ardupilot/Tools/simulink/arducopter/sid_pre.m

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% Reads ArduPilot's system identification dataflash logs and extracts the SID
% subsections of the fligts into .mat file, discarding all irrelevant data
%
%
% Fabian Bredemeier - IAV GmbH
% License: GPL v3
close all;
%% File selection by user
% ---------------------------------------------- %
% %
% File selection %
% %
% ---------------------------------------------- %
% 1) Ask user if next data should be added to existing data set
if exist('sidLogs', 'var')
% Abort if config data for existing data is missing
if ~exist('loadedDataConfig', 'var')
error('No configuration of the existing data could be found. Aborting...');
end
addData = input('Add next data to existing data set (0: no, 1: yes)?');
if addData > 1 && ~isnumeric(addData)
error('Input not valid. Only 0 or 1 are allowed.')
end
else
addData = 0;
end
% Delete old data of new data will not be added. Otherwise get number of
% existing elements
if ~addData
clear sidLogs idData
numOldSubflights = 0;
numOldSysidflights = 0;
else
numOldSubflights = numel(sidLogs);
if exist('idData', 'var')
numOldSysidflights = numel(idData);
end
end
% 2) User chooses new flight data from explorer
mainPath = pwd;
flightDataSearchPath = [mainPath];
[files,flightDataPath] = uigetfile({'*.*'},...
'Select One or More Files', ...
'MultiSelect', 'on', ...
flightDataSearchPath);
% If only one file is selected, convert char array to cell array
if ~iscell(files)
files = cellstr(files);
numFiles = 1;
else
numFiles = size(files,2);
end
% 3) Get file extensions - .BIN oder .mat
fileExt = cell(numFiles,1);
for i=1:numFiles
fileExt{i} = files{i}(end-2:end);
end
% 4) Create cell array with file names
fileNames = cell(numFiles,1);
for i=1:numFiles
fileNames{i} = [flightDataPath files{i}];
end
% 5) Load .mat files - loadedDataConfig is struct, so load fileName field
chooseSubflights = false;
for i=1:numFiles
if strcmp(fileExt{i}, 'mat')
load(fileNames{i});
fileNames = loadedDataConfig.fileNames;
% Fill chooseSubflights variable with false for amount of
% subflights
for j=1:length(loadedDataConfig.subflights)
chooseSubflights(j) = false;
end
else
% Activate subflight choosing if BIN files were selected
chooseSubflights(i) = true;
end
end
%% Load complete log data and show tested modes
% ---------------------------------------------- %
% %
% Loading Dataflash Logs %
% %
% ---------------------------------------------- %
fprintf('\n-------------------------------------------\nLoading Flash Logs...\n')
fprintf('-------------------------------------------\n');
% Variables to store subflight numbers,amount of subflights and modes
subflights = 0;
fileIndices = 0;
numSubflights = 0;
modes = 0;
for fileIdx = 1:length(fileNames)
fprintf('Processing file %d ...\n', fileIdx);
% Throw error if files cannot be found
if ~isfile(fileNames{fileIdx})
error(['File ' + string(fileNames{fileIdx}) + ' could not be found.']);
end
logs(fileIdx) = Ardupilog(char(fileNames{fileIdx}));
% Plot and Output for sysid mode
if any(logs(fileIdx).MODE.Mode == 25)
fig = figure;
set(fig, 'defaultAxesColorOrder', [[0 0 0]; [0 0 0]]); % Set axes color to black
subplot(2, 1, 1);
plot(logs(fileIdx).MODE.TimeS, logs(fileIdx).MODE.ModeNum, 'k*');
ylabel(logs(fileIdx).getLabel('MODE/ModeNum'));
if ~issorted(logs(fileIdx).MODE.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' MODE.TimeS is not monotonic!'])
end
title(['Sysid Mode' fileNames{fileIdx}], 'Interpreter', 'none');
% Plot tested SID axes
hold on;
yyaxis right;
plot(logs(fileIdx).SIDS.TimeS, logs(fileIdx).SIDS.Ax, 'r*');
ylabel(logs(fileIdx).getLabel('SIDS/Ax'));
if ~issorted(logs(fileIdx).SIDS.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' SIDS.TimeS is not monotonic!'])
end
xlim([logs(fileIdx).MODE.TimeS(1) logs(fileIdx).PIDR.TimeS(end)]);
hold off;
% Plot frequency of SID tests
subplot(2, 1, 2);
plot(logs(fileIdx).SIDD.TimeS, logs(fileIdx).SIDD.F, 'b.');
ylabel(logs(fileIdx).getLabel('SIDD/F'));
if ~issorted(logs(fileIdx).SIDD.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' SIDD.TimeS is not monotonic!'])
end
hold on;
% Plot subflight numbers
yyaxis right;
TimeS = logs(fileIdx).MODE.TimeS;
subflightNr = 1:length(logs(fileIdx).MODE.Mode);
plot(TimeS, subflightNr, 'k*');
ylabel('subflight');
if ~issorted(logs(fileIdx).SIDS.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' SIDS.TimeS is not monotonic!'])
end
xlim([logs(fileIdx).MODE.TimeS(1) logs(fileIdx).PIDR.TimeS(end)]);
hold off;
end
% Plot for z position controller
if ~isempty(logs(fileIdx).PSCD.TimeS)
fig = figure;
set(fig, 'defaultAxesColorOrder', [[0 0 0]; [0 0 0]]); % Set axes color to black
% Plot mode numbers
subplot(2, 1, 1);
plot(logs(fileIdx).MODE.TimeS, logs(fileIdx).MODE.ModeNum, 'k*');
ylabel(logs(fileIdx).getLabel('MODE/ModeNum'));
if ~issorted(logs(fileIdx).MODE.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' MODE.TimeS is not monotonic!'])
end
xlim([logs(fileIdx).MODE.TimeS(1) logs(fileIdx).PIDR.TimeS(end)]);
ylim([min(logs(fileIdx).MODE.ModeNum)-1 max(logs(fileIdx).MODE.ModeNum)+1]);
title(['Other Modes' fileNames{fileIdx}], 'Interpreter', 'none');
% Plot measured z position
subplot(2,1,2);
plot(logs(fileIdx).PSCD.TimeS, -1*(logs(fileIdx).PSCD.PD), 'b.'); % -1 because of inverted logging of PSCD.PD
ylabel('z-Position (m)');
if ~issorted(logs(fileIdx).PSCD.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' PSCD.TimeS is not monotonic!'])
end
% Plot subflight numbers
hold on;
yyaxis right;
TimeS = logs(fileIdx).MODE.TimeS;
subflightNr = 1:length(logs(fileIdx).MODE.Mode);
plot(TimeS, subflightNr, 'k*');
ylabel('subflight');
xlim([logs(fileIdx).MODE.TimeS(1) logs(fileIdx).PIDR.TimeS(end)]);
ylim([0 subflightNr(end)+1]);
hold off;
end
% Plot for x-y position controller
if ~isempty(logs(fileIdx).PSCN.TimeS) && ~isempty(logs(fileIdx).PSCE.TimeS)
fig = figure;
set(fig, 'defaultAxesColorOrder', [[0 0 0]; [0 0 0]]); % Set axes color to black
% Plot mode numbers
subplot(2, 1, 1);
plot(logs(fileIdx).MODE.TimeS, logs(fileIdx).MODE.ModeNum, 'k*');
ylabel(logs(fileIdx).getLabel('MODE/ModeNum'));
if ~issorted(logs(fileIdx).MODE.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' MODE.TimeS is not monotonic!'])
end
xlim([logs(fileIdx).MODE.TimeS(1) logs(fileIdx).PIDR.TimeS(end)]);
ylim([min(logs(fileIdx).MODE.ModeNum)-1 max(logs(fileIdx).MODE.ModeNum)+1]);
title(['Other Modes' fileNames{fileIdx}], 'Interpreter', 'none');
% Plot measured x and y position
subplot(2,1,2);
plot(logs(fileIdx).PSCN.TimeS, logs(fileIdx).PSCN.PN, 'r.');
ylabel('Position (m)');
if ~issorted(logs(fileIdx).PSCN.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' PSCN.TimeS is not monotonic!'])
end
hold on;
plot(logs(fileIdx).PSCE.TimeS, logs(fileIdx).PSCE.PE', 'b.');
if ~issorted(logs(fileIdx).PSCE.TimeS, 'strictascend')
disp([char(fileNames{fileIdx}) ' PSCE.TimeS is not monotonic!'])
end
% Plot subflight numbers
yyaxis right;
TimeS = logs(fileIdx).MODE.TimeS;
subflightNr = 1:length(logs(fileIdx).MODE.Mode);
plot(TimeS, subflightNr, 'k*');
ylabel('subflight');
xlim([logs(fileIdx).MODE.TimeS(1) logs(fileIdx).PIDR.TimeS(end)]);
ylim([0 subflightNr(end)+1]);
hold off;
legend('x-Position', 'y-Position', 'Subflight') % PSCN is x, PSCE is y
end
% This aids the users configuring the subflights
disp('Tested Flight Modes:');
disp(' flight filename');
disp([' ' num2str(fileIdx) ' ' char(fileNames{fileIdx})]);
fprintf('Subflight\tMode\tSID_AXIS\n');
j = 1;
for i=1:length(logs(fileIdx).MODE.Mode)
if logs(fileIdx).MODE.Mode(i) == 25
% If mode is sysid, print tested axis
% Decrement sysid mode index j if the start time of
% sysid mode was not tracked (and does not equal the mode
% time stamps as a result). If it was not tracked, the
% settings are identical to the sysid mode before and were
% not changed.
if abs(logs(fileIdx).MODE.TimeS(i)-logs(fileIdx).SIDS.TimeS(j)) > 0.01 && j > 1
j = j-1;
end
fprintf('\t%d\t\t%d\t\t%d\n', i, logs(fileIdx).MODE.Mode(i), logs(fileIdx).SIDS.Ax(j));
% Increment sysid mode index j only if the start time was
% tracked (and equals the mode time stamps as a result).
% Otherwise, the tracked sysid information belongs to the
% next sysid flight and is equal to the current, so that
% the index should not be changed to derive the same infos.
if abs(logs(fileIdx).MODE.TimeS(i)-logs(fileIdx).SIDS.TimeS(j)) < 0.01
j = j+1;
end
else
% If not, just print mode
fprintf('\t%d\t\t%d\t\t-\n', i, logs(fileIdx).MODE.Mode(i));
end
end
% Let the user select the subflight if BIN files are selected
iSubflights = 1;
while(true)
if chooseSubflights(fileIdx)
nextSubflight = input('Insert number of subflight to be saved (skip with 0): ');
% Repeat loop if input is empty
if isempty(nextSubflight)
continue;
end
% Leave loop when nextSubflight is zero
if nextSubflight == 0
fprintf(['Subflight selection for flight ' num2str(fileIdx) ' done.\n']);
break;
end
% Give warnings when given number exceeds number of
% subflights...
if nextSubflight > length(logs(fileIdx).MODE.Mode)
warning('Given number exceeds number of subflights!');
continue
end
% ...or when subflight was selected twice for the same flight
if any(nextSubflight == subflights(numSubflights+1:end))
warning('Subflight already selected!');
continue
end
else
% Break if number of added subflights equals the total number
% of loaded subflights for that file (represented by appearence
% of the respective file index in fileIndices)
if numel(subflights)-numSubflights >= sum(loadedDataConfig.fileIndices == fileIdx) && subflights ~= 0
break;
end
% mat file was chosen - read subflight from config
nextSubflight = loadedDataConfig.subflights(numSubflights+iSubflights);
end
% Add subflight, file index and mode
subflights(numSubflights+iSubflights) = nextSubflight;
fileIndices(numSubflights+iSubflights) = fileIdx;
modes(numSubflights+iSubflights) = logs(fileIdx).MODE.Mode(nextSubflight);
modesConfig(numSubflights+iSubflights) = ModeConfig(modes(end));
iSubflights = iSubflights + 1; % Update subflight index
% Break loop if number of selected subflights equals number of
% modes
if length(logs(fileIdx).MODE.Mode) < iSubflights
break;
end
end
% Update amount of subflights only if 0 was not chosen as subflight
if ~any(subflights == 0)
numSubflights = length(subflights);
end
end
clear file ax TimeS subflightNr fig nextSubflight iSubflights numFiles fileIdx fileExt
clear flightDataSearchPath
%% Slice logs to desired subflights
% Time increment that is used to extend the slicing time interval to
% prevent signals (that are only defined at the first time step) to be
% excluded from the sliced log because of floating point precision
dt_ext = 0.001;
% Create list for axis that were tested (axis=0 if sysid was not used)
axisList = 0;
% ---------------------------------------------- %
% %
% Extract relevant log messages and slice logs %
% %
% ---------------------------------------------- %
% slice the system identification flight subsection(s)
fprintf('\n-------------------------------------------\n')
fprintf('Extracting messages and slicing logs...\n');
fprintf('-------------------------------------------\n');
% Delete sid in case of reloading for new config
clear sid
for i = 1:length(fileIndices)
fprintf(['Subflight Nr. ' num2str(i) '\n']);
% Check if current subflight number doesn't exceed actual subflights
if (subflights(i) > length(logs(fileIndices(i)).MODE.Mode) )
error(['Defined subflight (index ' num2str(i) ') exceeds amount of actual subflights!']);
end
% Filter log messages
logFilterMsgs = {};
logFilterMsgs = modesConfig(i).filter_msgs;
% Check if log_filter_msgs is not empty
if ~iscellstr(logFilterMsgs)
error('logFilterMsgs variable is not a string cell array');
end
% Check if message is included in flight log
for msg = logFilterMsgs
% Skip message if it was not defined - delete it from array
if ~isprop(logs(fileIndices(i)), msg{1})
warning(['Message ' msg{1} ' not included in subflight ' ...
num2str(subflights(i)) ' of logfile ' ...
fileNames{fileIndices(i)} '!'])
elseif isempty(logs(fileIndices(i)).(msg{1}).LineNo)
warning(['Message ' msg{1} ' not included in subflight ' ...
num2str(subflights(i)) ' of logfile ' ...
fileNames{fileIndices(i)} '!']);
logFilterMsgs(strcmp(logFilterMsgs, msg{1})) = [];
end
end
log = logs(fileIndices(i)).filterMsgs(logFilterMsgs);
% Slice log to desired time section
if subflights(i) < length(logs(fileIndices(i)).MODE.Mode)
% Current subflight is not last subflight of log
start_time = logs(fileIndices(i)).MODE.TimeUS(subflights(i))/1e6;
% end time: Subtract 2*dt_ext to prevent first time step of
% next flight mode to be part of sliced log
end_time = logs(fileIndices(i)).MODE.TimeUS(subflights(i)+1)/1e6-2*dt_ext;
else % use end time of TimeUS message in case of the last subflight
start_time = logs(fileIndices(i)).MODE.TimeUS(subflights(i))/1e6;
end_time = logs(fileIndices(i)).RATE.TimeUS(end)/1e6;
end
log = log.getSlice( [start_time-dt_ext end_time+dt_ext], 'TimeS');
% Check if flight mode of log corresponds to defined mode in config
if modes(i) ~= log.MODE.Mode
error_msg = ['Defined Mode (' num2str(modes(i)) ') in ' ...
'mode_list with index ' num2str(i) ' does not correspond '...
'to mode of log (' num2str(log.MODE.Mode) ')!'];
error(error_msg);
end
% preserve some messages that are outside of the slice time interval
log.FMT = logs(fileIndices(i)).FMT;
log.UNIT = logs(fileIndices(i)).UNIT;
log.FMTU = logs(fileIndices(i)).FMTU;
log.MULT = logs(fileIndices(i)).MULT;
log.PARM = logs(fileIndices(i)).PARM;
% Update the number of actual included messages
log.numMsgs = 0;
for msg = log.msgsContained
msgName = char(msg);
% Check if message has been sliced off log
if ~isvalid(log.(msgName))
warning(['Message ' msg{1} ' in log ' ...
num2str(i) ' was sliced off message!']);
else
log.numMsgs = log.numMsgs + length(log.(msgName).LineNo);
end
end
% Get axis from flight. Set to 0 if sysid mode is not active.
axis = get_axis(log);
axis = axis(1);
% Add new axis.
axisList(i) = axis;
% Resample log and save it to sid array
sidLogs(numOldSubflights + i).data = resampleLog(log, true, 'linear');
end
% Print modes and/or tested sid axis in log array
fprintf('\nChosen test flights:\n')
fprintf('Dataset\t|File\t|Subflight\t|Mode\n')
for i=1:length(sidLogs)-numOldSubflights
fprintf('sid(%d)\t|%d\t\t|%d\t\t\t|%d\n', int16(i+numOldSubflights), ...
fileIndices(i), subflights(i), sidLogs(numOldSubflights + i).data.MODE.Mode(1));
end
% Save configuration of loaded data to struct and to repo
if numOldSubflights == 0
% No configuration in workspace yet
loadedDataConfig.fileNames = fileNames;
loadedDataConfig.fileIndices = fileIndices;
loadedDataConfig.subflights = subflights;
loadedDataConfig.modes = modes;
loadedDataConfig.modesConfig = modesConfig;
loadedDataConfig.axisList = axisList;
else
% Add new configuration to existing configuration array
for i=1:length(fileNames)
loadedDataConfig.fileNames{end+1} = fileNames{i};
end
for i=1:length(fileIndices)
% File indices must be adjusted to index of file in existing config
loadedDataConfig.fileIndices(numOldSubflights+i) = length(loadedDataConfig.fileNames);
loadedDataConfig.subflights(numOldSubflights+i) = subflights(i);
loadedDataConfig.modes(numOldSubflights+i) = modes(i);
loadedDataConfig.modesConfig(numOldSubflights+i) = modesConfig(i);
loadedDataConfig.axisList(numOldSubflights+i) = axisList(i);
end
end
loadedDataConfigFile = [flightDataPath 'dataLoadConfig.mat'];
save(loadedDataConfigFile, 'loadedDataConfig');
% Save new flightdata to repo
newDataFile = 'sid.mat';
newDataFile = [flightDataPath newDataFile];
if exist(newDataFile, 'file')
[filename, path] = uiputfile({'*.mat','Mat file (*.mat)';'*.*','All files (*.*)'}, 'Save File Name', ...
newDataFile);
% Set user-specified file name
newDataFile = [flightDataPath filename];
end
if newDataFile ~= 0
if exist('idData','var')
save(newDataFile, 'sidLogs', 'idData', 'loadedDataConfig');
else
save(newDataFile, 'sidLogs', 'loadedDataConfig');
end
end
clear msg msgName filename path in_dat out_dat len idd delta_T k
clear start_time end_time sid idDataObj minNumElem
clear newDataFile logPathName numOldSubflights numOldSysidflights
clear fmin fminSweep fmax fmaxSweep addData logs
clear i j dt_ext log_filenames axis axisList files chooseSubflights
clear numSubflights storedFile logFilterMsgs fileNames fileIndices subflights
clear dataLoadConfigFile dataStored loadedDataConfigFile modes modesConfig
% Interact with user to continue
uiwait(msgbox(['Data loaded. Press ok to close figures and continue.'],'Data loaded','none','nonmodal'));
close all
%% Functions
% Function to read tested axis from log
function axis = get_axis(obj)
if isprop(obj, 'SIDS')
axis = obj.SIDS.Ax;
else
% Set to zero if sysid mode is not active
axis = 0;
end
end