[Documentation] [TitleIndex] [WordIndex

Authors

Felix Kaser <kaserf@in.tum.de>

Source

You can find the sourcecode on github: https://github.com/kaserf/rosdashboard. The wiki is currently being migrated from https://github.com/kaserf/rosdashboard/wiki.

Installation Guide

rosdashboard/installation

Overview

dashboard_screenshot.png

ROS Dashboard is a graphical tool to allow you easy debugging and monitoring of your robot. It is designed to give you all the flexibility to extend the tool however you want to fit your scenario best.

The dashboard can be populated with widgets which can be hooked up with ROS topics. It allows you to have a simple visual representation of the data you pipeline through ROS topics. The original idea for the project was to use it for debugging. Having a visual representation of the data can help you to find bugs faster. The design allows you to easily modify your dashboard if you have new data coming in.

The API allows you to publish data easily in your code. It is designed to be as easy to use as printf statements but with the addition to have type information for the data so that we can visualize the data in a better way than just a stream of text running down your console.

Related Tools

If you need more sophisticated visualization of your data there is RViz, which can visualize point clouds and other 3d data in a virtual environment. For datastream analysis there is rxplot, which draws a 2d plot of the data of a specific topic. ROS Dashboard lives somewhere in between, visualizing the data as you would like it to be visualized.

API

For an up to date version of the API please have a look at src/rosdashboard/api.py

The API is just a simple wrapper to allow one-line publishing of data in your source code. Internally we create a rospy.Publisher() and publish the data to the topic "/rosdashboard/TAG", with TAG being the first argument in one of the log calls of the API.

Current API

Examples

Imagine you are working on an algorithm to develop a line follower robot, where you have all the raw data from sensors and try to compute whether your robot should go straight, left or right. If you have some errors in your computation you will most likely end up printing the input values and some intermediary results to the console and trying to find out where your computation fails. With ROS Dashboard you can hook up your data streams to graphical widgets and get a more natural representation of the data (e.g. a horizontal bar telling you whether the robot wants to turn left, right or go straight).

Next steps

For more, see https://github.com/kaserf/rosdashboard/issues.

Contributing

If you want to help, just fork the code from github and file pull requests. Any help is highly appreciated, if it is documentation or features or bugfixes.

I've created rosdashboard/feedback where you can leave comments and discuss. I would love to get as much feedback as possible and improve the tool further.


2024-12-07 18:16