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Understanding ROS Nodes

Description: This tutorial introduces ROS graph concepts and discusses the use of roscore, rosnode, and rosrun commandline tools.

Tutorial Level: BEGINNER

Next Tutorial: Understanding ROS topics

Prerequisites

For this tutorial we'll use a lighweight simulator, to install it run the following command:

$ sudo apt-get install ros-<distro>-ros-tutorials

Replace '<distro>' with the name of your ROS distribution (e.g. indigo, jade, kinetic, noetic)

Quick Overview of Graph Concepts

• Nodes: A node is an executable that uses ROS to communicate with other nodes.

• Messages: ROS data type used when subscribing or publishing to a topic.

• Topics: Nodes can publish messages to a topic as well as subscribe to a topic to receive messages.

• Master: Name service for ROS (i.e. helps nodes find each other)

• rosout: ROS equivalent of stdout/stderr

• roscore: Master + rosout + parameter server (parameter server will be introduced later)

Nodes

A node really isn't much more than an executable file within a ROS package. ROS nodes use a ROS client library to communicate with other nodes. Nodes can publish or subscribe to a Topic. Nodes can also provide or use a Service.

Client Libraries

ROS client libraries allow nodes written in different programming languages to communicate:

• rospy = python client library
• roscpp = c++ client library

roscore

roscore is the first thing you should run when using ROS.

Please run:

$ roscore

You will see something similar to:

• ... logging to ~/.ros/log/9cf88ce4-b14d-11df-8a75-00251148e8cf/roslaunch-machine_name-13039.log
  Checking log directory for disk usage. This may take awhile.
  Press Ctrl-C to interrupt
  Done checking log file disk usage. Usage is <1GB.
  
  started roslaunch server http://machine_name:33919/
  ros_comm version 1.4.7
  
  SUMMARY
  ======
  
  PARAMETERS
   * /rosversion
   * /rosdistro
  
  NODES
  
  auto-starting new master
  process[master]: started with pid [13054]
  ROS_MASTER_URI=http://machine_name:11311/
  
  setting /run_id to 9cf88ce4-b14d-11df-8a75-00251148e8cf
  process[rosout-1]: started with pid [13067]
  started core service [/rosout]

If roscore does not initialize, you probably have a network configuration issue. See Network Setup - Single Machine Configuration

If roscore does not initialize and sends a message about lack of permissions, probably the ~/.ros folder is owned by root, change recursively the ownership of that folder with:

$ sudo chown -R <your_username> ~/.ros

Using rosnode

Open up a new terminal, and let's use rosnode to see what running roscore did... Bear in mind to keep the previous terminal open either by opening a new tab or simply minimizing it.

rosnode displays information about the ROS nodes that are currently running. The rosnode list command lists these active nodes:

$ rosnode list

• You will see:

• /rosout

This showed us that there is only one node running: rosout. This is always running as it collects and logs nodes' debugging output.

The rosnode info command returns information about a specific node.

$ rosnode info /rosout

This gave us some more information about rosout, such as the fact that it publishes /rosout_agg.

• ------------------------------------------------------------------------
  Node [/rosout]
  Publications:
   * /rosout_agg [rosgraph_msgs/Log]
  
  Subscriptions:
   * /rosout [unknown type]
  
  Services:
   * /rosout/get_loggers
   * /rosout/set_logger_level
  
  contacting node http://machine_name:54614/ ...
  Pid: 5092

Now, let's see some more nodes. For this, we're going to use rosrun to bring up another node.

Using rosrun

rosrun allows you to use the package name to directly run a node within a package (without having to know the package path).

Usage:

$ rosrun [package_name] [node_name]

So now we can run the turtlesim_node in the turtlesim package.

Then, in a new terminal:

$ rosrun turtlesim turtlesim_node

You will see the turtlesim window:

• 

NOTE: The turtle may look different in your turtlesim window. Don't worry about it - there are many types of turtle and yours is a surprise!

In a new terminal:

$ rosnode list

You will see something similar to:

• /rosout
  /turtlesim

One powerful feature of ROS is that you can reassign Names from the command-line.

Close the turtlesim window to stop the node (or go back to the rosrun turtlesim terminal and use ctrl-C). Now let's re-run it, but this time use a Remapping Argument to change the node's name:

$ rosrun turtlesim turtlesim_node __name:=my_turtle

Now, if we go back and use rosnode list:

$ rosnode list

• You will see something similar to:

• /my_turtle
  /rosout

We see our new /my_turtle node. Let's use another rosnode command, ping, to test that it's up:

$ rosnode ping my_turtle

• rosnode: node is [/my_turtle]
  pinging /my_turtle with a timeout of 3.0s
  xmlrpc reply from http://aqy:42235/     time=1.152992ms
  xmlrpc reply from http://aqy:42235/     time=1.120090ms
  xmlrpc reply from http://aqy:42235/     time=1.700878ms
  xmlrpc reply from http://aqy:42235/     time=1.127958ms

Review

What was covered:

• roscore = ros+core : master (provides name service for ROS) + rosout (stdout/stderr) + parameter server (parameter server will be introduced later)
• rosnode = ros+node : ROS tool to get information about a node.
• rosrun = ros+run : runs a node from a given package.

Now that you understand how ROS nodes work, let's look at how ROS topics work. Also, feel free to press Ctrl-C to stop turtlesim_node.

Video Demonstration

Watch the video below to have more explanation on Python Nodes Communication and step by step guide .