Smac 2D Planner

This planner implements a cost-aware holonomic A* algorithm within the Smac Planner framework sharing the same code and behaviors as the Hybrid-A* and State Lattice planners.

<name> is the corresponding planner plugin ID selected for this type.

Parameters

<name>.tolerance

Type	Default
double	0.125

Description: Tolerance in meters between requested goal pose and end of path.

<name>.downsample_costmap

Type	Default
bool	False

Description: Whether to downsample costmap to another resolution for search.

<name>.downsampling_factor

Type	Default
int	1

Description: Multiplier factor to downsample costmap by (e.g. if 5cm costmap at 2 downsample_factor, 10cm output).

<name>.allow_unknown

Type	Default
bool	True

Description: Whether to allow traversing/search in unknown space.

<name>.max_iterations

Type	Default
int	1000000

Description: Maximum number of search iterations before failing to limit compute time, disabled by -1.

<name>.max_on_approach_iterations

Type	Default
int	1000

Description: Maximum number of iterations after the search is within tolerance before returning approximate path with best heuristic if exact path is not found.

<name>.terminal_checking_interval

Type	Default
int	5000

Description: Number of iterations between checking if the goal has been cancelled or planner timed out

<name>.max_planning_time

Type	Default
double	2.0

Description: Maximum planning time in seconds.

<name>.cost_travel_multiplier

Type	Default
double	2.0

Description: Cost multiplier to apply to search to steer away from high cost areas. Larger values will place in the center of aisles more exactly (if non-FREE cost potential field exists) but take slightly longer to compute. To optimize for speed, a value of 1.0 is reasonable. A reasonable tradeoff value is 2.0. A value of 0.0 effective disables steering away from obstacles and acts like a naive binary search A*.

<name>.use_final_approach_orientation

Type	Default
bool	false

Description: If true, the last pose of the path generated by the planner will have its orientation set to the approach orientation, i.e. the orientation of the vector connecting the last two points of the path

<name>.smoother.max_iterations

Type	Default
int	1000

Description: The maximum number of iterations the smoother has to smooth the path, to bound potential computation.

<name>.smoother.w_smooth

Type	Default
double	0.3

Description: Weight for smoother to apply to smooth out the data points

<name>.smoother.w_data

Type	Default
double	0.2

Description: Weight for smoother to apply to retain original data information

<name>.smoother.tolerance

Type	Default
double	1e-10

Description: Parameter tolerance change amount to terminate smoothing session

Example

planner_server:
  ros__parameters:
    planner_plugins: ["GridBased"]
    use_sim_time: True

    GridBased:
      plugin: "nav2_smac_planner::SmacPlanner2D" # In Iron and older versions, "/" was used instead of "::"
      tolerance: 0.125                      # tolerance for planning if unable to reach exact pose, in meters
      downsample_costmap: false             # whether or not to downsample the map
      downsampling_factor: 1                # multiplier for the resolution of the costmap layer (e.g. 2 on a 5cm costmap would be 10cm)
      allow_unknown: true                   # allow traveling in unknown space
      max_iterations: 1000000               # maximum total iterations to search for before failing (in case unreachable), set to -1 to disable
      max_on_approach_iterations: 1000      # maximum number of iterations to attempt to reach goal once in tolerance
      max_planning_time: 2.0                # max time in s for planner to plan, smooth
      cost_travel_multiplier: 2.0           # Cost multiplier to apply to search to steer away from high cost areas. Larger values will place in the center of aisles more exactly (if non-`FREE` cost potential field exists) but take slightly longer to compute. To optimize for speed, a value of 1.0 is reasonable. A reasonable tradeoff value is 2.0. A value of 0.0 effective disables steering away from obstacles and acts like a naive binary search A*.
      use_final_approach_orientation: false # Whether to set the final path pose at the goal's orientation to the requested orientation (false) or in line with the approach angle so the robot doesn't rotate to heading (true)
      smoother:
        max_iterations: 1000
        w_smooth: 0.3
        w_data: 0.2
        tolerance: 1.0e-10