WSJT-X/lib/detectmsk32.f90
Joe Taylor 211f8ba291 Save/Restore status of Sh box. Limit range of auto-generated short-message
reports to -4 to +10 dB.  Include +/- sign in all reports.


git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@6907 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2016-07-12 15:45:27 +00:00

462 lines
14 KiB
Fortran

subroutine detectmsk32(cbig,n,mycall,partnercall,lines,nmessages,nutc,ntol)
use timer_module, only: timer
parameter (NSPM=192, NPTS=3*NSPM, MAXSTEPS=7500, NFFT=3*NSPM, MAXCAND=40)
character*4 rpt(0:31)
character*6 mycall,partnercall
character*22 msg,hashmsg,msgreceived,allmessages(20)
character*80 lines(100)
complex cbig(n)
complex cdat(NPTS) !Analytic signal
complex cdat2(NPTS)
complex c(NSPM)
complex ctmp(NFFT)
complex cb(42) !Complex waveform for sync word
complex cbr(42) !Complex waveform for reversed sync word
complex cfac,cca,ccb
complex cc(NPTS)
complex ccr(NPTS)
complex cc1(NPTS)
complex cc2(NPTS)
complex ccr1(NPTS)
complex ccr2(NPTS)
complex bb(6)
integer s8(8),s8r(8),hardbits(32)
integer, dimension(1) :: iloc
integer ihammd(0:4096-1)
integer indices(MAXSTEPS)
integer ipeaks(10)
integer ig24(0:4096-1)
integer likelymessages(0:31)
logical qsocontext
logical ismask(NFFT)
real cbi(42),cbq(42)
real cd(0:4095)
real detmet(-2:MAXSTEPS+3)
real detfer(MAXSTEPS)
real rcw(12)
real dd(NPTS)
real ddr(NPTS)
real ferrs(MAXCAND)
real pp(12) !Half-sine pulse shape
real snrs(MAXCAND)
real times(MAXCAND)
real tonespec(NFFT)
real*8 dt, df, fs, pi, twopi
real softbits(32)
logical first
data first/.true./
data s8/0,1,1,1,0,0,1,0/
data s8r/1,0,1,1,0,0,0,1/
data rpt /'-04 ','-03 ','-02 ','-01 ','+00 ','+01 ','+02 ','+03 ','+04 ', &
'+05 ','+06 ','+07 ','+08 ','+09 ','+10 ', &
'R-04','R-03','R-02','R-01','R+00','R+01','R+02','R+03','R+04', &
'R+05','R+06','R+07','R+08','R+09','R10', &
'RRR ','73 '/
save df,first,cb,cbr,fs,pi,twopi,dt,s8,rcw,pp,nmatchedfilter,ig24
if(first) then
nmatchedfilter=1
! define half-sine pulse and raised-cosine edge window
pi=4d0*datan(1d0)
twopi=8d0*datan(1d0)
fs=12000.0
dt=1.0/fs
df=fs/NFFT
do i=1,12
angle=(i-1)*pi/12.0
pp(i)=sin(angle)
rcw(i)=(1-cos(angle))/2
enddo
! define the sync word waveforms
s8=2*s8-1
cbq(1:6)=pp(7:12)*s8(1)
cbq(7:18)=pp*s8(3)
cbq(19:30)=pp*s8(5)
cbq(31:42)=pp*s8(7)
cbi(1:12)=pp*s8(2)
cbi(13:24)=pp*s8(4)
cbi(25:36)=pp*s8(6)
cbi(37:42)=pp(1:6)*s8(8)
cb=cmplx(cbi,cbq)
s8r=2*s8r-1
cbq(1:6)=pp(7:12)*s8r(1)
cbq(7:18)=pp*s8r(3)
cbq(19:30)=pp*s8r(5)
cbq(31:42)=pp*s8r(7)
cbi(1:12)=pp*s8r(2)
cbi(13:24)=pp*s8r(4)
cbi(25:36)=pp*s8r(6)
cbi(37:42)=pp(1:6)*s8r(8)
cbr=cmplx(cbi,cbq)
call golay24_table(ig24)
first=.false.
endif
! Define the 32 likely messages
do irpt=0,31
hashmsg=trim(mycall)//' '//trim(partnercall)//' '//rpt(irpt)
call fmtmsg(hashmsg,iz)
call hash(hashmsg,22,ihash)
ihash=iand(ihash,127)
ig=32*ihash + irpt
likelymessages(irpt)=ig
! write(*,*) irpt,hashmsg,ig,ig24(ig)
enddo
qsocontext=.false.
! Fill the detmet, detferr arrays
nstepsize=48 ! 4ms steps
nstep=(n-NPTS)/nstepsize
detmet=0
detmax=-999.99
detfer=-999.99
do istp=1,nstep
ns=1+nstepsize*(istp-1)
ne=ns+NPTS-1
if( ne .gt. n ) exit
ctmp=cmplx(0.0,0.0)
ctmp(1:NPTS)=cbig(ns:ne)
! Coarse carrier frequency sync - seek tones at 2000 Hz and 4000 Hz in
! squared signal spectrum.
! search range for coarse frequency error is +/- 100 Hz
ctmp=ctmp**2
ctmp(1:12)=ctmp(1:12)*rcw
ctmp(NPTS-11:NPTS)=ctmp(NPTS-11:NPTS)*rcw(12:1:-1)
call four2a(ctmp,NFFT,1,-1,1)
tonespec=abs(ctmp)**2
i3800=3800/df+1
i4200=4200/df+1
ismask=.false.
ismask(i3800:i4200)=.true. ! high tone search window
iloc=maxloc(tonespec,ismask)
ihpk=iloc(1)
deltah=-real( (ctmp(ihpk-1)-ctmp(ihpk+1)) / (2*ctmp(ihpk)-ctmp(ihpk-1)-ctmp(ihpk+1)) )
ah=tonespec(ihpk)
i1800=1800/df+1
i2200=2200/df+1
ismask=.false.
ismask(i1800:i2200)=.true. ! window for low tone
iloc=maxloc(tonespec,ismask)
ilpk=iloc(1)
deltal=-real( (ctmp(ilpk-1)-ctmp(ilpk+1)) / (2*ctmp(ilpk)-ctmp(ilpk-1)-ctmp(ilpk+1)) )
al=tonespec(ilpk)
fdiff=(ihpk+deltah-ilpk-deltal)*df
i2000=2000/df+1
i4000=4000/df+1
ferrh=(ihpk+deltah-i4000)*df/2.0
ferrl=(ilpk+deltal-i2000)*df/2.0
if( ah .ge. al ) then
ferr=ferrh
else
ferr=ferrl
endif
detmet(istp)=max(ah,al)
detfer(istp)=ferr
! write(*,*) istp,ilpk,ihpk,ah,al
enddo ! end of detection-metric and frequency error estimation loop
call indexx(detmet(1:nstep),nstep,indices) !find median of detection metric vector
! xmed=detmet(indices(nstep/2))
xmed=detmet(indices(nstep/4))
detmet=detmet/xmed ! noise floor of detection metric is 1.0
ndet=0
!do i=1,nstep
!write(77,*) i,detmet(i),detfer(i)
!enddo
do ip=1,MAXCAND ! use something like the "clean" algorithm to find candidates
iloc=maxloc(detmet(1:nstep))
il=iloc(1)
if( (detmet(il) .lt. 4.2) ) exit
if( abs(detfer(il)) .le. ntol ) then
ndet=ndet+1
times(ndet)=((il-1)*nstepsize+NPTS/2)*dt
ferrs(ndet)=detfer(il)
snrs(ndet)=12.0*log10(detmet(il)-1)/2-8.0
endif
detmet(max(1,il-3):min(nstep,il+3))=0.0
! detmet(il)=0.0
enddo
! do ip=1,ndet
! write(*,*) ip,times(ip),snrs(ip),ferrs(ip)
! enddo
nmessages=0
allmessages=char(0)
lines=char(0)
imsgbest=-1
nbadsyncbest=99
nhammdbest=99
cdbest=1e32
cdratbest=0.0
do ip=1,ndet !run through the candidates and try to sync/demod/decode
imid=times(ip)*fs
if( imid .lt. NPTS/2 ) imid=NPTS/2
if( imid .gt. n-NPTS/2 ) imid=n-NPTS/2
t0=times(ip)
cdat=cbig(imid-NPTS/2+1:imid+NPTS/2)
ferr=ferrs(ip)
nsnr=nint(snrs(ip))
! remove coarse freq error - should now be within a few Hz
call tweak1(cdat,NPTS,-(1500+ferr),cdat)
! attempt frame synchronization
! correlate with sync word waveforms
ccr=0
ccr1=0
ccr2=0
do i=1,NPTS-(32*6+41)
ccr1(i)=sum(cdat(i:i+41)*conjg(cbr))
ccr2(i)=sum(cdat(i+32*6:i+32*6+41)*conjg(cbr))
enddo
ccr=ccr1+ccr2
ddr=abs(ccr1)*abs(ccr2)
crmax=maxval(abs(ccr))
! Find 6 largest peaks
do ipk=1,6
iloc=maxloc(abs(ccr))
ic1=iloc(1)
iloc=maxloc(ddr)
ic2=iloc(1)
ipeaks(ipk)=ic1
ccr(max(1,ic1-7):min(NPTS-32*6-41,ic1+7))=0.0
enddo
do ipk=1,3
! we want ic to be the index of the first sample of the frame
ic0=ipeaks(ipk)
! fine adjustment of sync index
do i=1,6
if( ic0+11+NSPM .le. NPTS ) then
bb(i) = sum( ( cdat(ic0+i-1+6:ic0+i-1+6+NSPM:6) * conjg( cdat(ic0+i-1:ic0+i-1+NSPM:6) ) )**2 )
else
bb(i) = sum( ( cdat(ic0+i-1+6:NPTS:6) * conjg( cdat(ic0+i-1:NPTS-6:6) ) )**2 )
endif
enddo
iloc=maxloc(abs(bb))
ibb=iloc(1)
bba=abs(bb(ibb))
bbp=atan2(-imag(bb(ibb)),-real(bb(ibb)))/(2*twopi*6*dt)
if( ibb .le. 3 ) ibb=ibb-1
if( ibb .gt. 3 ) ibb=ibb-7
do id=1,1 ! slicer dither.
if( id .eq. 1 ) is=0
if( id .eq. 2 ) is=-1
if( id .eq. 3 ) is=1
! Adjust frame index to place peak of bb at desired lag
ic=ic0+ibb+is
if( ic .lt. 1 ) ic=ic+NSPM
! Estimate fine frequency error.
cca=sum(cdat(ic:ic+41)*conjg(cb))
if( ic+32*6+41 .le. NPTS ) then
ccb=sum(cdat(ic+32*6:ic+32*6+41)*conjg(cb))
cfac=ccb*conjg(cca)
ferr2=atan2(imag(cfac),real(cfac))/(twopi*32*6*dt)
else
ccb=sum(cdat(ic-32*6:ic-32*6+41)*conjg(cb))
cfac=cca*conjg(ccb)
ferr2=atan2(imag(cfac),real(cfac))/(twopi*32*6*dt)
endif
! Final estimate of the carrier frequency - returned to the calling program
fest=1500+ferr+ferr2
do idf=0,6 ! frequency jitter
if( idf .eq. 0 ) then
deltaf=0.0
elseif( mod(idf,2) .eq. 0 ) then
deltaf=2*idf
else
deltaf=-2*(idf+1)
endif
! Remove fine frequency error
call tweak1(cdat,NPTS,-(ferr2+deltaf),cdat2)
! place the beginning of frame at index NSPM+1
cdat2=cshift(cdat2,ic-(NSPM+1))
do iav=1,4 ! Frame averaging patterns
if( iav .eq. 1 ) then
c=cdat2(NSPM+1:2*NSPM)
elseif( iav .eq. 2 ) then
c=cdat2(1:NSPM)+cdat2(NSPM+1:2*NSPM)
elseif( iav .eq. 3 ) then
c=cdat2(NSPM+1:2*NSPM)+cdat2(2*NSPM+1:3*NSPM)
elseif( iav .eq. 4 ) then
c=cdat2(1:NSPM)+cdat2(NSPM+1:2*NSPM)+cdat2(2*NSPM+1:3*NSPM)
endif
! Estimate final frequency error and carrier phase.
cca=sum(c(1:1+41)*conjg(cb))
phase0=atan2(imag(cca),real(cca))
do ipha=1,3
if( ipha.eq.2 ) phase0=phase0-20*pi/180.0
if( ipha.eq.3 ) phase0=phase0+20*pi/180.0
! Remove phase error - want constellation rotated so that sample points lie on I/Q axes
cfac=cmplx(cos(phase0),sin(phase0))
c=c*conjg(cfac)
if( nmatchedfilter .eq. 0 ) then
do i=1, 16
softbits(2*i-1)=imag(c(1+(i-1)*12))
softbits(2*i)=real(c(7+(i-1)*12))
enddo
else ! matched filter
softbits(1)=sum(imag(c(1:6))*pp(7:12))+sum(imag(c(NSPM-5:NSPM))*pp(1:6))
softbits(2)=sum(real(c(1:12))*pp)
do i=2,16
softbits(2*i-1)=sum(imag(c(1+(i-1)*12-6:1+(i-1)*12+5))*pp)
softbits(2*i)=sum(real(c(7+(i-1)*12-6:7+(i-1)*12+5))*pp)
enddo
endif
hardbits=0 ! use sync word hard error weight to decide whether to send to decoder
do i=1, 32
if( softbits(i) .ge. 0.0 ) then
hardbits(i)=1
endif
enddo
nbadsync1=(8-sum( (2*hardbits(1:8)-1)*s8r ) )/2
nbadsync=nbadsync1
if( nbadsync .gt. 3 ) cycle
! normalize the softsymbols before submitting to decoder
sav=sum(softbits)/32
s2av=sum(softbits*softbits)/32
ssig=sqrt(s2av-sav*sav)
softbits=softbits/ssig
if( qsocontext ) then ! search only 32 likely messages.
cd=1e6
ihammd=99
do i=0,31
ncw=ig24(likelymessages(i))
cd(i)=0.0
ihammd(i)=0
do ii=1,24
ib=iand(1,ishft(ncw,1-ii))
ib=2*ib-1
if( ib*softbits(ii+8) .lt. 0 ) then
cd(i)=cd(i)+abs(softbits(ii+8))
ihammd(i)=ihammd(i)+1
endif
enddo
enddo
else ! exhaustive decoder, look at every codeword.
cd=1e6
ihammd=99
do i=0,4096-1
ncw=ig24(i)
cd(i)=0.0
ihammd(i)=0
do ii=1,24
ib=iand(1,ishft(ncw,1-ii))
ib=2*ib-1
if( ib*softbits(ii+8) .lt. 0 ) then
cd(i)=cd(i)+abs(softbits(ii+8))
ihammd(i)=ihammd(i)+1
endif
enddo
enddo
endif
cdm=minval(cd)
iloc=minloc(cd)
imsg=iloc(1)-1
cd(imsg)=1e6
cdm2=minval(cd)
iloc=minloc(cd)
imsg2=iloc(1)-1
cdrat=cdm2/(cdm+0.001)
cdrat2=cdm/(cdm2+0.0001)
if( (cdm .lt. cdbest) .or. ((cdm .eq. cdbest) .and. (ihammd(imsg) .lt. nhammdbest)) ) then
cdratbest = cdrat
cdrat2best = cdrat2
cdbest = cdm
imsgbest = imsg
imsg2best = imsg2
iavbest = iav
ipbest = ip
ipkbest = ipk
idfbest = idf
idbest = id
iphabest = ipha
nbadsyncbest = nbadsync
nhammdbest = ihammd(imsg)
if( ( nhammdbest .eq. 0 ) .and. (cdbest .eq. 0.0) .and. (cdratbest .gt. 2000.0) ) goto 999
endif
enddo ! phase loop
enddo ! frame averaging loop
enddo ! frequency dithering loop
enddo ! slicer dither loop
enddo ! time-sync correlation-peak loop
enddo ! candidate loop
999 continue
msgreceived=' '
if( imsgbest .gt. 0 ) then
if( ( nhammdbest+nbadsyncbest .le. 4 ) .and. cdratbest .gt. 10.0 ) then
if( qsocontext ) then
nrxrpt=iand(likelymessages(imsgbest),31)
nrxhash=(likelymessages(imsgbest)-nrxrpt)/32
imessage=likelymessages(imsgbest)
else
nrxrpt=iand(imsgbest,31)
nrxhash=(imsgbest-nrxrpt)/32
imessage=imsgbest
endif
! See if this message has a hash that is expected for a message sent to mycall by partnercall
hashmsg=trim(mycall)//' '//trim(partnercall)//' '//rpt(nrxrpt)
call fmtmsg(hashmsg,iz)
call hash(hashmsg,22,ihash)
ihash=iand(ihash,127)
!###
!Temporarily, check for short messages sent with positive dB and no + sign.
ihash2=-1
i1=index(hashmsg,'+')
if(i1.gt.0) then
hashmsg=hashmsg(1:i1-1)//hashmsg(i1+1:22)//' '
call hash(hashmsg,22,ihash2)
ihash2=iand(ihash2,127)
endif
if(nrxhash.eq.ihash .or. nrxhash.eq.ihash2) then
!###
! if( nrxhash .eq. ihash ) then
nmessages=1
write(msgreceived,'(a1,a,1x,a,a1,1x,a4)') "<",trim(mycall),trim(partnercall),">",rpt(nrxrpt)
write(lines(nmessages),1020) nutc,nsnr,t0,nint(fest),msgreceived
1020 format(i6.6,i4,f5.1,i5,' & ',a22)
! write(*,1022) nutc,ipbest,times(ipbest),snrs(ipbest),fest,nrxrpt,nrxhash, &
! rpt(nrxrpt),imessage,ig24(imessage),nhammdbest, &
! cdbest,cdratbest,cdrat2best,nbadsyncbest,ipkbest,idbest,idfbest,iavbest,iphabest
!1022 format(i4.4,2x,i4,f8.3,f8.2,f8.2,i6,i6,a6,i8,i10,i4,f8.3,f8.2,f8.2,i5,i5,i5,i5,i5,i5)
endif
endif
endif
return
end subroutine detectmsk32