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17 KiB

Example 9

This example aims to combine the ReSpeaker Microphone Array and Follow Joint Trajectory tutorials to voice teleoperate the mobile base of the Stretch robot.

Begin by running the following command in a new terminal.

ros2 launch stretch_core stretch_driver.launch.py

Then run the respeaker.launch.py file. In a new terminal, execute:

ros2 launch respeaker_ros2 respeaker.launch.py

Then run the voice_teleoperation_base.py node in a new terminal.

cd ament_ws/src/stretch_tutorials/stretch_ros_tutorials/
python3 voice_teleoperation_base.py

In terminal 3, a menu of voice commands is printed. You can reference this menu layout below.

------------ VOICE TELEOP MENU ------------

VOICE COMMANDS              
"forward": BASE FORWARD                   
"back"   : BASE BACK                      
"left"   : BASE ROTATE LEFT               
"right"  : BASE ROTATE RIGHT              
"stretch": BASE ROTATES TOWARDS SOUND     

STEP SIZE                 
"big"    : BIG                            
"medium" : MEDIUM                         
"small"  : SMALL                          


"quit"   : QUIT AND CLOSE NODE            

-------------------------------------------

To stop the node from sending twist messages, type Ctrl + c or say "quit".

The Code

#!/usr/bin/env python3

# Import modules
import math
import rclpy
import sys
from rclpy.duration import Duration

# We're going to subscribe to 64-bit integers, so we need to import the definition
# for them
from sensor_msgs.msg import JointState

# Import Int32 message typs from the std_msgs package
from std_msgs.msg import Int32

# Import the FollowJointTrajectory from the control_msgs.msg package to
# control the Stretch robot
from control_msgs.action import FollowJointTrajectory

# Import JointTrajectoryPoint from the trajectory_msgs package to define
# robot trajectories
from trajectory_msgs.msg import JointTrajectoryPoint

# Import hello_misc script for handling trajectory goals with an action client
import hello_helpers.hello_misc as hm

# Import SpeechRecognitionCandidates from the speech_recognition_msgs package
from speech_recognition_msgs.msg import SpeechRecognitionCandidates

class GetVoiceCommands:
    def __init__(self, node):
        self.node = node
        # Set step size as medium by default
        self.step_size = 'medium'
        self.rad_per_deg = math.pi/180.0

        # Small step size parameters
        self.small_deg = 5.0
        self.small_rad = self.rad_per_deg * self.small_deg
        self.small_translate = 0.025

        # Medium step size parameters
        self.medium_deg = 10.0
        self.medium_rad = self.rad_per_deg * self.medium_deg
        self.medium_translate = 0.05

        # Big step size parameters
        self.big_deg = 20.0
        self.big_rad = self.rad_per_deg * self.big_deg
        self.big_translate = 0.1

        # Initialize the voice command
        self.voice_command = None

        # Initialize the sound direction
        self.sound_direction = 0

        # Initialize subscribers
        self.speech_to_text_sub = self.node.create_subscription(SpeechRecognitionCandidates, "/speech_to_text", self.callback_speech, 1)
        self.sound_direction_sub = self.node.create_subscription(Int32, "/sound_direction", self.callback_direction, 1)

    def callback_direction(self, msg):
        self.sound_direction = msg.data * -self.rad_per_deg

    def callback_speech(self,msg):
        self.voice_command = ' '.join(map(str,msg.transcript))

    def get_inc(self):
        if self.step_size == 'small':
            inc = {'rad': self.small_rad, 'translate': self.small_translate}
        if self.step_size == 'medium':
            inc = {'rad': self.medium_rad, 'translate': self.medium_translate}
        if self.step_size == 'big':
            inc = {'rad': self.big_rad, 'translate': self.big_translate}
        return inc

    def print_commands(self):
        """
        A function that prints the voice teleoperation menu.
        :param self: The self reference.
        """
        print('                                           ')
        print('------------ VOICE TELEOP MENU ------------')
        print('                                           ')
        print('               VOICE COMMANDS              ')
        print(' "forward": BASE FORWARD                   ')
        print(' "back"   : BASE BACK                      ')
        print(' "left"   : BASE ROTATE LEFT               ')
        print(' "right"  : BASE ROTATE RIGHT              ')
        print(' "stretch": BASE ROTATES TOWARDS SOUND     ')
        print('                                           ')
        print('                 STEP SIZE                 ')
        print(' "big"    : BIG                            ')
        print(' "medium" : MEDIUM                         ')
        print(' "small"  : SMALL                          ')
        print('                                           ')
        print('                                           ')
        print(' "quit"   : QUIT AND CLOSE NODE            ')
        print('                                           ')
        print('-------------------------------------------')

    def get_command(self):
        command = None
        # Move base forward command
        if self.voice_command == 'forward':
            command = {'joint': 'translate_mobile_base', 'inc': self.get_inc()['translate']}

        # Move base back command
        if self.voice_command == 'back':
            command = {'joint': 'translate_mobile_base', 'inc': -self.get_inc()['translate']}

        # Rotate base left command
        if self.voice_command == 'left':
            command = {'joint': 'rotate_mobile_base', 'inc': self.get_inc()['rad']}

        # Rotate base right command
        if self.voice_command == 'right':
            command = {'joint': 'rotate_mobile_base', 'inc': -self.get_inc()['rad']}

        # Move base to sound direction command
        if self.voice_command == 'stretch':
            command = {'joint': 'rotate_mobile_base', 'inc': self.sound_direction}

        # Set the step size of translational and rotational base motions
        if (self.voice_command == "small") or (self.voice_command == "medium") or (self.voice_command == "big"):
            self.step_size = self.voice_command
            self.node.get_logger().info('Step size = {0}'.format(self.step_size))

        if self.voice_command == 'quit':
            # Sends a signal to ros to shutdown the ROS interfaces
            self.node.get_logger().info("done")

            # Exit the Python interpreter
            sys.exit(0)

        # Reset voice command to None
        self.voice_command = None

        # return the updated command
        return command


class VoiceTeleopNode(hm.HelloNode):
    def __init__(self):
        hm.HelloNode.__init__(self)
        self.rate = 10.0
        self.joint_state = None
        hm.HelloNode.main(self, 'voice_teleop', 'voice_teleop', wait_for_first_pointcloud=False)
        self.speech = GetVoiceCommands(self)


    def joint_states_callback(self, msg):
        self.joint_state = msg

    def send_command(self, command):
        joint_state = self.joint_state
        # Conditional statement to send  joint trajectory goals
        if (joint_state is not None) and (command is not None):
            # Assign point as a JointTrajectoryPoint message type
            point = JointTrajectoryPoint()
            point.time_from_start = Duration(seconds=0).to_msg()

            # Assign trajectory_goal as a FollowJointTrajectoryGoal message type
            trajectory_goal = FollowJointTrajectory.Goal()
            trajectory_goal.goal_time_tolerance = Duration(seconds=0).to_msg()

            # Extract the joint name from the command dictionary
            joint_name = command['joint']
            trajectory_goal.trajectory.joint_names = [joint_name]

            # Extract the increment type from the command dictionary
            inc = command['inc']
            self.get_logger().info('inc = {0}'.format(inc))
            new_value = inc

            # Assign the new_value position to the trajectory goal message type
            point.positions = [new_value]
            trajectory_goal.trajectory.points = [point]
            trajectory_goal.trajectory.header.stamp = self.get_clock().now().to_msg()
            self.get_logger().info('joint_name = {0}, trajectory_goal = {1}'.format(joint_name, trajectory_goal))

            # Make the action call and send goal of the new joint position
            self.trajectory_client.send_goal(trajectory_goal)
            self.get_logger().info('Done sending command.')

            # Reprint the voice command menu
            self.speech.print_commands()

    def timer_get_command(self):
        # Get voice command
            command = self.speech.get_command()

            # Send voice command for joint trajectory goals
            self.send_command(command)
    def main(self):
        self.create_subscription(JointState, '/stretch/joint_states', self.joint_states_callback, 1)
        rate = self.create_rate(self.rate)
        self.speech.print_commands()
            
        self.sleep = self.create_timer(1/self.rate, self.timer_get_command)

def main(args=None):
    try:
        #rclpy.init(args=args)
        node = VoiceTeleopNode()
        node.main()
        node.new_thread.join()
    except KeyboardInterrupt:
        node.get_logger().info('interrupt received, so shutting down')
        node.destroy_node()
        rclpy.shutdown()
    
if __name__ == '__main__':
    main()

The Code Explained

This code is similar to that of the multipoint_command and joint_state_printer node. Therefore, this example will highlight sections that are different from those tutorials. Now let's break the code down.

#!/usr/bin/env python3

Every Python ROS Node will have this declaration at the top. The first line makes sure your script is executed as a Python script.

import math
import rclpy
import sys
from rclpy.duration import Duration
from sensor_msgs.msg import JointState
from std_msgs.msg import Int32
from control_msgs.action import FollowJointTrajectory
from trajectory_msgs.msg import JointTrajectoryPoint
import hello_helpers.hello_misc as hm
from speech_recognition_msgs.msg import SpeechRecognitionCandidates

You need to import rclpy if you are writing a ROS Node. Import the FollowJointTrajectory from the control_msgs.action package to control the Stretch robot. Import JointTrajectoryPoint from the trajectory_msgs package to define robot trajectories. The hello_helpers package consists of a module that provides various Python scripts used across stretch_ros. In this instance, we are importing the hello_misc script. Import sensor_msgs.msg so that we can subscribe to JointState messages.

class GetVoiceCommands:

Create a class that subscribes to the speech-to-text recognition messages, prints a voice command menu, and defines step size for translational and rotational mobile base motion.

self.node = node
self.step_size = 'medium'
self.rad_per_deg = math.pi/180.0

Set the default step size as medium and create a float value, self.rad_per_deg, to convert degrees to radians.

self.small_deg = 5.0
self.small_rad = self.rad_per_deg * self.small_deg
self.small_translate = 0.025

self.medium_deg = 10.0
self.medium_rad = self.rad_per_deg * self.medium_deg
self.medium_translate = 0.05

self.big_deg = 20.0
self.big_rad = self.rad_per_deg * self.big_deg
self.big_translate = 0.1

Define the three rotation and translation step sizes.

self.voice_command = None
self.sound_direction = 0
self.speech_to_text_sub = self.node.create_subscription(SpeechRecognitionCandidates, "/speech_to_text", self.callback_speech, 1)
self.sound_direction_sub = self.node.create_subscription(Int32, "/sound_direction", self.callback_direction, 1)

Initialize the voice command and sound direction to values that will not result in moving the base.

Set up two subscribers. The first one subscribes to the topic /speech_to_text, looking for SpeechRecognitionCandidates messages. When a message comes in, ROS is going to pass it to the function callback_speech automatically. The second subscribes to /sound_direction message and passes it to the callback_direction function.

def callback_direction(self, msg):
    self.sound_direction = msg.data * -self.rad_per_deg

The callback_direction function converts the sound_direction topic from degrees to radians.

if self.step_size == 'small':
    inc = {'rad': self.small_rad, 'translate': self.small_translate}
if self.step_size == 'medium':
    inc = {'rad': self.medium_rad, 'translate': self.medium_translate}
if self.step_size == 'big':
    inc = {'rad': self.big_rad, 'translate': self.big_translate}
return inc

The callback_speech stores the increment size for translational and rotational base motion in inc. The increment size is contingent on the self.step_size string value.

command = None
if self.voice_command == 'forward':
    command = {'joint': 'translate_mobile_base', 'inc': self.get_inc()['translate']}
if self.voice_command == 'back':
    command = {'joint': 'translate_mobile_base', 'inc': -self.get_inc()['translate']}
if self.voice_command == 'left':
    command = {'joint': 'rotate_mobile_base', 'inc': self.get_inc()['rad']}
if self.voice_command == 'right':
    command = {'joint': 'rotate_mobile_base', 'inc': -self.get_inc()['rad']}
if self.voice_command == 'stretch':
    command = {'joint': 'rotate_mobile_base', 'inc': self.sound_direction}

In the get_command() function, the command is initialized as None, or set as a dictionary where the joint and inc values are stored. The command message type is dependent on the self.voice_command string value.

if (self.voice_command == "small") or (self.voice_command == "medium") or (self.voice_command == "big"):
    self.step_size = self.voice_command
    self.node.get_logger().info('Step size = {0}'.format(self.step_size))

Based on the self.voice_command value set the step size for the increments.

if self.voice_command == 'quit':
    self.node.get_logger().info("done")
    sys.exit(0)

If the self.voice_command is equal to quit, then initiate a clean shutdown of ROS and exit the Python interpreter.

class VoiceTeleopNode(hm.HelloNode):
    def __init__(self):
        hm.HelloNode.__init__(self)
        self.rate = 10.0
        self.joint_state = None
        hm.HelloNode.main(self, 'voice_teleop', 'voice_teleop', wait_for_first_pointcloud=False)
        self.speech = GetVoiceCommands(self)

A class that inherits the HelloNode class from hm declares object from the GetVoiceCommands class and sends joint trajectory commands. The main function instantiates the HelloNode class.

def send_command(self, command):
    joint_state = self.joint_state
    if (joint_state is not None) and (command is not None):
        point = JointTrajectoryPoint()
        point.time_from_start = Duration(seconds=0).to_msg()

The send_command function stores the joint state message and uses a conditional statement to send joint trajectory goals. Also, assign point as a JointTrajectoryPoint message type.

trajectory_goal = FollowJointTrajectory.Goal()
trajectory_goal.goal_time_tolerance = Duration(seconds=0).to_msg()

Assign trajectory_goal as a FollowJointTrajectory.Goal message type.

joint_name = command['joint']
trajectory_goal.trajectory.joint_names = [joint_name]

Extract the joint name from the command dictionary.

inc = command['inc']
self.get_logger().info('inc = {0}'.format(inc))
new_value = inc

Extract the increment type from the command dictionary.

point.positions = [new_value]
trajectory_goal.trajectory.points = [point]

Assign the new value position to the trajectory goal message type.

self.trajectory_client.send_goal(trajectory_goal)
self.get_logger().info('Done sending command.')

Make the action call and send the goal of the new joint position.

self.speech.print_commands()

Reprint the voice command menu after the trajectory goal is sent.

def main(self):
      self.create_subscription(JointState, '/stretch/joint_states', self.joint_states_callback, 1)
      rate = self.create_rate(self.rate)
      self.speech.print_commands()

The main function initializes the subscriber and we are going to use the publishing rate that we set before.

try:
    #rclpy.init(args=args)
    node = VoiceTeleopNode()
    node.main()
    node.new_thread.join()
except KeyboardInterrupt:
    node.get_logger().info('interrupt received, so shutting down')
    node.destroy_node()
    rclpy.shutdown()

Declare a VoiceTeleopNode object. Then execute the main() method.