subroutine sync9(ss,nzhsym,lag1,lag2,ia,ib,ccfred,red2,ipkbest) include 'constants.f90' ! parameter (NSMAX=1365) !Max length of saved spectra real ss(184,NSMAX) real ss1(184) real ccfred(NSMAX) real savg(NSMAX) real savg2(NSMAX) real smo(-5:25) real sq(NSMAX) real red2(NSMAX) include 'jt9sync.f90' ipk=0 ipkbest=0 sbest=0. ccfred=0. do i=ia,ib !Loop over freq range ss1=ss(1:184,i) call pctile(ss1,nzhsym,40,xmed) ! xmed=sum(ss1(1:nzhsym))/nzhsym ss1=ss1/xmed - 1.0 do j=1,nzhsym if(ss1(j).gt.3.0) ss1(j)=3.0 enddo call pctile(ss1,nzhsym,45,sbase) ss1=ss1-sbase sq0=dot_product(ss1(1:nzhsym),ss1(1:nzhsym)) rms=sqrt(sq0/(nzhsym-1)) smax=0. do lag=lag1,lag2 !DT = 2.5 to 5.0 s sum1=0. sq2=sq0 nsum=nzhsym do j=1,16 !Sum over 16 sync symbols k=ii2(j) + lag if(k.ge.1 .and. k.le.nzhsym) then sum1=sum1 + ss1(k) sq2=sq2 - ss1(k)*ss1(k) nsum=nsum-1 endif enddo if(sum1.gt.smax) then smax=sum1 ipk=i endif rms=sqrt(sq2/(nsum-1)) enddo ccfred(i)=smax !Best at this freq, over all lags if(smax.gt.sbest) then sbest=smax ipkbest=ipk endif enddo call pctile(ccfred(ia),ib-ia+1,50,xmed) if(xmed.le.0.0) xmed=1.0 ccfred=2.0*ccfred/xmed savg=0. do j=1,nzhsym savg(ia:ib)=savg(ia:ib) + ss(j,ia:ib) enddo ! df=1500.0/2048.0 ! 0.732422 ! df9=12000.0/6912.0 ! 1.736111 savg(ia:ib)=savg(ia:ib)/nzhsym smo(0:20)=1.0/21.0 smo(-5:-1)=-(1.0/21.0)*(21.0/10.0) smo(21:25)=smo(-5) do i=ia,ib sm=0. do j=-5,25 if(i+j.ge.1 .and. i+j.lt.NSMAX) sm=sm + smo(j)*savg(i+j) enddo savg2(i)=sm sq(i)=sm*sm enddo call pctile(sq(ia:ib),ib-ia+1,20,sq0) rms=sqrt(sq0) savg2(ia:ib)=savg2(ia:ib)/(5.0*rms) red2=0. do i=ia+11,ib-10 ref=max(savg2(i-10),savg2(i+10)) red2(i)=savg2(i)-ref if(red2(i).lt.-99.0) red2(i)=-99.0 if(red2(i).gt.99.0) red2(i)=99.0 ! write(30,3001) i,i*df+1000.0,savg2(i),red2(i),ccfred(i) !3001 format(i8,4f10.3) enddo ! call flush(30) return end subroutine sync9