diff --git a/ROMFS/px4fmu_common/logging/conv.zip b/ROMFS/px4fmu_common/logging/conv.zip index 7cb837e566..7f485184c6 100644 Binary files a/ROMFS/px4fmu_common/logging/conv.zip and b/ROMFS/px4fmu_common/logging/conv.zip differ diff --git a/ROMFS/px4fmu_logging/init.d/rcS b/ROMFS/px4fmu_logging/init.d/rcS deleted file mode 100644 index 7b88567197..0000000000 --- a/ROMFS/px4fmu_logging/init.d/rcS +++ /dev/null @@ -1,88 +0,0 @@ -#!nsh -# -# PX4FMU startup script for logging purposes -# - -# -# Try to mount the microSD card. -# -echo "[init] looking for microSD..." -if mount -t vfat /dev/mmcsd0 /fs/microsd -then - echo "[init] card mounted at /fs/microsd" - # Start playing the startup tune - tone_alarm start -else - echo "[init] no microSD card found" - # Play SOS - tone_alarm error -fi - -uorb start - -# -# Start sensor drivers here. -# - -ms5611 start -adc start - -# mag might be external -if hmc5883 start -then - echo "using HMC5883" -fi - -if mpu6000 start -then - echo "using MPU6000" -fi - -if l3gd20 start -then - echo "using L3GD20(H)" -fi - -if lsm303d start -then - set BOARD fmuv2 -else - set BOARD fmuv1 -fi - -# Start airspeed sensors -if meas_airspeed start -then - echo "using MEAS airspeed sensor" -else - if ets_airspeed start - then - echo "using ETS airspeed sensor (bus 3)" - else - if ets_airspeed start -b 1 - then - echo "Using ETS airspeed sensor (bus 1)" - fi - fi -fi - -# -# Start the sensor collection task. -# IMPORTANT: this also loads param offsets -# ALWAYS start this task before the -# preflight_check. -# -if sensors start -then - echo "SENSORS STARTED" -fi - -sdlog2 start -r 250 -e -b 16 - -if sercon -then - echo "[init] USB interface connected" - - # Try to get an USB console - nshterm /dev/ttyACM0 & -fi \ No newline at end of file diff --git a/ROMFS/px4fmu_logging/logging/conv.zip b/ROMFS/px4fmu_logging/logging/conv.zip deleted file mode 100644 index 7cb837e566..0000000000 Binary files a/ROMFS/px4fmu_logging/logging/conv.zip and /dev/null differ diff --git a/Tools/README.txt b/Tools/sdlog2/README.txt similarity index 100% rename from Tools/README.txt rename to Tools/sdlog2/README.txt diff --git a/Tools/logconv.m b/Tools/sdlog2/logconv.m similarity index 97% rename from Tools/logconv.m rename to Tools/sdlog2/logconv.m index c416b8095e..e19c97fa3c 100644 --- a/Tools/logconv.m +++ b/Tools/sdlog2/logconv.m @@ -1,535 +1,535 @@ -% This Matlab Script can be used to import the binary logged values of the -% PX4FMU into data that can be plotted and analyzed. - -%% ************************************************************************ -% PX4LOG_PLOTSCRIPT: Main function -% ************************************************************************ -function PX4Log_Plotscript - -% Clear everything -clc -clear all -close all - -% ************************************************************************ -% SETTINGS -% ************************************************************************ - -% Set the path to your sysvector.bin file here -filePath = 'log001.bin'; - -% Set the minimum and maximum times to plot here [in seconds] -mintime=0; %The minimum time/timestamp to display, as set by the user [0 for first element / start] -maxtime=0; %The maximum time/timestamp to display, as set by the user [0 for last element / end] - -%Determine which data to plot. Not completely implemented yet. -bDisplayGPS=true; - -%conversion factors -fconv_gpsalt=1; %[mm] to [m] -fconv_gpslatlong=1; %[gps_raw_position_unit] to [deg] -fconv_timestamp=1E-6; % [microseconds] to [seconds] - -% ************************************************************************ -% Import the PX4 logs -% ************************************************************************ -ImportPX4LogData(); - -%Translate min and max plot times to indices -time=double(sysvector.TIME_StartTime) .*fconv_timestamp; -mintime_log=time(1); %The minimum time/timestamp found in the log -maxtime_log=time(end); %The maximum time/timestamp found in the log -CurTime=mintime_log; %The current time at which to draw the aircraft position - -[imintime,imaxtime]=FindMinMaxTimeIndices(); - -% ************************************************************************ -% PLOT & GUI SETUP -% ************************************************************************ -NrFigures=5; -NrAxes=10; -h.figures(1:NrFigures)=0.0; % Temporary initialization of figure handle array - these are numbered consecutively -h.axes(1:NrAxes)=0.0; % Temporary initialization of axes handle array - these are numbered consecutively -h.pathpoints=[]; % Temporary initiliazation of path points - -% Setup the GUI to control the plots -InitControlGUI(); -% Setup the plotting-GUI (figures, axes) itself. -InitPlotGUI(); - -% ************************************************************************ -% DRAW EVERYTHING -% ************************************************************************ -DrawRawData(); -DrawCurrentAircraftState(); - -%% ************************************************************************ -% *** END OF MAIN SCRIPT *** -% NESTED FUNCTION DEFINTIONS FROM HERE ON -% ************************************************************************ - - -%% ************************************************************************ -% IMPORTPX4LOGDATA (nested function) -% ************************************************************************ -% Attention: This is the import routine for firmware from ca. 03/2013. -% Other firmware versions might require different import -% routines. - -%% ************************************************************************ -% IMPORTPX4LOGDATA (nested function) -% ************************************************************************ -% Attention: This is the import routine for firmware from ca. 03/2013. -% Other firmware versions might require different import -% routines. - -function ImportPX4LogData() - - % ************************************************************************ - % RETRIEVE SYSTEM VECTOR - % ************************************************************************* - % //All measurements in NED frame - - % Convert to CSV - %arg1 = 'log-fx61-20130721-2.bin'; - arg1 = filePath; - delim = ','; - time_field = 'TIME'; - data_file = 'data.csv'; - csv_null = ''; - - if not(exist(data_file, 'file')) - s = system( sprintf('python sdlog2_dump.py "%s" -f "%s" -t"%s" -d"%s" -n"%s"', arg1, data_file, time_field, delim, csv_null) ); - end - - if exist(data_file, 'file') - - %data = csvread(data_file); - sysvector = tdfread(data_file, ','); - - % shot the flight time - time_us = sysvector.TIME_StartTime(end) - sysvector.TIME_StartTime(1); - time_s = uint64(time_us*1e-6); - time_m = uint64(time_s/60); - time_s = time_s - time_m * 60; - - disp([sprintf('Flight log duration: %d:%d (minutes:seconds)', time_m, time_s) char(10)]); - - disp(['logfile conversion finished.' char(10)]); - else - disp(['file: ' data_file ' does not exist' char(10)]); - end -end - -%% ************************************************************************ -% INITCONTROLGUI (nested function) -% ************************************************************************ -%Setup central control GUI components to control current time where data is shown -function InitControlGUI() - %********************************************************************** - % GUI size definitions - %********************************************************************** - dxy=5; %margins - %Panel: Plotctrl - dlabels=120; - dsliders=200; - dedits=80; - hslider=20; - - hpanel1=40; %panel1 - hpanel2=220;%panel2 - hpanel3=3*hslider+4*dxy+3*dxy;%panel3. - - width=dlabels+dsliders+dedits+4*dxy+2*dxy; %figure width - height=hpanel1+hpanel2+hpanel3+4*dxy; %figure height - - %********************************************************************** - % Create GUI - %********************************************************************** - h.figures(1)=figure('Units','pixels','position',[200 200 width height],'Name','Control GUI'); - h.guistatepanel=uipanel('Title','Current GUI state','Units','pixels','Position',[dxy dxy width-2*dxy hpanel1],'parent',h.figures(1)); - h.aircraftstatepanel=uipanel('Title','Current aircraft state','Units','pixels','Position',[dxy hpanel1+2*dxy width-2*dxy hpanel2],'parent',h.figures(1)); - h.plotctrlpanel=uipanel('Title','Plot Control','Units','pixels','Position',[dxy hpanel1+hpanel2+3*dxy width-2*dxy hpanel3],'parent',h.figures(1)); - - %%Control GUI-elements - %Slider: Current time - h.labels.CurTime=uicontrol(gcf,'style','text','Position',[dxy dxy dlabels hslider],'String','Current time t[s]:','parent',h.plotctrlpanel,'HorizontalAlignment','left'); - h.sliders.CurTime=uicontrol(gcf,'style','slider','units','pix','position',[2*dxy+dlabels dxy dsliders hslider],... - 'min',mintime,'max',maxtime,'value',mintime,'callback',@curtime_callback,'parent',h.plotctrlpanel); - temp=get(h.sliders.CurTime,'Max')-get(h.sliders.CurTime,'Min'); - set(h.sliders.CurTime,'SliderStep',[1.0/temp 5.0/temp]); - h.edits.CurTime=uicontrol(gcf,'style','edit','position',[3*dxy+dlabels+dsliders dxy dedits hslider],'String',get(h.sliders.CurTime,'value'),... - 'BackgroundColor','white','callback',@curtime_callback,'parent',h.plotctrlpanel); - - %Slider: MaxTime - h.labels.MaxTime=uicontrol(gcf,'style','text','position',[dxy 2*dxy+hslider dlabels hslider],'String','Max. time t[s] to display:','parent',h.plotctrlpanel,'HorizontalAlignment','left'); - h.sliders.MaxTime=uicontrol(gcf,'style','slider','units','pix','position',[2*dxy+dlabels 2*dxy+hslider dsliders hslider],... - 'min',mintime_log,'max',maxtime_log,'value',maxtime,'callback',@minmaxtime_callback,'parent',h.plotctrlpanel); - h.edits.MaxTime=uicontrol(gcf,'style','edit','position',[3*dxy+dlabels+dsliders 2*dxy+hslider dedits hslider],'String',get(h.sliders.MaxTime,'value'),... - 'BackgroundColor','white','callback',@minmaxtime_callback,'parent',h.plotctrlpanel); - - %Slider: MinTime - h.labels.MinTime=uicontrol(gcf,'style','text','position',[dxy 3*dxy+2*hslider dlabels hslider],'String','Min. time t[s] to dispay :','parent',h.plotctrlpanel,'HorizontalAlignment','left'); - h.sliders.MinTime=uicontrol(gcf,'style','slider','units','pix','position',[2*dxy+dlabels 3*dxy+2*hslider dsliders hslider],... - 'min',mintime_log,'max',maxtime_log,'value',mintime,'callback',@minmaxtime_callback,'parent',h.plotctrlpanel); - h.edits.MinTime=uicontrol(gcf,'style','edit','position',[3*dxy+dlabels+dsliders 3*dxy+2*hslider dedits hslider],'String',get(h.sliders.MinTime,'value'),... - 'BackgroundColor','white','callback',@minmaxtime_callback,'parent',h.plotctrlpanel); - - %%Current data/state GUI-elements (Multiline-edit-box) - h.edits.AircraftState=uicontrol(gcf,'style','edit','Units','normalized','position',[.02 .02 0.96 0.96],'Min',1,'Max',10,'String','This shows the current aircraft state',... - 'HorizontalAlignment','left','parent',h.aircraftstatepanel); - - h.labels.GUIState=uicontrol(gcf,'style','text','Units','pixels','position',[dxy dxy width-4*dxy hslider],'String','Current state of this GUI',... - 'HorizontalAlignment','left','parent',h.guistatepanel); - -end - -%% ************************************************************************ -% INITPLOTGUI (nested function) -% ************************************************************************ -function InitPlotGUI() - - % Setup handles to lines and text - h.markertext=[]; - templinehandle=0.0;%line([0 1],[0 5]); % Just a temporary handle to init array - h.markerline(1:NrAxes)=templinehandle; % the actual handle-array to the lines - these are numbered consecutively - h.markerline(1:NrAxes)=0.0; - - % Setup all other figures and axes for plotting - % PLOT WINDOW 1: GPS POSITION - h.figures(2)=figure('units','normalized','Toolbar','figure', 'Name', 'GPS Position'); - h.axes(1)=axes(); - set(h.axes(1),'Parent',h.figures(2)); - - % PLOT WINDOW 2: IMU, baro altitude - h.figures(3)=figure('Name', 'IMU / Baro Altitude'); - h.axes(2)=subplot(4,1,1); - h.axes(3)=subplot(4,1,2); - h.axes(4)=subplot(4,1,3); - h.axes(5)=subplot(4,1,4); - set(h.axes(2:5),'Parent',h.figures(3)); - - % PLOT WINDOW 3: ATTITUDE ESTIMATE, ACTUATORS/CONTROLS, AIRSPEEDS,... - h.figures(4)=figure('Name', 'Attitude Estimate / Actuators / Airspeeds'); - h.axes(6)=subplot(4,1,1); - h.axes(7)=subplot(4,1,2); - h.axes(8)=subplot(4,1,3); - h.axes(9)=subplot(4,1,4); - set(h.axes(6:9),'Parent',h.figures(4)); - - % PLOT WINDOW 4: LOG STATS - h.figures(5) = figure('Name', 'Log Statistics'); - h.axes(10)=subplot(1,1,1); - set(h.axes(10:10),'Parent',h.figures(5)); - -end - -%% ************************************************************************ -% DRAWRAWDATA (nested function) -% ************************************************************************ -%Draws the raw data from the sysvector, but does not add any -%marker-lines or so -function DrawRawData() - % ************************************************************************ - % PLOT WINDOW 1: GPS POSITION & GUI - % ************************************************************************ - figure(h.figures(2)); - % Only plot GPS data if available - if (sum(double(sysvector.GPS_Lat(imintime:imaxtime)))>0) && (bDisplayGPS) - %Draw data - plot3(h.axes(1),double(sysvector.GPS_Lat(imintime:imaxtime))*fconv_gpslatlong, ... - double(sysvector.GPS_Lon(imintime:imaxtime))*fconv_gpslatlong, ... - double(sysvector.GPS_Alt(imintime:imaxtime))*fconv_gpsalt,'r.'); - title(h.axes(1),'GPS Position Data(if available)'); - xlabel(h.axes(1),'Latitude [deg]'); - ylabel(h.axes(1),'Longitude [deg]'); - zlabel(h.axes(1),'Altitude above MSL [m]'); - grid on - - %Reset path - h.pathpoints=0; - end - - % ************************************************************************ - % PLOT WINDOW 2: IMU, baro altitude - % ************************************************************************ - figure(h.figures(3)); - plot(h.axes(2),time(imintime:imaxtime),[sysvector.IMU_MagX(imintime:imaxtime), sysvector.IMU_MagY(imintime:imaxtime), sysvector.IMU_MagZ(imintime:imaxtime)]); - title(h.axes(2),'Magnetometers [Gauss]'); - legend(h.axes(2),'x','y','z'); - plot(h.axes(3),time(imintime:imaxtime),[sysvector.IMU_AccX(imintime:imaxtime), sysvector.IMU_AccY(imintime:imaxtime), sysvector.IMU_AccZ(imintime:imaxtime)]); - title(h.axes(3),'Accelerometers [m/s²]'); - legend(h.axes(3),'x','y','z'); - plot(h.axes(4),time(imintime:imaxtime),[sysvector.IMU_GyroX(imintime:imaxtime), sysvector.IMU_GyroY(imintime:imaxtime), sysvector.IMU_GyroZ(imintime:imaxtime)]); - title(h.axes(4),'Gyroscopes [rad/s]'); - legend(h.axes(4),'x','y','z'); - plot(h.axes(5),time(imintime:imaxtime),sysvector.SENS_BaroAlt(imintime:imaxtime),'color','blue'); - if(bDisplayGPS) - hold on; - plot(h.axes(5),time(imintime:imaxtime),double(sysvector.GPS_Alt(imintime:imaxtime)).*fconv_gpsalt,'color','red'); - hold off - legend('Barometric Altitude [m]','GPS Altitude [m]'); - else - legend('Barometric Altitude [m]'); - end - title(h.axes(5),'Altitude above MSL [m]'); - - % ************************************************************************ - % PLOT WINDOW 3: ATTITUDE ESTIMATE, ACTUATORS/CONTROLS, AIRSPEEDS,... - % ************************************************************************ - figure(h.figures(4)); - %Attitude Estimate - plot(h.axes(6),time(imintime:imaxtime), [sysvector.ATT_Roll(imintime:imaxtime), sysvector.ATT_Pitch(imintime:imaxtime), sysvector.ATT_Yaw(imintime:imaxtime)] .*180./3.14159); - title(h.axes(6),'Estimated attitude [deg]'); - legend(h.axes(6),'roll','pitch','yaw'); - %Actuator Controls - plot(h.axes(7),time(imintime:imaxtime), [sysvector.ATTC_Roll(imintime:imaxtime), sysvector.ATTC_Pitch(imintime:imaxtime), sysvector.ATTC_Yaw(imintime:imaxtime), sysvector.ATTC_Thrust(imintime:imaxtime)]); - title(h.axes(7),'Actuator control [-]'); - legend(h.axes(7),'ATT CTRL Roll [-1..+1]','ATT CTRL Pitch [-1..+1]','ATT CTRL Yaw [-1..+1]','ATT CTRL Thrust [0..+1]'); - %Actuator Controls - plot(h.axes(8),time(imintime:imaxtime), [sysvector.OUT0_Out0(imintime:imaxtime), sysvector.OUT0_Out1(imintime:imaxtime), sysvector.OUT0_Out2(imintime:imaxtime), sysvector.OUT0_Out3(imintime:imaxtime), sysvector.OUT0_Out4(imintime:imaxtime), sysvector.OUT0_Out5(imintime:imaxtime), sysvector.OUT0_Out6(imintime:imaxtime), sysvector.OUT0_Out7(imintime:imaxtime)]); - title(h.axes(8),'Actuator PWM (raw-)outputs [µs]'); - legend(h.axes(8),'CH1','CH2','CH3','CH4','CH5','CH6','CH7','CH8'); - set(h.axes(8), 'YLim',[800 2200]); - %Airspeeds - plot(h.axes(9),time(imintime:imaxtime), sysvector.AIRS_IndSpeed(imintime:imaxtime)); - hold on - plot(h.axes(9),time(imintime:imaxtime), sysvector.AIRS_TrueSpeed(imintime:imaxtime)); - hold off - %add GPS total airspeed here - title(h.axes(9),'Airspeed [m/s]'); - legend(h.axes(9),'Indicated Airspeed (IAS)','True Airspeed (TAS)','GPS Airspeed'); - %calculate time differences and plot them - intervals = zeros(0,imaxtime - imintime); - for k = imintime+1:imaxtime - intervals(k) = time(k) - time(k-1); - end - plot(h.axes(10), time(imintime:imaxtime), intervals); - - %Set same timescale for all plots - for i=2:NrAxes - set(h.axes(i),'XLim',[mintime maxtime]); - end - - set(h.labels.GUIState,'String','OK','BackgroundColor',[240/255 240/255 240/255]); -end - -%% ************************************************************************ -% DRAWCURRENTAIRCRAFTSTATE(nested function) -% ************************************************************************ -function DrawCurrentAircraftState() - %find current data index - i=find(time>=CurTime,1,'first'); - - %********************************************************************** - % Current aircraft state label update - %********************************************************************** - acstate{1,:}=[sprintf('%s \t\t','GPS Pos:'),'[lat=',num2str(double(sysvector.GPS_Lat(i))*fconv_gpslatlong),'°, ',... - 'lon=',num2str(double(sysvector.GPS_Lon(i))*fconv_gpslatlong),'°, ',... - 'alt=',num2str(double(sysvector.GPS_Alt(i))*fconv_gpsalt),'m]']; - acstate{2,:}=[sprintf('%s \t\t','Mags[gauss]'),'[x=',num2str(sysvector.IMU_MagX(i)),... - ', y=',num2str(sysvector.IMU_MagY(i)),... - ', z=',num2str(sysvector.IMU_MagZ(i)),']']; - acstate{3,:}=[sprintf('%s \t\t','Accels[m/s²]'),'[x=',num2str(sysvector.IMU_AccX(i)),... - ', y=',num2str(sysvector.IMU_AccY(i)),... - ', z=',num2str(sysvector.IMU_AccZ(i)),']']; - acstate{4,:}=[sprintf('%s \t\t','Gyros[rad/s]'),'[x=',num2str(sysvector.IMU_GyroX(i)),... - ', y=',num2str(sysvector.IMU_GyroY(i)),... - ', z=',num2str(sysvector.IMU_GyroZ(i)),']']; - acstate{5,:}=[sprintf('%s \t\t','Altitude[m]'),'[Barometric: ',num2str(sysvector.SENS_BaroAlt(i)),'m, GPS: ',num2str(double(sysvector.GPS_Alt(i))*fconv_gpsalt),'m]']; - acstate{6,:}=[sprintf('%s \t','Est. attitude[deg]:'),'[Roll=',num2str(sysvector.ATT_Roll(i).*180./3.14159),... - ', Pitch=',num2str(sysvector.ATT_Pitch(i).*180./3.14159),... - ', Yaw=',num2str(sysvector.ATT_Yaw(i).*180./3.14159),']']; - acstate{7,:}=sprintf('%s \t[','Actuator Ctrls [-]:'); - %for j=1:4 - acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Roll(i)),',']; - acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Pitch(i)),',']; - acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Yaw(i)),',']; - acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Thrust(i)),',']; - %end - acstate{7,:}=[acstate{7,:},']']; - acstate{8,:}=sprintf('%s \t[','Actuator Outputs [PWM/µs]:'); - %for j=1:8 - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out0(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out1(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out2(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out3(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out4(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out5(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out6(i)),',']; - acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out7(i)),',']; - %end - acstate{8,:}=[acstate{8,:},']']; - acstate{9,:}=[sprintf('%s \t','Airspeed[m/s]:'),'[IAS: ',num2str(sysvector.AIRS_IndSpeed(i)),', TAS: ',num2str(sysvector.AIRS_TrueSpeed(i)),']']; - - set(h.edits.AircraftState,'String',acstate); - - %********************************************************************** - % GPS Plot Update - %********************************************************************** - %Plot traveled path, and and time. - figure(h.figures(2)); - hold on; - if(CurTime>mintime+1) %the +1 is only a small bugfix - h.pathline=plot3(h.axes(1),double(sysvector.GPS_Lat(imintime:i))*fconv_gpslatlong, ... - double(sysvector.GPS_Lon(imintime:i))*fconv_gpslatlong, ... - double(sysvector.GPS_Alt(imintime:i))*fconv_gpsalt,'b','LineWidth',2); - end; - hold off - %Plot current position - newpoint=[double(sysvector.GPS_Lat(i))*fconv_gpslatlong double(sysvector.GPS_Lat(i))*fconv_gpslatlong double(sysvector.GPS_Alt(i))*fconv_gpsalt]; - if(numel(h.pathpoints)<=3) %empty path - h.pathpoints(1,1:3)=newpoint; - else %Not empty, append new point - h.pathpoints(size(h.pathpoints,1)+1,:)=newpoint; - end - axes(h.axes(1)); - line(h.pathpoints(:,1),h.pathpoints(:,2),h.pathpoints(:,3),'LineStyle','none','Marker','.','MarkerEdge','black','MarkerSize',20); - - - % Plot current time (small label next to current gps position) - textdesc=strcat(' t=',num2str(time(i)),'s'); - if(isvalidhandle(h.markertext)) - delete(h.markertext); %delete old text - end - h.markertext=text(double(sysvector.GPS_Lat(i))*fconv_gpslatlong,double(sysvector.GPS_Lon(i))*fconv_gpslatlong,... - double(sysvector.GPS_Alt(i))*fconv_gpsalt,textdesc); - set(h.edits.CurTime,'String',CurTime); - - %********************************************************************** - % Plot the lines showing the current time in the 2-d plots - %********************************************************************** - for i=2:NrAxes - if(isvalidhandle(h.markerline(i))) delete(h.markerline(i)); end - ylims=get(h.axes(i),'YLim'); - h.markerline(i)=line([CurTime CurTime] ,get(h.axes(i),'YLim'),'Color','black'); - set(h.markerline(i),'parent',h.axes(i)); - end - - set(h.labels.GUIState,'String','OK','BackgroundColor',[240/255 240/255 240/255]); -end - -%% ************************************************************************ -% MINMAXTIME CALLBACK (nested function) -% ************************************************************************ -function minmaxtime_callback(hObj,event) %#ok - new_mintime=get(h.sliders.MinTime,'Value'); - new_maxtime=get(h.sliders.MaxTime,'Value'); - - %Safety checks: - bErr=false; - %1: mintime must be < maxtime - if((new_mintime>maxtime) || (new_maxtimeCurTime) - set(h.labels.GUIState,'String','Error: Mintime cannot be bigger than CurTime! CurTime set to new mintime.','BackgroundColor','red'); - mintime=new_mintime; - CurTime=mintime; - bErr=true; - end - %3: MaxTime must be >CurTime - if(new_maxtime - %find current time - if(hObj==h.sliders.CurTime) - CurTime=get(h.sliders.CurTime,'Value'); - elseif (hObj==h.edits.CurTime) - temp=str2num(get(h.edits.CurTime,'String')); - if(tempmintime) - CurTime=temp; - else - %Error - set(h.labels.GUIState,'String','Error: You tried to set an invalid current time! Previous value restored.','BackgroundColor','red'); - end - else - %Error - set(h.labels.GUIState,'String','Error: curtime_callback','BackgroundColor','red'); - end - - set(h.sliders.CurTime,'Value',CurTime); - set(h.edits.CurTime,'String',num2str(CurTime)); - - %Redraw time markers, but don't have to redraw the whole raw data - DrawCurrentAircraftState(); -end - -%% ************************************************************************ -% FINDMINMAXINDICES (nested function) -% ************************************************************************ -function [idxmin,idxmax] = FindMinMaxTimeIndices() - for i=1:size(sysvector.TIME_StartTime,1) - if time(i)>=mintime; idxmin=i; break; end - end - for i=1:size(sysvector.TIME_StartTime,1) - if maxtime==0; idxmax=size(sysvector.TIME_StartTime,1); break; end - if time(i)>=maxtime; idxmax=i; break; end - end - mintime=time(idxmin); - maxtime=time(idxmax); -end - -%% ************************************************************************ -% ISVALIDHANDLE (nested function) -% ************************************************************************ -function isvalid = isvalidhandle(handle) - if(exist(varname(handle))>0 && length(ishandle(handle))>0) - if(ishandle(handle)>0) - if(handle>0.0) - isvalid=true; - return; - end - end - end - isvalid=false; -end - -%% ************************************************************************ -% JUST SOME SMALL HELPER FUNCTIONS (nested function) -% ************************************************************************ -function out = varname(var) - out = inputname(1); -end - -%This is the end of the matlab file / the main function -end +% This Matlab Script can be used to import the binary logged values of the +% PX4FMU into data that can be plotted and analyzed. + +%% ************************************************************************ +% PX4LOG_PLOTSCRIPT: Main function +% ************************************************************************ +function PX4Log_Plotscript + +% Clear everything +clc +clear all +close all + +% ************************************************************************ +% SETTINGS +% ************************************************************************ + +% Set the path to your sysvector.bin file here +filePath = 'log001.bin'; + +% Set the minimum and maximum times to plot here [in seconds] +mintime=0; %The minimum time/timestamp to display, as set by the user [0 for first element / start] +maxtime=0; %The maximum time/timestamp to display, as set by the user [0 for last element / end] + +%Determine which data to plot. Not completely implemented yet. +bDisplayGPS=true; + +%conversion factors +fconv_gpsalt=1; %[mm] to [m] +fconv_gpslatlong=1; %[gps_raw_position_unit] to [deg] +fconv_timestamp=1E-6; % [microseconds] to [seconds] + +% ************************************************************************ +% Import the PX4 logs +% ************************************************************************ +ImportPX4LogData(); + +%Translate min and max plot times to indices +time=double(sysvector.TIME_StartTime) .*fconv_timestamp; +mintime_log=time(1); %The minimum time/timestamp found in the log +maxtime_log=time(end); %The maximum time/timestamp found in the log +CurTime=mintime_log; %The current time at which to draw the aircraft position + +[imintime,imaxtime]=FindMinMaxTimeIndices(); + +% ************************************************************************ +% PLOT & GUI SETUP +% ************************************************************************ +NrFigures=5; +NrAxes=10; +h.figures(1:NrFigures)=0.0; % Temporary initialization of figure handle array - these are numbered consecutively +h.axes(1:NrAxes)=0.0; % Temporary initialization of axes handle array - these are numbered consecutively +h.pathpoints=[]; % Temporary initiliazation of path points + +% Setup the GUI to control the plots +InitControlGUI(); +% Setup the plotting-GUI (figures, axes) itself. +InitPlotGUI(); + +% ************************************************************************ +% DRAW EVERYTHING +% ************************************************************************ +DrawRawData(); +DrawCurrentAircraftState(); + +%% ************************************************************************ +% *** END OF MAIN SCRIPT *** +% NESTED FUNCTION DEFINTIONS FROM HERE ON +% ************************************************************************ + + +%% ************************************************************************ +% IMPORTPX4LOGDATA (nested function) +% ************************************************************************ +% Attention: This is the import routine for firmware from ca. 03/2013. +% Other firmware versions might require different import +% routines. + +%% ************************************************************************ +% IMPORTPX4LOGDATA (nested function) +% ************************************************************************ +% Attention: This is the import routine for firmware from ca. 03/2013. +% Other firmware versions might require different import +% routines. + +function ImportPX4LogData() + + % ************************************************************************ + % RETRIEVE SYSTEM VECTOR + % ************************************************************************* + % //All measurements in NED frame + + % Convert to CSV + %arg1 = 'log-fx61-20130721-2.bin'; + arg1 = filePath; + delim = ','; + time_field = 'TIME'; + data_file = 'data.csv'; + csv_null = ''; + + if not(exist(data_file, 'file')) + s = system( sprintf('python sdlog2_dump.py "%s" -f "%s" -t"%s" -d"%s" -n"%s"', arg1, data_file, time_field, delim, csv_null) ); + end + + if exist(data_file, 'file') + + %data = csvread(data_file); + sysvector = tdfread(data_file, ','); + + % shot the flight time + time_us = sysvector.TIME_StartTime(end) - sysvector.TIME_StartTime(1); + time_s = uint64(time_us*1e-6); + time_m = uint64(time_s/60); + time_s = time_s - time_m * 60; + + disp([sprintf('Flight log duration: %d:%d (minutes:seconds)', time_m, time_s) char(10)]); + + disp(['logfile conversion finished.' char(10)]); + else + disp(['file: ' data_file ' does not exist' char(10)]); + end +end + +%% ************************************************************************ +% INITCONTROLGUI (nested function) +% ************************************************************************ +%Setup central control GUI components to control current time where data is shown +function InitControlGUI() + %********************************************************************** + % GUI size definitions + %********************************************************************** + dxy=5; %margins + %Panel: Plotctrl + dlabels=120; + dsliders=200; + dedits=80; + hslider=20; + + hpanel1=40; %panel1 + hpanel2=220;%panel2 + hpanel3=3*hslider+4*dxy+3*dxy;%panel3. + + width=dlabels+dsliders+dedits+4*dxy+2*dxy; %figure width + height=hpanel1+hpanel2+hpanel3+4*dxy; %figure height + + %********************************************************************** + % Create GUI + %********************************************************************** + h.figures(1)=figure('Units','pixels','position',[200 200 width height],'Name','Control GUI'); + h.guistatepanel=uipanel('Title','Current GUI state','Units','pixels','Position',[dxy dxy width-2*dxy hpanel1],'parent',h.figures(1)); + h.aircraftstatepanel=uipanel('Title','Current aircraft state','Units','pixels','Position',[dxy hpanel1+2*dxy width-2*dxy hpanel2],'parent',h.figures(1)); + h.plotctrlpanel=uipanel('Title','Plot Control','Units','pixels','Position',[dxy hpanel1+hpanel2+3*dxy width-2*dxy hpanel3],'parent',h.figures(1)); + + %%Control GUI-elements + %Slider: Current time + h.labels.CurTime=uicontrol(gcf,'style','text','Position',[dxy dxy dlabels hslider],'String','Current time t[s]:','parent',h.plotctrlpanel,'HorizontalAlignment','left'); + h.sliders.CurTime=uicontrol(gcf,'style','slider','units','pix','position',[2*dxy+dlabels dxy dsliders hslider],... + 'min',mintime,'max',maxtime,'value',mintime,'callback',@curtime_callback,'parent',h.plotctrlpanel); + temp=get(h.sliders.CurTime,'Max')-get(h.sliders.CurTime,'Min'); + set(h.sliders.CurTime,'SliderStep',[1.0/temp 5.0/temp]); + h.edits.CurTime=uicontrol(gcf,'style','edit','position',[3*dxy+dlabels+dsliders dxy dedits hslider],'String',get(h.sliders.CurTime,'value'),... + 'BackgroundColor','white','callback',@curtime_callback,'parent',h.plotctrlpanel); + + %Slider: MaxTime + h.labels.MaxTime=uicontrol(gcf,'style','text','position',[dxy 2*dxy+hslider dlabels hslider],'String','Max. time t[s] to display:','parent',h.plotctrlpanel,'HorizontalAlignment','left'); + h.sliders.MaxTime=uicontrol(gcf,'style','slider','units','pix','position',[2*dxy+dlabels 2*dxy+hslider dsliders hslider],... + 'min',mintime_log,'max',maxtime_log,'value',maxtime,'callback',@minmaxtime_callback,'parent',h.plotctrlpanel); + h.edits.MaxTime=uicontrol(gcf,'style','edit','position',[3*dxy+dlabels+dsliders 2*dxy+hslider dedits hslider],'String',get(h.sliders.MaxTime,'value'),... + 'BackgroundColor','white','callback',@minmaxtime_callback,'parent',h.plotctrlpanel); + + %Slider: MinTime + h.labels.MinTime=uicontrol(gcf,'style','text','position',[dxy 3*dxy+2*hslider dlabels hslider],'String','Min. time t[s] to dispay :','parent',h.plotctrlpanel,'HorizontalAlignment','left'); + h.sliders.MinTime=uicontrol(gcf,'style','slider','units','pix','position',[2*dxy+dlabels 3*dxy+2*hslider dsliders hslider],... + 'min',mintime_log,'max',maxtime_log,'value',mintime,'callback',@minmaxtime_callback,'parent',h.plotctrlpanel); + h.edits.MinTime=uicontrol(gcf,'style','edit','position',[3*dxy+dlabels+dsliders 3*dxy+2*hslider dedits hslider],'String',get(h.sliders.MinTime,'value'),... + 'BackgroundColor','white','callback',@minmaxtime_callback,'parent',h.plotctrlpanel); + + %%Current data/state GUI-elements (Multiline-edit-box) + h.edits.AircraftState=uicontrol(gcf,'style','edit','Units','normalized','position',[.02 .02 0.96 0.96],'Min',1,'Max',10,'String','This shows the current aircraft state',... + 'HorizontalAlignment','left','parent',h.aircraftstatepanel); + + h.labels.GUIState=uicontrol(gcf,'style','text','Units','pixels','position',[dxy dxy width-4*dxy hslider],'String','Current state of this GUI',... + 'HorizontalAlignment','left','parent',h.guistatepanel); + +end + +%% ************************************************************************ +% INITPLOTGUI (nested function) +% ************************************************************************ +function InitPlotGUI() + + % Setup handles to lines and text + h.markertext=[]; + templinehandle=0.0;%line([0 1],[0 5]); % Just a temporary handle to init array + h.markerline(1:NrAxes)=templinehandle; % the actual handle-array to the lines - these are numbered consecutively + h.markerline(1:NrAxes)=0.0; + + % Setup all other figures and axes for plotting + % PLOT WINDOW 1: GPS POSITION + h.figures(2)=figure('units','normalized','Toolbar','figure', 'Name', 'GPS Position'); + h.axes(1)=axes(); + set(h.axes(1),'Parent',h.figures(2)); + + % PLOT WINDOW 2: IMU, baro altitude + h.figures(3)=figure('Name', 'IMU / Baro Altitude'); + h.axes(2)=subplot(4,1,1); + h.axes(3)=subplot(4,1,2); + h.axes(4)=subplot(4,1,3); + h.axes(5)=subplot(4,1,4); + set(h.axes(2:5),'Parent',h.figures(3)); + + % PLOT WINDOW 3: ATTITUDE ESTIMATE, ACTUATORS/CONTROLS, AIRSPEEDS,... + h.figures(4)=figure('Name', 'Attitude Estimate / Actuators / Airspeeds'); + h.axes(6)=subplot(4,1,1); + h.axes(7)=subplot(4,1,2); + h.axes(8)=subplot(4,1,3); + h.axes(9)=subplot(4,1,4); + set(h.axes(6:9),'Parent',h.figures(4)); + + % PLOT WINDOW 4: LOG STATS + h.figures(5) = figure('Name', 'Log Statistics'); + h.axes(10)=subplot(1,1,1); + set(h.axes(10:10),'Parent',h.figures(5)); + +end + +%% ************************************************************************ +% DRAWRAWDATA (nested function) +% ************************************************************************ +%Draws the raw data from the sysvector, but does not add any +%marker-lines or so +function DrawRawData() + % ************************************************************************ + % PLOT WINDOW 1: GPS POSITION & GUI + % ************************************************************************ + figure(h.figures(2)); + % Only plot GPS data if available + if (sum(double(sysvector.GPS_Lat(imintime:imaxtime)))>0) && (bDisplayGPS) + %Draw data + plot3(h.axes(1),double(sysvector.GPS_Lat(imintime:imaxtime))*fconv_gpslatlong, ... + double(sysvector.GPS_Lon(imintime:imaxtime))*fconv_gpslatlong, ... + double(sysvector.GPS_Alt(imintime:imaxtime))*fconv_gpsalt,'r.'); + title(h.axes(1),'GPS Position Data(if available)'); + xlabel(h.axes(1),'Latitude [deg]'); + ylabel(h.axes(1),'Longitude [deg]'); + zlabel(h.axes(1),'Altitude above MSL [m]'); + grid on + + %Reset path + h.pathpoints=0; + end + + % ************************************************************************ + % PLOT WINDOW 2: IMU, baro altitude + % ************************************************************************ + figure(h.figures(3)); + plot(h.axes(2),time(imintime:imaxtime),[sysvector.IMU_MagX(imintime:imaxtime), sysvector.IMU_MagY(imintime:imaxtime), sysvector.IMU_MagZ(imintime:imaxtime)]); + title(h.axes(2),'Magnetometers [Gauss]'); + legend(h.axes(2),'x','y','z'); + plot(h.axes(3),time(imintime:imaxtime),[sysvector.IMU_AccX(imintime:imaxtime), sysvector.IMU_AccY(imintime:imaxtime), sysvector.IMU_AccZ(imintime:imaxtime)]); + title(h.axes(3),'Accelerometers [m/s²]'); + legend(h.axes(3),'x','y','z'); + plot(h.axes(4),time(imintime:imaxtime),[sysvector.IMU_GyroX(imintime:imaxtime), sysvector.IMU_GyroY(imintime:imaxtime), sysvector.IMU_GyroZ(imintime:imaxtime)]); + title(h.axes(4),'Gyroscopes [rad/s]'); + legend(h.axes(4),'x','y','z'); + plot(h.axes(5),time(imintime:imaxtime),sysvector.SENS_BaroAlt(imintime:imaxtime),'color','blue'); + if(bDisplayGPS) + hold on; + plot(h.axes(5),time(imintime:imaxtime),double(sysvector.GPS_Alt(imintime:imaxtime)).*fconv_gpsalt,'color','red'); + hold off + legend('Barometric Altitude [m]','GPS Altitude [m]'); + else + legend('Barometric Altitude [m]'); + end + title(h.axes(5),'Altitude above MSL [m]'); + + % ************************************************************************ + % PLOT WINDOW 3: ATTITUDE ESTIMATE, ACTUATORS/CONTROLS, AIRSPEEDS,... + % ************************************************************************ + figure(h.figures(4)); + %Attitude Estimate + plot(h.axes(6),time(imintime:imaxtime), [sysvector.ATT_Roll(imintime:imaxtime), sysvector.ATT_Pitch(imintime:imaxtime), sysvector.ATT_Yaw(imintime:imaxtime)] .*180./3.14159); + title(h.axes(6),'Estimated attitude [deg]'); + legend(h.axes(6),'roll','pitch','yaw'); + %Actuator Controls + plot(h.axes(7),time(imintime:imaxtime), [sysvector.ATTC_Roll(imintime:imaxtime), sysvector.ATTC_Pitch(imintime:imaxtime), sysvector.ATTC_Yaw(imintime:imaxtime), sysvector.ATTC_Thrust(imintime:imaxtime)]); + title(h.axes(7),'Actuator control [-]'); + legend(h.axes(7),'ATT CTRL Roll [-1..+1]','ATT CTRL Pitch [-1..+1]','ATT CTRL Yaw [-1..+1]','ATT CTRL Thrust [0..+1]'); + %Actuator Controls + plot(h.axes(8),time(imintime:imaxtime), [sysvector.OUT0_Out0(imintime:imaxtime), sysvector.OUT0_Out1(imintime:imaxtime), sysvector.OUT0_Out2(imintime:imaxtime), sysvector.OUT0_Out3(imintime:imaxtime), sysvector.OUT0_Out4(imintime:imaxtime), sysvector.OUT0_Out5(imintime:imaxtime), sysvector.OUT0_Out6(imintime:imaxtime), sysvector.OUT0_Out7(imintime:imaxtime)]); + title(h.axes(8),'Actuator PWM (raw-)outputs [µs]'); + legend(h.axes(8),'CH1','CH2','CH3','CH4','CH5','CH6','CH7','CH8'); + set(h.axes(8), 'YLim',[800 2200]); + %Airspeeds + plot(h.axes(9),time(imintime:imaxtime), sysvector.AIRS_IndSpeed(imintime:imaxtime)); + hold on + plot(h.axes(9),time(imintime:imaxtime), sysvector.AIRS_TrueSpeed(imintime:imaxtime)); + hold off + %add GPS total airspeed here + title(h.axes(9),'Airspeed [m/s]'); + legend(h.axes(9),'Indicated Airspeed (IAS)','True Airspeed (TAS)','GPS Airspeed'); + %calculate time differences and plot them + intervals = zeros(0,imaxtime - imintime); + for k = imintime+1:imaxtime + intervals(k) = time(k) - time(k-1); + end + plot(h.axes(10), time(imintime:imaxtime), intervals); + + %Set same timescale for all plots + for i=2:NrAxes + set(h.axes(i),'XLim',[mintime maxtime]); + end + + set(h.labels.GUIState,'String','OK','BackgroundColor',[240/255 240/255 240/255]); +end + +%% ************************************************************************ +% DRAWCURRENTAIRCRAFTSTATE(nested function) +% ************************************************************************ +function DrawCurrentAircraftState() + %find current data index + i=find(time>=CurTime,1,'first'); + + %********************************************************************** + % Current aircraft state label update + %********************************************************************** + acstate{1,:}=[sprintf('%s \t\t','GPS Pos:'),'[lat=',num2str(double(sysvector.GPS_Lat(i))*fconv_gpslatlong),'°, ',... + 'lon=',num2str(double(sysvector.GPS_Lon(i))*fconv_gpslatlong),'°, ',... + 'alt=',num2str(double(sysvector.GPS_Alt(i))*fconv_gpsalt),'m]']; + acstate{2,:}=[sprintf('%s \t\t','Mags[gauss]'),'[x=',num2str(sysvector.IMU_MagX(i)),... + ', y=',num2str(sysvector.IMU_MagY(i)),... + ', z=',num2str(sysvector.IMU_MagZ(i)),']']; + acstate{3,:}=[sprintf('%s \t\t','Accels[m/s²]'),'[x=',num2str(sysvector.IMU_AccX(i)),... + ', y=',num2str(sysvector.IMU_AccY(i)),... + ', z=',num2str(sysvector.IMU_AccZ(i)),']']; + acstate{4,:}=[sprintf('%s \t\t','Gyros[rad/s]'),'[x=',num2str(sysvector.IMU_GyroX(i)),... + ', y=',num2str(sysvector.IMU_GyroY(i)),... + ', z=',num2str(sysvector.IMU_GyroZ(i)),']']; + acstate{5,:}=[sprintf('%s \t\t','Altitude[m]'),'[Barometric: ',num2str(sysvector.SENS_BaroAlt(i)),'m, GPS: ',num2str(double(sysvector.GPS_Alt(i))*fconv_gpsalt),'m]']; + acstate{6,:}=[sprintf('%s \t','Est. attitude[deg]:'),'[Roll=',num2str(sysvector.ATT_Roll(i).*180./3.14159),... + ', Pitch=',num2str(sysvector.ATT_Pitch(i).*180./3.14159),... + ', Yaw=',num2str(sysvector.ATT_Yaw(i).*180./3.14159),']']; + acstate{7,:}=sprintf('%s \t[','Actuator Ctrls [-]:'); + %for j=1:4 + acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Roll(i)),',']; + acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Pitch(i)),',']; + acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Yaw(i)),',']; + acstate{7,:}=[acstate{7,:},num2str(sysvector.ATTC_Thrust(i)),',']; + %end + acstate{7,:}=[acstate{7,:},']']; + acstate{8,:}=sprintf('%s \t[','Actuator Outputs [PWM/µs]:'); + %for j=1:8 + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out0(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out1(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out2(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out3(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out4(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out5(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out6(i)),',']; + acstate{8,:}=[acstate{8,:},num2str(sysvector.OUT0_Out7(i)),',']; + %end + acstate{8,:}=[acstate{8,:},']']; + acstate{9,:}=[sprintf('%s \t','Airspeed[m/s]:'),'[IAS: ',num2str(sysvector.AIRS_IndSpeed(i)),', TAS: ',num2str(sysvector.AIRS_TrueSpeed(i)),']']; + + set(h.edits.AircraftState,'String',acstate); + + %********************************************************************** + % GPS Plot Update + %********************************************************************** + %Plot traveled path, and and time. + figure(h.figures(2)); + hold on; + if(CurTime>mintime+1) %the +1 is only a small bugfix + h.pathline=plot3(h.axes(1),double(sysvector.GPS_Lat(imintime:i))*fconv_gpslatlong, ... + double(sysvector.GPS_Lon(imintime:i))*fconv_gpslatlong, ... + double(sysvector.GPS_Alt(imintime:i))*fconv_gpsalt,'b','LineWidth',2); + end; + hold off + %Plot current position + newpoint=[double(sysvector.GPS_Lat(i))*fconv_gpslatlong double(sysvector.GPS_Lat(i))*fconv_gpslatlong double(sysvector.GPS_Alt(i))*fconv_gpsalt]; + if(numel(h.pathpoints)<=3) %empty path + h.pathpoints(1,1:3)=newpoint; + else %Not empty, append new point + h.pathpoints(size(h.pathpoints,1)+1,:)=newpoint; + end + axes(h.axes(1)); + line(h.pathpoints(:,1),h.pathpoints(:,2),h.pathpoints(:,3),'LineStyle','none','Marker','.','MarkerEdge','black','MarkerSize',20); + + + % Plot current time (small label next to current gps position) + textdesc=strcat(' t=',num2str(time(i)),'s'); + if(isvalidhandle(h.markertext)) + delete(h.markertext); %delete old text + end + h.markertext=text(double(sysvector.GPS_Lat(i))*fconv_gpslatlong,double(sysvector.GPS_Lon(i))*fconv_gpslatlong,... + double(sysvector.GPS_Alt(i))*fconv_gpsalt,textdesc); + set(h.edits.CurTime,'String',CurTime); + + %********************************************************************** + % Plot the lines showing the current time in the 2-d plots + %********************************************************************** + for i=2:NrAxes + if(isvalidhandle(h.markerline(i))) delete(h.markerline(i)); end + ylims=get(h.axes(i),'YLim'); + h.markerline(i)=line([CurTime CurTime] ,get(h.axes(i),'YLim'),'Color','black'); + set(h.markerline(i),'parent',h.axes(i)); + end + + set(h.labels.GUIState,'String','OK','BackgroundColor',[240/255 240/255 240/255]); +end + +%% ************************************************************************ +% MINMAXTIME CALLBACK (nested function) +% ************************************************************************ +function minmaxtime_callback(hObj,event) %#ok + new_mintime=get(h.sliders.MinTime,'Value'); + new_maxtime=get(h.sliders.MaxTime,'Value'); + + %Safety checks: + bErr=false; + %1: mintime must be < maxtime + if((new_mintime>maxtime) || (new_maxtimeCurTime) + set(h.labels.GUIState,'String','Error: Mintime cannot be bigger than CurTime! CurTime set to new mintime.','BackgroundColor','red'); + mintime=new_mintime; + CurTime=mintime; + bErr=true; + end + %3: MaxTime must be >CurTime + if(new_maxtime + %find current time + if(hObj==h.sliders.CurTime) + CurTime=get(h.sliders.CurTime,'Value'); + elseif (hObj==h.edits.CurTime) + temp=str2num(get(h.edits.CurTime,'String')); + if(tempmintime) + CurTime=temp; + else + %Error + set(h.labels.GUIState,'String','Error: You tried to set an invalid current time! Previous value restored.','BackgroundColor','red'); + end + else + %Error + set(h.labels.GUIState,'String','Error: curtime_callback','BackgroundColor','red'); + end + + set(h.sliders.CurTime,'Value',CurTime); + set(h.edits.CurTime,'String',num2str(CurTime)); + + %Redraw time markers, but don't have to redraw the whole raw data + DrawCurrentAircraftState(); +end + +%% ************************************************************************ +% FINDMINMAXINDICES (nested function) +% ************************************************************************ +function [idxmin,idxmax] = FindMinMaxTimeIndices() + for i=1:size(sysvector.TIME_StartTime,1) + if time(i)>=mintime; idxmin=i; break; end + end + for i=1:size(sysvector.TIME_StartTime,1) + if maxtime==0; idxmax=size(sysvector.TIME_StartTime,1); break; end + if time(i)>=maxtime; idxmax=i; break; end + end + mintime=time(idxmin); + maxtime=time(idxmax); +end + +%% ************************************************************************ +% ISVALIDHANDLE (nested function) +% ************************************************************************ +function isvalid = isvalidhandle(handle) + if(exist(varname(handle))>0 && length(ishandle(handle))>0) + if(ishandle(handle)>0) + if(handle>0.0) + isvalid=true; + return; + end + end + end + isvalid=false; +end + +%% ************************************************************************ +% JUST SOME SMALL HELPER FUNCTIONS (nested function) +% ************************************************************************ +function out = varname(var) + out = inputname(1); +end + +%This is the end of the matlab file / the main function +end diff --git a/Tools/sdlog2_dump.py b/Tools/sdlog2/sdlog2_dump.py similarity index 100% rename from Tools/sdlog2_dump.py rename to Tools/sdlog2/sdlog2_dump.py diff --git a/src/drivers/mkblctrl/mkblctrl.cpp b/src/drivers/mkblctrl/mkblctrl.cpp index ec5f77d747..705e98eea4 100644 --- a/src/drivers/mkblctrl/mkblctrl.cpp +++ b/src/drivers/mkblctrl/mkblctrl.cpp @@ -705,7 +705,7 @@ MK::mk_check_for_blctrl(unsigned int count, bool showOutput, bool initI2C) Motor[i].State |= MOTOR_STATE_PRESENT_MASK; // set present bit; foundMotorCount++; - if (Motor[i].MaxPWM == 250) { + if ((Motor[i].MaxPWM & 252) == 248) { Motor[i].Version = BLCTRL_NEW; } else {