subroutine subtractft8(dd,itone,f0,dt) ! Subtract an ft8 signal ! ! Measured signal : dd(t) = a(t)cos(2*pi*f0*t+theta(t)) ! Reference signal : cref(t) = exp( j*(2*pi*f0*t+phi(t)) ) ! Complex amp : cfilt(t) = LPF[ dd(t)*CONJG(cref(t)) ] ! Subtract : dd(t) = dd(t) - 2*REAL{cref*cfilt} use timer_module, only: timer parameter (NMAX=15*12000,NFRAME=1920*79) parameter (NFFT=NMAX,NFILT=1000) real*4 dd(NMAX),dds(NMAX), window(-NFILT/2:NFILT/2) complex cref,camp,cfilt,cw integer itone(79) logical first data first/.true./ common/heap8/cref(NFRAME),camp(NMAX),cfilt(NMAX),cw(NMAX) save first nstart=dt*12000+1 call genft8refsig(itone,cref,f0) camp=0. do i=1,nframe id=nstart-1+i if(id.ge.1.and.id.le.NMAX) camp(i)=dd(id)*conjg(cref(i)) enddo if(first) then ! Create and normalize the filter pi=4.0*atan(1.0) fac=1.0/float(nfft) sum=0.0 do j=-NFILT/2,NFILT/2 window(j)=cos(pi*j/NFILT)**2 sum=sum+window(j) enddo cw=0. cw(1:NFILT+1)=window/sum cw=cshift(cw,NFILT/2+1) call four2a(cw,nfft,1,-1,1) cw=cw*fac first=.false. endif cfilt=0.0 cfilt(1:nframe)=camp(1:nframe) call four2a(cfilt,nfft,1,-1,1) cfilt(1:nfft)=cfilt(1:nfft)*cw(1:nfft) call four2a(cfilt,nfft,1,1,1) dds=dd ! Subtract the reconstructed signal do i=1,nframe j=nstart+i-1 if(j.ge.1 .and. j.le.NMAX) dd(j)=dd(j)-2*REAL(cfilt(i)*cref(i)) enddo !do i=1,NMAX !write(34,*) i,dds(i),dd(i) !enddo return end subroutine subtractft8