subroutine sfox_sync(iwave,fsample,isync,f,t) use sfox_mod parameter (NSTEP=8) integer*2 iwave(NMAX) integer isync(44) integer ipeak(1) complex, allocatable :: c(:) !Work array real x(171) real, allocatable :: s(:,:) !Symbol spectra, stepped by NSTEP real, allocatable :: savg(:) !Average spectrum real, allocatable :: ccf(:,:) ! character*1 line(-15:15),mark(0:6),c1 ! data mark/' ','.','-','+','X','$','#'/ nh=NFFT1/2 istep=NSPS/NSTEP jz=(13.5*fsample)/istep df=fsample/NFFT1 dtstep=istep/fsample fsync=1500.0-bw/2 ftol=20.0 ia=nint((fsync-ftol)/df) ib=nint((fsync+ftol)/df) lagmax=1.0/dtstep lag1=0 lag2=lagmax x=0. do i=1,NS x(isync(i))=1.0 enddo allocate(s(0:nh/2,jz)) allocate(savg(0:nh/2)) allocate(c(0:NFFT1-1)) allocate(ccf(ia:ib,lag1:lag2)) s=0. savg=0. fac=1.0/NFFT1 ! Compute symbol spectra with df=baud/2 and NSTEP steps per symbol. do j=1,jz k=(j-1)*istep do i=0,nh-1 c(i)=cmplx(fac*iwave(k+2*i+1),fac*iwave(k+2*i+2)) enddo c(nh:)=0. call four2a(c,NFFT1,1,-1,0) !Forward FFT, r2c do i=0,nh/2 p=real(c(i))*real(c(i)) + aimag(c(i))*aimag(c(i)) s(i,j)=p savg(i)=savg(i) + p enddo ipeak=maxloc(s(ia:ib,j)) ! print*,j,ipeak(1)+ia-1 enddo savg=savg/jz !### ccfbest=0. ibest=0 lagpk=0 lagbest=0 j0=0.5/dtstep !Nominal start-signal index do i=ia,ib ccfmax=0. do lag=lag1,lag2 ccft=0. do kk=1,NS k=isync(kk) n=NSTEP*(k-1) + 1 j=n+lag+j0 if(j.ge.1 .and. j.le.jz) ccft=ccft + s(i,j) enddo ! kk ccft=ccft - NS*savg(i) ccf(i,lag)=ccft if(ccft.gt.ccfmax) then ccfmax=ccft lagpk=lag endif enddo ! lag if(ccfmax.gt.ccfbest) then ccfbest=ccfmax ibest=i lagbest=lagpk endif enddo ! i f=ibest*df + bw/2 t=lagbest*dtstep ! write(*,4100) ibest,lagbest,f,t !4100 format(2i6,f10.1,f10.3) ! print*,'aaa',ibest,lagbest do lag=lag1,lag2 write(51,3051) lag*dtstep,ccf(ibest,lag) 3051 format(2f12.4) enddo return end subroutine sfox_sync