mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-29 15:48:38 -05:00
315 lines
11 KiB
Fortran
315 lines
11 KiB
Fortran
program jt65sim
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! Generate simulated JT65 data for testing WSJT-X
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use wavhdr
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use packjt
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use options
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parameter (NMAX=54*12000) ! = 648,000 @12kHz
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parameter (NFFT=10*65536,NH=NFFT/2)
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type(hdr) h !Header for .wav file
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integer*2 iwave(NMAX) !Generated waveform
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integer*4 itone(126) !Channel symbols (values 0-65)
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integer dgen(12) !Twelve 6-bit data symbols
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integer sent(63) !RS(63,12) codeword
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real*4 xnoise(NMAX) !Generated random noise
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real*4 dat(NMAX) !Generated real data
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complex cdat(NMAX) !Generated complex waveform
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complex cspread(0:NFFT-1) !Complex amplitude for Rayleigh fading
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complex z
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real*8 f0,dt,twopi,phi,dphi,baud,fsample,freq,sps
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character msg*22,fname*11,csubmode*1,c,optarg*500,numbuf*32
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! character call1*5,call2*5
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logical :: display_help=.false.,seed_prngs=.true.
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type (option) :: long_options(13) = [ &
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option ('help',.false.,'h','Display this help message',''), &
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option ('sub-mode',.true.,'m','sub mode, default MODE=A','MODE'), &
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option ('num-sigs',.true.,'n','number of signals per file, default SIGNALS=10','SIGNALS'), &
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option ('f0',.true.,'F','base frequency offset, default F0=1500.0','F0'), &
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option ('doppler-spread',.true.,'d','Doppler spread, default SPREAD=0.0','SPREAD'), &
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option ('drift per min',.true.,'D','Frequency drift (Hz/min), default DRIFT=0.0','DRIFT'), &
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option ('time-offset',.true.,'t','Time delta, default SECONDS=0.0','SECONDS'), &
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option ('num-files',.true.,'f','Number of files to generate, default FILES=1','FILES'), &
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option ('no-prng-seed',.false.,'p','Do not seed PRNGs (use for reproducible tests)',''), &
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option ('strength',.true.,'s','S/N in dB (2500Hz reference b/w), default SNR=0','SNR'), &
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option ('11025',.false.,'S','Generate at 11025Hz sample rate, default 12000Hz',''), &
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option ('gain-offset',.true.,'G','Gain offset in dB, default GAIN=0dB','GAIN'), &
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option ('message',.true.,'M','Message text','Message') ]
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integer nprc(126) !Sync pattern
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data nprc/1,0,0,1,1,0,0,0,1,1,1,1,1,1,0,1,0,1,0,0, &
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0,1,0,1,1,0,0,1,0,0,0,1,1,1,0,0,1,1,1,1, &
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0,1,1,0,1,1,1,1,0,0,0,1,1,0,1,0,1,0,1,1, &
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0,0,1,1,0,1,0,1,0,1,0,0,1,0,0,0,0,0,0,1, &
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1,0,0,0,0,0,0,0,1,1,0,1,0,0,1,0,1,1,0,1, &
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0,1,0,1,0,0,1,1,0,0,1,0,0,1,0,0,0,0,1,1, &
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1,1,1,1,1,1/
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! Default parameters:
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csubmode='A'
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mode65=1
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nsigs=10
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bf0=1500.
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fspread=0.
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drift=0.
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xdt=0.
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snrdb=0.
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nfiles=1
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nsample_rate=12000
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gain_offset=0.
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msg="K1ABC W9XYZ EN37"
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do
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call getopt('hm:n:F:d:D:t:f:ps:SG:M:',long_options,c,optarg,narglen,nstat,noffset,nremain,.true.)
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if( nstat .ne. 0 ) then
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exit
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end if
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select case (c)
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case ('h')
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display_help = .true.
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case ('m')
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read (optarg(:narglen), *) csubmode
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if(csubmode.eq.'A') mode65=1
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if(csubmode.eq.'B') mode65=2
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if(csubmode.eq.'C') mode65=4
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case ('n')
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read (optarg(:narglen), *,err=10) nsigs
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case ('F')
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read (optarg(:narglen), *,err=10) bf0
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case ('d')
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read (optarg(:narglen), *,err=10) fspread
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case ('D')
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read (optarg(:narglen), *,err=10) drift
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case ('t')
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read (optarg(:narglen), *) numbuf
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if (numbuf(1:1) == '\') then !'\'
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read (numbuf(2:), *,err=10) xdt
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else
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read (numbuf, *,err=10) xdt
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end if
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case ('f')
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read (optarg(:narglen), *,err=10) nfiles
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case ('p')
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seed_prngs=.false.
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case ('s')
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read (optarg(:narglen), *) numbuf
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if (numbuf(1:1) == '\') then !'\'
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read (numbuf(2:), *,err=10) snrdb
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else
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read (numbuf, *,err=10) snrdb
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end if
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case ('S')
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nsample_rate=11025
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case ('G')
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read (optarg(:narglen), *) numbuf
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if (numbuf(1:1) == '\') then !'\'
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read (numbuf(2:), *, err=10) gain_offset
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else
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read (numbuf, *, err=10) gain_offset
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end if
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case ('M')
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read (optarg(:narglen), '(A)',err=10) msg
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end select
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cycle
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10 display_help=.true.
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print *, 'Optional argument format error for option -', c
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end do
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if(display_help .or. nstat.lt.0 .or. nremain.ge.1) then
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print *, ''
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print *, 'Usage: jt65sim [OPTIONS]'
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print *, ''
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print *, ' Generate one or more simulated JT65 signals in .WAV file(s)'
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print *, ''
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print *, 'Example: jt65sim -m B -n 10 -d 0.2 -s \\-24.5 -t 0.0 -f 4'
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print *, ''
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print *, 'OPTIONS: NB Use \ (\\ on *nix shells) to escape -ve arguments'
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print *, ''
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do i = 1, size (long_options)
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call long_options(i) % print (6)
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end do
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go to 999
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endif
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if (seed_prngs) then
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call init_random_seed() ! seed Fortran RANDOM_NUMBER generator
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call sgran() ! see C rand generator (used in gran)
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end if
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rms=100. * 10. ** (gain_offset / 20.)
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fsample=nsample_rate !Sample rate (Hz)
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dt=1.d0/fsample !Sample interval (s)
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twopi=8.d0*atan(1.d0)
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npts=54*nsample_rate !Total samples in .wav file
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baud=11025.d0/4096.d0 !Keying rate
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sps=real(nsample_rate)/baud !Samples per symbol, at fsample=NSAMPLE_RATE Hz
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nsym=126 !Number of channel symbols
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h=default_header(nsample_rate,npts)
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dfsig=2000.0/nsigs !Freq spacing between sigs in file (Hz)
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do ifile=1,nfiles !Loop over requested number of files
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write(fname,1002) ifile !Output filename
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1002 format('000000_',i4.4)
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open(10,file=fname//'.wav',access='stream',status='unknown')
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xnoise=0.
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cdat=0.
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if(snrdb.lt.90) then
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do i=1,npts
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xnoise(i)=gran() !Generate gaussian noise
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enddo
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endif
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do isig=1,nsigs !Generate requested number of sigs
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if(mod(nsigs,2).eq.0) f0=bf0 + dfsig*(isig-0.5-nsigs/2)
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if(mod(nsigs,2).eq.1) f0=bf0 + dfsig*(isig-(nsigs+1)/2)
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xsnr=snrdb
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if(snrdb.eq.0.0) xsnr=-19 - isig
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if(csubmode.eq.'B' .and. snrdb.eq.0.0) xsnr=-21 - isig
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if(csubmode.eq.'C' .and. snrdb.eq.0.0) xsnr=-21 - isig
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!###
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! call1="K1ABC"
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! ic3=65+mod(isig-1,26)
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! ic2=65+mod((isig-1)/26,26)
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! ic1=65
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! call2="W9"//char(ic1)//char(ic2)//char(ic3)
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! write(msg,1010) call1,call2,nint(xsnr)
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!1010 format(a5,1x,a5,1x,i3.2)
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!###
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call packmsg(msg,dgen,itype) !Pack message into 12 six-bit bytes
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call rs_encode(dgen,sent) !Encode using RS(63,12)
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call interleave63(sent,1) !Interleave channel symbols
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call graycode65(sent,63,1) !Apply Gray code
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k=0
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do j=1,nsym !Insert sync and data into itone()
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if(nprc(j).eq.0) then
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k=k+1
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itone(j)=sent(k)+2
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else
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itone(j)=0
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endif
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enddo
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if(len(trim(msg)).eq.2.or.len(trim(msg)).eq.3) then
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nshorthand=0
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if(msg(1:2).eq.'RO') nshorthand=2
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if(msg(1:3).eq.'RRR') nshorthand=3
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if(msg(1:2).eq.'73') nshorthand=4
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if(nshorthand.gt.0) then
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ntoggle=0
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do i=1,nsym,2
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itone(i)=ntoggle*10*nshorthand
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if(i+1.le.126) itone(i+1)=ntoggle*10*nshorthand
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ntoggle=mod(ntoggle+1,2)
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enddo
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endif
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endif
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bandwidth_ratio=2500.0/(fsample/2.0)
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sig=sqrt(2*bandwidth_ratio)*10.0**(0.05*xsnr)
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if(xsnr.gt.90.0) sig=1.0
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write(*,1020) ifile,isig,f0,csubmode,xsnr,xdt,fspread,msg
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1020 format(i4,i4,f10.3,2x,a1,2x,f5.1,f6.2,f5.1,1x,a22)
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phi=0.d0
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dphi=0.d0
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k=nsample_rate + xdt*nsample_rate !Start audio at t = xdt + 1.0 s
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isym0=-99
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do i=1,npts !Add this signal into cdat()
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isym=floor(i/sps)+1
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if(isym.gt.nsym) exit
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freq=f0 + (drift/60.0)*(i-npts/2)*dt + itone(isym)*baud*mode65
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dphi=twopi*freq*dt
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phi=phi + dphi
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if(phi.gt.twopi) phi=phi-twopi
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xphi=phi
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z=cmplx(cos(xphi),sin(xphi))
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k=k+1
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if(k.ge.1) cdat(k)=cdat(k) + sig*z
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enddo
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enddo
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if(fspread.ne.0) then !Apply specified Doppler spread
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df=real(nsample_rate)/nfft
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twopi=8*atan(1.0)
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cspread(0)=1.0
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cspread(NH)=0.
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! The following options were added 3/15/2016 to make the half-power tone
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! widths equal to the requested Doppler spread. (Previously we effectively
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! used b=1.0 and Gaussian shape, which made the tones 1.665 times wider.)
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! b=2.0*sqrt(log(2.0)) !Gaussian (before 3/15/2016)
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! b=2.0 !Lorenzian 3/15 - 3/27
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b=6.0 !Lorenzian 3/28 onward
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do i=1,NH
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f=i*df
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x=b*f/fspread
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z=0.
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a=0.
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if(x.lt.3.0) then !Cutoff beyond x=3
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! a=sqrt(exp(-x*x)) !Gaussian
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a=sqrt(1.111/(1.0+x*x)-0.1) !Lorentzian
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call random_number(r1)
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phi1=twopi*r1
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z=a*cmplx(cos(phi1),sin(phi1))
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endif
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cspread(i)=z
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z=0.
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if(x.lt.50.0) then
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call random_number(r2)
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phi2=twopi*r2
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z=a*cmplx(cos(phi2),sin(phi2))
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endif
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cspread(NFFT-i)=z
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enddo
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do i=0,NFFT-1
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f=i*df
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if(i.gt.NH) f=(i-nfft)*df
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s=real(cspread(i))**2 + aimag(cspread(i))**2
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! write(13,3000) i,f,s,cspread(i)
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!3000 format(i5,f10.3,3f12.6)
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enddo
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! s=real(cspread(0))**2 + aimag(cspread(0))**2
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! write(13,3000) 1024,0.0,s,cspread(0)
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call four2a(cspread,NFFT,1,1,1) !Transform to time domain
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sum=0.
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do i=0,NFFT-1
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p=real(cspread(i))**2 + aimag(cspread(i))**2
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sum=sum+p
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enddo
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avep=sum/NFFT
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fac=sqrt(1.0/avep)
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cspread=fac*cspread !Normalize to constant avg power
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cdat(1:npts)=cspread(1:npts)*cdat(1:npts) !Apply Rayleigh fading
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! do i=0,NFFT-1
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! p=real(cspread(i))**2 + aimag(cspread(i))**2
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! write(14,3010) i,p,cspread(i)
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!3010 format(i8,3f12.6)
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! enddo
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endif
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dat(1:npts)=aimag(cdat(1:npts)) + xnoise(1:npts) !Add the generated noise
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if(snrdb.lt.90.0) then
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dat(1:npts)=rms*dat(1:npts)
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else
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datpk=maxval(abs(dat(1:npts)))
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fac=32766.9/datpk
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dat(1:npts)=fac*dat(1:npts)
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endif
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if(any(abs(dat(1:npts)).gt.32767.0)) print*,"Warning - data will be clipped."
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iwave(1:npts)=nint(dat(1:npts))
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write(10) h,iwave(1:npts) !Save the .wav file
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close(10)
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enddo
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999 end program jt65sim
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