subroutine msk144signalquality(cframe,snr,freq,t0,softbits,msg,dxcall, & nbiterrors,eyeopening,trained,pcoeffs) character*22 msg,msgsent character*12 dxcall character*12 training_dxcall character*12 trained_dxcall character*6 mygrid character*40 pcoeff_filename character*8 date character*10 time character*5 zone complex cframe(864) complex cross(864) complex cross_avg(864) complex canalytic(1024) complex cmodel(1024) integer i4tone(144) integer hardbits(144) integer msgbits(144) integer values(8) logical*1 bcontest logical*1 first logical*1 currently_training logical*1 trained logical*1 msg_has_dxcall logical*1 is_training_frame real abscross_avg(864) real softbits(144) real waveform(0:863) real d(1024) real phase(864) real twopi,freq,phi,dphi0,dphi1,dphi real*8 x(145),y(145),pp(145),sigmay(145),a(5),chisqr real pcoeffs(3) data first/.true./ save cross_avg,abscross_avg,wt_avg,first,currently_training, & navg,tlast,training_dxcall,trained_dxcall if (first) then navg=0 cross=cmplx(0.0,0.0) cross_avg=cmplx(0.0,0.0) wt_avg=0.0 tlast=0.0 trained_dxcall(1:12)=' ' training_dxcall(1:12)=' ' trained=.false. currently_training=.false. pcoeffs(1:3)=0.0 first=.false. endif if( (trained .and. (dxcall .ne. trained_dxcall)) .or. & (currently_training .and. (dxcall .ne. training_dxcall)) .or. & (navg .gt. 10 )) then !reset and retrain navg=0 cross=cmplx(0.0,0.0) cross_avg=cmplx(0.0,0.0) wt_avg=0.0 tlast=0.0 trained_dxcall(1:12)=' ' trained=.false. currently_training=.false. training_dxcall(1:12)=' ' trained_dxcall(1:12)=' ' pcoeffs(1:3)=0.0 write(*,*) 'reset to untrained state ' endif indx_dxcall=index(msg,trim(dxcall)) msg_has_dxcall = indx_dxcall .ge. 4 if( msg_has_dxcall .and. (.not. trained) .and. .not. currently_training ) then currently_training=.true. training_dxcall=trim(dxcall) trained_dxcall(1:12)=' ' pcoeffs(1:3)=0.0 write(*,*) 'start training on call ',training_dxcall endif if( msg_has_dxcall .and. currently_training ) then trained=.false. ! just to be sure trained_dxcall(1:12)=' ' training_dxcall=dxcall pcoeffs(1:3)=0.0 endif ! use decoded message to figure out how many bit errors in the frame do i=1, 144 hardbits(i)=0 if(softbits(i) .gt. 0 ) hardbits(i)=1 enddo ! generate tones from decoded message mygrid="EN50" ichk=0 bcontest=.false. call genmsk144(msg,mygrid,ichk,bcontest,msgsent,i4tone,itype) ! reconstruct message bits from tones msgbits(1)=0 do i=1,143 if( i4tone(i) .eq. 0 ) then if( mod(i,2) .eq. 1 ) then msgbits(i+1)=msgbits(i) else msgbits(i+1)=mod(msgbits(i)+1,2) endif else if( mod(i,2) .eq. 1 ) then msgbits(i+1)=mod(msgbits(i)+1,2) else msgbits(i+1)=msgbits(i) endif endif enddo nbiterrors=0 do i=1,144 if( hardbits(i) .ne. msgbits(i) ) nbiterrors=nbiterrors+1 enddo nplus=0 nminus=0 eyetop=1 eyebot=-1 do i=1,144 if( msgbits(i) .eq. 1 ) then if( softbits(i) .lt. eyetop ) eyetop=softbits(i) else if( softbits(i) .gt. eyebot ) eyebot=softbits(i) endif enddo eyeopening=eyetop-eyebot is_training_frame = & (snr.gt.5.0 .and.(nbiterrors.lt.7)) .and. & (abs(t0-tlast) .gt. 0.072) .and. & msg_has_dxcall if( currently_training .and. is_training_frame ) then twopi=8.0*atan(1.0) nsym=144 if( i4tone(41) .lt. 0 ) nsym=40 dphi0=twopi*(freq-500)/12000.0 dphi1=twopi*(freq+500)/12000.0 phi=-twopi/8 indx=0 do i=1,nsym if( i4tone(i) .eq. 0 ) then dphi=dphi0 else dphi=dphi1 endif do j=1,6 waveform(indx)=cos(phi); indx=indx+1 phi=mod(phi+dphi,twopi) enddo enddo ! convert the passband waveform to complex baseband npts=864 nfft=1024 d=0 d(1:864)=waveform(0:863) call analytic(d,npts,nfft,canalytic,pcoeffs,.false.,.false.) ! don't equalize the model call tweak1(canalytic,nfft,-freq,cmodel) call four2a(cframe(1:864),864,1,-1,1) call four2a(cmodel(1:864),864,1,-1,1) ! Cross spectra from different messages can be averaged ! as long as all messages originate from dxcall. cross=cmodel(1:864)*conjg(cframe)/1000.0 cross=cshift(cross,864/2) cross_avg=cross_avg+10**(snr/20.0)*cross wt_avg=wt_avg+10**(snr/20.0) navg=navg+1 tlast=t0 phase=atan2(imag(cross_avg),real(cross_avg)) df=12000.0/864.0 nm=145 do i=1,145 x(i)=(i-73)*df/1000.0 enddo y=phase((864/2-nm/2):(864/2+nm/2)) sigmay=wt_avg/abs(cross_avg((864/2-nm/2):(864/2+nm/2))) mode=1 npts=145 nterms=5 call polyfit(x,y,sigmay,npts,nterms,mode,a,chisqr) pp=a(1)+x*(a(2)+x*(a(3)+x*(a(4)+x*a(5)))) rmsdiff=sum( (pp-phase((864/2-nm/2):(864/2+nm/2)))**2 )/145.0 write(*,*) 'training ',navg,sqrt(chisqr),rmsdiff ! if( (sqrt(chisqr).lt.1.5) .and. (rmsdiff.lt.1.1) .and. (navg.ge.5) ) then if( (sqrt(chisqr).lt.1.5) .and. (rmsdiff.lt.1.1) .and. (navg.ge.2) ) then open(18,file='phasefit.dat',status='unknown') do i=1, 145 write(18,*) x(i),pp(i),y(i),sigmay(i) enddo close(18) open(19,file='cframe.dat',status='unknown') do i=1,864 write(19,*) i,real(cframe(i)),imag(cframe(i)),real(cross_avg(i)),imag(cross_avg(i)) enddo close(19) pcoeffs=a(3:5) trained_dxcall=dxcall training_dxcall(1:12)=' ' currently_training=.false. trained=.true. call date_and_time(date,time,zone,values) write(pcoeff_filename,'(i2.2,i2.2,i2.2,"_",i2.2,i2.2,i2.2)') & values(1)-2000,values(2),values(3),values(5),values(6),values(7) pcoeff_filename=trim(trained_dxcall)//"_"//pcoeff_filename//".pcoeff" write(*,*) pcoeff_filename open(17,file=pcoeff_filename,status='new') write(17,'(i4,2f10.2,5f10.4)') navg,sqrt(chisqr),rmsdiff,a(1),a(2),a(3),a(4),a(5) close(17) endif endif return end subroutine msk144signalquality