add dynamic gyro windows
control inclusion based on HAL_WITH_DSP and GYROFFT_ENABLED
target appropriate ARM cpus
constrain window sizes to be achievable
improve FFT signal accuracy through configurable window overlap and quinn's estimator
calculate energy weighted center frequency
add support for learning hover frequency and throttle reference
calculate power spectrum rather than amplitude
record noise as a per-bin power spectrum
calculate true SNR per-bin and use that to determine there is a signal
add user config for SNR signal level
constrain frequency scanning to MAXHZ
calculate and learn the peak bandwidth at the configured attenuation
allow enabling/disabling dynamically through rc function
MAXHZ should be below Nyquist
Incorporate full range of MAXHZ to MINHZ
update FFT analysis in a separate thread
allocate memory in a specific region
constrain window size by CPU class
do not allocate any resources when not enabled
Prevent self-check and analysis interfering with each other
put configuration and initialization to AP_Vehicle
add logging
fix significant issues with threading, locking and sample buffer access
use both calculated noise peaks together with the harmonic notch configuration to detemine which peak represents the fundamental harmonic that should be tracked
record harmonic fit
add CMSIS 5 libraries and headers
allow larger FFT lengths on Linux and SITL
implements an FFT engine based on the betaflight feature using ARM hardware accelerated CMSIS library
make the FFT feature optional
add dynamic gyro windows
add quinns and candans estimators and record in DSP state
disable DSP for boards with limited flash
calculate power spectrum rather than amplitude
start/analyse version of analysis to support threading
allocate memory in a specific region
constrain window size by CPU class
control inclusion of DSP based on board size
control inclusion of FFT based on HAL_WITH_DSP and HAL_GYROFFT_ENABLED. target appropriate ARM cpus
define hanning window and quinn's estimator
start/analyse version of FFT to support threading
allocate memory in a specific region
calculate frequency and noise bandwidth of two noisiest peaks
control inclusion of DSP based on board size
FFT windows can be dynamically allocated
add harmonic notch dynamic tracking mode
unwind gyro window allocation in the case of failure
allow access to harmonic notch harmonics
Includes commits by rmackay9
AC_WPNav: fixup max speed acceleration
AC_WPNav: simplify the initialisation of poscontrol's max speed
Changed at Leonard's request to keep things simpler
Respond to 0x10 when the rx is controlling bandwidth, else respond only to 0x00
but in this case never exceed a max number of consecutive frames.
Always respond to polling and if necessary send a null frame.
moved delay check after get_telem_data() to account for scheduler time
align incoming to outgoing crc
allow the boot-time recording state to be configured
only process events on state transitions. Simplifies logic and debugging.
support regular Split 2s
allow menu enter/exit in 5-key mode
match betaflight with 5-Key OSD which requires an "enter" key
This fixes high stack usage in the RCIN thread when it notifies the
GCS of a new RCIN protocol. The problem is severe when signing is
enabled, as signing adds over 500 bytes to stack cost of sending a
mavlink msg
fixes issue #13615
Lowering the sleep time when no scripts are pending, causes starting a
REPL session to respond much faster (this cuts the latency from up to 10
seconds to 1 second before the session is ready to start).
Also lowers the default scripting debug level to hide the statustext
from users, as in the general case this is just a spammy message if it
occurs, and we should be finding better reporting bits to get this to
the user.
when GPS primary switches we were using a position which had not been
corrected for antenna offset. This was used for calculating the reset
for sensor change.
This fixes that (trivial fix) and also fixes a similar issue on
position reset
when GPS primary switches we were using a position which had not been
corrected for antenna offset. This was used for calculating the reset
for sensor change.
This fixes that (trivial fix) and also fixes a similar issue on
position reset