WSJT-X/lib/fst4
Steven Franke e232c32178 Use 3rd order polynomial fit to estimate the noise baseline. The
polynomial fit is done over 400 Hz bandwidth for T/R periods longer
than 15s, and over approx. 600 Hz (10 times the signal bandwidth) for
T/R period of 15s.
2020-08-28 09:22:22 -05:00
..
bpdecode240_101.f90
decode240_74.f90 Tweaks to update the diagnostics that are written to fort.21. 2020-08-21 09:18:59 -05:00
decode240_101.f90 Tweaks to update the diagnostics that are written to fort.21. 2020-08-21 09:18:59 -05:00
encode240_74.f90
encode240_101.f90 Rename fst240 to fst4 in Fortran routines. 2020-07-23 12:48:50 -05:00
fst4_baseline.f90 Use 3rd order polynomial fit to estimate the noise baseline. The 2020-08-28 09:22:22 -05:00
fst4_params.f90 Rename fst240 to fst4 in Fortran routines. 2020-07-23 12:48:50 -05:00
fst4sim.f90
gen_fst4wave.f90
genfst4.f90 A few more cosmetic 240 -> 4 changes 2020-07-23 19:13:05 +01:00
get_crc24.f90 Rename fst240 to fst4 in Fortran routines. 2020-07-23 12:48:50 -05:00
get_fst4_bitmetrics2.f90 Fix SNR calculation for B,C,D submodes. 2020-08-04 09:15:44 -05:00
get_fst4_bitmetrics.f90 Speed up decoder by eliminating some complex multiples in sequence detection loop. Add timer calls for doppler spread calculation and sequence detection loop. 2020-08-24 10:17:45 -05:00
ldpc_240_74_generator.f90
ldpc_240_74_parity.f90 Rename fst240 to fst4 in Fortran routines. 2020-07-23 12:48:50 -05:00
ldpc_240_101_generator.f90
ldpc_240_101_parity.f90
ldpcsim240_74.f90
ldpcsim240_101.f90
osd240_74.f90
osd240_101.f90 Rename fst240 to fst4 in Fortran routines. 2020-07-23 12:48:50 -05:00