APDFC
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,9)=-(PC(46)*BT(2,1)+PC(35)*BT(4,1)+PC(33)*BT(6,1))*APDFC
$ +SWC(7)*WC(2,7)*PC(122)*APDFC
$ -(PC(175)*BT(4,3)+PC(177)*BT(6,3))*S2STL*APDFC
$ -(PC(174)*BT(4,3)+PC(176)*BT(6,3))*C2STL*APDFC
ENDIF
GO TO 40
30 CONTINUE
IF(PB(25).LT.1.E-4) PB(25)=1.E-4
APT=G0(AP(2))
IF(APT.EQ.0) GOTO 40
IF(WW(1).NE.9898) THEN
WB(1,9)=(PB(97)*BT(3,1)+PB(55)*BT(5,1)+PB(51)*BT(7,1))*APT
$ +(PB(160)*BT(3,3)+PB(179)*BT(5,3))*S2STL*APT
$ +(PB(159)*BT(3,3)+PB(178)*BT(5,3))*C2STL*APT
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,9)=0
$ -(PB(159)*BP(3,3)+PB(178)*BP(5,3))*S2STL*APT
$ +(PB(160)*BP(3,3)+PB(179)*BP(5,3))*C2STL*APT
ENDIF
IF(WW(1).NE.9898) THEN
WC(1,9)=SWC(7)*WC(1,7)*PC(129)*APT
$ -(PC(159)*BP(4,3)+PC(178)*BP(6,3))*S2STL*APT
$ +(PC(160)*BP(4,3)+PC(179)*BP(6,3))*C2STL*APT
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,9)=-(PC(97)*BT(2,1)+PC(55)*BT(4,1)+PC(51)*BT(6,1))*APT
$ +SWC(7)*WC(2,7)*PC(129)*APT
$ -(PC(160)*BT(4,3)+PC(179)*BT(6,3))*S2STL*APT
$ -(PC(159)*BT(4,3)+PC(178)*BT(6,3))*C2STL*APT
ENDIF
40 CONTINUE
IF(SW(10).EQ.0) GOTO 49
C LONGITUDINAL
DBASY1=1.+PB(199)*SLAT
DBASY2=1.+PB(200)*SLAT
F11B=1.+PB(81)*DFC*SWC(1)
IF(SW(11).EQ.0) GOTO 230
IF(WW(1).NE.9898) THEN
WB(1,11)=(PB(91)*BT(3,2)+PB(92)*BT(5,2)+PB(93)*BT(7,2))
$ *SLONG*DBASY1*F11B
$ + (PB(65)*BT(3,2)+PB(66)*BT(5,2)+PB(67)*BT(7,2))
$ *CLONG*DBASY1*F11B
$ +(PB(191)*BT(3,3)+PB(193)*BT(5,3)+PB(195)*BT(7,3)
$ +PB(197)*BT(9,3)
$ )*S2LONG*DBASY2*F11B
$ + (PB(192)*BT(3,3)+PB(194)*BT(5,3)+PB(196)*BT(7,3)
$ +PB(198)*BT(9,3)
$ )*C2LONG*DBASY2*F11B
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,11)=-(PB(65)*BP(3,2)+PB(66)*BP(5,2)+PB(67)*BP(7,2))
$ *SLONG*DBASY1*F11B
$ + (PB(91)*BP(3,2)+PB(92)*BP(5,2)+PB(93)*BP(7,2))
$ *CLONG*DBASY1*F11B
$ -(PB(192)*BP(3,3)+PB(194)*BP(5,3)+PB(196)*BP(7,3)
$ +PB(198)*BP(9,3)
$ )*S2LONG*DBASY2*F11B
$ + (PB(191)*BP(3,3)+PB(193)*BP(5,3)+PB(195)*BP(7,3)
$ +PB(197)*BP(9,3)
$ )*C2LONG*DBASY2*F11B
ENDIF
DCASY1=1.+PC(199)*SLAT
DCASY2=1.+PC(200)*SLAT
F11C=1.+PC(81)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WC(1,11)=-(PC(65)*BP(2,2)+PC(66)*BP(4,2)+PC(67)*BP(6,2)
$ +PC(73)*BP(8,2)+PC(74)*BP(10,2)
$ )*SLONG*DCASY1*F11C
$ + (PC(91)*BP(2,2)+PC(92)*BP(4,2)+PC(93)*BP(6,2)
$ +PC(87)*BP(8,2)+PC(88)*BP(10,2)
$ )*CLONG*DCASY1*F11C
$ -(PC(192)*BP(4,3)+PC(194)*BP(6,3)+PC(196)*BP(8,3)
$ +PC(198)*BP(10,3)
$ )*S2LONG*DCASY2*F11C
$ + (PC(191)*BP(4,3)+PC(193)*BP(6,3)+PC(195)*BP(8,3)
$ +PC(197)*BP(10,3)
$ )*C2LONG*DCASY2*F11C
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,11)=-(PC(91)*BT(2,2)+PC(92)*BT(4,2)+PC(93)*BT(6,2)
$ +PC(87)*BT(8,2)+PC(88)*BT(10,2)
$ )*SLONG*DCASY1*F11C
$ - (PC(65)*BT(2,2)+PC(66)*BT(4,2)+PC(67)*BT(6,2)
$ +PC(73)*BT(8,2)+PC(74)*BT(10,2)
$ )*CLONG*DCASY1*F11C
$ -(PC(191)*BT(4,3)+PC(193)*BT(6,3)+PC(195)*BT(8,3)
$ +PC(197)*BT(10,3)
$ )*S2LONG*DCASY2*F11C
$ - (PC(192)*BT(4,3)+PC(194)*BT(6,3)+PC(196)*BT(8,3)
$ +PC(198)*BT(10,3)
$ )*C2LONG*DCASY2*F11C
ENDIF
230 CONTINUE
C UT & MIXED UT/LONG
UTBASY=1.
F12B=1.+PB(82)*DFC*SWC(1)
IF(SW(12).EQ.0) GOTO 240
IF(WW(1).NE.9898) THEN
WB(1,12)=(PB(69)*BT(2,1)+PB(70)*BT(4,1)+PB(71)*BT(6,1)
$ +PB(116)*BT(8,1)+PB(117)*BT(10,1)+PB(118)*BT(12,1)
$ )*COS(SR*(SEC-PB(72)))*UTBASY*F12B
$ + (PB(77)*BT(4,3)+PB(78)*BT(6,3)+PB(79)*BT(8,3))
$ *COS(SR*(SEC-PB(80))+2.*DGTR*LONG)*UTBASY*F12B*SWC(11)
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,12)=(PB(77)*BP(4,3)+PB(78)*BP(6,3)+PB(79)*BP(8,3))
$ *COS(SR*(SEC-PB(80)+21600.)+2.*DGTR*LONG)
$ *UTBASY*F12B*SWC(11)
ENDIF
UTCASY=1.
F12C=1.+PC(82)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WC(1,12)=(PC(77)*BP(3,3)+PC(78)*BP(5,3)+PC(79)*BP(7,3)
$ +PC(165)*BP(9,3)+PC(166)*BP(11,3)+PC(167)*BP(13,3)
$ )*COS(SR*(SEC-PC(80))+2.*DGTR*LONG)*UTCASY*F12C*SWC(11)
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,12)=-(PC(69)*BT(3,1)+PC(70)*BT(5,1)+PC(71)*BT(7,1)
$ +PC(116)*BT(9,1)+PC(117)*BT(11,1)+PC(118)*BT(13,1)
$ )*COS(SR*(SEC-PC(72)))*UTCASY*F12C
$ + (PC(77)*BT(3,3)+PC(78)*BT(5,3)+PC(79)*BT(7,3)
$ +PC(165)*BT(9,3)+PC(166)*BT(11,3)+PC(167)*BT(13,3)
$ )*COS(SR*(SEC-PC(80)+21600.)+2.*DGTR*LONG)
$ *UTCASY*F12C*SWC(11)
ENDIF
240 CONTINUE
C MIXED LONG,UT,AP
IF(SW(13).EQ.0) GOTO 48
IF(SW9.EQ.-1.) GO TO 45
IF(APD.EQ.0) GOTO 48
IF(WW(1).NE.9898) THEN
WB(1,13)=
$ (PB(61)*BT(3,2)+PB(62)*BT(5,2)+PB(63)*BT(7,2))
$ *COS(DGTR*(LONG-PB(64)))*APDF*SWC(11)+
$ (PB(84)*BT(2,1)+PB(85)*BT(4,1)+PB(86)*BT(6,1))
$ *COS(SR*(SEC-PB(76)))*APDF*SWC(12)
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,13)=(PB(61)*BP(3,2)+PB(62)*BP(5,2)+PB(63)*BP(7,2))
$ *COS(DGTR*(LONG-PB(64)+90.))*APDF*SWC(11)
ENDIF
IF(WW(1).NE.9898) THEN
WC(1,13)=SWC(11)*WC(1,11)*PC(61)*APDFC
$ +SWC(12)*WC(1,12)*PC(84)*APDFC
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,13)=SWC(11)*WC(2,11)*PC(61)*APDFC
$ +SWC(12)*WC(2,12)*PC(84)*APDFC
ENDIF
GOTO 48
45 CONTINUE
IF(APT.EQ.0) GOTO 48
IF(WW(1).NE.9898) THEN
WB(1,13)=
$ (PB(53)*BT(3,2)+PB(99)*BT(5,2)+PB(68)*BT(7,2))
$ *COS(DGTR*(LONG-PB(98)))*APT*SWC(11)+
$ (PB(56)*BT(2,1)+PB(57)*BT(4,1)+PB(58)*BT(6,1))
$ *COS(SR*(SEC-PB(59)))*APT*SWC(12)
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,13)=(PB(53)*BP(3,2)+PB(99)*BP(5,2)+PB(68)*BP(7,2))
$ *COS(DGTR*(LONG-PB(98)+90.))*APT*SWC(11)
ENDIF
IF(WW(1).NE.9898) THEN
WC(1,13)=SWC(11)*WC(1,11)*PC(53)*APT
$ +SWC(12)*WC(1,12)*PC(56)*APT
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,13)=SWC(11)*WC(2,11)*PC(53)*APT
$ +SWC(12)*WC(2,12)*PC(56)*APT
ENDIF
48 CONTINUE
49 CONTINUE
WBT(1)=0
WBT(2)=0
WCT(1)=0
WCT(2)=0
C SUM WINDS AND CHANGE MERIDIONAL SIGN TO + NORTH
DO 50 K=1,NSW
WBT(1)=WBT(1)-ABS(SW(K))*WB(1,K)
WCT(1)=WCT(1)-ABS(SW(K))*WC(1,K)
WBT(2)=WBT(2)+ABS(SW(K))*WB(2,K)
WCT(2)=WCT(2)+ABS(SW(K))*WC(2,K)
50 CONTINUE
IF(WW(1).NE.9898) WW(1)=WBT(1)*SW(24)+WCT(1)*SW(25)
IF(WW(2).NE.9898) WW(2)=WBT(2)*SW(24)+WCT(2)*SW(25)
END SUBROUTINE GLBW5E
C-----------------------------------------------------------------------
SUBROUTINE GLBW5M(YRD,LAT,STL,F107A,F107,AP,PB,PC,WW)
REAL, intent(in) :: yrd, LAT, stl, f107a, f107
real :: WB(2,15),WC(2,15)
real, intent(in) :: AP(2),PC(150)
real, intent(inout) :: PB(150),WW(2)
COMMON/CSW/SW(25),ISW,SWC(25)
COMMON/HWMC/WBT(2),WCT(2)
C COMMON/VPOLY/BT(20,20),BP(20,20),CSTL,SSTL,C2STL,S2STL,
C $ C3STL,S3STL,IYR,DAY,DF,DFA,DFC,APD,APDF,APDFC,APT,STL
COMMON/VPOLY2/XVL,LVL,MVL,CLAT,SLAT,BT(20,20),BP(20,20)
COMMON/LTCOMP/TLL,NSVL,CSTL,SSTL,C2STL,S2STL,C3STL,S3STL
COMMON/LGCOMP/XLL,NGVL,CLONG,SLONG,C2LONG,S2LONG
SAVE
DATA DGTR/.017453/,SR/7.2722E-5/,HR/.2618/,DR/1.72142E-2/
DATA PB14/-1./,PB18/-1./
DATA NSW/14/,WB/30*0/,WC/30*0/
DATA SW9/1./,LV/10/,MV/2/,NSV/2/,PSET/4./
G0(A)=(A-4.+(PB(26)-1.)*(A-4.+(EXP(-ABS(PB(25))*(A-4.))-1.)/
* ABS(PB(25))))
C CONFIRM PARAMETER SET
IF(PB(100).EQ.0) PB(100)=PSET
IF(PB(100).NE.PSET) THEN
WRITE(6,900) PSET,PB(100),PC(100)
900 FORMAT(1X,'WRONG PARAMETER SET FOR GLBW5M',3F10.1)
STOP 1
ENDIF
C
DO 10 J=1,NSW
WB(1,J)=0
WB(2,J)=0
WC(1,J)=0
WC(2,J)=0
10 CONTINUE
IF(SW(9).GT.0) SW9=1.
IF(SW(9).LT.0) SW9=-1.
IYR = int(YRD/1000.)
DAY = YRD - IYR*1000.
IF(XVL.NE.LAT.OR.LV.GT.LVL.OR.MV.GT.MVL) THEN
SLAT=SIN(DGTR*LAT)
CLAT=COS(DGTR*LAT)
CALL VSPHR1(SLAT,CLAT,LV,MV,BT,BP,20)
XVL=LAT
LVL=LV
MVL=MV
ENDIF
IF(TLL.NE.STL.OR.NSV.GT.NSVL) THEN
SSTL = SIN(HR*STL)
CSTL = COS(HR*STL)
S2STL = SIN(2.*HR*STL)
C2STL = COS(2.*HR*STL)
TLL = STL
NSVL=NSV
ENDIF
IF(DAY.NE.DAYL.OR.PB(14).NE.PB14) CD14=COS(DR*(DAY-PB(14)))
IF(DAY.NE.DAYL.OR.PB(18).NE.PB18) CD18=COS(2.*DR*(DAY-PB(18)))
IF(DAY.NE.DAYL.OR.PB(19).NE.PB19) CD19B=COS(2.*DR*(DAY-PB(19)))
DAYL=DAY
PB14=PB(14)
PB18=PB(18)
PB19=PB(19)
C F10.7 EFFECT
DF=F107-F107A
DFA=F107A-150.
DFC=DFA+PB(20)*DF
C TIME INDEPENDENT
F1B=1.
IF(WW(1).NE.9898) THEN
WB(1,2)=(PB(2)*BT(3,1)+PB(3)*BT(5,1)+PB(23)*BT(7,1))*F1B
ENDIF
WB(2,2)=0.
F1C=1.
WC(1,2)=0.
IF(WW(2).NE.9898) THEN
WC(2,2)=-(PC(2)*BT(2,1)+PC(3)*BT(4,1)+PC(23)*BT(6,1))*F1C
$ -(PC(27)*BT(3,1)+PC(15)*BT(5,1)+PC(60)*BT(7,1))*F1C
ENDIF
C SYMMETRICAL ANNUAL
C SYMMETRICAL SEMIANNUAL
IF(WW(1).NE.9898) THEN
WB(1,4)=(PB(17)*BT(3,1)+PB(31)*BT(5,1))*CD18
ENDIF
WB(2,4)=0
WC(1,4)=0
IF(WW(2).NE.9898) THEN
WC(2,4)=-(PC(17)*BT(2,1)+PC(31)*BT(4,1))*CD18
ENDIF
C ASYMMETRICAL ANNUAL
F5B=1.
IF(WW(1).NE.9898) THEN
WB(1,5)=(PB(10)*BT(2,1)+PB(11)*BT(4,1))*CD14*F5B
ENDIF
WB(2,5)=0
F5C=1.
WC(1,5)=0
IF(WW(2).NE.9898) THEN
WC(2,5)=-(PC(10)*BT(3,1)+PC(11)*BT(5,1))*CD14*F5C
ENDIF
C ASYMMETRICAL SEMIANNUAL
C DIURNAL
IF(SW(7).EQ.0) GOTO 200
F7B=1.
F75B=1.
IF(WW(1).NE.9898) THEN
WB(1,7)=(PB(7)*BT(2,2)+PB(8)*BT(4,2)+PB(29)*BT(6,2)
$ +PB(89)*BT(3,2)
$ )*SSTL*F7B
$ +(PB(13)*BT(3,2)+PB(146)*BT(5,2))
$ *CD14*SSTL*F75B*SWC(5)
$ + (PB(4)*BT(2,2)+PB(5)*BT(4,2)+PB(28)*BT(6,2)
$ +PB(88)*BT(3,2)
$ )*CSTL*F7B
$ +(PB(12)*BT(3,2)+PB(145)*BT(5,2))
$ *CD14*CSTL*F75B*SWC(5)
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,7)=-(PB(4)*BP(2,2)+PB(5)*BP(4,2)+PB(28)*BP(6,2)
$ +PB(88)*BP(3,2)
$ )*SSTL*F7B
$ -(PB(12)*BP(3,2)+PB(145)*BP(5,2))
$ *CD14*SSTL*F75B*SWC(5)
$ + (PB(7)*BP(2,2)+PB(8)*BP(4,2)+PB(29)*BP(6,2)
$ +PB(89)*BP(3,2)
$ )*CSTL*F7B
$ +(PB(13)*BP(3,2)+PB(146)*BP(5,2))
$ *CD14*CSTL*F75B*SWC(5)
ENDIF
F7C=1.
F75C=1.
IF(WW(1).NE.9898) THEN
WC(1,7)=-(PC(4)*BP(3,2)+PC(5)*BP(5,2)+PC(28)*BP(7,2)
$ +PC(88)*BP(2,2)
$ +PC(141)*BP(9,2)+PC(143)*BP(11,2)
$ )*SSTL*F7C
$ -(PC(12)*BP(2,2)+PC(145)*BP(4,2))
$ *CD14*SSTL
$ *F75C*SWC(5)
$ +(PC(7)*BP(3,2)+PC(8)*BP(5,2)+PC(29)*BP(7,2)
$ +PC(89)*BP(2,2)
$ +PC(142)*BP(9,2)+PC(144)*BP(11,2)
$ )*CSTL*F7C
$ +(PC(13)*BP(2,2)+PC(146)*BP(4,2))
$ *CD14*CSTL
$ *F75C*SWC(5)
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,7)=-(PC(7)*BT(3,2)+PC(8)*BT(5,2)+PC(29)*BT(7,2)
$ +PC(89)*BT(2,2)
$ +PC(142)*BT(9,2)+PC(144)*BT(11,2)
$ )*SSTL*F7C
$ -(PC(13)*BT(2,2)+PC(146)*BT(4,2))
$ *CD14*SSTL
$ *F75C*SWC(5)
$ -(PC(4)*BT(3,2)+PC(5)*BT(5,2)+PC(28)*BT(7,2)
$ +PC(88)*BT(2,2)
$ +PC(141)*BT(9,2)+PC(143)*BT(11,2)
$ )*CSTL*F7C
$ -(PC(12)*BT(2,2)+PC(145)*BT(4,2))
$ *CD14*CSTL
$ *F75C*SWC(5)
ENDIF
200 CONTINUE
C SEMIDIURNAL
IF(SW(8).EQ.0) GOTO 210
F8B=1.+PB(90)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WB(1,8)=(PB(9)*BT(3,3)+PB(43)*BT(5,3)+PB(111)*BT(7,3)
$ +PB(98)*BT(4,3)
$ +(PB(34)*BT(4,3)+PB(148)*BT(6,3))*CD14*SWC(5)
$ +(PB(37)*BT(4,3))*CD19B*SWC(6)
$ )*S2STL*F8B
$ +(PB(6)*BT(3,3)+PB(42)*BT(5,3)+PB(110)*BT(7,3)
$ +PB(96)*BT(4,3)
$ +(PB(24)*BT(4,3)+PB(147)*BT(6,3))*CD14*SWC(5)
$ +(PB(36)*BT(4,3))*CD19B*SWC(6)
$ )*C2STL*F8B
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,8)=-(PB(6)*BP(3,3)+PB(42)*BP(5,3)+PB(110)*BP(7,3)
$ +PB(96)*BP(4,3)
$ +(PB(24)*BP(4,3)+PB(147)*BP(6,3))*CD14*SWC(5)
$ +(PB(36)*BP(4,3))*CD19B*SWC(6)
$ )*S2STL*F8B
$ + (PB(9)*BP(3,3)+PB(43)*BP(5,3)+PB(111)*BP(7,3)
$ +PB(98)*BP(4,3)
$ +(PB(34)*BP(4,3)+PB(148)*BP(6,3))*CD14*SWC(5)
$ +(PB(37)*BP(4,3))*CD19B*SWC(6)
$ )*C2STL*F8B
ENDIF
F8C=1.+PC(90)*DFC*SWC(1)
IF(WW(1).NE.9898) THEN
WC(1,8)=-(PC(6)*BP(4,3)+PC(42)*BP(6,3)+PC(110)*BP(8,3)
$ +PC(96)*BP(3,3)
$ +(PC(24)*BP(3,3)+PC(147)*BP(5,3))*CD14*SWC(5)
$ +(PC(36)*BP(3,3))*CD19B*SWC(6)
$ )*S2STL*F8C
$ +(PC(9)*BP(4,3)+PC(43)*BP(6,3)+PC(111)*BP(8,3)
$ +PC(98)*BP(3,3)
$ +(PC(34)*BP(3,3)+PC(148)*BP(5,3))*CD14*SWC(5)
$ +(PC(37)*BP(3,3))*CD19B*SWC(6)
$ )*C2STL*F8C
ENDIF
IF(WW(2).NE.9898) THEN
WC(2,8)=-(PC(9)*BT(4,3)+PC(43)*BT(6,3)+PC(111)*BT(8,3)
$ +PC(98)*BT(3,3)
$ +(PC(34)*BT(3,3)+PC(148)*BT(5,3))*CD14*SWC(5)
$ +(PC(37)*BT(3,3))*CD19B*SWC(6)
$ )*S2STL*F8C
$ - (PC(6)*BT(4,3)+PC(42)*BT(6,3)
$ +PC(96)*BT(3,3)
$ +PC(110)*BT(8,3)
$ +(PC(24)*BT(3,3)+PC(147)*BT(5,3))*CD14*SWC(5)
$ +(PC(36)*BT(3,3))*CD19B*SWC(6)
$ )*C2STL*F8C
ENDIF
210 CONTINUE
C TERDIURNAL
C MAGNETIC ACTIVITY
IF(SW(9).EQ.0) GOTO 40
IF(SW9.EQ.-1.) GOTO 30
C daily AP
APD=AP(1)-4.
APDF=(APD+(PB(45)-1.)*(APD+(EXP(-PB(44)*APD)-1.)/PB(44)))
C APDFC=(APD+(PC(45)-1.)*(APD+(EXP(-PC(44)*APD)-1.)/PC(44)))
APDFC=APDF
IF(APD.EQ.0) GOTO 40
IF(WW(1).NE.9898) THEN
WB(1,9)=(PB(46)*BT(3,1)+PB(35)*BT(5,1))*APDF
$ +(PB(122)*BT(2,2)+PB(123)*BT(4,2)+PB(124)*BT(6,2)
$ )*COS(HR*(STL-PB(125)))*APDF*SWC(7)
ENDIF
IF(WW(2).NE.9898) THEN
WB(2,9)=
$ (PB(122)*BP(2,2)+PB(123)*BP(4,2)+PB(124)*BP(6,2)
$ )*COS(HR*(STL-PB(125)+6.))*APDF*SWC(7)