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A repository which outputs motion commands and monitors odometry feedback to cause the robot to move according to a provided script

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scripted_bot_driver

Scripted_bot_driver is a set of nodes which outputs motion commands and monitors odometry feedback to cause the robot to move according to provided commands and parameters

The nodes are designed to run a robot which accepts motion commands from Twist messages sent on the /cmd_vel topic, and which provides pose feedback in Odometry messages sent on the /odom topic. The nodes use these fields from the Odometry message:

  • pose.pose.position.x & y - the x-y position of the robot
  • pose.pose.orientation.x & y & z & w - Quaternion describing the robot's heading
  • twist.twist.linear.x - the linear speed of the robot
  • twist.twist.angular.z - the angular speed of the robot

At the top of the stack is the scripted_bot_driver node, which interprets command-line verbs to drive straight (movo), rotate (roto) with optional linear motion to cause driving in an arc, or traverse waypoints (drive_wayponts) or stop, each of which may have multiple parameters. It sequences each verb with its parameters out to action servers. The action servers perform the actions by publishing Twist messages on cmd_vel until the action is complete. They signal action complete, which causes scripted_bot_driver to interpret the next in a string of verbs and sequence it to the appropriate action server, or exit if there are no more verbs.

The action servers must be started before scripted_mover requests any actions:

ros2 launch scripted_bot_driver servers_launch.py

Run scripted_bot_driver without any commands to get the usage message:

Usage: scripted_mover.py [commands] - executes the series of move commands provided

Move commands

The move commands supported by scripted_bot_driver and its action servers are described below.

movo

movo <distance> [speed]
  • drive straight for distance meters at the parameterized or given speed

roto

roto <target_angle>[d|p] <mode> [angular_speed][d|p] [drive_speed].

roto is used to turn in relation to the current heading:

  • Unmodified target angles can be specified as just a number in radians with positive values requesting a CCW direction. If a 'd' or 'p' is appended, the angle will be interpreted as degrees, or to be multiplied by pi, respectively.
  • so -3.14159 and -1p and -180d are all treated as a half rotation in the clockwise direction in strict mode.
  • mode is either 1 or 2 if specified. Mode 1 is the default and seeks the shortest path. So if not specified, a roto 181d would actually result in a -179 degree rotation. The specified target angle will be normalized, so you'll never see more than a half rotation. Mode 2 is strict, meaning it requests a relative rotation from the starting heading exactly as specified. A "roto -4p 2" will execute 2 full rotations clockwise.
  • the remaining optional arguments require all preceding arguments to be supplied.
  • angular_speed, will override the default turning speed with the supplied speed in radians.
  • drive_speed, will add a forward or backward velocity, resulting in arcs. The value is in meters per second. Vary turning speed and drive speed for varying arcs. The terminating condition is always the final target rotation angle.

drive_waypoints

Drive to a list of waypoints.

drive_waypoints <target_x> <target_y> [ more_targets ] 
  • target_x and target_y are in meters in the odom frame.

stop

stop [delay]
  • ramp linear and rotational speed down to 0 with optional pause of delay seconds at end

Examples

An example of a command to run the Quick Trip DPRG contest could be:

ros2 run scripted_bot_driver scripted_mover movo 3.2 stop 2 movo -3.2

and a command to run the Four Corners DPRG contest could be:

ros2 run scripted_bot_driver scripted_mover drive_waypoints 3 0 3 3 0 3 0 0

Distance parameters are in meters and delay is in seconds.

roto and movo could also be combined to run Four Corners:

ros2 run scripted_bot_driver scripted_mover movo 3 roto 90d movo 3 roto 90d movo 3 roto 90d movo 3 roto 90d

The driving arc feature can be used to cause ackerman-steered vehicles to execute 3-point turns with a script like this:

ros2 run scripted_bot_driver scripted_mover movo 3 roto 90d 1 0.6 0.3 movo 0.5 roto 90d 1 0.6 -0.3 stop 1 movo 3 roto -90d 1 0.6 0.3 movo 0.5 roto -90d 1 0.6 -0.3 movo 3

This can be useful for robots which cannot turn in place.

Simulation

A compatible simulation can be launched from the generic_turtlesim package, which is built around the ros2 turtlesim simulator. It just reformats the simulator pose output into Odometry messages on /odom.

ros2 launch generic_turtlesim generic_turtlesim_launch.yaml

Parameters

Many of the motion paramters are ROS parameters which can be set using the CLI, or by launch scripts. Run the following commands to list, query and set parameters used by motion commands:

ros2 param list /rotate_odom - lists current parameters, 
ros2 param get /rotate_odom speed_default_param - prints the provided parameter value
ros2 param set /rotate_odom speed_default_param 1.0 - sets linear speed to 1.0

The following parameters are supported for move commands. (Note: not all commands use all parameters.)

speed_default_param: Default linear full speed, m/s
low_speed_default_param: Default linear low speed, m/s
vel_slew_rate_default_param: Default linear slew rate, m/s^2 per tick
rot_speed_default_param: Default rotational full speed, rad/s
low_rot_speed_default_param: Default rotational low speed, rad/s
rot_slew_rate_default_param: Default rotational slew rate, rad/s^2 per tick

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A repository which outputs motion commands and monitors odometry feedback to cause the robot to move according to a provided script

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