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first aerpaw test prepared

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This commit is contained in:
Kevin Dee
2026-04-02 13:19:14 -07:00
parent f598a832fa
commit 31e88a8535
4 changed files with 31 additions and 10 deletions
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aerpaw/controller.coderprj
+6 -1
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@@ -143,6 +143,11 @@
<Size type="coderapp.internal.codertype.Dimension"/> <Size type="coderapp.internal.codertype.Dimension"/>
<Size type="coderapp.internal.codertype.Dimension"/> <Size type="coderapp.internal.codertype.Dimension"/>
</Types> </Types>
<Types id="29" type="coderapp.internal.codertype.PrimitiveType">
<ClassName>int32</ClassName>
<Size type="coderapp.internal.codertype.Dimension"/>
<Size type="coderapp.internal.codertype.Dimension"/>
</Types>
</Types> </Types>
</coderapp.internal.interface.project.Interface> </coderapp.internal.interface.project.Interface>
</MF0> </MF0>
@@ -708,7 +713,7 @@
</Artifacts> </Artifacts>
<BuildFolder type="coderapp.internal.util.mfz.FileSpec"/> <BuildFolder type="coderapp.internal.util.mfz.FileSpec"/>
<Success>true</Success> <Success>true</Success>
<Timestamp>2026-04-01T21:59:22</Timestamp> <Timestamp>2026-04-02T10:07:33</Timestamp>
</MainBuildResult> </MainBuildResult>
</coderapp.internal.mlc.mfz.MatlabCoderProjectState> </coderapp.internal.mlc.mfz.MatlabCoderProjectState>
</MF0> </MF0>
aerpaw/results/plotGpsLogs.m
+6 -3
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@@ -1,7 +1,8 @@
function [f, G] = plotGpsLogs(logDirs, seaToGroundLevel) function [f, G] = plotGpsLogs(logDirs, seaToGroundLevel, plotWholeFlight)
arguments (Input) arguments (Input)
logDirs (1, 1) string; logDirs (1, 1) string;
seaToGroundLevel (1, 1) double = 110; % measured approximately from USGS national map viewer for the AERPAW test field seaToGroundLevel (1, 1) double = 110; % measured approximately from USGS national map viewer for the AERPAW test field
plotWholeFlight (1, 1) logical = false;
end end
arguments (Output) arguments (Output)
f (1, 1) matlab.ui.Figure; f (1, 1) matlab.ui.Figure;
@@ -48,8 +49,10 @@ function [f, G] = plotGpsLogs(logDirs, seaToGroundLevel)
stopIdx = find(verticalSpeed <= prctile(verticalSpeed, pctThreshold), 1, "last"); stopIdx = find(verticalSpeed <= prctile(verticalSpeed, pctThreshold), 1, "last");
% % Plot whole flight, including setup/cleanup % % Plot whole flight, including setup/cleanup
% startIdx = 1; if plotWholeFlight
% stopIdx = length(verticalSpeed); startIdx = 1;
stopIdx = length(verticalSpeed);
end
% Convert LLA trajectory data to ENU for external analysis % Convert LLA trajectory data to ENU for external analysis
% NaN out entries outside the algorithm flight range so they don't plot % NaN out entries outside the algorithm flight range so they don't plot
aerpaw/results/readRadioLogs.m
+16 -4
View File
@@ -31,14 +31,26 @@ function R = readRadioLogs(logPath)
end end
fid = fopen(filepath, 'r'); fid = fopen(filepath, 'r');
% Skip 3 lines: 2 junk (tail errors) + 1 header (tx_uav_id,value) % Skip header lines: some files have 2 tail-error lines + 1 column
for k = 1:3 % header ("tx_uav_id,value"), others start with data immediately.
fgetl(fid); % Read until a line that looks like a data record, then rewind to it.
dataPattern = '^\[\d{4}-\d{2}-\d{2} \d{2}:\d{2}:\d{2}\.\d+\] [-\d]';
linePos = ftell(fid);
while true
line = fgetl(fid);
if ~ischar(line)
break; % EOF
end
if ~isempty(regexp(line, dataPattern, 'once'))
fseek(fid, linePos, 'bof'); % rewind to start of this line
break;
end
linePos = ftell(fid);
end end
data = textscan(fid, '[%26c] %d,%f'); data = textscan(fid, '[%26c] %d,%f');
fclose(fid); fclose(fid);
ts = datetime(data{1}, 'InputFormat', 'yyyy-MM-dd HH:mm:ss.SSSSSS'); ts = datetime(cellstr(data{1}), 'InputFormat', 'yyyy-MM-dd HH:mm:ss.SSSSSS');
txId = int32(data{2}); txId = int32(data{2});
val = data{3}; val = data{3};
aerpaw/results/resultsAnalysis.m
+3 -2
View File
@@ -3,7 +3,8 @@ resultsPath = fullfile(matlab.project.rootProject().RootFolder, "sandbox", "two_
% Plot GPS logged data and scenario information (domain, objective, obstacles) % Plot GPS logged data and scenario information (domain, objective, obstacles)
seaToGroundLevel = 110; % measured approximately from USGS national map viewer seaToGroundLevel = 110; % measured approximately from USGS national map viewer
[fGlobe, G] = plotGpsLogs(resultsPath, seaToGroundLevel); plotWholeFlight = true; % do not attempt to automatically trim initial and final positioning and landing from flight plot (buggy)
[fGlobe, G] = plotGpsLogs(resultsPath, seaToGroundLevel, true);
% Plot radio statistics % Plot radio statistics
[fRadio, R] = plotRadioLogs(resultsPath); [fRadio, R] = plotRadioLogs(resultsPath);
@@ -21,7 +22,7 @@ makeVideo = true;
% Define scenario according to CSV specification % Define scenario according to CSV specification
domain = rectangularPrism; domain = rectangularPrism;
domain = domain.initialize([params.domainMin; params.domainMax], REGION_TYPE.DOMAIN, "Domain"); domain = domain.initialize([params.domainMin; params.domainMax], REGION_TYPE.DOMAIN, "Domain");
domain.objective = domain.objective.initialize(objectiveFunctionWrapper(params.objectivePos, reshape(params.objectiveVar, [2 2])), domain, params.discretizationStep, params.protectedRange, params.sensorPerformanceMinimum); domain.objective = domain.objective.initialize(objectiveFunctionWrapper(params.objectivePos, reshape(params.objectiveVar, [1, 2 2])), domain, params.discretizationStep, params.protectedRange, params.sensorPerformanceMinimum);
agents = cell(size(params.initialPositions, 2) / 3, 1); agents = cell(size(params.initialPositions, 2) / 3, 1);
for ii = 1:size(agents, 1) for ii = 1:size(agents, 1)