subroutine jtmsk_short(cdat,npts,narg,tbest,idfpk,decoded) ! Decode short-format messages in JTMSK mode. parameter (NMAX=15*12000,NSAVE=100) character*22 msg,decoded,msgsent character*3 rpt(0:7) complex cdat(0:npts-1) complex cw(0:209,0:4095) !Waveforms of possible messages complex cb11(0:65) !Complex waveform of Barker 11 complex cd(0:511) complex z1,z2a,z2b real*8 dt,twopi,freq,phi,dphi0,dphi1,dphi real r1(0:NMAX-1) real r2(0:4095) real r1save(NSAVE) integer itone(234) !Message bits integer jgood(NSAVE) integer indx(NSAVE) integer narg(0:14) logical first data rpt /'26 ','27 ','28 ','R26','R27','R28','RRR','73 '/ data first/.true./,nrxfreq0/-1/,ttot/0.0/ save first,cw,cb11,nrxfreq0,ttot nrxfreq=narg(10) !Target Rx audio frequency (Hz) ntol=narg(11) !Search range, +/- ntol (Hz) nhashcalls=narg(12) if(first .or. nrxfreq.ne.nrxfreq0) then dt=1.d0/12000.d0 twopi=8.d0*atan(1.d0) freq=nrxfreq dphi0=twopi*(freq-500.d0)*dt !Phase increment, lower tone dphi1=twopi*(freq+500.d0)*dt !Phase increment, upper tone nsym=35 !Number of symbols nspm=6*nsym !Samples per message msg=" 73" do imsg=0,4095 !Generate all possible message waveforms ichk=10000+imsg call genmsk(msg,ichk,msgsent,itone,itype) !Encode the message k=-1 phi=0.d0 do j=1,nsym dphi=dphi0 if(itone(j).eq.1) dphi=dphi1 do i=1,6 k=k+1 phi=phi + dphi if(phi.gt.twopi) phi=phi-twopi xphi=phi cw(k,imsg)=cmplx(cos(xphi),sin(xphi)) enddo enddo enddo cb11=cw(0:65,0) first=.false. nrxfreq0=nrxfreq endif r1thresh=0.80 maxdecodes=999 r1max=0. do j=0,npts-210 !Find the B11 sync vectors z1=0. ss=0. do i=0,65 ss=ss + real(cdat(j+i))**2 + aimag(cdat(j+i))**2 z1=z1 + cdat(j+i)*conjg(cb11(i)) !Signal matching B11 enddo ss=sqrt(ss/66.0)*66.0 r1(j)=abs(z1)/(0.908*ss) !Goodness-of-fit to B11 if(r1(j).gt.r1max) then r1max=r1(j) jpk=j endif enddo k=0 do j=1,npts-211 if(r1(j).gt.r1thresh .and. r1(j).ge.r1(j-1) .and. r1(j).ge.r1(j+1) ) then k=k+1 jgood(k)=j r1save(k)=r1(j) if(k.ge.NSAVE) exit endif enddo kmax=k call indexx(r1save,kmax,indx) df=12000.0/512.0 ibest2=-1 idfbest=0 u1best=0. do kk=1,min(kmax,10) k=indx(kmax+1-kk) j=jgood(k) if(j.lt.144 .or. j.gt.npts-210) cycle t=j/12000.0 u1=0. u2=0. r2max=0. ibest=-1 do iidf=0,10 idf=20*((iidf+1)/2) if(idf.gt.ntol) exit if(iand(iidf,1).eq.1) idf=-idf call tweak1(cdat(j-144:j+209),354,float(-idf),cd) cd(354:)=0. do imsg=0,4095 ssa=0. ssb=0. do i=0,209 ssa=ssa + real(cd(144+i))**2 + aimag(cd(144+i))**2 ssb=ssb + real(cd(i))**2 + aimag(cdat(i))**2 enddo z2a=dot_product(cw(0:209,imsg),cd(144:353)) z2b=dot_product(cw(0:65,imsg),cdat(144:209)) + & dot_product(cw(66:209,imsg),cdat(0:143)) ssa=sqrt(ssa/210.0)*210.0 ssb=sqrt(ssb/210.0)*210.0 r2(imsg)=max(abs(z2a)/ssa,abs(z2b)/ssb) if(r2(imsg).gt.r2max) then r2max=r2(imsg) ibest=imsg u2=u1 u1=r2max idfpk=idf t2=t n=0 if(imsg.eq.2296 .or. imsg.eq.2302) n=1 endif enddo enddo r1_r2=r1(j)/r2max if(u1.ge.0.71 .and. u2/u1.lt.0.91 .and. r1_r2.lt.1.3) then if(u1.gt.u1best) then irpt=iand(ibest,7) ihash=ibest/8 narg(13)=ibest decoded="<...> "//rpt(irpt) tbest=t r1best=r1(j) u1best=u1 u2best=u2 ibest2=ibest idfbest=idfpk r1_r2best=r1_r2 nn=0 if(ihash.eq.narg(12) .and. iand(ibest2,7).eq.0) nn=1 endif endif enddo return end subroutine jtmsk_short