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kdee/miSim:main kdee/miSim:AERPAW-experiments kdee/miSim:spawc-2026-results kdee/miSim:aerpaw2 kdee/miSim:parametric-testing kdee/miSim:gradient-ascent kdee/miSim:more-cleanup kdee/miSim:tessellation-fixes kdee/miSim:sensor-model-tessellation
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compare: kdee/miSim:a30dfe6be77258f3f1f350b2301018bbdf94ce20
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kdee/miSim:AERPAW-experiments kdee/miSim:main kdee/miSim:spawc-2026-results kdee/miSim:aerpaw2 kdee/miSim:parametric-testing kdee/miSim:gradient-ascent kdee/miSim:more-cleanup kdee/miSim:tessellation-fixes kdee/miSim:sensor-model-tessellation

84 Commits
aerpaw2 .. a30dfe6be7

Author SHA1 Message Date
kdee a30dfe6be7 ran 3 new experiments on AERPAW simulation to test before submitting 2026-05-25 14:07:49 -07:00
kdee 9c65bf7880 fixed multi-objective support, collected sim data on 3 new experiments 2026-05-24 20:28:12 -07:00
kdee fbcaa32abd first experiment tweaks 2026-04-08 09:41:30 -07:00
kdee 09a10abfd5 controller logging and analysis improvements 2026-04-08 00:02:54 -07:00
kdee 87060ca123 analysis script fixes 2026-04-06 21:34:48 -07:00
kdee f7902ee220 space out flyouts further 2026-04-06 20:30:55 -07:00
kdee 5c90219322 aerpaw collision distance log monitoring 2026-04-06 19:34:15 -07:00
kdee d3bdc80e64 scaled up scenario for better collision safety 2026-04-06 18:44:17 -07:00
kdee f3f9ec3db2 added minimum command spacing log parser and check 2026-04-06 18:16:00 -07:00
kdee 9564a5707f AERPAW bug fixes for first experiment 2026-04-05 14:54:56 -07:00
kdee 789aecc560 experiment 1 obstacle collision fixes completed 2026-04-05 14:24:10 -07:00
kdee bd452b7180 fixed data logging codegen logic 2026-04-05 13:41:43 -07:00
kdee 31e88a8535 first aerpaw test prepared 2026-04-02 13:19:14 -07:00
kdee f598a832fa big steppa 2026-04-02 10:04:51 -07:00
kdee ac09a59c00 more graceful method of moving UAVs to initial states in AERPAW without collision 2026-04-01 22:02:38 -07:00
kdee 7a3fcbd4dc two_around_wall experiment refinement 2026-04-01 21:27:32 -07:00
kdee 8db6c70f46 better scenario final altitude parity 2026-04-01 17:55:30 -07:00
kdee 43229a3a09 project files 2026-04-01 17:48:41 -07:00
kdee 3b3cab2089 added full plotting from logged outputs 2026-04-01 09:48:06 -07:00
kdee b7bb2dec53 added function to initialize sim from saved-off inits file 2026-04-01 09:11:40 -07:00
kdee 60475162e4 no more rectangular collision geoms 2026-03-31 22:19:53 -07:00
kdee 8da65278a2 refactored constraint plotting to remove superfluous property 2026-03-31 22:10:43 -07:00
kdee 0bcdd73882 interface updates for test cases 2026-03-31 21:49:06 -07:00
kdee c3fa1de914 included features from SPAWC 2026 branch 2026-03-31 21:18:02 -07:00
kdee ca891a809f fixed test cases 2026-03-13 16:58:23 -07:00
kdee 771575560f added static network option 2026-03-13 16:18:12 -07:00
kdee f003528a9c double integrator dynamics 2026-03-13 15:54:43 -07:00
kdee 102f23316d added logging to matfile 2026-03-13 10:55:46 -07:00
kdee 24113f282f remove TDM for 2 UAV experiments 2026-03-12 16:33:19 -07:00
kdee b4cd7613ec new scenario 2026-03-11 17:13:09 -07:00
kdee 97e34264dd vehicle runner fix 2026-03-11 12:51:27 -07:00
kdee c5f1dcdb51 updated results analysis script 2026-03-11 12:46:29 -07:00
kdee e5fa2fa827 small testbed convenience fixes 2026-03-11 12:30:36 -07:00
kdee fdd9b49e34 scenario tweak 2026-03-11 12:05:06 -07:00
kdee ea034dd748 communications constraint improvements, experiment 1 design 2026-03-11 12:02:17 -07:00
kdee b09f882369 added more radio metrics 2026-03-09 21:23:31 -07:00
kdee cdbfaebc17 added modified AERPAW scripts 2026-03-09 21:23:31 -07:00
kdee 1b4fec0f72 plot script fixes 2026-03-09 21:23:31 -07:00
kdee cd3463d479 finalized plotting utility 2026-03-09 21:23:31 -07:00
kdee 624b2bdcb2 type error fix 2026-03-09 21:23:31 -07:00
kdee 6da0c97abf added radio plotting tools 2026-03-09 21:23:31 -07:00
kdee 3c775cf814 plotting update 2026-03-09 21:23:31 -07:00
kdee 1562fdc351 fixed GPS log out path 2026-03-09 21:23:31 -07:00
kdee a706857374 radio experiment TDM working 2026-03-09 21:23:31 -07:00
kdee 8c5811ff6a seems to line up well again, constrainMotion updates 2026-03-09 21:23:31 -07:00
kdee 14201aff5d scenario update, quadprog issue 2026-03-09 21:23:31 -07:00
kdee 532e37f133 obstacle respected now 2026-03-09 21:23:31 -07:00
kdee 986f4e2dcf obstacles in but ignored 2026-03-09 21:23:31 -07:00
kdee c18b470706 scenario - obstacle - one around, one over 2026-03-09 21:23:31 -07:00
kdee 438ebda388 per-UAV parameters 2026-03-09 21:23:31 -07:00
kdee f40d2bfd84 moved reader out of miSim, went to event-based guidance 2026-03-09 21:23:31 -07:00
kdee 117d34590e removed prompt to continue 2026-03-09 21:23:31 -07:00
kdee 7da35c5cda results compare favorably 2026-03-09 21:23:31 -07:00
kdee 05ac8a6e97 scenario edits 2026-03-09 21:23:31 -07:00
kdee 813b124c47 improved globe plotting 2026-03-09 21:23:31 -07:00
kdee 5408a31d56 moved origin to get more space from geofence 2026-03-09 21:23:31 -07:00
kdee 1d4f59734b scenario csv on both platforms 2026-03-09 21:23:31 -07:00
kdee 5e52292b71 added slack in collision avoidance constraint 2026-03-09 21:23:31 -07:00
kdee f1c2df31d9 csv parse update 2026-03-09 21:23:31 -07:00
kdee c19f65c3a1 testing fixes 2026-03-09 21:23:31 -07:00
kdee dbba95c6a9 added constraint violation recovery mechanism 2026-03-09 21:23:31 -07:00
kdee 1ada914384 codegen fixes, bug fixes, gets running on testbed environment 2026-03-09 21:23:31 -07:00
kdee 58d87cd16f gps log plotting 2026-03-09 21:23:31 -07:00
kdee cec6458f7c aerpaw gps csv reader 2026-03-09 21:23:31 -07:00
kdee 9385b9bd06 gps logging updates 2026-03-09 21:23:31 -07:00
kdee d25287cdf9 respect geofence, move from socket to async/await 2026-03-09 21:23:31 -07:00
kdee 61e440b594 more config cleanup 2026-03-09 21:23:31 -07:00
kdee dbb4ba178a config cleanup 2026-03-09 21:23:31 -07:00
kdee cde86065e9 project cleanup 2026-03-09 21:23:31 -07:00
kdee 87d925ba5c logging consistency 2026-03-09 21:23:31 -07:00
kdee 0e9f494c50 message type updates 2026-03-09 21:23:31 -07:00
kdee bcfaad1817 removed potentially faulty environment detection in favor of explicit setting 2026-03-09 21:23:31 -07:00
kdee 1475d9e7d1 refactor experiment config 2026-03-09 21:23:31 -07:00
kdee ee238f239d added parallel message receiving for previously implemented messaging where necessary 2026-03-09 21:23:31 -07:00
kdee 4cdcb16ee3 added RTL and LAND capabilities 2026-03-09 21:23:31 -07:00
kdee 9705c1e952 kinda working 2026-03-09 21:23:31 -07:00
kdee 8002336ba1 added real autopilot connection info 2026-03-09 21:23:31 -07:00
kdee cb61ddb161 allowed connection to real autopilot 2026-03-09 21:23:31 -07:00
kdee 4d08e2c88a added aerpawlib capabilities to uav script 2026-03-09 21:23:31 -07:00
kdee c8b54a30aa reorganized and added aerpawlib submodule 2026-03-09 21:23:31 -07:00
kdee 1ae617d5f7 sending starting positions to agents (not verified on AERPAW yet) 2026-03-09 21:23:31 -07:00
kdee fa5d63361c cleanup demo 2026-03-09 21:23:31 -07:00
kdee 8abd009aed basic implementation of client/server for AERPAW, whole lot of mess included 2026-03-09 21:23:31 -07:00
kdee 20417f240c experiment setup 2026-03-09 21:23:31 -07:00
105 changed files with 1550 additions and 403 deletions
Expand all files Collapse all files
.gitignore
+2
View File
@@ -4,6 +4,7 @@
*.autosave *.autosave
*.slx.r* *.slx.r*
*.mdl.r* *.mdl.r*
*.bak
# Derived content-obscured files # Derived content-obscured files
*.p *.p
@@ -48,6 +49,7 @@ sandbox/*
# Figures # Figures
*.fig *.fig
*.png
# Python Virtual Environment # Python Virtual Environment
aerpaw/venv/ aerpaw/venv/
.gitmodules
-3
View File
@@ -1,3 +0,0 @@
[submodule "aerpaw/aerpawlib"]
path = aerpaw/aerpawlib
url = https://github.com/morzack/aerpawlib-vehicle-control.git
@agent/agent.m
+2
View File
@@ -6,6 +6,8 @@ classdef agent
% State % State
lastPos = NaN(1, 3); % position from previous timestep lastPos = NaN(1, 3); % position from previous timestep
pos = NaN(1, 3); % current position pos = NaN(1, 3); % current position
vel = zeros(1, 3); % velocity (double-integrator mode)
lastVel = zeros(1, 3); % pre-step velocity (double-integrator mode)
% Sensor % Sensor
sensorModel; sensorModel;
@agent/initialize.m
+3
View File
@@ -15,6 +15,9 @@ function obj = initialize(obj, pos, collisionGeometry, sensorModel, comRange, ma
end end
obj.pos = pos; obj.pos = pos;
obj.lastPos = pos;
obj.vel = zeros(1, 3);
obj.lastVel = zeros(1, 3);
obj.collisionGeometry = collisionGeometry; obj.collisionGeometry = collisionGeometry;
obj.sensorModel = sensorModel; obj.sensorModel = sensorModel;
obj.label = label; obj.label = label;
@agent/run.m
+26 -11
View File
@@ -1,4 +1,4 @@
function obj = run(obj, domain, partitioning, timestepIndex, index, agents) function obj = run(obj, domain, partitioning, timestepIndex, index, agents, useDoubleIntegrator, dampingCoeff, dt)
arguments (Input) arguments (Input)
obj (1, 1) {mustBeA(obj, "agent")}; obj (1, 1) {mustBeA(obj, "agent")};
domain (1, 1) {mustBeGeometry}; domain (1, 1) {mustBeGeometry};
@@ -6,11 +6,21 @@ function obj = run(obj, domain, partitioning, timestepIndex, index, agents)
timestepIndex (1, 1) double; timestepIndex (1, 1) double;
index (1, 1) double; index (1, 1) double;
agents (:, 1) {mustBeA(agents, "cell")}; agents (:, 1) {mustBeA(agents, "cell")};
useDoubleIntegrator (1, 1) logical = false;
dampingCoeff (1, 1) double = 2.0;
dt (1, 1) double = 1.0;
end end
arguments (Output) arguments (Output)
obj (1, 1) {mustBeA(obj, "agent")}; obj (1, 1) {mustBeA(obj, "agent")};
end end
% Always update lastPos/lastVel so constrainMotion evaluates barriers at
% the correct (most recent) position, even when this agent has no partition.
obj.lastPos = obj.pos;
if useDoubleIntegrator
obj.lastVel = obj.vel;
end
% Collect objective function values across partition % Collect objective function values across partition
partitionMask = partitioning == index; partitionMask = partitioning == index;
if ~any(partitionMask(:)) if ~any(partitionMask(:))
@@ -75,19 +85,24 @@ function obj = run(obj, domain, partitioning, timestepIndex, index, agents)
targetRate = obj.initialStepSize - obj.stepDecayRate * timestepIndex; % slow down as you get closer targetRate = obj.initialStepSize - obj.stepDecayRate * timestepIndex; % slow down as you get closer
gradNorm = norm(gradC); gradNorm = norm(gradC);
% Compute unconstrained next position. % Compute unconstrained next state
% Guard against near-zero gradient: when sensor performance is saturated if useDoubleIntegrator
% or near-zero across the whole partition, rateFactor -> Inf and pNext % Double-integrator: gradient produces desired acceleration with damping
% explodes. Stay put instead.
if gradNorm < 1e-100 if gradNorm < 1e-100
pNext = obj.pos; a_gradient = zeros(1, 3);
else else
pNext = obj.pos + (targetRate / gradNorm) * gradC; % Scale so steady-state step targetRate (matching SI behavior)
a_gradient = (targetRate * dampingCoeff / (gradNorm * dt)) * gradC;
end
% Semi-implicit Euler: unconditionally stable for any dampingCoeff and dt
obj.vel = (obj.vel + a_gradient * dt) / (1 + dampingCoeff * dt);
obj.pos = obj.lastPos + obj.vel * dt;
else
% Single-integrator: gradient directly sets position step
if gradNorm >= 1e-100
obj.pos = obj.pos + (targetRate / gradNorm) * gradC;
end
end end
% Move to next position
obj.lastPos = obj.pos;
obj.pos = pNext;
% Reinitialize collision geometry in the new position % Reinitialize collision geometry in the new position
d = obj.pos - obj.collisionGeometry.center; d = obj.pos - obj.collisionGeometry.center;
@miSim/constrainMotion.m
+85 -45
View File
@@ -8,41 +8,41 @@ function [obj] = constrainMotion(obj)
nAgents = size(obj.agents, 1); nAgents = size(obj.agents, 1);
if nAgents < 2 % Compute current velocity and desired control input
nAAPairs = 0; v = zeros(nAgents, 3); % current velocity (for drift term in DI mode)
else u_desired = zeros(nAgents, 3); % desired control: velocity (SI) or acceleration (DI)
nAAPairs = nchoosek(nAgents, 2); % unique agent/agent pairs
end
% Compute velocity matrix from unconstrained gradient-ascent step
v = zeros(nAgents, 3);
for ii = 1:nAgents for ii = 1:nAgents
if obj.useDoubleIntegrator
v(ii, :) = obj.agents{ii}.lastVel;
u_desired(ii, :) = (obj.agents{ii}.vel - obj.agents{ii}.lastVel) / obj.timestep;
else
v(ii, :) = (obj.agents{ii}.pos - obj.agents{ii}.lastPos) ./ obj.timestep; v(ii, :) = (obj.agents{ii}.pos - obj.agents{ii}.lastPos) ./ obj.timestep;
u_desired(ii, :) = v(ii, :);
end end
if all(isnan(v), "all") || all(v == zeros(nAgents, 3), "all") end
% Agents are not attempting to move, so there is no motion to be if ~obj.useDoubleIntegrator && (all(isnan(v), "all") || all(v == zeros(nAgents, 3), "all"))
% constrained % Single-integrator: agents are not attempting to move
return;
end
if obj.useDoubleIntegrator && all(u_desired == 0, "all") && all(v == 0, "all")
% Double-integrator: no desired acceleration and no existing velocity
return; return;
end end
% Initialize QP based on number of agents and obstacles % Initialize QP based on number of agents and obstacles
nAOPairs = nAgents * size(obj.obstacles, 1); % unique agent/obstacle pairs
nADPairs = nAgents * 6; % agents x (4 walls + 1 floor + 1 ceiling)
nLNAPairs = sum(obj.constraintAdjacencyMatrix, "all") - nAgents;
total = nAAPairs + nAOPairs + nADPairs + nLNAPairs;
kk = 1; kk = 1;
A = zeros(total, 3 * nAgents); A = zeros(obj.numBarriers, 3 * nAgents);
b = zeros(total, 1); b = zeros(obj.numBarriers, 1);
% Set up collision avoidance constraints % Set up collision avoidance constraints
h = NaN(nAgents, nAgents); h = NaN(nAgents, nAgents);
h(logical(eye(nAgents))) = 0; % self value is 0 h(logical(eye(nAgents))) = 0; % self value is 0
for ii = 1:(nAgents - 1) for ii = 1:(nAgents - 1)
for jj = (ii + 1):nAgents for jj = (ii + 1):nAgents
h(ii, jj) = norm(obj.agents{ii}.pos - obj.agents{jj}.pos)^2 - (obj.agents{ii}.collisionGeometry.radius + obj.agents{jj}.collisionGeometry.radius)^2; h(ii, jj) = norm(obj.agents{ii}.lastPos - obj.agents{jj}.lastPos)^2 - (obj.agents{ii}.collisionGeometry.radius + obj.agents{jj}.collisionGeometry.radius)^2;
h(jj, ii) = h(ii, jj); h(jj, ii) = h(ii, jj);
A(kk, (3 * ii - 2):(3 * ii)) = -2 * (obj.agents{ii}.pos - obj.agents{jj}.pos); A(kk, (3 * ii - 2):(3 * ii)) = -2 * (obj.agents{ii}.lastPos - obj.agents{jj}.lastPos);
A(kk, (3 * jj - 2):(3 * jj)) = -A(kk, (3 * ii - 2):(3 * ii)); A(kk, (3 * jj - 2):(3 * jj)) = -A(kk, (3 * ii - 2):(3 * ii));
% Slack derived from existing params: recovery velocity = max gradient approach velocity. % Slack derived from existing params: recovery velocity = max gradient approach velocity.
% Correction splits between 2 agents, so |A| = 2*r_sum % Correction splits between 2 agents, so |A| = 2*r_sum
@@ -60,16 +60,22 @@ function [obj] = constrainMotion(obj)
end end
end end
idx = length(h(triu(true(size(h)), 1)));
if coder.target('MATLAB')
obj.barriers(1:idx, obj.timestepIndex) = h(triu(true(size(h)), 1));
end
idx = idx + 1;
hObs = NaN(nAgents, size(obj.obstacles, 1)); hObs = NaN(nAgents, size(obj.obstacles, 1));
% Set up obstacle avoidance constraints % Set up obstacle avoidance constraints
for ii = 1:nAgents for ii = 1:nAgents
for jj = 1:size(obj.obstacles, 1) for jj = 1:size(obj.obstacles, 1)
% find closest position to agent on/in obstacle % find closest position to agent on/in obstacle
cPos = obj.obstacles{jj}.closestToPoint(obj.agents{ii}.pos); cPos = obj.obstacles{jj}.closestToPoint(obj.agents{ii}.lastPos);
hObs(ii, jj) = dot(obj.agents{ii}.pos - cPos, obj.agents{ii}.pos - cPos) - obj.agents{ii}.collisionGeometry.radius^2; hObs(ii, jj) = dot(obj.agents{ii}.lastPos - cPos, obj.agents{ii}.lastPos - cPos) - obj.agents{ii}.collisionGeometry.radius^2;
A(kk, (3 * ii - 2):(3 * ii)) = -2 * (obj.agents{ii}.pos - cPos); A(kk, (3 * ii - 2):(3 * ii)) = -2 * (obj.agents{ii}.lastPos - cPos);
% Floor for single-agent constraint: full correction on one agent, |A| = 2*r_i % Floor for single-agent constraint: full correction on one agent, |A| = 2*r_i
r_i = obj.agents{ii}.collisionGeometry.radius; r_i = obj.agents{ii}.collisionGeometry.radius;
v_max_i = obj.agents{ii}.initialStepSize / obj.timestep; v_max_i = obj.agents{ii}.initialStepSize / obj.timestep;
@@ -80,51 +86,56 @@ function [obj] = constrainMotion(obj)
end end
end end
if coder.target('MATLAB')
obj.barriers(idx:(idx + numel(hObs) - 1), obj.timestepIndex) = reshape(hObs, [], 1);
end
idx = idx + numel(hObs);
% Set up domain constraints (walls and ceiling only) % Set up domain constraints (walls and ceiling only)
% Floor constraint is implicit with an obstacle corresponding to the % Floor constraint is implicit with an obstacle corresponding to the
% minimum allowed altitude, but I included it anyways % minimum allowed altitude, but I included it anyways
h_xMin = 0.0; h_xMax = 0.0; h_yMin = 0.0; h_yMax = 0.0; h_zMin = 0.0; h_zMax = 0.0; h_xMin = 0.0; h_xMax = 0.0; h_yMin = 0.0; h_yMax = 0.0; h_zMin = 0.0; h_zMax = 0.0;
for ii = 1:nAgents for ii = 1:nAgents
% X minimum % X minimum
h_xMin = (obj.agents{ii}.pos(1) - obj.domain.minCorner(1)) - obj.agents{ii}.collisionGeometry.radius; h_xMin = (obj.agents{ii}.lastPos(1) - obj.domain.minCorner(1)) - obj.agents{ii}.collisionGeometry.radius;
A(kk, (3 * ii - 2):(3 * ii)) = [-1, 0, 0]; A(kk, (3 * ii - 2):(3 * ii)) = [-1, 0, 0];
b(kk) = obj.barrierGain * max(0, h_xMin)^obj.barrierExponent; b(kk) = obj.barrierGain * max(0, h_xMin)^obj.barrierExponent;
kk = kk + 1; kk = kk + 1;
% X maximum % X maximum
h_xMax = (obj.domain.maxCorner(1) - obj.agents{ii}.pos(1)) - obj.agents{ii}.collisionGeometry.radius; h_xMax = (obj.domain.maxCorner(1) - obj.agents{ii}.lastPos(1)) - obj.agents{ii}.collisionGeometry.radius;
A(kk, (3 * ii - 2):(3 * ii)) = [1, 0, 0]; A(kk, (3 * ii - 2):(3 * ii)) = [1, 0, 0];
b(kk) = obj.barrierGain * max(0, h_xMax)^obj.barrierExponent; b(kk) = obj.barrierGain * max(0, h_xMax)^obj.barrierExponent;
kk = kk + 1; kk = kk + 1;
% Y minimum % Y minimum
h_yMin = (obj.agents{ii}.pos(2) - obj.domain.minCorner(2)) - obj.agents{ii}.collisionGeometry.radius; h_yMin = (obj.agents{ii}.lastPos(2) - obj.domain.minCorner(2)) - obj.agents{ii}.collisionGeometry.radius;
A(kk, (3 * ii - 2):(3 * ii)) = [0, -1, 0]; A(kk, (3 * ii - 2):(3 * ii)) = [0, -1, 0];
b(kk) = obj.barrierGain * max(0, h_yMin)^obj.barrierExponent; b(kk) = obj.barrierGain * max(0, h_yMin)^obj.barrierExponent;
kk = kk + 1; kk = kk + 1;
% Y maximum % Y maximum
h_yMax = (obj.domain.maxCorner(2) - obj.agents{ii}.pos(2)) - obj.agents{ii}.collisionGeometry.radius; h_yMax = (obj.domain.maxCorner(2) - obj.agents{ii}.lastPos(2)) - obj.agents{ii}.collisionGeometry.radius;
A(kk, (3 * ii - 2):(3 * ii)) = [0, 1, 0]; A(kk, (3 * ii - 2):(3 * ii)) = [0, 1, 0];
b(kk) = obj.barrierGain * max(0, h_yMax)^obj.barrierExponent; b(kk) = obj.barrierGain * max(0, h_yMax)^obj.barrierExponent;
kk = kk + 1; kk = kk + 1;
% Z minimum enforce z >= minAlt + radius (not just z >= domain floor + radius) % Z minimum enforce z >= minAlt + radius (not just z >= domain floor + radius)
h_zMin = (obj.agents{ii}.pos(3) - obj.minAlt) - obj.agents{ii}.collisionGeometry.radius; h_zMin = (obj.agents{ii}.lastPos(3) - obj.minAlt) - obj.agents{ii}.collisionGeometry.radius;
A(kk, (3 * ii - 2):(3 * ii)) = [0, 0, -1]; A(kk, (3 * ii - 2):(3 * ii)) = [0, 0, -1];
b(kk) = obj.barrierGain * max(0, h_zMin)^obj.barrierExponent; b(kk) = obj.barrierGain * max(0, h_zMin)^obj.barrierExponent;
kk = kk + 1; kk = kk + 1;
% Z maximum % Z maximum
h_zMax = (obj.domain.maxCorner(3) - obj.agents{ii}.pos(3)) - obj.agents{ii}.collisionGeometry.radius; h_zMax = (obj.domain.maxCorner(3) - obj.agents{ii}.lastPos(3)) - obj.agents{ii}.collisionGeometry.radius;
A(kk, (3 * ii - 2):(3 * ii)) = [0, 0, 1]; A(kk, (3 * ii - 2):(3 * ii)) = [0, 0, 1];
b(kk) = obj.barrierGain * max(0, h_zMax)^obj.barrierExponent; b(kk) = obj.barrierGain * max(0, h_zMax)^obj.barrierExponent;
kk = kk + 1; kk = kk + 1;
end
if coder.target('MATLAB') if coder.target('MATLAB')
% Save off h function values (logging only not needed in compiled mode) obj.barriers(idx:(idx + 5), obj.timestepIndex) = [h_xMin; h_xMax; h_yMin; h_yMax; h_zMin; h_zMax];
obj.h(:, obj.timestepIndex) = [h(triu(true(nAgents), 1)); reshape(hObs, [], 1); h_xMin; h_xMax; h_yMin; h_yMax; h_zMin; h_zMax;]; end
idx = idx + 6;
end end
% Add communication network constraints % Add communication network constraints
@@ -133,21 +144,44 @@ function [obj] = constrainMotion(obj)
for ii = 1:(nAgents - 1) for ii = 1:(nAgents - 1)
for jj = (ii + 1):nAgents for jj = (ii + 1):nAgents
if obj.constraintAdjacencyMatrix(ii, jj) if obj.constraintAdjacencyMatrix(ii, jj)
hComms(ii, jj) = min([obj.agents{ii}.commsGeometry.radius, obj.agents{jj}.commsGeometry.radius])^2 - norm(obj.agents{ii}.pos - obj.agents{jj}.pos)^2; paddingFactor = 0.9; % Barrier at 90% of actual range; real comms still work beyond this
r_comms = paddingFactor * min([obj.agents{ii}.commsGeometry.radius, obj.agents{jj}.commsGeometry.radius]);
hComms(ii, jj) = r_comms^2 - norm(obj.agents{ii}.lastPos - obj.agents{jj}.lastPos)^2;
A(kk, (3 * ii - 2):(3 * ii)) = 2 * (obj.agents{ii}.pos - obj.agents{jj}.pos); A(kk, (3 * ii - 2):(3 * ii)) = 2 * (obj.agents{ii}.lastPos - obj.agents{jj}.lastPos);
A(kk, (3 * jj - 2):(3 * jj)) = -A(kk, (3 * ii - 2):(3 * ii)); A(kk, (3 * jj - 2):(3 * jj)) = -A(kk, (3 * ii - 2):(3 * ii));
b(kk) = obj.barrierGain * max(0, hComms(ii, jj))^obj.barrierExponent;
% One-step forward invariance: b = h/dt ensures h cannot
% go negative in a single timestep (linear approximation)
v_max_ij = max(obj.agents{ii}.initialStepSize, obj.agents{jj}.initialStepSize) / obj.timestep;
hMin = -4 * r_comms * v_max_ij * obj.timestep;
if norm(A(kk, :)) < 1e-9
b(kk) = 0;
else
b(kk) = max(hMin, hComms(ii, jj)) / obj.timestep;
end
kk = kk + 1; kk = kk + 1;
end end
end end
end end
% Solve QP program generated earlier if coder.target('MATLAB')
vhat = reshape(v', 3 * nAgents, 1); obj.barriers(idx:(idx + length(hComms(triu(true(size(hComms)), 1))) - 1), obj.timestepIndex) = hComms(triu(true(size(hComms)), 1));
end
% Double-integrator: transform QP from velocity to acceleration space.
% Single-integrator constraint: A * v <= b
% Double-integrator: A * a <= (b - A * v_current) / dt
if obj.useDoubleIntegrator
v_flat = reshape(v', 3 * nAgents, 1);
b = (b - A * v_flat) / obj.timestep;
end
% Solve QP: minimize ||u - u_desired||²
uhat = reshape(u_desired', 3 * nAgents, 1);
H = 2 * eye(3 * nAgents); H = 2 * eye(3 * nAgents);
f = -2 * vhat; f = -2 * uhat;
% Update solution based on constraints % Update solution based on constraints
if coder.target('MATLAB') if coder.target('MATLAB')
@@ -157,8 +191,8 @@ function [obj] = constrainMotion(obj)
end end
opt = optimoptions("quadprog", "Display", "off", "Algorithm", "active-set", "UseCodegenSolver", true); opt = optimoptions("quadprog", "Display", "off", "Algorithm", "active-set", "UseCodegenSolver", true);
x0 = zeros(size(H, 1), 1); x0 = zeros(size(H, 1), 1);
[vNew, ~, exitflag] = quadprog(H, double(f), A, b, [], [], [], [], x0, opt); [uNew, ~, exitflag] = quadprog(H, double(f), A, b, [], [], [], [], x0, opt);
vNew = reshape(vNew, 3, nAgents)'; uNew = reshape(uNew, 3, nAgents)';
if exitflag < 0 if exitflag < 0
% Infeasible or other hard failure: hold all agents at current positions % Infeasible or other hard failure: hold all agents at current positions
@@ -167,9 +201,9 @@ function [obj] = constrainMotion(obj)
else else
fprintf("[constrainMotion] QP infeasible (exitflag=%d), holding positions\n", int16(exitflag)); fprintf("[constrainMotion] QP infeasible (exitflag=%d), holding positions\n", int16(exitflag));
end end
vNew = zeros(nAgents, 3); uNew = zeros(nAgents, 3);
elseif exitflag == 0 elseif exitflag == 0
% Max iterations exceeded: use suboptimal solution already in vNew % Max iterations exceeded: use suboptimal solution already in uNew
if coder.target('MATLAB') if coder.target('MATLAB')
warning("QP max iterations exceeded, using suboptimal solution."); warning("QP max iterations exceeded, using suboptimal solution.");
else else
@@ -177,10 +211,16 @@ function [obj] = constrainMotion(obj)
end end
end end
% Update the "next position" that was previously set by unconstrained % Update agent state using the constrained control input
% GA using the constrained solution produced here for ii = 1:size(uNew, 1)
for ii = 1:size(vNew, 1) if obj.useDoubleIntegrator
obj.agents{ii}.pos = obj.agents{ii}.lastPos + vNew(ii, :) * obj.timestep; % uNew is constrained acceleration
obj.agents{ii}.vel = obj.agents{ii}.lastVel + uNew(ii, :) * obj.timestep;
obj.agents{ii}.pos = obj.agents{ii}.lastPos + obj.agents{ii}.vel * obj.timestep;
else
% uNew is constrained velocity
obj.agents{ii}.pos = obj.agents{ii}.lastPos + uNew(ii, :) * obj.timestep;
end
end end
% Here we run this at the simulation level, but in reality there is no % Here we run this at the simulation level, but in reality there is no
@miSim/initialize.m
+37 -4
View File
@@ -1,4 +1,4 @@
function [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, minAlt, timestep, maxIter, obstacles, makePlots, makeVideo) function [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, minAlt, timestep, maxIter, obstacles, makePlots, makeVideo, useDoubleIntegrator, dampingCoeff, useFixedTopology)
arguments (Input) arguments (Input)
obj (1, 1) {mustBeA(obj, "miSim")}; obj (1, 1) {mustBeA(obj, "miSim")};
domain (1, 1) {mustBeGeometry}; domain (1, 1) {mustBeGeometry};
@@ -11,6 +11,9 @@ function [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, m
obstacles (:, 1) cell {mustBeGeometry} = cell(0, 1); obstacles (:, 1) cell {mustBeGeometry} = cell(0, 1);
makePlots(1, 1) logical = true; makePlots(1, 1) logical = true;
makeVideo (1, 1) logical = true; makeVideo (1, 1) logical = true;
useDoubleIntegrator (1, 1) logical = false;
dampingCoeff (1, 1) double = 2.0;
useFixedTopology (1, 1) logical = false;
end end
arguments (Output) arguments (Output)
obj (1, 1) {mustBeA(obj, "miSim")}; obj (1, 1) {mustBeA(obj, "miSim")};
@@ -86,9 +89,18 @@ function [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, m
obj.barrierExponent = barrierExponent; obj.barrierExponent = barrierExponent;
obj.minAlt = minAlt; obj.minAlt = minAlt;
% Compute adjacency matrix and lesser neighbors % Set dynamics model
obj.useDoubleIntegrator = useDoubleIntegrator;
obj.dampingCoeff = dampingCoeff;
obj.useFixedTopology = useFixedTopology;
% Compute adjacency matrix and network topology
obj = obj.updateAdjacency(); obj = obj.updateAdjacency();
if obj.useFixedTopology
obj.constraintAdjacencyMatrix = obj.adjacency;
else
obj = obj.lesserNeighbor(); obj = obj.lesserNeighbor();
end
% Set up times to iterate over % Set up times to iterate over
obj.times = linspace(0, obj.timestep * obj.maxIter, obj.maxIter+1)'; obj.times = linspace(0, obj.timestep * obj.maxIter, obj.maxIter+1)';
@@ -97,18 +109,39 @@ function [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, m
% Prepare performance data store (at t = 0, all have 0 performance) % Prepare performance data store (at t = 0, all have 0 performance)
obj.perf = [zeros(size(obj.agents, 1) + 1, 1), NaN(size(obj.agents, 1) + 1, size(obj.partitioningTimes, 1) - 1)]; obj.perf = [zeros(size(obj.agents, 1) + 1, 1), NaN(size(obj.agents, 1) + 1, size(obj.partitioningTimes, 1) - 1)];
% Prepare h function data store
obj.h = NaN(size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2 + size(obj.agents, 1) * size(obj.obstacles, 1) + 6, size(obj.times, 1));
end end
% Create initial partitioning % Create initial partitioning
obj.partitioning = obj.agents{1}.partition(obj.agents, obj.domain.objective); obj.partitioning = obj.agents{1}.partition(obj.agents, obj.domain.objective);
% Determine number of barrier functions that will be necessary
if size(obj.agents, 1) < 2
nAAPairs = 0;
else
nAAPairs = nchoosek(size(obj.agents, 1), 2); % unique agent/agent pairs
end
nAOPairs = size(obj.agents, 1) * size(obj.obstacles, 1); % unique agent/obstacle pairs
nADPairs = size(obj.agents, 1) * 6; % agents x (4 walls + 1 floor + 1 ceiling)
nLNAPairs = sum(triu(obj.constraintAdjacencyMatrix, 1), "all");
obj.numBarriers = nAAPairs + nAOPairs + nADPairs + nLNAPairs;
if coder.target('MATLAB') if coder.target('MATLAB')
% Initialize variable that will store agent positions for trail plots % Initialize variable that will store agent positions for trail plots
obj.posHist = NaN(size(obj.agents, 1), obj.maxIter + 1, 3); obj.posHist = NaN(size(obj.agents, 1), obj.maxIter + 1, 3);
obj.posHist(1:size(obj.agents, 1), 1, 1:3) = reshape(cell2mat(cellfun(@(x) x.pos, obj.agents, "UniformOutput", false)), size(obj.agents, 1), 1, 3); obj.posHist(1:size(obj.agents, 1), 1, 1:3) = reshape(cell2mat(cellfun(@(x) x.pos, obj.agents, "UniformOutput", false)), size(obj.agents, 1), 1, 3);
% Initialize velocity history (zeros at t=0, all agents start at rest)
obj.velHist = zeros(size(obj.agents, 1), obj.maxIter + 1, 3);
% Initialize variable that will store barrier function values per timestep for analysis purposes
obj.barriers = NaN(obj.numBarriers, size(obj.times, 1));
% Initialize constraint adjacency history (nAgents x nAgents x nTimesteps)
nAgents = size(obj.agents, 1);
obj.constraintAdjacencyHist = false(nAgents, nAgents, size(obj.times, 1));
obj.constraintAdjacencyHist(:, :, 1) = obj.constraintAdjacencyMatrix;
% Set up plots showing initialized state % Set up plots showing initialized state
obj = obj.plot(); obj = obj.plot();
@miSim/initializeFromCsv.m
+19 -1
View File
@@ -79,6 +79,23 @@ assert(numel(BETA_TILT_VEC) == numAgents, ...
numObstacles = scenario.numObstacles; numObstacles = scenario.numObstacles;
% Dynamics model (optional columns backward compatible with older CSVs)
if isfield(scenario, 'useDoubleIntegrator')
USE_DOUBLE_INTEGRATOR = logical(scenario.useDoubleIntegrator);
else
USE_DOUBLE_INTEGRATOR = false;
end
if isfield(scenario, 'dampingCoeff')
DAMPING_COEFF = scenario.dampingCoeff;
else
DAMPING_COEFF = 2.0;
end
if isfield(scenario, 'useFixedTopology')
USE_FIXED_TOPOLOGY = logical(scenario.useFixedTopology);
else
USE_FIXED_TOPOLOGY = false;
end
% ---- Build domain -------------------------------------------------------- % ---- Build domain --------------------------------------------------------
dom = rectangularPrism; dom = rectangularPrism;
dom = dom.initialize([DOMAIN_MIN; DOMAIN_MAX], REGION_TYPE.DOMAIN, "Guidance Domain"); dom = dom.initialize([DOMAIN_MIN; DOMAIN_MAX], REGION_TYPE.DOMAIN, "Guidance Domain");
@@ -124,6 +141,7 @@ end
% ---- Initialise simulation (plots and video disabled) -------------------- % ---- Initialise simulation (plots and video disabled) --------------------
obj = obj.initialize(dom, agentList, BARRIER_GAIN, BARRIER_EXPONENT, ... obj = obj.initialize(dom, agentList, BARRIER_GAIN, BARRIER_EXPONENT, ...
MIN_ALT, TIMESTEP, MAX_ITER, obstacleList, false, false); MIN_ALT, TIMESTEP, MAX_ITER, obstacleList, false, false, ...
USE_DOUBLE_INTEGRATOR, DAMPING_COEFF, USE_FIXED_TOPOLOGY);
end end
@miSim/initializeFromInits.m
+87
View File
@@ -0,0 +1,87 @@
function obj = initializeFromInits(obj, initsPath)
% INITIALIZEFROMINITS Initialize miSim from a saved simInits matfile.
%
% Loads all simulation parameters and initial agent states written by
% writeInits(), reconstructs domain, objective, agents, and obstacles, then
% calls the standard obj.initialize() method. Plots and video are disabled.
%
% Usage:
% sim = sim.initializeFromInits('sandbox/2025_01_01_12_00_00_miSimInits.mat');
arguments (Input)
obj (1, 1) {mustBeA(obj, 'miSim')};
initsPath (1, 1) string;
end
arguments (Output)
obj (1, 1) {mustBeA(obj, 'miSim')};
end
inits = load(initsPath);
% ---- Build domain ------------------------------------------------------------
dom = rectangularPrism;
dom = dom.initialize([inits.domainMin; inits.domainMax], REGION_TYPE.DOMAIN, "Domain");
% ---- Build sensing objective -------------------------------------------------
dom.objective = sensingObjective;
% reshape guards against MATLAB flattening the 1×2×2 singleton dimension on load
objSigma = reshape(inits.objectiveSigma, [1 2 2]);
objFcn = objectiveFunctionWrapper(inits.objectivePos, objSigma);
dom.objective = dom.objective.initialize(objFcn, dom, ...
inits.discretizationStep, inits.protectedRange, inits.sensorPerformanceMinimum, ...
inits.objectivePos, objSigma);
% ---- Build agents ------------------------------------------------------------
numAgents = inits.numAgents;
agentList = cell(numAgents, 1);
for ii = 1:numAgents
pos = inits.pos(ii, :);
sensor = sigmoidSensor;
sensor = sensor.initialize(inits.alphaDist(ii), inits.betaDist(ii), ...
inits.alphaTilt(ii), inits.betaTilt(ii));
geom = spherical;
geom = geom.initialize(pos, inits.collisionRadius(ii), REGION_TYPE.COLLISION, ...
sprintf("UAV %d Collision", ii));
ag = agent;
ag = ag.initialize(pos, geom, sensor, inits.comRange(ii), inits.maxIter, ...
inits.initialStepSize(ii), sprintf("UAV %d", ii));
agentList{ii} = ag;
end
% ---- Build obstacles ---------------------------------------------------------
numObstacles = inits.numObstacles;
obstacleList = cell(numObstacles, 1);
if numObstacles > 0
for ii = 1:numObstacles
obs = rectangularPrism;
obs = obs.initialize([inits.obsMinCorners(ii, :); inits.obsMaxCorners(ii, :)], ...
REGION_TYPE.OBSTACLE, sprintf("Obstacle %d", ii));
obstacleList{ii} = obs;
end
end
% ---- Optional backward-compat fields -----------------------------------------
if isfield(inits, 'useDoubleIntegrator')
useDoubleIntegrator = logical(inits.useDoubleIntegrator);
else
useDoubleIntegrator = false;
end
if isfield(inits, 'dampingCoeff')
dampingCoeff = inits.dampingCoeff;
else
dampingCoeff = 2.0;
end
if isfield(inits, 'useFixedTopology')
useFixedTopology = logical(inits.useFixedTopology);
else
useFixedTopology = false;
end
% ---- Initialize simulation (plots and video disabled) ------------------------
obj = obj.initialize(dom, agentList, inits.barrierGain, inits.barrierExponent, ...
inits.minAlt, inits.timestep, inits.maxIter, obstacleList, ...
false, false, useDoubleIntegrator, dampingCoeff, useFixedTopology);
end
@miSim/miSim.m
+10 -4
View File
@@ -7,7 +7,6 @@ classdef miSim
timestepIndex = NaN; % index of the current timestep (useful for time-indexed arrays) timestepIndex = NaN; % index of the current timestep (useful for time-indexed arrays)
maxIter = NaN; % maximum number of simulation iterations maxIter = NaN; % maximum number of simulation iterations
domain; domain;
objective;
obstacles; % geometries that define obstacles within the domain obstacles; % geometries that define obstacles within the domain
agents; % agents that move within the domain agents; % agents that move within the domain
adjacency = false(0, 0); % Adjacency matrix representing communications network graph adjacency = false(0, 0); % Adjacency matrix representing communications network graph
@@ -18,11 +17,17 @@ classdef miSim
barrierGain = NaN; % CBF gain parameter barrierGain = NaN; % CBF gain parameter
barrierExponent = NaN; % CBF exponent parameter barrierExponent = NaN; % CBF exponent parameter
minAlt = 0; % minimum allowable altitude (m) minAlt = 0; % minimum allowable altitude (m)
useDoubleIntegrator = false; % false = single-integrator, true = double-integrator dynamics
dampingCoeff = 2.0; % velocity-proportional damping for double-integrator mode
useFixedTopology = false; % false = lesser neighbor (dynamic), true = fixed initial topology
artifactName = ""; artifactName = "";
f; % main plotting tiled layout figure f; % main plotting tiled layout figure
fPerf; % performance plot figure fPerf; % performance plot figure
% Indicies for various plot types in the main tiled layout figure % Indicies for various plot types in the main tiled layout figure
spatialPlotIndices = [6, 4, 3, 2]; spatialPlotIndices = [6, 4, 3, 2];
numBarriers = 0; % Number of barrier functions needed
barriers = []; % log barrier function values at each timestep for analysis
constraintAdjacencyHist = []; % log constraint adjacency matrix at each timestep
end end
properties (Access = private) properties (Access = private)
@@ -40,6 +45,7 @@ classdef miSim
performancePlot; % objects for sensor performance plot performancePlot; % objects for sensor performance plot
posHist; % data for trail plot posHist; % data for trail plot
velHist; % velocity history (double-integrator mode)
trailPlot; % objects for agent trail plot trailPlot; % objects for agent trail plot
% Indicies for various plot types in the main tiled layout figure % Indicies for various plot types in the main tiled layout figure
@@ -48,7 +54,6 @@ classdef miSim
partitionGraphIndex = 1; partitionGraphIndex = 1;
% CBF plotting % CBF plotting
h; % h function values
hf; % h function plotting figure hf; % h function plotting figure
caPlot; % objects for collision avoidance h function plot caPlot; % objects for collision avoidance h function plot
obsPlot; % objects for obstacle h function plot obsPlot; % objects for obstacle h function plot
@@ -61,12 +66,13 @@ classdef miSim
obj (1, 1) miSim obj (1, 1) miSim
end end
obj.domain = rectangularPrism; obj.domain = rectangularPrism;
obj.objective = sensingObjective;
obj.obstacles = {rectangularPrism}; obj.obstacles = {rectangularPrism};
obj.agents = {agent}; obj.agents = {agent};
end end
[obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, minAlt, timestep, maxIter, obstacles, makePlots, makeVideo); [obj] = initialize(obj, domain, agents, barrierGain, barrierExponent, minAlt, timestep, maxIter, obstacles, makePlots, makeVideo, useDoubleIntegrator, dampingCoeff, useFixedTopology);
[obj] = initializeFromCsv(obj, csvPath); [obj] = initializeFromCsv(obj, csvPath);
[obj] = initializeFromInits(obj, initsPath);
[obj] = plotFromSimHist(obj, initsPath, histPath);
[obj] = run(obj); [obj] = run(obj);
[obj] = lesserNeighbor(obj); [obj] = lesserNeighbor(obj);
[obj] = constrainMotion(obj); [obj] = constrainMotion(obj);
@miSim/plotFromSimHist.m
+93
View File
@@ -0,0 +1,93 @@
function obj = plotFromSimHist(obj, initsPath, histPath)
% PLOTFROMSIMHIST Reconstruct all three miSim plots from saved matfiles.
%
% Loads the simInits matfile to rebuild domain/obstacle/objective/agent
% geometry, then loads the simHist matfile to restore the full time-history
% arrays. Produces the same three figures that a live run would generate:
% 1. Sensor performance vs. time (obj.fPerf)
% 2. Barrier function values vs. time (obj.hf)
% 3. 3-D spatial figure with domain, obstacles, objective, agent trails,
% and final-timestep communications topology (obj.f)
%
% Usage:
% sim = miSim;
% sim = sim.plotFromSimHist( ...
% 'sandbox/2025_01_01_12_00_00_miSimHist.mat', ...
% 'sandbox/2025_01_01_12_00_00_miSimInits.mat');
arguments (Input)
obj (1, 1) {mustBeA(obj, 'miSim')};
initsPath (1, 1) string;
histPath (1, 1) string;
end
arguments (Output)
obj (1, 1) {mustBeA(obj, 'miSim')};
end
% ---- Reconstruct geometry from inits (plots disabled) --------------------
obj = obj.initializeFromInits(initsPath);
nAgents = size(obj.agents, 1);
% ---- Load history data ---------------------------------------------------
data = load(histPath);
out = data.out;
nHistTimesteps = size(out.barriers, 2);
nPosTimesteps = size(out.agent(1).pos, 1);
% ---- Populate barrier history --------------------------------------------
% out.barriers may be narrower than the pre-allocated obj.barriers if the
% run was shorter than maxIter; fill what we have and leave the rest NaN.
obj.barriers(:, 1:nHistTimesteps) = out.barriers;
% ---- Populate position history and advance agents to final positions -----
for ii = 1:nAgents
agentPos = out.agent(ii).pos; % (nPosTimesteps × 3)
nPts = size(agentPos, 1);
obj.posHist(ii, 1:nPts, :) = reshape(agentPos, [1, nPts, 3]);
obj.agents{ii}.pos = agentPos(end, :); % show final position in spatial plot
end
% ---- Set final constraint topology ---------------------------------------
obj.constraintAdjacencyMatrix = out.constraintAdjacency(:, :, end);
% ---- Recompute partitioning at final agent positions ---------------------
obj.partitioning = obj.agents{1}.partition(obj.agents, obj.domain.objective);
% ---- Enable plotting and produce spatial + barrier figures ---------------
obj.makePlots = true;
obj = obj.plot();
% ---- Performance figure (built directly live machinery is incremental) -
nPerfTimesteps = numel(out.perf);
times = (0:nPerfTimesteps - 1) * obj.timestep;
normFactor = 1 / max(out.perf);
obj.fPerf = figure;
ax = axes(obj.fPerf);
hold(ax, "on");
title(ax, "Sensor Performance");
xlabel(ax, "Time (s)");
ylabel(ax, "Sensor Performance");
grid(ax, "on");
legendStrings = strings(nAgents + 1, 1);
legendStrings(1) = "Total";
plot(ax, times, out.perf * normFactor, "LineWidth", 1.5);
for ii = 1:nAgents
agentPerf = out.agent(ii).perf;
agentTimes = times(1:numel(agentPerf));
plot(ax, agentTimes, agentPerf * normFactor);
if isfield(out.agent(ii), 'label')
legendStrings(ii + 1) = string(out.agent(ii).label);
else
legendStrings(ii + 1) = sprintf("Agent %d", ii);
end
end
legend(ax, legendStrings, "Location", "northwest");
hold(ax, "off");
% Bring spatial figure to the front
figure(obj.f);
end
@miSim/plotH.m
+13 -4
View File
@@ -6,6 +6,10 @@ function obj = plotH(obj)
obj (1, 1) {mustBeA(obj, "miSim")}; obj (1, 1) {mustBeA(obj, "miSim")};
end end
nCA = size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2;
nObs = size(obj.agents, 1) * size(obj.obstacles, 1);
nDom = size(obj.agents, 1) * 6;
obj.hf = figure; obj.hf = figure;
tiledlayout(obj.hf, 4, 1, "TileSpacing", "tight", "Padding", "compact"); tiledlayout(obj.hf, 4, 1, "TileSpacing", "tight", "Padding", "compact");
@@ -15,7 +19,7 @@ function obj = plotH(obj)
xlabel(obj.hf.Children(1).Children(1), "Time (s)"); xlabel(obj.hf.Children(1).Children(1), "Time (s)");
title(obj.hf.Children(1).Children(1), "Collision Avoidance"); title(obj.hf.Children(1).Children(1), "Collision Avoidance");
hold(obj.hf.Children(1).Children(1), "on"); hold(obj.hf.Children(1).Children(1), "on");
obj.caPlot = plot(obj.h(1:(size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2), :)'); obj.caPlot = plot(obj.barriers(1:nCA, :)');
legendStrings = []; legendStrings = [];
for ii = 2:size(obj.agents, 1) for ii = 2:size(obj.agents, 1)
for jj = 1:(ii - 1) for jj = 1:(ii - 1)
@@ -31,7 +35,7 @@ function obj = plotH(obj)
xlabel(obj.hf.Children(1).Children(1), "Time (s)"); xlabel(obj.hf.Children(1).Children(1), "Time (s)");
title(obj.hf.Children(1).Children(1), "Obstacles"); title(obj.hf.Children(1).Children(1), "Obstacles");
hold(obj.hf.Children(1).Children(1), "on"); hold(obj.hf.Children(1).Children(1), "on");
obj.obsPlot = plot(obj.h((1 + (size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2)):(((size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2)) + size(obj.agents, 1) * size(obj.obstacles, 1)), :)'); obj.obsPlot = plot(obj.barriers((nCA + 1):(nCA + nObs), :)');
legendStrings = []; legendStrings = [];
for ii = 1:size(obj.obstacles, 1) for ii = 1:size(obj.obstacles, 1)
for jj = 1:size(obj.agents, 1) for jj = 1:size(obj.agents, 1)
@@ -47,8 +51,13 @@ function obj = plotH(obj)
xlabel(obj.hf.Children(1).Children(1), "Time (s)"); xlabel(obj.hf.Children(1).Children(1), "Time (s)");
title(obj.hf.Children(1).Children(1), "Domain"); title(obj.hf.Children(1).Children(1), "Domain");
hold(obj.hf.Children(1).Children(1), "on"); hold(obj.hf.Children(1).Children(1), "on");
obj.domPlot = plot(obj.h((1 + (((size(obj.agents, 1) * (size(obj.agents, 1) - 1) / 2)) + size(obj.agents, 1) * size(obj.obstacles, 1))):size(obj.h, 1), 1:end)'); obj.domPlot = plot(obj.barriers((nCA + nObs + 1):(nCA + nObs + nDom), :)');
legend(obj.hf.Children(1).Children(1), ["X Min"; "X Max"; "Y Min"; "Y Max"; "Z Min"; "Z Max";], "Location", "bestoutside"); domLabels = ["X Min", "X Max", "Y Min", "Y Max", "Z Min", "Z Max"];
legendStrings = strings(nDom, 1);
for ii = 1:size(obj.agents, 1)
legendStrings((ii - 1) * 6 + (1:6)) = sprintf("A%d ", ii) + domLabels;
end
legend(obj.hf.Children(1).Children(1), legendStrings, "Location", "bestoutside");
hold(obj.hf.Children(1).Children(2), "off"); hold(obj.hf.Children(1).Children(2), "off");
nexttile(obj.hf.Children(1)); nexttile(obj.hf.Children(1));
@miSim/run.m
+16 -2
View File
@@ -11,6 +11,10 @@ function [obj] = run(obj)
if obj.makeVideo if obj.makeVideo
v = obj.setupVideoWriter(); v = obj.setupVideoWriter();
v.open(); v.open();
% Write initialization state frame in to video
I = getframe(obj.f);
v.writeVideo(I);
end end
end end
@@ -30,12 +34,19 @@ function [obj] = run(obj)
obj.partitioning = obj.agents{1}.partition(obj.agents, obj.domain.objective); obj.partitioning = obj.agents{1}.partition(obj.agents, obj.domain.objective);
% Determine desired communications links % Determine desired communications links
if ~obj.useFixedTopology
obj = obj.lesserNeighbor(); obj = obj.lesserNeighbor();
end
% Log constraint adjacency for this timestep
if coder.target('MATLAB')
obj.constraintAdjacencyHist(:, :, ii) = obj.constraintAdjacencyMatrix;
end
% Moving % Moving
% Iterate over agents to simulate their unconstrained motion % Iterate over agents to simulate their unconstrained motion
for jj = 1:size(obj.agents, 1) for jj = 1:size(obj.agents, 1)
obj.agents{jj} = obj.agents{jj}.run(obj.domain, obj.partitioning, obj.timestepIndex, jj, obj.agents); obj.agents{jj} = obj.agents{jj}.run(obj.domain, obj.partitioning, obj.timestepIndex, jj, obj.agents, obj.useDoubleIntegrator, obj.dampingCoeff, obj.timestep);
end end
% Adjust motion determined by unconstrained gradient ascent using % Adjust motion determined by unconstrained gradient ascent using
@@ -43,8 +54,9 @@ function [obj] = run(obj)
obj = constrainMotion(obj); obj = constrainMotion(obj);
if coder.target('MATLAB') if coder.target('MATLAB')
% Update agent position history array % Update agent position and velocity history arrays
obj.posHist(1:size(obj.agents, 1), obj.timestepIndex + 1, 1:3) = reshape(cell2mat(cellfun(@(x) x.pos, obj.agents, "UniformOutput", false)), size(obj.agents, 1), 1, 3); obj.posHist(1:size(obj.agents, 1), obj.timestepIndex + 1, 1:3) = reshape(cell2mat(cellfun(@(x) x.pos, obj.agents, "UniformOutput", false)), size(obj.agents, 1), 1, 3);
obj.velHist(1:size(obj.agents, 1), obj.timestepIndex + 1, 1:3) = reshape(cell2mat(cellfun(@(x) x.vel, obj.agents, "UniformOutput", false)), size(obj.agents, 1), 1, 3);
% Update total performance % Update total performance
obj.performance = [obj.performance, sum(cellfun(@(x) x.performance(obj.timestepIndex+1), obj.agents))]; obj.performance = [obj.performance, sum(cellfun(@(x) x.performance(obj.timestepIndex+1), obj.agents))];
@@ -63,10 +75,12 @@ function [obj] = run(obj)
end end
end end
% Close video
if coder.target('MATLAB') if coder.target('MATLAB')
if obj.makeVideo if obj.makeVideo
% Close video file % Close video file
v.close(); v.close();
end end
end end
end end
@miSim/teardown.m
+32 -5
View File
@@ -6,25 +6,52 @@ function obj = teardown(obj)
obj (1, 1) {mustBeA(obj, "miSim")}; obj (1, 1) {mustBeA(obj, "miSim")};
end end
% Close plots % % Close plots
close(obj.hf); % close(obj.hf);
close(obj.fPerf); % close(obj.fPerf);
close(obj.f); % close(obj.f);
% Log results into matfile
histPath = fullfile(matlab.project.rootProject().RootFolder, "sandbox", strcat(obj.artifactName, "_miSimHist.mat"));
out = struct("agent", repmat(struct("pos", [], "vel", [], "perf", [], "sensor", struct("alphaDist", [], "betaDist", [], "alphaTilt", [], "betaTilt", []), "collisionRadius", [], "commsRadius", []), size(obj.agents)), "perf", [], "barriers", [], "useDoubleIntegrator", [], "dampingCoeff", [], "useFixedTopology", []);
out.perf = obj.performance(1:(end - 1));
out.barriers = [zeros(size(obj.barriers(1:end, 1), 1), 1), obj.barriers(1:end, 1:(end - 1))];
out.dampingCoeff = obj.dampingCoeff;
out.useDoubleIntegrator = obj.useDoubleIntegrator;
out.useFixedTopology = obj.useFixedTopology;
out.constraintAdjacency = obj.constraintAdjacencyHist(:, :, 1:(end - 1));
for ii = 1:size(obj.agents, 1)
out.agent(ii).pos = squeeze(obj.posHist(ii, 1:(end - 1), 1:3));
out.agent(ii).vel = squeeze(obj.velHist(ii, 1:(end - 1), 1:3));
out.agent(ii).perf = obj.agents{ii}.performance(1:(end - 2));
out.agent(ii).sensor.alphaDist = obj.agents{ii}.sensorModel.alphaDist;
out.agent(ii).sensor.betaDist = obj.agents{ii}.sensorModel.betaDist;
out.agent(ii).sensor.alphaTilt = obj.agents{ii}.sensorModel.alphaTilt;
out.agent(ii).sensor.betaTilt = obj.agents{ii}.sensorModel.betaTilt;
out.agent(ii).collisionRadius = obj.agents{ii}.collisionGeometry.radius;
out.agent(ii).commsRadius = obj.agents{ii}.commsGeometry.radius;
end
save(histPath, "out");
% reset parameters % reset parameters
obj.timestep = NaN; obj.timestep = NaN;
obj.timestepIndex = NaN; obj.timestepIndex = NaN;
obj.maxIter = NaN; obj.maxIter = NaN;
obj.domain = rectangularPrism; obj.domain = rectangularPrism;
obj.objective = sensingObjective;
obj.obstacles = cell(0, 1); obj.obstacles = cell(0, 1);
obj.agents = cell(0, 1); obj.agents = cell(0, 1);
obj.adjacency = NaN; obj.adjacency = NaN;
obj.constraintAdjacencyMatrix = NaN; obj.constraintAdjacencyMatrix = NaN;
obj.constraintAdjacencyHist = [];
obj.partitioning = NaN; obj.partitioning = NaN;
obj.performance = 0; obj.performance = 0;
obj.barrierGain = NaN; obj.barrierGain = NaN;
obj.barrierExponent = NaN; obj.barrierExponent = NaN;
obj.useDoubleIntegrator = false;
obj.dampingCoeff = 2.0;
obj.useFixedTopology = false;
obj.artifactName = ""; obj.artifactName = "";
end end
@miSim/updatePlots.m
+7 -5
View File
@@ -61,13 +61,15 @@ function [obj] = updatePlots(obj)
end end
% Update h function plots % Update h function plots
for ii = 1:size(obj.caPlot, 1) nCA = size(obj.caPlot, 1);
obj.caPlot(ii).YData(obj.timestepIndex) = obj.h(ii, obj.timestepIndex); nObs = size(obj.obsPlot, 1);
for ii = 1:nCA
obj.caPlot(ii).YData(obj.timestepIndex) = obj.barriers(ii, obj.timestepIndex);
end end
for ii = 1:size(obj.obsPlot, 1) for ii = 1:nObs
obj.obsPlot(ii).YData(obj.timestepIndex) = obj.h(ii + size(obj.caPlot, 1), obj.timestepIndex); obj.obsPlot(ii).YData(obj.timestepIndex) = obj.barriers(nCA + ii, obj.timestepIndex);
end end
for ii = 1:size(obj.domPlot, 1) for ii = 1:size(obj.domPlot, 1)
obj.domPlot(ii).YData(obj.timestepIndex) = obj.h(ii + size(obj.caPlot, 1) + size(obj.obsPlot, 1), obj.timestepIndex); obj.domPlot(ii).YData(obj.timestepIndex) = obj.barriers(nCA + nObs + ii, obj.timestepIndex);
end end
end end
@miSim/validate.m
+4 -5
View File
@@ -7,11 +7,11 @@ function validate(obj)
%% Communications Network Validators %% Communications Network Validators
if max(conncomp(graph(obj.adjacency))) ~= 1 if max(conncomp(graph(obj.adjacency))) ~= 1
warning("Network is not connected"); error("Network is not connected");
end end
if any(obj.adjacency - obj.constraintAdjacencyMatrix < 0, "all") if any(obj.adjacency - obj.constraintAdjacencyMatrix < 0, "all")
warning("Eliminated network connections that were necessary"); error("Eliminated network connections that were necessary");
end end
%% Obstacle Validators %% Obstacle Validators
@@ -20,10 +20,9 @@ function validate(obj)
for kk = 1:size(obj.agents, 1) for kk = 1:size(obj.agents, 1)
P = min(max(obj.agents{kk}.pos, obj.obstacles{jj}.minCorner), obj.obstacles{jj}.maxCorner); P = min(max(obj.agents{kk}.pos, obj.obstacles{jj}.minCorner), obj.obstacles{jj}.maxCorner);
d = obj.agents{kk}.pos - P; d = obj.agents{kk}.pos - P;
if dot(d, d) < obj.agents{kk}.collisionGeometry.radius^2 if dot(d, d) < obj.agents{kk}.collisionGeometry.radius^2 - 1e-3
warning("%s colliding with %s by %d", obj.agents{kk}.label, obj.obstacles{jj}.label, dot(d, d) - obj.agents{kk}.collisionGeometry.radius^2); % this will cause quadprog to fail error("%s colliding with %s by %d", obj.agents{kk}.label, obj.obstacles{jj}.label, - dot(d, d) + obj.agents{kk}.collisionGeometry.radius^2); % this will cause quadprog to fail
end end
end end
end end
end end
@miSim/writeInits.m
+18 -7
View File
@@ -5,26 +5,37 @@ function writeInits(obj)
arguments (Output) arguments (Output)
end end
% User-supplied obstacles only: initialize() appends a floor obstacle at
% the end when minAlt > 0, so exclude it here to avoid double-counting on
% reconstruction (initializeFromInits re-adds the floor via minAlt).
numInputObs = size(obj.obstacles, 1) - (obj.minAlt > 0);
userObstacles = obj.obstacles(1:numInputObs);
% Collect agent parameters % Collect agent parameters
collisionRadii = cellfun(@(x) x.collisionGeometry.radius, obj.agents); collisionRadii = cellfun(@(x) x.collisionGeometry.radius, obj.agents);
alphaDist = cellfun(@(x) x.sensorModel.alphaDist, obj.agents); alphaDist = cellfun(@(x) x.sensorModel.alphaDist, obj.agents);
betaDist = cellfun(@(x) x.sensorModel.betaDist, obj.agents); betaDist = cellfun(@(x) x.sensorModel.betaDist, obj.agents);
alphaTilt = cellfun(@(x) x.sensorModel.alphaTilt, obj.agents); alphaTilt = cellfun(@(x) x.sensorModel.alphaTilt, obj.agents);
betaTilt = cellfun(@(x) x.sensorModel.alphaDist, obj.agents); betaTilt = cellfun(@(x) x.sensorModel.betaTilt, obj.agents);
comRanges = cellfun(@(x) x.commsGeometry.radius, obj.agents); comRanges = cellfun(@(x) x.commsGeometry.radius, obj.agents);
initialStepSize = cellfun(@(x) x.initialStepSize, obj.agents); initialStepSize = cellfun(@(x) x.initialStepSize, obj.agents);
pos = cell2mat(cellfun(@(x) x.pos, obj.agents, 'UniformOutput', false)); pos = cell2mat(cellfun(@(x) x.pos, obj.agents, 'UniformOutput', false));
obsMinCorners = cell2mat(cellfun(@(x) x.minCorner, userObstacles, 'UniformOutput', false));
obsMaxCorners = cell2mat(cellfun(@(x) x.maxCorner, userObstacles, 'UniformOutput', false));
% Combine with simulation parameters % Combine with simulation parameters
inits = struct("timestep", obj.timestep, "maxIter", obj.maxIter, "minAlt", obj.obstacles{end}.maxCorner(3), ... inits = struct("timestep", obj.timestep, "maxIter", obj.maxIter + 1, "minAlt", obj.minAlt, ...
"discretizationStep", obj.domain.objective.discretizationStep, "protectedRange", obj.domain.objective.protectedRange, ... "discretizationStep", obj.domain.objective.discretizationStep, "protectedRange", obj.domain.objective.protectedRange, ...
"sensorPerformanceMinimum", obj.domain.objective.sensorPerformanceMinimum, "initialStepSize", initialStepSize, ... "sensorPerformanceMinimum", obj.domain.objective.sensorPerformanceMinimum, "initialStepSize", initialStepSize, ...
"barrierGain", obj.barrierGain, "barrierExponent", obj.barrierExponent, "numObstacles", size(obj.obstacles, 1), ... "barrierGain", obj.barrierGain, "barrierExponent", obj.barrierExponent, "numObstacles", numInputObs, ...
"numAgents", size(obj.agents, 1), "collisionRadius", collisionRadii, "comRange", comRanges, "alphaDist", alphaDist, ... "numAgents", size(obj.agents, 1), "collisionRadius", collisionRadii, "comRange", comRanges, ...
"betaDist", betaDist, "alphaTilt", alphaTilt, "betaTilt", betaTilt, ... "useDoubleIntegrator", obj.useDoubleIntegrator, "dampingCoeff", obj.dampingCoeff, "useFixedTopology", obj.useFixedTopology, ...
"alphaDist", alphaDist, "betaDist", betaDist, "alphaTilt", alphaTilt, "betaTilt", betaTilt, ...
... % ^^^ PARAMETERS ^^^ | vvv STATES vvv ... % ^^^ PARAMETERS ^^^ | vvv STATES vvv
"pos", pos); "pos", pos, "objectivePos", obj.domain.objective.groundPos, "objectiveSigma", obj.domain.objective.objectiveSigma, ...
"domainMin", obj.domain.minCorner, "domainMax", obj.domain.maxCorner, ...
"obsMinCorners", obsMinCorners, "obsMaxCorners", obsMaxCorners, ...
"objectiveIntegral", sum(obj.domain.objective.values(:)));
% Save all parameters to output file % Save all parameters to output file
initsFile = strcat(obj.artifactName, "_miSimInits"); initsFile = strcat(obj.artifactName, "_miSimInits");
@sensingObjective/initialize.m
+9 -2
View File
@@ -1,4 +1,4 @@
function obj = initialize(obj, objectiveFunction, domain, discretizationStep, protectedRange, sensorPerformanceMinimum) function obj = initialize(obj, objectiveFunction, domain, discretizationStep, protectedRange, sensorPerformanceMinimum, objectiveMu, objectiveSigma)
arguments (Input) arguments (Input)
obj (1,1) {mustBeA(obj, "sensingObjective")}; obj (1,1) {mustBeA(obj, "sensingObjective")};
objectiveFunction (1, 1) {mustBeA(objectiveFunction, "function_handle")}; objectiveFunction (1, 1) {mustBeA(objectiveFunction, "function_handle")};
@@ -6,6 +6,8 @@ function obj = initialize(obj, objectiveFunction, domain, discretizationStep, pr
discretizationStep (1, 1) double = 1; discretizationStep (1, 1) double = 1;
protectedRange (1, 1) double = 1; protectedRange (1, 1) double = 1;
sensorPerformanceMinimum (1, 1) double = 1e-6; sensorPerformanceMinimum (1, 1) double = 1e-6;
objectiveMu (:, 2) double = NaN(1, 2);
objectiveSigma (:, 2, 2) double = NaN(1, 2, 2);
end end
arguments (Output) arguments (Output)
obj (1,1) {mustBeA(obj, "sensingObjective")}; obj (1,1) {mustBeA(obj, "sensingObjective")};
@@ -37,8 +39,13 @@ function obj = initialize(obj, objectiveFunction, domain, discretizationStep, pr
% store ground position % store ground position
idx = obj.values == 1; idx = obj.values == 1;
if any(isnan(objectiveMu))
obj.groundPos = [obj.X(idx), obj.Y(idx)]; obj.groundPos = [obj.X(idx), obj.Y(idx)];
obj.groundPos = obj.groundPos(1, 1:2); % for safety, in case 2 points are maximal (somehow) obj.groundPos = obj.groundPos(1, 1:2); % for safety, in case 2 points are maximal (somehow)
else
obj.groundPos = objectiveMu;
end
obj.objectiveSigma = objectiveSigma;
assert(domain.distance([obj.groundPos, domain.center(3)]) > protectedRange, "Domain is crowding the sensing objective") assert(domain.distance([obj.groundPos, ones(size(obj.groundPos, 1), 1) .* domain.center(3)]) > protectedRange, "Domain is crowding the sensing objective");
end end
@sensingObjective/initializeRandomMvnpdf.m
+3 -3
View File
@@ -11,16 +11,16 @@ function obj = initializeRandomMvnpdf(obj, domain, discretizationStep, protected
% Set random objective position % Set random objective position
mu = domain.minCorner; mu = domain.minCorner;
while domain.distance(mu) < protectedRange while domain.distance(mu) < protectedRange * 1.01
mu = domain.random(); mu = domain.random();
end end
% Set random distribution parameters % Set random distribution parameters
sig = [2 + rand * 2, 1; 1, 2 + rand * 2]; sig = reshape([2 + rand * 2, 1; 1, 2 + rand * 2], [1 2 2]);
% Set up random bivariate normal distribution function % Set up random bivariate normal distribution function
objectiveFunction = objectiveFunctionWrapper(mu(1:2), sig); objectiveFunction = objectiveFunctionWrapper(mu(1:2), sig);
% Regular initialization % Regular initialization
obj = obj.initialize(objectiveFunction, domain, discretizationStep, protectedRange); obj = obj.initialize(objectiveFunction, domain, discretizationStep, protectedRange, 1e-6, mu(1:2), sig);
end end
@sensingObjective/sensingObjective.m
+2 -1
View File
@@ -2,7 +2,8 @@ classdef sensingObjective
% Sensing objective definition parent class % Sensing objective definition parent class
properties (SetAccess = private, GetAccess = public) properties (SetAccess = private, GetAccess = public)
label = ""; label = "";
groundPos = [NaN, NaN]; groundPos = NaN(1, 2);
objectiveSigma = NaN(1, 2, 2);
discretizationStep = NaN; discretizationStep = NaN;
X = []; X = [];
Y = []; Y = [];
aerpaw/aerpawlib
-1
Submodule aerpaw/aerpawlib deleted from 705fc699ef
aerpaw/client/uav_runner.py
+1 -1
View File
@@ -164,7 +164,7 @@ class UAVRunner(BasicRunner):
# Retry connection up to 10 times (~30 seconds total) # Retry connection up to 10 times (~30 seconds total)
reader, writer = None, None reader, writer = None, None
for attempt in range(10): for attempt in range(100):
try: try:
reader, writer = await asyncio.wait_for( reader, writer = await asyncio.wait_for(
asyncio.open_connection(self.server_ip, self.server_port), asyncio.open_connection(self.server_ip, self.server_port),
aerpaw/config/client1.yaml
+5 -5
View File
@@ -12,8 +12,8 @@ tdm:
# ENU coordinate system origin (AERPAW Lake Wheeler Road Field) # ENU coordinate system origin (AERPAW Lake Wheeler Road Field)
origin: origin:
lat: 35.72550610629396 lat: 35.72595214250436
lon: -78.70019657805574 lon: -78.69917609299937
alt: 0.0 # Alt=0 means ENU z directly becomes target altitude above home alt: 0.0 # Alt=0 means ENU z directly becomes target altitude above home
# Environment-specific settings # Environment-specific settings
environments: environments:
@@ -28,11 +28,11 @@ environments:
port: 5000 port: 5000
testbed: testbed:
# AERPAW testbed: E-VM listens, MAVLink Filter connects TO us (UDP) # AERPAW testbed: E-VM listens, MAVLink Filter connects to us (UDP)
mavlink: mavlink:
ip: "192.168.32.26" ip: "192.168.32.26"
port: 14550 port: 14550
# Controller runs on host machine (192.168.122.1 from E-VM perspective) # Controller runs on host machine (192.168.X.1, generally)
controller: controller:
ip: "192.168.122.1" ip: "192.168.112.1"
port: 5000 port: 5000
aerpaw/config/client2.yaml
+5 -5
View File
@@ -12,8 +12,8 @@ tdm:
# ENU coordinate system origin (AERPAW Lake Wheeler Road Field) # ENU coordinate system origin (AERPAW Lake Wheeler Road Field)
origin: origin:
lat: 35.72550610629396 lat: 35.72595214250436
lon: -78.70019657805574 lon: -78.69917609299937
alt: 0.0 # Alt=0 means ENU z directly becomes target altitude above home alt: 0.0 # Alt=0 means ENU z directly becomes target altitude above home
# Environment-specific settings # Environment-specific settings
environments: environments:
@@ -28,11 +28,11 @@ environments:
port: 5000 port: 5000
testbed: testbed:
# AERPAW testbed: E-VM listens, MAVLink Filter connects TO us (UDP) # AERPAW testbed: E-VM listens, MAVLink Filter connects to us (UDP)
mavlink: mavlink:
ip: "192.168.32.26" ip: "192.168.32.26"
port: 14550 port: 14550
# Controller runs on host machine (192.168.122.1 from E-VM perspective) # Controller runs on host machine (192.168.X.1, generally)
controller: controller:
ip: "192.168.122.1" ip: "192.168.112.1"
port: 5000 port: 5000
aerpaw/config/scenario.csv
+2 -2
View File
@@ -1,2 +1,2 @@
timestep, maxIter, minAlt, discretizationStep, protectedRange, initialStepSize, barrierGain, barrierExponent, collisionRadius, comRange, alphaDist, betaDist, alphaTilt, betaTilt, domainMin, domainMax, objectivePos, objectiveVar, sensorPerformanceMinimum, initialPositions, numObstacles, obstacleMin, obstacleMax timestep, maxIter, minAlt, discretizationStep, protectedRange, initialStepSize, barrierGain, barrierExponent, collisionRadius, comRange, alphaDist, betaDist, alphaTilt, betaTilt, domainMin, domainMax, objectivePos, objectiveVar, sensorPerformanceMinimum, initialPositions, numObstacles, obstacleMin, obstacleMax, useDoubleIntegrator, dampingCoeff, useFixedTopology
5, 120, 30.0, 0.1, 1.0, 2.0, 100, 3, "3.0, 3.0", "30.0, 30.0", "80.0, 80.0", "0.25, 0.25", "5.0, 5.0", "0.1, 0.1", "0.0, 0.0, 0.0", "50.0, 50.0, 80.0", "35.0, 35.0", "10, 5, 5, 10", 0.15, "5.0, 10.0, 45.0, 15.0, 10.0, 35.0", 1, "2.0, 15.0, 0.0", "25.0, 25.0, 50.0" 1, 50, 35.0, 0.1, 2.0, 6, 1, 1, "8.0, 8.0", "35.0, 35.0", "80.0, 50.0", "0.25, 1.0", "8.0, 25.0", "0.1, 0.02", "0.0, 0.0, 0.0", "100.0, 100.0, 100.0", "60.0, 80.0, 45.0, 70.0", "70, 15, 15, 20, 20, 15, 15, 70", 0.15, "10.0, 10.0, 50.0, 40.0, 15.0, 45.0", 8, "0.0, 30.0, 0.0, 42.0, 30.0, 0.0, 84.0, 30.0, 0.0, 13.0, 60.0, 0.0, 55.0, 60.0, 0.0, 0.0, 90, 0.0, 42.0, 90.0, 0.0, 84.0, 90.0, 0.0", "16.0, 40.0, 100.0, 58.0, 40.0, 100.0, 100.0, 40.0, 100.0, 29.0, 70.0, 100.0, 71.0, 70.0, 100.0, 16.0, 100.0, 100.0, 58.0, 100.0, 100.0, 100.0, 100.0, 100.0", 0, 2.0, 1
1 timestep maxIter minAlt discretizationStep protectedRange initialStepSize barrierGain barrierExponent collisionRadius comRange alphaDist betaDist alphaTilt betaTilt domainMin domainMax objectivePos objectiveVar sensorPerformanceMinimum initialPositions numObstacles obstacleMin obstacleMax useDoubleIntegrator dampingCoeff useFixedTopology
2 5 1 120 50 30.0 35.0 0.1 1.0 2.0 2.0 6 100 1 3 1 3.0, 3.0 8.0, 8.0 30.0, 30.0 35.0, 35.0 80.0, 80.0 80.0, 50.0 0.25, 0.25 0.25, 1.0 5.0, 5.0 8.0, 25.0 0.1, 0.1 0.1, 0.02 0.0, 0.0, 0.0 50.0, 50.0, 80.0 100.0, 100.0, 100.0 35.0, 35.0 60.0, 80.0, 45.0, 70.0 10, 5, 5, 10 70, 15, 15, 20, 20, 15, 15, 70 0.15 5.0, 10.0, 45.0, 15.0, 10.0, 35.0 10.0, 10.0, 50.0, 40.0, 15.0, 45.0 1 8 2.0, 15.0, 0.0 0.0, 30.0, 0.0, 42.0, 30.0, 0.0, 84.0, 30.0, 0.0, 13.0, 60.0, 0.0, 55.0, 60.0, 0.0, 0.0, 90, 0.0, 42.0, 90.0, 0.0, 84.0, 90.0, 0.0 25.0, 25.0, 50.0 16.0, 40.0, 100.0, 58.0, 40.0, 100.0, 100.0, 40.0, 100.0, 29.0, 70.0, 100.0, 71.0, 70.0, 100.0, 16.0, 100.0, 100.0, 58.0, 100.0, 100.0, 100.0, 100.0, 100.0 0 2.0 1
aerpaw/config/scenario_columns.csv
+2
View File
@@ -0,0 +1,2 @@
timestep, maxIter, minAlt, discretizationStep, protectedRange, initialStepSize, barrierGain, barrierExponent, collisionRadius, comRange, alphaDist, betaDist, alphaTilt, betaTilt, domainMin, domainMax, objectivePos, objectiveVar, sensorPerformanceMinimum, initialPositions, numObstacles, obstacleMin, obstacleMax, useDoubleIntegrator, dampingCoeff, useFixedTopology
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aerpaw/controller.m
+118 -11
View File
@@ -7,34 +7,47 @@ coder.extrinsic('disp', 'readScenarioCsv');
% Maximum clients supported (one initial position per UAV) % Maximum clients supported (one initial position per UAV)
MAX_CLIENTS = 4; MAX_CLIENTS = 4;
MAX_TARGETS = MAX_CLIENTS; % Three waypoints per UAV: one axis-aligned move per dimension (taxicab flyout/flyback)
MAX_TARGETS = MAX_CLIENTS * 3;
% Taxicab flyout/flyback only supports exactly 2 UAVs
if numClients ~= int32(2)
error('Taxicab flyout/flyback requires exactly 2 UAVs');
end
% Allocate targets array (MAX_TARGETS x 3) % Allocate targets array (MAX_TARGETS x 3)
targets = zeros(MAX_TARGETS, 3); targets = zeros(MAX_TARGETS, 3);
numWaypoints = int32(0); numWaypoints = int32(0);
totalLoaded = int32(0); % pre-declare type for coder.ceval %#ok<NASGU> totalLoaded = int32(0); % pre-declare type for coder.ceval %#ok<NASGU>
% Load initial UAV positions from scenario CSV % Experiment start positions from scenario CSV (N x 3)
scenarioPositions = zeros(MAX_CLIENTS, 3);
% Load experiment start positions from scenario CSV
if coder.target('MATLAB') if coder.target('MATLAB')
disp('Loading initial positions from scenario.csv (simulation)...'); disp('Loading initial positions from scenario.csv (simulation)...');
tmpSim = miSim; tmpSim = miSim;
sc = tmpSim.readScenarioCsv('aerpaw/config/scenario.csv'); sc = tmpSim.readScenarioCsv('aerpaw/config/scenario.csv');
flatPos = double(sc.initialPositions); % 1×(3*N) flat vector flatPos = double(sc.initialPositions); % 1×(3*N) flat vector
posMatrix = reshape(flatPos, 3, [])'; % N×3, same layout as initializeFromCsv posMatrix = reshape(flatPos, 3, [])'; % N×3
totalLoaded = int32(size(posMatrix, 1)); totalLoaded = int32(size(posMatrix, 1));
scenarioPositions(1:totalLoaded, :) = posMatrix;
% MATLAB path: send directly to scenario positions in one waypoint
targets(1:totalLoaded, :) = posMatrix; targets(1:totalLoaded, :) = posMatrix;
numWaypoints = int32(1); numWaypoints = int32(1);
disp(['Loaded ', num2str(double(totalLoaded)), ' initial positions']); disp(['Loaded ', num2str(double(totalLoaded)), ' initial positions']);
else else
coder.cinclude('controller_impl.h'); coder.cinclude('controller_impl.h');
filename = ['config/scenario.csv', char(0)]; filename = ['config/scenario.csv', char(0)];
% Load into targets temporarily; copy to scenarioPositions below
totalLoaded = coder.ceval('loadInitialPositions', coder.ref(filename), ... totalLoaded = coder.ceval('loadInitialPositions', coder.ref(filename), ...
coder.ref(targets), int32(MAX_TARGETS)); coder.ref(targets), int32(MAX_TARGETS));
numWaypoints = totalLoaded / int32(numClients); scenarioPositions(1:totalLoaded, :) = targets(1:totalLoaded, :);
numWaypoints = int32(3);
end end
% Load guidance scenario from CSV (parameters for guidance_step) % Load guidance scenario from CSV (parameters for guidance_step)
NUM_SCENARIO_PARAMS = 45; NUM_SCENARIO_PARAMS = 48;
MAX_OBSTACLES_CTRL = int32(8); MAX_OBSTACLES_CTRL = int32(8);
scenarioParams = zeros(1, NUM_SCENARIO_PARAMS); scenarioParams = zeros(1, NUM_SCENARIO_PARAMS);
obstacleMin = zeros(MAX_OBSTACLES_CTRL, 3); obstacleMin = zeros(MAX_OBSTACLES_CTRL, 3);
@@ -68,6 +81,46 @@ for i = 1:numClients
end end
end end
% Query takeoff-pad GPS positions before sending any waypoints.
% These are also the flyback targets so each UAV lands where it took off.
initialPositions = zeros(MAX_CLIENTS, 3);
if ~coder.target('MATLAB')
coder.ceval('sendRequestPositions', int32(numClients));
coder.ceval('recvPositions', int32(numClients), coder.ref(initialPositions), int32(MAX_CLIENTS));
else
% Simulation: treat scenario positions as the takeoff locations
initialPositions(1:totalLoaded, :) = scenarioPositions(1:totalLoaded, :);
end
% ---- Build taxicab flyout waypoints ------------------------------------------
% Determine which UAV has the higher final altitude; it moves Z first so it
% clears vertical separation before the lower UAV converges on the same X/Y.
% Higher UAV order: Z Y X
% Lower UAV order: X Y Z
if ~coder.target('MATLAB')
if scenarioPositions(1, 3) >= scenarioPositions(2, 3)
higherIdx = int32(1);
lowerIdx = int32(2);
else
higherIdx = int32(2);
lowerIdx = int32(1);
end
hBase = double(higherIdx - 1) * double(numWaypoints);
lBase = double(lowerIdx - 1) * double(numWaypoints);
% Higher UAV: Z first
targets(hBase + 1, :) = [initialPositions(higherIdx,1), initialPositions(higherIdx,2), scenarioPositions(higherIdx,3)];
targets(hBase + 2, :) = [initialPositions(higherIdx,1), scenarioPositions(higherIdx,2), scenarioPositions(higherIdx,3)];
targets(hBase + 3, :) = scenarioPositions(higherIdx, :);
% Lower UAV: X first
targets(lBase + 1, :) = [scenarioPositions(lowerIdx,1), initialPositions(lowerIdx,2), initialPositions(lowerIdx,3)];
targets(lBase + 2, :) = [scenarioPositions(lowerIdx,1), scenarioPositions(lowerIdx,2), initialPositions(lowerIdx,3)];
targets(lBase + 3, :) = scenarioPositions(lowerIdx, :);
end
% ------------------------------------------------------------------------------
% Waypoint loop: send each waypoint to all clients, wait for all to arrive % Waypoint loop: send each waypoint to all clients, wait for all to arrive
for w = 1:numWaypoints for w = 1:numWaypoints
% Send TARGET for waypoint w to each client % Send TARGET for waypoint w to each client
@@ -78,7 +131,7 @@ for w = 1:numWaypoints
target = targets(targetIdx, :); target = targets(targetIdx, :);
if coder.target('MATLAB') if coder.target('MATLAB')
disp([datestr(now, 'HH:MM:SS'), ' Sending TARGET to client ', num2str(i), ' (waypoint ', num2str(w), '): ', ... disp(['Sending TARGET to client ', num2str(i), ' (waypoint ', num2str(w), '): ', ...
num2str(target(1)), ',', num2str(target(2)), ',', num2str(target(3))]); num2str(target(1)), ',', num2str(target(2)), ',', num2str(target(3))]);
else else
coder.ceval('sendTarget', int32(i), coder.ref(target)); coder.ceval('sendTarget', int32(i), coder.ref(target));
@@ -103,8 +156,13 @@ for w = 1:numWaypoints
end end
% ---- Phase 2: miSim guidance loop ---------------------------------------- % ---- Phase 2: miSim guidance loop ----------------------------------------
% Guidance parameters (adjust here and recompile as needed) % Number of guidance steps comes from maxIter in scenario.csv (scenarioParams(2))
MAX_GUIDANCE_STEPS = int32(100); % number of guidance iterations % so the controller and the agent step-decay schedule stay in sync.
if coder.target('MATLAB')
MAX_GUIDANCE_STEPS = int32(sc.maxIter);
else
MAX_GUIDANCE_STEPS = int32(scenarioParams(2));
end
% Enter guidance mode on all clients % Enter guidance mode on all clients
if ~coder.target('MATLAB') if ~coder.target('MATLAB')
@@ -117,14 +175,18 @@ if ~coder.target('MATLAB')
coder.ceval('sendRequestPositions', int32(numClients)); coder.ceval('sendRequestPositions', int32(numClients));
coder.ceval('recvPositions', int32(numClients), coder.ref(positions), int32(MAX_CLIENTS)); coder.ceval('recvPositions', int32(numClients), coder.ref(positions), int32(MAX_CLIENTS));
else else
% Simulation: seed positions from CSV waypoints so agents don't start at origin % Simulation: seed positions from scenario positions so agents don't start at origin
positions(1:totalLoaded, :) = targets(1:totalLoaded, :); positions(1:totalLoaded, :) = scenarioPositions(1:totalLoaded, :);
end end
guidance_step(positions(1:numClients, :), true, ... guidance_step(positions(1:numClients, :), true, ...
scenarioParams, obstacleMin, obstacleMax, numObstacles); scenarioParams, obstacleMin, obstacleMax, numObstacles);
% Main guidance loop (event-triggered) % Main guidance loop (event-triggered)
for step = 1:MAX_GUIDANCE_STEPS for step = 1:MAX_GUIDANCE_STEPS
if ~coder.target('MATLAB')
coder.ceval('setGuidanceStep', int32(step), int32(MAX_GUIDANCE_STEPS));
end
% Run one guidance step: feed current GPS positions in, get targets out % Run one guidance step: feed current GPS positions in, get targets out
nextPositions = guidance_step(positions(1:numClients, :), false, ... nextPositions = guidance_step(positions(1:numClients, :), false, ...
scenarioParams, obstacleMin, obstacleMax, numObstacles); scenarioParams, obstacleMin, obstacleMax, numObstacles);
@@ -135,7 +197,7 @@ for step = 1:MAX_GUIDANCE_STEPS
if ~coder.target('MATLAB') if ~coder.target('MATLAB')
coder.ceval('sendTarget', int32(i), coder.ref(target)); coder.ceval('sendTarget', int32(i), coder.ref(target));
else else
disp([datestr(now, 'HH:MM:SS'), ' [guidance] target UAV ', num2str(i), ': ', num2str(target)]); disp(['[step ', num2str(step), '] target UAV ', num2str(i), ': ', num2str(target)]);
end end
end end
@@ -164,6 +226,51 @@ if ~coder.target('MATLAB')
% last guidance navigation and is back in sequential (ACK/READY) mode. % last guidance navigation and is back in sequential (ACK/READY) mode.
coder.ceval('waitForAllMessageType', int32(numClients), ... coder.ceval('waitForAllMessageType', int32(numClients), ...
int32(MESSAGE_TYPE.ACK)); int32(MESSAGE_TYPE.ACK));
% Reset step counter so post-guidance logging carries no step prefix.
coder.ceval('setGuidanceStep', int32(0), int32(MAX_GUIDANCE_STEPS));
end
% --------------------------------------------------------------------------
% ---- Taxicab flyback: return each UAV to its takeoff-pad position ---------
% The UAV that ended guidance at the higher altitude moves Z last (X Y Z)
% so it stays high while the lower UAV descends first, maintaining separation
% as both converge back on their respective home X/Y positions.
NUM_RETURN_WP = int32(3);
returnTargets = zeros(MAX_TARGETS, 3);
if ~coder.target('MATLAB')
if positions(1, 3) >= positions(2, 3)
higherRetIdx = int32(1);
lowerRetIdx = int32(2);
else
higherRetIdx = int32(2);
lowerRetIdx = int32(1);
end
hRetBase = double(higherRetIdx - 1) * double(NUM_RETURN_WP);
lRetBase = double(lowerRetIdx - 1) * double(NUM_RETURN_WP);
% Higher post-guidance UAV: X Y Z (descend last)
returnTargets(hRetBase + 1, :) = [initialPositions(higherRetIdx,1), positions(higherRetIdx,2), positions(higherRetIdx,3)];
returnTargets(hRetBase + 2, :) = [initialPositions(higherRetIdx,1), initialPositions(higherRetIdx,2), positions(higherRetIdx,3)];
returnTargets(hRetBase + 3, :) = initialPositions(higherRetIdx, :);
% Lower post-guidance UAV: Z Y X (descend first)
returnTargets(lRetBase + 1, :) = [positions(lowerRetIdx,1), positions(lowerRetIdx,2), initialPositions(lowerRetIdx,3)];
returnTargets(lRetBase + 2, :) = [positions(lowerRetIdx,1), initialPositions(lowerRetIdx,2), initialPositions(lowerRetIdx,3)];
returnTargets(lRetBase + 3, :) = initialPositions(lowerRetIdx, :);
for w = 1:NUM_RETURN_WP
for i = 1:numClients
retIdx = double(i - 1) * double(NUM_RETURN_WP) + w;
retTarget = returnTargets(retIdx, :);
coder.ceval('sendTarget', int32(i), coder.ref(retTarget));
end
coder.ceval('waitForAllMessageType', int32(numClients), int32(MESSAGE_TYPE.ACK));
coder.ceval('waitForAllMessageType', int32(numClients), int32(MESSAGE_TYPE.READY));
end
else
disp('Taxicab return (simulation): UAVs commanded back to takeoff positions.');
end end
% -------------------------------------------------------------------------- % --------------------------------------------------------------------------
aerpaw/guidance_step.m
+12 -2
View File
@@ -29,6 +29,9 @@ function nextPositions = guidance_step(currentPositions, isInit, ...
% 39-40 objectivePos % 39-40 objectivePos
% 41-44 objectiveVar (2x2, col-major) % 41-44 objectiveVar (2x2, col-major)
% 45 sensorPerformanceMinimum % 45 sensorPerformanceMinimum
% 46 useDoubleIntegrator
% 47 dampingCoeff
% 48 useFixedTopology
% obstacleMin (MAX_OBSTACLES × 3) double column-major obstacle corners (compiled path) % obstacleMin (MAX_OBSTACLES × 3) double column-major obstacle corners (compiled path)
% obstacleMax (MAX_OBSTACLES × 3) double % obstacleMax (MAX_OBSTACLES × 3) double
% numObstacles (1,1) int32 actual obstacle count % numObstacles (1,1) int32 actual obstacle count
@@ -94,6 +97,9 @@ if isInit
OBJECTIVE_GROUND_POS = scenarioParams(39:40); OBJECTIVE_GROUND_POS = scenarioParams(39:40);
OBJECTIVE_VAR = reshape(scenarioParams(41:44), 2, 2); OBJECTIVE_VAR = reshape(scenarioParams(41:44), 2, 2);
SENSOR_PERFORMANCE_MINIMUM = scenarioParams(45); SENSOR_PERFORMANCE_MINIMUM = scenarioParams(45);
USE_DOUBLE_INTEGRATOR = logical(scenarioParams(46));
DAMPING_COEFF = scenarioParams(47);
USE_FIXED_TOPOLOGY = logical(scenarioParams(48));
% --- Build domain geometry --- % --- Build domain geometry ---
dom = rectangularPrism; dom = rectangularPrism;
@@ -146,7 +152,8 @@ if isInit
% --- Initialise simulation (plots and video disabled) --- % --- Initialise simulation (plots and video disabled) ---
sim = miSim; sim = miSim;
sim = sim.initialize(dom, agentList, BARRIER_GAIN, BARRIER_EXPONENT, ... sim = sim.initialize(dom, agentList, BARRIER_GAIN, BARRIER_EXPONENT, ...
MIN_ALT, TIMESTEP, MAX_ITER, obstacleList, false, false); MIN_ALT, TIMESTEP, MAX_ITER, obstacleList, false, false, ...
USE_DOUBLE_INTEGRATOR, DAMPING_COEFF, USE_FIXED_TOPOLOGY);
end end
% On the init call return current positions unchanged % On the init call return current positions unchanged
@@ -176,7 +183,9 @@ else
sim.timestepIndex = sim.timestepIndex + 1; sim.timestepIndex = sim.timestepIndex + 1;
% 3. Update communications topology (Lesser Neighbour Assignment) % 3. Update communications topology (Lesser Neighbour Assignment)
if ~sim.useFixedTopology
sim = sim.lesserNeighbor(); sim = sim.lesserNeighbor();
end
% 4. Compute Voronoi partitioning % 4. Compute Voronoi partitioning
sim.partitioning = sim.agents{1}.partition(sim.agents, sim.domain.objective); sim.partitioning = sim.agents{1}.partition(sim.agents, sim.domain.objective);
@@ -184,7 +193,8 @@ else
% 5. Unconstrained gradient-ascent step for each agent % 5. Unconstrained gradient-ascent step for each agent
for ii = 1:size(sim.agents, 1) for ii = 1:size(sim.agents, 1)
sim.agents{ii} = sim.agents{ii}.run(sim.domain, sim.partitioning, ... sim.agents{ii} = sim.agents{ii}.run(sim.domain, sim.partitioning, ...
sim.timestepIndex, ii, sim.agents); sim.timestepIndex, ii, sim.agents, ...
sim.useDoubleIntegrator, sim.dampingCoeff, sim.timestep);
end end
% 6. Apply CBF safety filter (collision / comms / domain constraints via QP) % 6. Apply CBF safety filter (collision / comms / domain constraints via QP)
aerpaw/impl/controller_impl.cpp
+81 -19
View File
@@ -16,6 +16,44 @@
static int serverSocket = -1; static int serverSocket = -1;
static std::vector<int> clientSockets; static std::vector<int> clientSockets;
static int guidanceStep = 0;
static int guidanceTotalSteps = 0;
static struct timespec lastStepTime = {0, 0};
// During guidance returns "(%d/%d) "; outside guidance returns "HH:MM:SS ".
static std::string logPrefix() {
if (guidanceStep > 0) {
char buf[32];
snprintf(buf, sizeof(buf), "(%d/%d) ", guidanceStep, guidanceTotalSteps);
return std::string(buf);
}
time_t now = time(nullptr);
struct tm* lt = localtime(&now);
char ts[16];
strftime(ts, sizeof(ts), "%H:%M:%S", lt);
return std::string(ts) + " ";
}
void setGuidanceStep(int step, int totalSteps) {
struct timespec now;
clock_gettime(CLOCK_MONOTONIC, &now);
// From step 2 onward, elapsed = setGuidanceStep(N-1) → setGuidanceStep(N),
// which spans the full prior iteration: guidance computation + target send
// + flight + position request/receive.
if (step > 1 && lastStepTime.tv_sec != 0) {
double elapsed = (now.tv_sec - lastStepTime.tv_sec)
+ (now.tv_nsec - lastStepTime.tv_nsec) * 1e-9;
guidanceStep = step;
guidanceTotalSteps = totalSteps;
std::cout << logPrefix() << "Iteration duration: " << elapsed << " s\n";
} else {
guidanceStep = step;
guidanceTotalSteps = totalSteps;
}
lastStepTime = now;
}
void initSockets() {} void initSockets() {}
void cleanupSockets() {} void cleanupSockets() {}
@@ -186,7 +224,10 @@ static int readScenarioDataRow(const char* filename, char* line, int lineSize) {
// 35-37: domainMax (east, north, up) // 35-37: domainMax (east, north, up)
// 38-39: objectivePos (east, north) // 38-39: objectivePos (east, north)
// 40-43: objectiveVar (2x2 col-major: v11, v12, v21, v22) // 40-43: objectiveVar (2x2 col-major: v11, v12, v21, v22)
// 44 : sensorPerformanceMinimum // 44 : sensorPerformanceMinimum (CSV column 18)
// 45 : useDoubleIntegrator (CSV column 23; 0=single-integrator, 1=double-integrator)
// 46 : dampingCoeff (CSV column 24)
// 47 : useFixedTopology (CSV column 25; 0=dynamic lesser-neighbor, 1=fixed)
// Returns 1 on success, 0 on failure. // Returns 1 on success, 0 on failure.
int loadScenario(const char* filename, double* params) { int loadScenario(const char* filename, double* params) {
char line[4096]; char line[4096];
@@ -198,8 +239,8 @@ int loadScenario(const char* filename, double* params) {
char* fields[32]; char* fields[32];
int nf = splitCSVRow(copy, fields, 32); int nf = splitCSVRow(copy, fields, 32);
if (nf < 19) { if (nf < 26) {
fprintf(stderr, "loadScenario: expected >=19 columns, got %d\n", nf); fprintf(stderr, "loadScenario: expected >=26 columns, got %d\n", nf);
return 0; return 0;
} }
@@ -290,6 +331,24 @@ int loadScenario(const char* filename, double* params) {
params[44] = atof(trimField(tmp)); params[44] = atof(trimField(tmp));
} }
// useDoubleIntegrator: column 23
{
char tmp[64]; strncpy(tmp, fields[23], sizeof(tmp) - 1); tmp[sizeof(tmp)-1] = '\0';
params[45] = atof(trimField(tmp));
}
// dampingCoeff: column 24
{
char tmp[64]; strncpy(tmp, fields[24], sizeof(tmp) - 1); tmp[sizeof(tmp)-1] = '\0';
params[46] = atof(trimField(tmp));
}
// useFixedTopology: column 25
{
char tmp[64]; strncpy(tmp, fields[25], sizeof(tmp) - 1); tmp[sizeof(tmp)-1] = '\0';
params[47] = atof(trimField(tmp));
}
printf("Loaded scenario: domain [%g,%g,%g] to [%g,%g,%g]\n", printf("Loaded scenario: domain [%g,%g,%g] to [%g,%g,%g]\n",
params[32], params[33], params[34], params[35], params[36], params[37]); params[32], params[33], params[34], params[35], params[36], params[37]);
return 1; return 1;
@@ -430,18 +489,22 @@ static const char* messageTypeName(uint8_t msgType) {
} }
} }
// Send a single-byte message type to a client // Send a single-byte message type to a client (no logging)
int sendMessageType(int clientId, int msgType) { static int sendMessageTypeRaw(int clientId, int msgType) {
if (clientId <= 0 || clientId > (int)clientSockets.size()) return 0; if (clientId <= 0 || clientId > (int)clientSockets.size()) return 0;
uint8_t msg = (uint8_t)msgType; uint8_t msg = (uint8_t)msgType;
ssize_t sent = send(clientSockets[clientId - 1], &msg, 1, 0); ssize_t sent = send(clientSockets[clientId - 1], &msg, 1, 0);
if (sent != 1) { if (sent != 1) {
std::cerr << "Send failed for client " << clientId << "\n"; std::cerr << "Send failed for client " << clientId << "\n";
return 0; return 0;
} }
return 1;
}
std::cout << "Sent " << messageTypeName(msg) << " to client " << clientId << "\n"; // Send a single-byte message type to a client
int sendMessageType(int clientId, int msgType) {
if (!sendMessageTypeRaw(clientId, msgType)) return 0;
std::cout << logPrefix() << "Sent " << messageTypeName((uint8_t)msgType) << " to client " << clientId << "\n";
return 1; return 1;
} }
@@ -460,13 +523,7 @@ int sendTarget(int clientId, const double* coords) {
return 0; return 0;
} }
// Timestamp std::cout << logPrefix() << "Sent TARGET to client " << clientId << ": "
time_t now = time(nullptr);
struct tm* lt = localtime(&now);
char ts[16];
strftime(ts, sizeof(ts), "%H:%M:%S", lt);
std::cout << ts << " Sent TARGET to client " << clientId << ": "
<< coords[0] << "," << coords[1] << "," << coords[2] << "\n"; << coords[0] << "," << coords[1] << "," << coords[2] << "\n";
return 1; return 1;
} }
@@ -514,31 +571,36 @@ int waitForAllMessageType(int numClients, int expectedType) {
return 0; return 0;
} }
std::cout << "Received " << messageTypeName(msgType) << " from client " << (i + 1) << "\n";
if (msgType == expected) { if (msgType == expected) {
completed[i] = true; completed[i] = true;
completedCount++; completedCount++;
} else {
std::cerr << logPrefix() << "Unexpected " << messageTypeName(msgType)
<< " from client " << (i + 1)
<< " (expected " << messageTypeName(expected) << ")\n";
} }
} }
} }
} }
std::cout << logPrefix() << "Received " << messageTypeName(expected) << " from all clients\n";
return 1; return 1;
} }
// Broadcast GUIDANCE_TOGGLE to all clients // Broadcast GUIDANCE_TOGGLE to all clients
void sendGuidanceToggle(int numClients) { void sendGuidanceToggle(int numClients) {
for (int i = 1; i <= numClients; i++) { for (int i = 1; i <= numClients; i++) {
sendMessageType(i, 6); // GUIDANCE_TOGGLE = 6 sendMessageTypeRaw(i, 6); // GUIDANCE_TOGGLE = 6
} }
std::cout << logPrefix() << "Sent GUIDANCE_TOGGLE to clients\n";
} }
// Send REQUEST_POSITION to all clients // Send REQUEST_POSITION to all clients
int sendRequestPositions(int numClients) { int sendRequestPositions(int numClients) {
for (int i = 1; i <= numClients; i++) { for (int i = 1; i <= numClients; i++) {
if (!sendMessageType(i, 7)) return 0; // REQUEST_POSITION = 7 if (!sendMessageTypeRaw(i, 7)) return 0; // REQUEST_POSITION = 7
} }
std::cout << logPrefix() << "Sent REQUEST_POSITION to clients\n";
return 1; return 1;
} }
@@ -573,7 +635,7 @@ int recvPositions(int numClients, double* positions, int maxClients) {
positions[i + 1 * maxClients] = coords[1]; // north (y) positions[i + 1 * maxClients] = coords[1]; // north (y)
positions[i + 2 * maxClients] = coords[2]; // up (z) positions[i + 2 * maxClients] = coords[2]; // up (z)
std::cout << "Position from client " << (i + 1) << ": " std::cout << logPrefix() << "Position from client " << (i + 1) << ": "
<< coords[0] << "," << coords[1] << "," << coords[2] << "\n"; << coords[0] << "," << coords[1] << "," << coords[2] << "\n";
} }
return 1; return 1;
aerpaw/impl/controller_impl.h
+5 -1
View File
@@ -30,7 +30,10 @@ int loadTargets(const char* filename, double* targets, int maxClients);
// 38-39 objectivePos // 38-39 objectivePos
// 40-43 objectiveVar (2x2 col-major) // 40-43 objectiveVar (2x2 col-major)
// 44 sensorPerformanceMinimum // 44 sensorPerformanceMinimum
#define NUM_SCENARIO_PARAMS 45 // 45 useDoubleIntegrator (0=single-integrator, 1=double-integrator)
// 46 dampingCoeff
// 47 useFixedTopology (0=dynamic lesser-neighbor, 1=fixed)
#define NUM_SCENARIO_PARAMS 48
#define MAX_CLIENTS_PER_PARAM 4 #define MAX_CLIENTS_PER_PARAM 4
// Maximum number of obstacles (upper bound for pre-allocated arrays). // Maximum number of obstacles (upper bound for pre-allocated arrays).
#define MAX_OBSTACLES 8 #define MAX_OBSTACLES 8
@@ -59,6 +62,7 @@ int sendTarget(int clientId, const double* coords);
int waitForAllMessageType(int numClients, int expectedType); int waitForAllMessageType(int numClients, int expectedType);
// Guidance loop operations // Guidance loop operations
void setGuidanceStep(int step, int totalSteps); // call at the top of each guidance iteration
void sendGuidanceToggle(int numClients); void sendGuidanceToggle(int numClients);
int sendRequestPositions(int numClients); int sendRequestPositions(int numClients);
int recvPositions(int numClients, double* positions, int maxClients); // column-major maxClients x 3 int recvPositions(int numClients, double* positions, int maxClients); // column-major maxClients x 3
aerpaw/impl/controller_main.cpp
+9 -4
View File
@@ -3,10 +3,15 @@
#include "controller_impl.h" // TCP implementation header #include "controller_impl.h" // TCP implementation header
int main() { int main() {
// Number of clients to handle // Derive numClients from initialPositions in scenario.csv
int numClients = 2; // for now double targets[MAX_CLIENTS_PER_PARAM * 3];
int numClients = loadInitialPositions("config/scenario.csv",
std::cout << "Initializing TCP server...\n"; targets, MAX_CLIENTS_PER_PARAM);
if (numClients < 1) {
std::cerr << "Failed to parse numClients from scenario.csv\n";
return 1;
}
std::cout << "Parsed " << numClients << " UAV(s) from scenario.csv\n";
// Call MATLAB-generated server function // Call MATLAB-generated server function
controller(numClients); controller(numClients);
aerpaw/radio/CSwSNRRX.py
+25
View File
@@ -267,6 +267,10 @@ class CSwSNRRX(gr.top_block):
'/root/Quality', num_uavs, slot_duration, guard_interval) '/root/Quality', num_uavs, slot_duration, guard_interval)
self.blocks_file_sink_0 = TdmTaggedFileSink( self.blocks_file_sink_0 = TdmTaggedFileSink(
'/root/Power', num_uavs, slot_duration, guard_interval) '/root/Power', num_uavs, slot_duration, guard_interval)
self.blocks_file_sink_noisefloor = TdmTaggedFileSink(
'/root/NoiseFloor', num_uavs, slot_duration, guard_interval)
self._freqoffset_file = open('/root/FreqOffset', 'w')
self._freqoffset_file.write('tx_uav_id,value\n')
self.blocks_divide_xx_0 = blocks.divide_ff(1) self.blocks_divide_xx_0 = blocks.divide_ff(1)
self.blocks_complex_to_real_0_0 = blocks.complex_to_real(1) self.blocks_complex_to_real_0_0 = blocks.complex_to_real(1)
self.blocks_complex_to_real_0 = blocks.complex_to_real(1) self.blocks_complex_to_real_0 = blocks.complex_to_real(1)
@@ -310,6 +314,7 @@ class CSwSNRRX(gr.top_block):
self.connect((self.blocks_nlog10_ff_0_0, 0), (self.blocks_add_const_vxx_0, 0)) self.connect((self.blocks_nlog10_ff_0_0, 0), (self.blocks_add_const_vxx_0, 0))
self.connect((self.blocks_nlog10_ff_0_0, 0), (self.blocks_sub_xx_0, 0)) self.connect((self.blocks_nlog10_ff_0_0, 0), (self.blocks_sub_xx_0, 0))
self.connect((self.blocks_nlog10_ff_0_0_0, 0), (self.blocks_sub_xx_0, 1)) self.connect((self.blocks_nlog10_ff_0_0_0, 0), (self.blocks_sub_xx_0, 1))
self.connect((self.blocks_nlog10_ff_0_0_0, 0), (self.blocks_file_sink_noisefloor, 0))
self.connect((self.blocks_stream_to_vector_0_0, 0), (self.epy_block_0, 0)) self.connect((self.blocks_stream_to_vector_0_0, 0), (self.epy_block_0, 0))
self.connect((self.blocks_sub_xx_0, 0), (self.blocks_file_sink_0_0_0, 0)) self.connect((self.blocks_sub_xx_0, 0), (self.blocks_file_sink_0_0_0, 0))
self.connect((self.blocks_vector_to_stream_0_0, 0), (self.blocks_keep_m_in_n_0, 0)) self.connect((self.blocks_vector_to_stream_0_0, 0), (self.blocks_keep_m_in_n_0, 0))
@@ -321,6 +326,26 @@ class CSwSNRRX(gr.top_block):
self.connect((self.freq_xlating_fft_filter_ccc_0_0, 0), (self.blocks_stream_to_vector_0_0, 0)) self.connect((self.freq_xlating_fft_filter_ccc_0_0, 0), (self.blocks_stream_to_vector_0_0, 0))
self.connect((self.uhd_usrp_source_0, 0), (self.blocks_multiply_xx_0, 0)) self.connect((self.uhd_usrp_source_0, 0), (self.blocks_multiply_xx_0, 0))
##################################################
# Frequency offset polling thread
##################################################
def _freq_offset_probe():
frame_dur = slot_duration * num_uavs
while True:
val = self.digital_fll_band_edge_cc_0_0.get_frequency()
freq_hz = val * samp_rate / (2 * math.pi)
now = time.time()
slot_time = now % frame_dur
current_slot = int(slot_time / slot_duration)
time_into_slot = slot_time - current_slot * slot_duration
tx_id = -1 if time_into_slot < guard_interval else current_slot
self._freqoffset_file.write(f'{tx_id},{freq_hz}\n')
self._freqoffset_file.flush()
time.sleep(0.01)
_freq_offset_thread = threading.Thread(target=_freq_offset_probe)
_freq_offset_thread.daemon = True
_freq_offset_thread.start()
def get_args(self): def get_args(self):
return self.args return self.args
aerpaw/radio/startchannelsounderRXGRC.sh
+1 -1
View File
@@ -20,4 +20,4 @@ else
fi fi
cd $PROFILE_DIR"/SDR_control/Channel_Sounderv3" cd $PROFILE_DIR"/SDR_control/Channel_Sounderv3"
python3 CSwSNRRX.py --freq $RX_FREQ --gainrx $GAIN_RX --noise 0 --args $ARGS --offset $OFFSET --samp-rate $SAMP_RATE --sps $SPS python3 CSwSNRRX.py --freq $RX_FREQ --gainrx $GAIN_RX --noise 0 --args $ARGS --offset $OFFSET --samp-rate $SAMP_RATE --sps $SPS "$@"
aerpaw/radio/startchannelsounderTXGRC.sh
+1 -1
View File
@@ -20,4 +20,4 @@ else
fi fi
cd $PROFILE_DIR"/SDR_control/Channel_Sounderv3" cd $PROFILE_DIR"/SDR_control/Channel_Sounderv3"
python3 CSwSNRTX.py --freq $TX_FREQ --gaintx $GAIN_TX --args $ARGS --offset $OFFSET --samp-rate $SAMP_RATE --sps $SPS python3 CSwSNRTX.py --freq $TX_FREQ --gaintx $GAIN_TX --args $ARGS --offset $OFFSET --samp-rate $SAMP_RATE --sps $SPS "$@"
aerpaw/radio/updateScripts.sh
+10 -1
View File
@@ -1,7 +1,16 @@
#!/bin/bash #!/bin/bash
# Drop in replacements for channel sounder scripts
cp startchannelsounderRXGRC.sh /root/Profiles/ProfileScripts/Radio/Helpers/. cp startchannelsounderRXGRC.sh /root/Profiles/ProfileScripts/Radio/Helpers/.
cp startchannelsounderTXGRC.sh /root/Profiles/ProfileScripts/Radio/Helpers/. cp startchannelsounderTXGRC.sh /root/Profiles/ProfileScripts/Radio/Helpers/.
cp CSwSNRRX.py /root/Profiles/SDR_control/Channel_Sounderv3/. cp CSwSNRRX.py /root/Profiles/SDR_control/Channel_Sounderv3/.
cp CSwSNRTX.py /root/Profiles/SDR_control/Channel_Sounderv3/. cp CSwSNRTX.py /root/Profiles/SDR_control/Channel_Sounderv3/.
# Replace start scripts
cp ../scripts/startexperiment.sh /root/.
cp ../scripts/startRadio.sh /root/Profiles/ProfileScripts/Radio/.
cp ../scripts/startVehicle.sh /root/Profiles/ProfileScripts/Vehicle/.
echo "REMEMBER! Manually edit startexperiment.sh to point to the correct client.yaml"
echo "REMEMBER! Manually copy startexperiment_controller.sh to startexperiment.sh on the fixed node"
echo "REMEMBER! Manually copy startVehicle_controller.sh to ~/Profiles/ProfileScripts/Vehicle/startVehicle.sh on the fixed node"
aerpaw/results/plotGpsLogs.m
+28 -3
View File
@@ -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;
@@ -28,6 +29,7 @@ function [f, G] = plotGpsLogs(logDirs, seaToGroundLevel)
logDirs = dir(logDirs); logDirs = dir(logDirs);
logDirs = logDirs(3:end); logDirs = logDirs(3:end);
logDirs = logDirs([logDirs.isdir] == 1); logDirs = logDirs([logDirs.isdir] == 1);
logDirs = logDirs(~startsWith({logDirs.name}, "controller_"));
G = cell(size(logDirs)); G = cell(size(logDirs));
for ii = 1:size(logDirs, 1) for ii = 1:size(logDirs, 1)
@@ -48,8 +50,10 @@ 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
@@ -58,6 +62,27 @@ function [f, G] = plotGpsLogs(logDirs, seaToGroundLevel)
enu = array2table(enu, 'VariableNames', ["East", "North", "Up"]); enu = array2table(enu, 'VariableNames', ["East", "North", "Up"]);
G{ii} = [G{ii}, enu]; G{ii} = [G{ii}, enu];
% Do crude comparison of pairwise distances between this UAV and
% all previous UAVs
for jj = 1:(ii - 1)
Ai = G{ii}(:, [1, end-2:end]);
Aj = G{jj}(:, [1, end-2:end]);
% Trim data to match sizes
idx = min([size(Ai, 1), size(Aj, 1)]);
Ai = Ai(1:idx, :); Aj = Aj(1:idx, :);
pos_i = [Ai.East, Ai.North, Ai.Up];
pos_j = [Aj.East, Aj.North, Aj.Up];
d = vecnorm(pos_i - pos_j, 2, 2);
d = d(~isnan(d));
fprintf("Minimum distance between agents %d and %d is %2.3f\n", ii, jj, min(d));
if min(d) < 6
warning("Minimum distance between agents %d and %d of %2.3f is questionable for AERPAW", ii, jj, min(d));
end
end
% Plot recorded trajectory over specified range of indices % Plot recorded trajectory over specified range of indices
geoplot3(gf, G{ii}.Latitude(startIdx:stopIdx), G{ii}.Longitude(startIdx:stopIdx), G{ii}.Altitude(startIdx:stopIdx) + seaToGroundLevel, c(mod(ii, length(c))), 'LineWidth', 2, "MarkerSize", 5); geoplot3(gf, G{ii}.Latitude(startIdx:stopIdx), G{ii}.Longitude(startIdx:stopIdx), G{ii}.Altitude(startIdx:stopIdx) + seaToGroundLevel, c(mod(ii, length(c))), 'LineWidth', 2, "MarkerSize", 5);
end end
aerpaw/results/plotRadioLogs.m
+12 -3
View File
@@ -24,16 +24,25 @@ function [f, R] = plotRadioLogs(resultsPath)
R{ii}(bad, :) = []; R{ii}(bad, :) = [];
end end
% Compute path loss from Power (post-processing)
% Power = 20*log10(peak_mag) - rxGain; path loss = txGain - rxGain - Power
txGain_dB = 76; % from startchannelsounderTXGRC.sh GAIN_TX
rxGain_dB = 30; % from startchannelsounderRXGRC.sh GAIN_RX
for ii = 1:numel(R)
R{ii}.PathLoss = txGain_dB - rxGain_dB - R{ii}.Power;
R{ii}.FreqOffset = R{ii}.FreqOffset / 1e6; % Hz to MHz
end
% Build legend labels and color map for up to 4 UAVs % Build legend labels and color map for up to 4 UAVs
nUAV = numel(R); nUAV = numel(R);
colors = lines(nUAV * nUAV); colors = lines(nUAV * nUAV);
styles = ["-o", "-s", "-^", "-d", "-v", "-p", "-h", "-<", "->", "-+", "-x", "-*"]; styles = ["-o", "-s", "-^", "-d", "-v", "-p", "-h", "-<", "->", "-+", "-x", "-*"];
metricNames = ["SNR", "Power", "Quality"]; metricNames = ["SNR", "Power", "Quality", "PathLoss", "NoiseFloor", "FreqOffset"];
yLabels = ["SNR (dB)", "Power (dB)", "Quality"]; yLabels = ["SNR (dB)", "Power (dB)", "Quality", "Path Loss (dB)", "Noise Floor (dB)", "Freq Offset (MHz)"];
f = figure; f = figure;
tl = tiledlayout(3, 1, 'TileSpacing', 'compact', 'Padding', 'compact'); tl = tiledlayout(numel(metricNames), 1, 'TileSpacing', 'compact', 'Padding', 'compact');
for mi = 1:numel(metricNames) for mi = 1:numel(metricNames)
ax = nexttile(tl); ax = nexttile(tl);
aerpaw/results/readControllerLogs.m
+32
View File
@@ -0,0 +1,32 @@
function T2 = readControllerLogs(filepath)
arguments (Input)
filepath (1, 1) string;
end
arguments (Output)
T2 table;
end
assert(isfile(filepath), "File not found at %s", filepath);
T = readtable(filepath, 'VariableNamingRule', 'preserve');
s = split(T.(T.Properties.VariableNames{1}), ']');
s2 = strip(s(startsWith(s(:, 2), " ("), 1), 'left', '[');
d = datetime(s2, "InputFormat", "yyyy-MM-dd HH:mm:ss.SSSSSS")';
it = s(startsWith(s(:, 2), " ("), 2);
it = str2double(strip(strip(it, 'left'), 'left', '('));
T.Var3 = strip(append(T.Var3, " ", T.Var4, " ", T.Var5, " ", T.Var6, " ", T.Var7));
T.Var4 = []; T.Var5 = []; T.Var6 = []; T.Var7 = [];
msg = T.(T.Properties.VariableNames{2});
msg = msg(startsWith(s(:, 2), " ("), :);
s3 = split(msg, ') ');
s3 = s3(:, 2);
msg = append(s3, T.Var3(startsWith(s(:, 2), " (")));
T2 = table(it, d', msg, 'VariableNames', ["iteration", "timestamp", "message"]);
% T.Var1 = datetime(strip(strip(append(T.Var1, " ", T.Var2), 'left', '['), 'right', ']'), "InputFormat", "yyyy-MM-dd HH:mm:ss.SSSSSS");
% T.Var2 = [];
% T.Var3 = strip(append(T.Var3, " ", T.Var4, " ", T.Var5, " ", T.Var6, " ", string(T.Var7), " ", T.Var8, " ", T.Var9));
% T.Var4 = []; T.Var5 = []; T.Var6 = []; T.Var7 = []; T.Var8 = []; T.Var9 = [];
% T.Properties.VariableNames{1} = 'timestamp';
% T.Properties.VariableNames{2} = 'message';
% T(ismissing(T.message), :) = [];
end
aerpaw/results/readRadioLogs.m
+24 -11
View File
@@ -2,21 +2,20 @@ function R = readRadioLogs(logPath)
arguments (Input) arguments (Input)
logPath (1, 1) string {isfolder(logPath)}; logPath (1, 1) string {isfolder(logPath)};
end end
arguments (Output) arguments (Output)
R (:, 6) table; R (:, 8) table;
end end
% Extract receiving UAV ID from directory name (e.g. "uav0_..." 0) % Extract receiving UAV ID from directory name (e.g. "uav0_..." 0)
[~, dirName] = fileparts(logPath); [~, dirName] = fileparts(logPath);
rxID = int32(sscanf(dirName, 'uav%d')); rxID = int32(sscanf(dirName, 'uav%d'));
metrics = ["quality", "snr", "power"]; metrics = ["quality", "snr", "power", "noisefloor", "freqoffset"];
logs = dir(logPath); logs = dir(logPath);
logs = logs(endsWith({logs(:).name}, metrics + "_log.txt")); logs = logs(endsWith({logs(:).name}, metrics + "_log.txt"));
R = table(datetime.empty(0,1), zeros(0,1,'int32'), zeros(0,1,'int32'), zeros(0,1), zeros(0,1), zeros(0,1), ... R = table(datetime.empty(0,1), zeros(0,1,'int32'), zeros(0,1,'int32'), zeros(0,1), zeros(0,1), zeros(0,1), zeros(0,1), zeros(0,1), ...
'VariableNames', ["Timestamp", "TxUAVID", "RxUAVID", "SNR", "Power", "Quality"]); 'VariableNames', ["Timestamp", "TxUAVID", "RxUAVID", "SNR", "Power", "Quality", "NoiseFloor", "FreqOffset"]);
for ii = 1:numel(logs) for ii = 1:numel(logs)
filepath = fullfile(logs(ii).folder, logs(ii).name); filepath = fullfile(logs(ii).folder, logs(ii).name);
@@ -31,25 +30,39 @@ 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};
n = numel(ts); n = numel(ts);
t = table(ts, txId, repmat(rxID, n, 1), NaN(n,1), NaN(n,1), NaN(n,1), ... t = table(ts, txId, repmat(rxID, n, 1), NaN(n,1), NaN(n,1), NaN(n,1), NaN(n,1), NaN(n,1), ...
'VariableNames', ["Timestamp", "TxUAVID", "RxUAVID", "SNR", "Power", "Quality"]); 'VariableNames', ["Timestamp", "TxUAVID", "RxUAVID", "SNR", "Power", "Quality", "NoiseFloor", "FreqOffset"]);
switch metric switch metric
case "snr", t.SNR = val; case "snr", t.SNR = val;
case "power", t.Power = val; case "power", t.Power = val;
case "quality", t.Quality = val; case "quality", t.Quality = val;
case "noisefloor", t.NoiseFloor = val;
case "freqoffset", t.FreqOffset = val;
end end
R = [R; t]; %#ok<AGROW> R = [R; t]; %#ok<AGROW>
aerpaw/results/resultsAnalysis.m
+24 -3
View File
@@ -1,9 +1,30 @@
%% Plot AERPAW logs (trajectory, radio) %% Plot AERPAW logs (trajectory, radio)
resultsPath = fullfile(matlab.project.rootProject().RootFolder, "sandbox", "t1"); % Define path to results copied from AERPAW platform resultsPath = fullfile(matlab.project.rootProject().RootFolder, "sandbox", "two_around_wall"); % Define path to results copied from AERPAW platform
% Measure intervals between issuing commands from the controller
% (make sure this is ~4-5 seconds at minimum to avoid overwhelming the UAV autopilot)
r = dir(resultsPath);
controllerPath = fullfile(r(startsWith({r.name}, 'controller_')).folder, r(startsWith({r.name}, 'controller_')).name);
controllerPath = dir(controllerPath);
controllerPath = fullfile(controllerPath(endsWith({controllerPath.name}, '_controller_log.txt')).folder, controllerPath(endsWith({controllerPath.name}, '_controller_log.txt')).name);
controller = readControllerLogs(controllerPath);
rpIdx = startsWith(controller.message, "Iteration duration: ");
s = split(controller.message(rpIdx), "Iteration duration: ");
s = split(s(:, 2), ' s');
s = duration(strcat("00:", s(:, 1)), "InputFormat", "mm:ss.SSS");
s.Format = "mm:ss.SSS";
fprintf("Minimum command spacing: %2.3f seconds\n", seconds(min(s)));
fprintf("Maximum command spacing: %2.3f seconds\n", seconds(max(s)));
fprintf("Mean command spacing: %2.3f seconds\n", seconds(mean(s)));
fprintf("Median command spacing: %2.3f seconds\n", seconds(median(s)));
if seconds(min(s)) < 4
warning("Minimum command spacing %2.3f questionably short for AERPAW", seconds(min(s)));
end
% 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 +42,7 @@ 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)
aerpaw/run_uav.sh
+3 -3
View File
@@ -32,8 +32,8 @@ else
exit 1 exit 1
fi fi
# Client config file (optional 2nd argument) # Client config file: 2nd argument > AERPAW_CLIENT_CONFIG env var > default
CONFIG_FILE="${2:-config/client.yaml}" CONFIG_FILE="${2:-${AERPAW_CLIENT_CONFIG:-config/client.yaml}}"
if [ ! -f "$CONFIG_FILE" ]; then if [ ! -f "$CONFIG_FILE" ]; then
echo "Error: Config file not found: $CONFIG_FILE" echo "Error: Config file not found: $CONFIG_FILE"
exit 1 exit 1
@@ -59,7 +59,7 @@ echo "[run_uav] MAVLink connection: $CONN"
# Run via aerpawlib # Run via aerpawlib
echo "[run_uav] Starting UAV runner..." echo "[run_uav] Starting UAV runner..."
python3 -m aerpawlib \ python3 -u -m aerpawlib \
--script client.uav_runner \ --script client.uav_runner \
--conn "$CONN" \ --conn "$CONN" \
--vehicle drone --vehicle drone
aerpaw/scripts/startRadio.sh
Executable
+100
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@@ -0,0 +1,100 @@
#!/bin/bash
# Derive number of UAVs from scenario.csv
NUM_UAVS=$(python3 -c "
import csv, os
csv_path = '/root/miSim/aerpaw/config/scenario.csv'
with open(csv_path, 'r') as f:
reader = csv.reader(f, skipinitialspace=True)
header = [h.strip() for h in next(reader)]
row = next(reader)
col = header.index('initialPositions')
vals = [v.strip() for v in row[col].strip().split(',') if v.strip()]
print(len(vals) // 3)
" 2>/dev/null || echo 0)
cd $PROFILE_DIR"/ProfileScripts/Radio/Helpers"
if [ "$NUM_UAVS" -eq 2 ]; then
# Direct 1-to-1 mode: UAV 0 = TX only, UAV 1 = RX only
echo "[Radio] 2-UAV direct mode: UAV_ID=$UAV_ID"
if [ "$UAV_ID" -eq 0 ]; then
# TX only (--num-uavs 1 disables TDM muting)
screen -S txGRC -dm \
bash -c "stdbuf -oL -eL ./startchannelsounderTXGRC.sh --num-uavs 1 \
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_radio_channelsoundertxgrc_log.txt"
else
# RX only (--num-uavs 1 disables TDM tagging)
screen -S rxGRC -dm \
bash -c "stdbuf -oL -eL ./startchannelsounderRXGRC.sh --num-uavs 1 \
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_radio_channelsounderrxgrc_log.txt"
screen -S power -dm \
bash -c "stdbuf -oL -eL tail -F /root/Power\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_power_log.txt"
screen -S quality -dm \
bash -c "stdbuf -oL -eL tail -F /root/Quality\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_quality_log.txt"
screen -S snr -dm \
bash -c "stdbuf -oL -eL tail -F /root/SNR\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_snr_log.txt"
screen -S noisefloor -dm \
bash -c "stdbuf -oL -eL tail -F /root/NoiseFloor\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_noisefloor_log.txt"
screen -S freqoffset -dm \
bash -c "stdbuf -oL -eL tail -F /root/FreqOffset\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_freqoffset_log.txt"
fi
else
# 3+ UAVs: full TDM mode — every node runs both TX and RX
echo "[Radio] TDM mode: $NUM_UAVS UAVs, UAV_ID=$UAV_ID"
screen -S rxGRC -dm \
bash -c "stdbuf -oL -eL ./startchannelsounderRXGRC.sh \
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_radio_channelsounderrxgrc_log.txt"
screen -S power -dm \
bash -c "stdbuf -oL -eL tail -F /root/Power\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_power_log.txt"
screen -S quality -dm \
bash -c "stdbuf -oL -eL tail -F /root/Quality\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_quality_log.txt"
screen -S snr -dm \
bash -c "stdbuf -oL -eL tail -F /root/SNR\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_snr_log.txt"
screen -S noisefloor -dm \
bash -c "stdbuf -oL -eL tail -F /root/NoiseFloor\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_noisefloor_log.txt"
screen -S freqoffset -dm \
bash -c "stdbuf -oL -eL tail -F /root/FreqOffset\
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_freqoffset_log.txt"
screen -S txGRC -dm \
bash -c "stdbuf -oL -eL ./startchannelsounderTXGRC.sh \
2>&1 | ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_radio_channelsoundertxgrc_log.txt"
fi
cd -
aerpaw/scripts/startVehicle.sh
Executable
+30
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@@ -0,0 +1,30 @@
#!/bin/bash
### Sample GPS logger portion
# use vehicle type generic to skip the arming requirement
export VEHICLE_TYPE="${VEHICLE_TYPE:-generic}"
# GPS Logger sample application (this does not move the vehicle)
#cd $PROFILE_DIR"/ProfileScripts/Vehicle/Helpers"
#
#screen -S vehicle -dm \
# bash -c "stdbuf -oL -eL ./gpsLoggerHelper.sh \
# 2> >(ts $TS_FORMAT >> $RESULTS_DIR/${LOG_PREFIX}_vehicle_log_err.txt) \
# | ts $TS_FORMAT \
# | tee $RESULTS_DIR/$LOG_PREFIX\_vehicle_log.txt"
#
#cd -
### Actual control portion (custom)
export VEHICLE_TYPE="${VEHICLE_TYPE:-drone}" # out of rover, drone, generic
cd /root/miSim/aerpaw
# Use screen/ts/tee aerpawism from sample script
screen -S vehicle -dm \
bash -c "stdbuf -oL -eL ./run_uav.sh testbed \
| ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_vehicle_log.txt"
cd -
aerpaw/scripts/startVehicle_controller.sh
Executable
+11
View File
@@ -0,0 +1,11 @@
#!/bin/bash
cd /root/miSim/aerpaw
# Compile controller
/bin/bash compile.sh
# Run controller
./build/controller_app
cd -
aerpaw/scripts/startexperiment.sh
Executable
+50
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@@ -0,0 +1,50 @@
#!/bin/bash
/root/stopexperiment.sh
source /root/.ap-set-experiment-env.sh
source /root/.bashrc
# set path to client config YAML
export AERPAW_CLIENT_CONFIG=/root/miSim/aerpaw/config/client1.yaml
export AERPAW_REPO=${AERPAW_REPO:-/root/AERPAW-Dev}
export AERPAW_PYTHON=${AERPAW_PYTHON:-python3}
export PYTHONPATH=/usr/local/lib/python3/dist-packages/
export EXP_NUMBER=${EXP_NUMBER:-1}
if [ "$AP_EXPENV_THIS_CONTAINER_NODE_VEHICLE" == "vehicle_uav" ]; then
export VEHICLE_TYPE=drone
elif [ "$AP_EXPENV_THIS_CONTAINER_NODE_VEHICLE" == "vehicle_ugv" ]; then
export VEHICLE_TYPE=rover
else
export VEHICLE_TYPE=none
fi
if [ "$AP_EXPENV_SESSION_ENV" == "Virtual" ]; then
export LAUNCH_MODE=EMULATION
elif [ "$AP_EXPENV_SESSION_ENV" == "Testbed" ]; then
export LAUNCH_MODE=TESTBED
else
export LAUNCH_MODE=none
fi
# prepare results directory
export UAV_ID=$(python3 -c "import yaml; print(yaml.safe_load(open('$AERPAW_CLIENT_CONFIG'))['uav_id'])")
export RESULTS_DIR_TIMESTAMP=$(date +%Y-%m-%d_%H_%M_%S)
export RESULTS_DIR="/root/Results/uav${UAV_ID}_${RESULTS_DIR_TIMESTAMP}"
mkdir -p "$RESULTS_DIR"
export TS_FORMAT="${TS_FORMAT:-'[%Y-%m-%d %H:%M:%.S]'}"
export LOG_PREFIX="$(date +%Y-%m-%d_%H_%M_%S)"
export TX_FREQ=3.32e9
export RX_FREQ=3.32e9
export PROFILE_DIR=$AERPAW_REPO"/AHN/E-VM/Profile_software"
cd $PROFILE_DIR"/ProfileScripts"
./Radio/startRadio.sh
#./Traffic/startTraffic.sh
./Vehicle/startVehicle.sh
schedule_stop.sh 30
aerpaw/scripts/startexperiment_controller.sh
Executable
+47
View File
@@ -0,0 +1,47 @@
#!/bin/bash
/root/stopexperiment.sh
source /root/.ap-set-experiment-env.sh
source /root/.bashrc
export AERPAW_REPO=${AERPAW_REPO:-/root/AERPAW-Dev}
export AERPAW_PYTHON=${AERPAW_PYTHON:-python3}
export PYTHONPATH=/usr/local/lib/python3/dist-packages/
export EXP_NUMBER=${EXP_NUMBER:-1}
if [ "$AP_EXPENV_THIS_CONTAINER_NODE_VEHICLE" == "vehicle_uav" ]; then
export VEHICLE_TYPE=drone
elif [ "$AP_EXPENV_THIS_CONTAINER_NODE_VEHICLE" == "vehicle_ugv" ]; then
export VEHICLE_TYPE=rover
else
export VEHICLE_TYPE=none
fi
if [ "$AP_EXPENV_SESSION_ENV" == "Virtual" ]; then
export LAUNCH_MODE=EMULATION
elif [ "$AP_EXPENV_SESSION_ENV" == "Testbed" ]; then
export LAUNCH_MODE=TESTBED
else
export LAUNCH_MODE=none
fi
# prepare results directory
export RESULTS_DIR_TIMESTAMP=$(date +%Y-%m-%d_%H_%M_%S)
export RESULTS_DIR="/root/Results/controller_${RESULTS_DIR_TIMESTAMP}"
mkdir -p "$RESULTS_DIR"
export TS_FORMAT="${TS_FORMAT:-'[%Y-%m-%d %H:%M:%.S]'}"
export LOG_PREFIX="$(date +%Y-%m-%d_%H_%M_%S)"
export TX_FREQ=3.32e9
export RX_FREQ=3.32e9
export PROFILE_DIR=$AERPAW_REPO"/AHN/E-VM/Profile_software"
cd $PROFILE_DIR"/ProfileScripts"
screen -S controller -dm \
bash -c "stdbuf -oL -eL ./Vehicle/startVehicle.sh \
| ts $TS_FORMAT \
| tee $RESULTS_DIR/$LOG_PREFIX\_controller_log.txt"
schedule_stop.sh 30
resources/project/71xh8lboMaPoa5Dmw3ABwzIozfw/bjgcAyD7dxJIgrUo3yHl5f1-iksp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/EEtUlUb-dLAdf0KpMVivaUlztwA/YoWkWDdbwwiRDjC6Inll7Thh1K8d.xml
+2
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@@ -0,0 +1,2 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info Ref="aerpaw/scripts" Type="Relative"/>
resources/project/EEtUlUb-dLAdf0KpMVivaUlztwA/YoWkWDdbwwiRDjC6Inll7Thh1K8p.xml
+2
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@@ -0,0 +1,2 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="6402cbb5-c767-4c8b-bd7c-b2d7cf1055fc" type="Reference"/>
resources/project/6V6Vr7QAsqxEmRj-ezOm1ygcTak/bJiTrGQ5GQ9DMI6whRMInBQY2yQd.xml → resources/project/Gnz6T47dAsmf4YcBHB3EkpeZeYA/p7b0T5lVDU-D8JiROZNSX56qOhcd.xml
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resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/6V6Vr7QAsqxEmRj-ezOm1ygcTakd.xml → resources/project/Gnz6T47dAsmf4YcBHB3EkpeZeYA/p7b0T5lVDU-D8JiROZNSX56qOhcp.xml
+1 -1
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@@ -1,2 +1,2 @@
<?xml version="1.0" encoding="UTF-8"?> <?xml version="1.0" encoding="UTF-8"?>
<Info/> <Info location="scripts" type="File"/>
resources/project/Hp7WImb16Wc_c7gK28oUydAFVts/EhSD3dO3mU2KP9IqbTVz7g60j5Ap.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/QVXvsR5cXQzGBi9QgRUFaflegRY/SltMFP7zr3UZsLPdRi9OyWAN7pMp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/SIL3u_W39LwE7HHYsarfFmr9gVQ/_1CKOWXf9sLpzeC642i06VHUH0Qd.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info>
<Category UUID="FileClassCategory">
<Label UUID="design"/>
</Category>
</Info>
resources/project/SIL3u_W39LwE7HHYsarfFmr9gVQ/_1CKOWXf9sLpzeC642i06VHUH0Qp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="initializeFromInits.m" type="File"/>
resources/project/SIL3u_W39LwE7HHYsarfFmr9gVQ/abbdKJ8UvIXKWL0sR9NW0pEJSNId.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info>
<Category UUID="FileClassCategory">
<Label UUID="design"/>
</Category>
</Info>
resources/project/SIL3u_W39LwE7HHYsarfFmr9gVQ/abbdKJ8UvIXKWL0sR9NW0pEJSNIp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="plotFromSimHist.m" type="File"/>
resources/project/Vq0hyJJCG53DJ8wxA_8WUihyBpg/H9TIrKqi-fFOWfgKFbIj3tQLZ3Yp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/cCclYJTOop6jkdZsItlf7iNuov4/boyWn-mt0RFdVNBj1mgEcGMQh_Ed.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info>
<Category UUID="FileClassCategory">
<Label UUID="design"/>
</Category>
</Info>
resources/project/cCclYJTOop6jkdZsItlf7iNuov4/boyWn-mt0RFdVNBj1mgEcGMQh_Ep.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="readControllerLogs.m" type="File"/>
resources/project/ls4G1ReemmlA4lw5Sxijq_iTPE0/YTBPi7yO4zYK5U1mxnqJDcdXNYkp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/71xh8lboMaPoa5Dmw3ABwzIozfw/bjgcAyD7dxJIgrUo3yHl5f1-iksd.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/7zvVfoOGOecwrnesPxOvEZRcJNYd.xml
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resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/7zvVfoOGOecwrnesPxOvEZRcJNYp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="startexperiment_controller.sh" type="File"/>
resources/project/Hp7WImb16Wc_c7gK28oUydAFVts/EhSD3dO3mU2KP9IqbTVz7g60j5Ad.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/LU7BdyAbq1VWsP1tcW099qs0_cYd.xml
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resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/LU7BdyAbq1VWsP1tcW099qs0_cYp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="startRadio.sh" type="File"/>
resources/project/QVXvsR5cXQzGBi9QgRUFaflegRY/SltMFP7zr3UZsLPdRi9OyWAN7pMd.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/M4B1x4nVEuLmUODrHewQHG0CDHsd.xml
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resources/project/6V6Vr7QAsqxEmRj-ezOm1ygcTak/bJiTrGQ5GQ9DMI6whRMInBQY2yQp.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/M4B1x4nVEuLmUODrHewQHG0CDHsp.xml
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resources/project/Vq0hyJJCG53DJ8wxA_8WUihyBpg/H9TIrKqi-fFOWfgKFbIj3tQLZ3Yd.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/Wf9PEeTALvEX83cew4fZfavy2ewd.xml
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resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/Wf9PEeTALvEX83cew4fZfavy2ewp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="startexperiment.sh" type="File"/>
resources/project/ls4G1ReemmlA4lw5Sxijq_iTPE0/YTBPi7yO4zYK5U1mxnqJDcdXNYkd.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/bRP3MIwZ4PcWx9PloJbVyWC00JAd.xml
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resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/bRP3MIwZ4PcWx9PloJbVyWC00JAp.xml
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@@ -0,0 +1,2 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="startVehicle.sh" type="File"/>
resources/project/pjpApCZ_IyThRbNNVtyf0HS9lGA/OvzpqD8IaJL2rl4SaQSOPQ-QRMkd.xml → resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/oczvKa9PTzIQRYD1e6ccXbiMz_wd.xml
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resources/project/p7b0T5lVDU-D8JiROZNSX56qOhc/oczvKa9PTzIQRYD1e6ccXbiMz_wp.xml
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<?xml version="1.0" encoding="UTF-8"?>
<Info location="startVehicle_controller.sh" type="File"/>
resources/project/pjpApCZ_IyThRbNNVtyf0HS9lGA/OvzpqD8IaJL2rl4SaQSOPQ-QRMkp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/6V6Vr7QAsqxEmRj-ezOm1ygcTakp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test4" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/71xh8lboMaPoa5Dmw3ABwzIozfwd.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/71xh8lboMaPoa5Dmw3ABwzIozfwp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test13" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/Hp7WImb16Wc_c7gK28oUydAFVtsd.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/Hp7WImb16Wc_c7gK28oUydAFVtsp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="t1" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/QVXvsR5cXQzGBi9QgRUFaflegRYd.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/QVXvsR5cXQzGBi9QgRUFaflegRYp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test14" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/Vq0hyJJCG53DJ8wxA_8WUihyBpgd.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/Vq0hyJJCG53DJ8wxA_8WUihyBpgp.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test11" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/ls4G1ReemmlA4lw5Sxijq_iTPE0d.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/ls4G1ReemmlA4lw5Sxijq_iTPE0p.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test6" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/pjpApCZ_IyThRbNNVtyf0HS9lGAd.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/pjpApCZ_IyThRbNNVtyf0HS9lGAp.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test3" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/soCFsvL91lhqvUw-h8HkHCtfsiwd.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/soCFsvL91lhqvUw-h8HkHCtfsiwp.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test10" type="File"/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/yqgj8VLvTZ-pn09SsztajkpKW1Ed.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/q138eJA8Ym4eSfM3RFMVvg63QtU/yqgj8VLvTZ-pn09SsztajkpKW1Ep.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="test12" type="File"/>
resources/project/qaw0eS1zuuY1ar9TdPn1GMfrjbQ/hUjTM8Yelb7ggxXFg7nBPm4NKQod.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/qaw0eS1zuuY1ar9TdPn1GMfrjbQ/hUjTM8Yelb7ggxXFg7nBPm4NKQop.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="t1.zip" type="File"/>
resources/project/soCFsvL91lhqvUw-h8HkHCtfsiw/1fQ44ZBWSpGWUWzrR6iBNoEkvh4d.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>
resources/project/soCFsvL91lhqvUw-h8HkHCtfsiw/1fQ44ZBWSpGWUWzrR6iBNoEkvh4p.xml
-2
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info location="1" type="DIR_SIGNIFIER"/>
resources/project/yqgj8VLvTZ-pn09SsztajkpKW1E/68s6SYUbIV2lonVX55ZsTcaPe_4d.xml
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@@ -1,2 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Info/>

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