plan
Syntax
Description
path = plan(planner,startState,goalState)navPath object
between the start state and the goal state within a roadmap that contains a network graph of
connected nodes.
[
also returns path,solutionInfo] = plan(planner,startState,goalState)solutionInfo as a structure that contains the solution
information of the path planning.
Examples
Plan Obstacle-Free Path Using Probabilistic Roadmap Path Planner
Create an occupancy map from an example map and set the map resolution as 10 cells/meter.
map = load("exampleMaps.mat").simpleMap;
map = occupancyMap(map,10);Create a state space and update the state space bounds to be the same as the map limits.
ss = stateSpaceSE2; ss.StateBounds = [map.XWorldLimits; map.YWorldLimits; [-pi pi]];
Create a state validator with stateSpaceSE2 using the map and set the validation distance.
sv = validatorOccupancyMap(ss,Map=map); sv.ValidationDistance = 0.01;
Create a plannerPRM object.
planner = plannerPRM(ss,sv);
Retrieve graph as a digraph object.
graph = graphData(planner);
Extract nodes and edges from graph.
edges = table2array(graph.Edges); nodes = table2array(graph.Nodes);
Specify the start and goal states.
start = [0.5 0.5 0]; goal = [2.5 0.2 0];
Plot map and graph.
show(sv.Map) hold on plot(nodes(:,1),nodes(:,2),"*","Color","b","LineWidth",2) for i = 1:size(edges,1) % Samples states at distance 0.02 meters. states = interpolate(ss,nodes(edges(i,1),:), ... nodes(edges(i,2),:),0:0.02:1); plot(states(:,1),states(:,2),"Color","b") end plot(start(1),start(2),"*","Color","g","LineWidth",3) plot(goal(1),goal(2),"*","Color","r","LineWidth",3)
Plan a path with default settings. Set the rng seed for repeatability.
rng(100,"twister");
[pthObj, solnInfo] = plan(planner,start,goal);Visualize the results.
if solnInfo.IsPathFound interpolate(pthObj,1000); plot(pthObj.States(:,1),pthObj.States(:,2), ... "Color",[0.85 0.325 0.098],"LineWidth",2) else disp("Path not found") end hold off
Plan Path Through 3-D Occupancy Map Using Probabilistic Roadmap Planner
Configure the random number generator for repeatable result.
rng(1,"twister");Load a 3-D occupancy map of a city block into the workspace. Specify the threshold to consider cells as obstacle-free.
mapData = load("dMapCityBlock.mat");
omap = mapData.omap;
omap.FreeThreshold = 0.5;Inflate the occupancy map to add a buffer zone for safe operation around the obstacles.
inflate(omap,1)
Create an SE(3) state space object with bounds for state variables.
ss = stateSpaceSE3([0 220;0 220;0 100;inf inf;inf inf;inf inf;inf inf]);
Create a 3-D occupancy map state validator using the created state space. Assign the occupancy map to the state validator object. Specify the sampling distance interval.
sv = validatorOccupancyMap3D(ss, ... Map = omap, ... ValidationDistance = 0.1);
Create a probabilistic roadmap path planner with increased maximum connection distance.
planner = plannerPRM(ss,sv);
Specify start and goal poses.
start = [40 180 25 0.7 0.2 0 0.1]; goal = [150 33 35 0.3 0 0.1 0.6];
Plan the path.
[pthObj,solnInfo] = plan(planner,start,goal);
Visualize the planned path.
show(omap) axis equal view([-10 55]) hold on % Start state scatter3(start(1,1),start(1,2),start(1,3),"g","filled") % Goal state scatter3(goal(1,1),goal(1,2),goal(1,3),"r","filled") % Path plot3(pthObj.States(:,1),pthObj.States(:,2),pthObj.States(:,3), ... "r-",LineWidth=2)
Input Arguments
Output Arguments
Extended Capabilities
Version History
Introduced in R2022a
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