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129 lines
3.5 KiB
Fortran
129 lines
3.5 KiB
Fortran
subroutine symspec(shared_data,k,TRperiod,nsps,ingain,bLowSidelobes, &
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nminw,pxdb,s,df3,ihsym,npts8,pxdbmax,npct)
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! Input:
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! k pointer to the most recent new data
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! TRperiod T/R sequence length, seconds
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! nsps samples per symbol, at 12000 Hz
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! bLowSidelobes true to use windowed FFTs
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! ndiskdat 0/1 to indicate if data from disk
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! Output:
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! pxdb raw power (0-90 dB)
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! s() current spectrum for waterfall display
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! ihsym index number of this half-symbol (1-184) for 60 s modes
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! jt9com
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! ss() JT9 symbol spectra at half-symbol steps
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! savg() average spectra for waterfall display
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use, intrinsic :: iso_c_binding, only: c_int, c_short, c_float, c_char
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include 'jt9com.f90'
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type(dec_data) :: shared_data
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real*8 TRperiod
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real*4 w3(MAXFFT3)
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real*4 s(NSMAX)
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real*4 ssum(NSMAX)
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real*4 xc(0:MAXFFT3-1)
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real*4 tmp(NSMAX)
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complex cx(0:MAXFFT3/2)
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integer nch(7)
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logical*1 bLowSidelobes
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common/spectra/syellow(NSMAX),ref(0:3456),filter(0:3456)
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data k0/99999999/,nfft3z/0/
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data nch/1,2,4,9,18,36,72/
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equivalence (xc,cx)
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save
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if(TRperiod+npct.eq.-999.9) stop !Silence compiler warning
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nfft3=16384 !df=12000.0/16384 = 0.732422
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jstep=nsps/2 !Step size = half-symbol in id2()
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if(k.gt.NMAX) go to 900
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if(k.lt.2048) then !(2048 was nfft3) (Any need for this ???)
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ihsym=0
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go to 900 !Wait for enough samples to start
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endif
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if(nfft3.ne.nfft3z) then
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! Compute new window
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pi=4.0*atan(1.0)
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w3=0
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call nuttal_window(w3,nfft3)
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nfft3z=nfft3
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endif
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if(k.lt.k0) then !Start a new data block
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ja=0
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ssum=0.
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ihsym=0
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if(.not. shared_data%params%ndiskdat) shared_data%id2(k+1:)=0 !Needed to prevent "ghosts". Not sure why.
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endif
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gain=10.0**(0.1*ingain)
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sq=0.
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pxmax=0.;
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! dwell_time=0.0001
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! if(k.gt.k0 .and. npct.gt.0) call blanker(shared_data%id2(k0+1:k), &
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! k-k0,dwell_time,npct)
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do i=k0+1,k
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x1=shared_data%id2(i)
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if (abs(x1).gt.pxmax) pxmax = abs(x1);
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sq=sq + x1*x1
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enddo
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pxdb = 0.
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if(sq.gt.0.0) pxdb=10*log10(sq/(k-k0))
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pxdbmax=0.
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if(pxmax.gt.0) pxdbmax = 20*log10(pxmax)
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k0=k
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ja=ja+jstep !Index of first sample
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fac0=0.1
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do i=0,nfft3-1 !Copy data into cx
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j=ja+i-(nfft3-1)
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xc(i)=0.
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if(j.ge.1 .and.j.le.NMAX) xc(i)=fac0*shared_data%id2(j)
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enddo
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ihsym=ihsym+1
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if(bLowSidelobes) xc(0:nfft3-1)=w3(1:nfft3)*xc(0:nfft3-1) !Apply window
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call four2a(xc,nfft3,1,-1,0) !Real-to-complex FFT
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df3=12000.0/nfft3 !JT9: 0.732 Hz = 0.42 * tone spacing
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iz=min(NSMAX,nint(5000.0/df3))
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fac=(1.0/nfft3)**2
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do i=1,iz
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j=i-1
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if(j.lt.0) j=j+nfft3
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sx=fac*(real(cx(j))**2 + aimag(cx(j))**2)
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if(ihsym.le.184) shared_data%ss(ihsym,i)=sx
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ssum(i)=ssum(i) + sx
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s(i)=1000.0*gain*sx
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enddo
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shared_data%savg=ssum/ihsym
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if(mod(ihsym,10).eq.0) then
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mode4=nch(nminw+1)
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nsmo=min(10*mode4,150)
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nsmo=4*nsmo
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call flat1(shared_data%savg,iz,nsmo,syellow)
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if(mode4.ge.2) call smo(syellow,iz,tmp,mode4)
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if(mode4.ge.2) call smo(syellow,iz,tmp,mode4)
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syellow(1:250)=0.
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ia=500./df3
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ib=2700.0/df3
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smin=minval(syellow(ia:ib))
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smax=maxval(syellow(1:iz))
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syellow=(50.0/(smax-smin))*(syellow-smin)
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where(syellow<0) syellow=0.
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endif
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900 npts8=k/8
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return
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end subroutine symspec
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