subroutine get_fst4_bitmetrics2(cd,nss,hmod,nsizes,bitmetrics,s4snr,badsync) include 'fst4_params.f90' complex cd(0:NN*nss-1) complex csymb(nss) complex, allocatable, save :: c1(:,:) ! ideal waveforms, 4 tones complex cp(0:3) ! accumulated phase shift over symbol types 0:3 integer isyncword1(0:7),isyncword2(0:7) integer graymap(0:3) integer ip(1) integer hmod logical one(0:65535,0:15) ! 65536 8-symbol sequences, 16 bits logical first logical badsync real bitmetrics(2*NN,4) real s2(0:65535) real s4(0:3,NN,4),s4snr(0:3,NN) data isyncword1/0,1,3,2,1,0,2,3/ data isyncword2/2,3,1,0,3,2,0,1/ data graymap/0,1,3,2/ data first/.true./,nss0/-1/ save first,one,cp,nss0 if(nss.ne.nss0 .and. allocated(c1)) deallocate(c1) if(first .or. nss.ne.nss0) then allocate(c1(nss,0:3)) one=.false. do i=0,65535 do j=0,15 if(iand(i,2**j).ne.0) one(i,j)=.true. enddo enddo twopi=8.0*atan(1.0) dphi=twopi*hmod/nss do itone=0,3 dp=(itone-1.5)*dphi phi=0.0 do j=1,nss c1(j,itone)=cmplx(cos(phi),sin(phi)) phi=mod(phi+dp,twopi) enddo cp(itone)=cmplx(cos(phi),sin(phi)) enddo first=.false. endif do k=1,NN i1=(k-1)*NSS csymb=cd(i1:i1+NSS-1) do itone=0,3 s4(itone,k,1)=abs(sum(csymb*conjg(c1(:,itone))))**2 s4(itone,k,2)=abs(sum(csymb( 1:nss/2)*conjg(c1( 1:nss/2,itone))))**2 + & abs(sum(csymb(nss/2+1: nss)*conjg(c1(nss/2+1: nss,itone))))**2 s4(itone,k,3)=abs(sum(csymb( 1: nss/4)*conjg(c1( 1: nss/4,itone))))**2 + & abs(sum(csymb( nss/4+1: nss/2)*conjg(c1( nss/4+1: nss/2,itone))))**2 + & abs(sum(csymb( nss/2+1:3*nss/4)*conjg(c1( nss/2+1:3*nss/4,itone))))**2 + & abs(sum(csymb(3*nss/4+1: nss)*conjg(c1(3*nss/4+1: nss,itone))))**2 s4(itone,k,4)=abs(sum(csymb( 1: nss/8)*conjg(c1( 1: nss/8,itone))))**2 + & abs(sum(csymb( nss/8+1: nss/4)*conjg(c1( nss/8+1: nss/4,itone))))**2 + & abs(sum(csymb( nss/4+1:3*nss/8)*conjg(c1( nss/4+1:3*nss/8,itone))))**2 + & abs(sum(csymb(3*nss/8+1: nss/2)*conjg(c1(3*nss/8+1: nss/2,itone))))**2 + & abs(sum(csymb( nss/2+1:5*nss/8)*conjg(c1( nss/2+1:5*nss/8,itone))))**2 + & abs(sum(csymb(5*nss/8+1:3*nss/4)*conjg(c1(5*nss/8+1:3*nss/4,itone))))**2 + & abs(sum(csymb(3*nss/4+1:7*nss/8)*conjg(c1(3*nss/4+1:7*nss/8,itone))))**2 + & abs(sum(csymb(7*nss/8+1: nss)*conjg(c1(7*nss/8+1: nss,itone))))**2 enddo enddo ! Sync quality check is1=0 is2=0 is3=0 is4=0 is5=0 badsync=.false. ibmax=0 is1=0; is2=0; is3=0; is4=0; is5=0 do k=1,8 ip=maxloc(s4(:,k,1)) if(isyncword1(k-1).eq.(ip(1)-1)) is1=is1+1 ip=maxloc(s4(:,k+38,1)) if(isyncword2(k-1).eq.(ip(1)-1)) is2=is2+1 ip=maxloc(s4(:,k+76,1)) if(isyncword1(k-1).eq.(ip(1)-1)) is3=is3+1 ip=maxloc(s4(:,k+114,1)) if(isyncword2(k-1).eq.(ip(1)-1)) is4=is4+1 ip=maxloc(s4(:,k+152,1)) if(isyncword1(k-1).eq.(ip(1)-1)) is5=is5+1 enddo nsync=is1+is2+is3+is4+is5 !Number of correct hard sync symbols, 0-40 badsync=.false. if(nsync .lt. 16) then badsync=.true. return endif bitmetrics=0.0 do nsub=1,nsizes do ks=1,NN s2=0 do i=0,3 s2(i)=s4(graymap(i),ks,nsub) enddo ipt=1+(ks-1)*2 ibmax=1 do ib=0,ibmax bm=maxval(s2(0:3),one(0:3,ibmax-ib)) - & maxval(s2(0:3),.not.one(0:3,ibmax-ib)) if(ipt+ib.gt.2*NN) cycle bitmetrics(ipt+ib,nsub)=bm enddo enddo enddo call normalizebmet(bitmetrics(:,1),2*NN) call normalizebmet(bitmetrics(:,2),2*NN) call normalizebmet(bitmetrics(:,3),2*NN) call normalizebmet(bitmetrics(:,4),2*NN) ! Return the s4 array corresponding to N=1. Will be used for SNR calculation s4snr(:,:)=s4(:,:,1) return end subroutine get_fst4_bitmetrics2