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Robot-Centric Elevation Mapping

[!NOTE] Elevation Mapping is no longer actively maintained.

Overview

This is a ROS package developed for elevation mapping with a mobile robot. The software is designed for (local) navigation tasks with robots which are equipped with a pose estimation (e.g. IMU & odometry) and a distance sensor (e.g. structured light (Kinect, RealSense), laser range sensor, stereo camera). The provided elevation map is limited around the robot and reflects the pose uncertainty that is aggregated through the motion of the robot (robot-centric mapping). This method is developed to explicitly handle drift of the robot pose estimation.

This is research code, expect that it changes often and any fitness for a particular purpose is disclaimed.

The source code is released under a BSD 3-Clause license.

Author: Péter Fankhauser<br /> Co-Author: Maximilian Wulf<br /> Affiliation: ANYbotics<br /> Maintainer: Maximilian Wulf, mwulf@anybotics.com, Magnus Gärtner, mgaertner@anybotics.com<br />

This projected was initially developed at ETH Zurich (Autonomous Systems Lab & Robotic Systems Lab).

This work is conducted as part of ANYmal Research, a community to advance legged robotics.

<img alt="Elevation Map Example" src="elevation_mapping_demos/doc/elevation_map.jpg" width="700">

Videos of the elevation mapping software in use:

<a alt="StarlETH Kinect elevation mapping" href="https://www.youtube.com/watch?v=I9eP8GrMyNQ"><img src="elevation_mapping_demos/doc/starleth_kinect.jpg" align="left" width="180" ></a> <a alt="ANYmal outdoor terrain mapping" href="https://www.youtube.com/watch?v=iVMsQPTM65M"><img src="elevation_mapping_demos/doc/anymal_forrest.jpg" align="left" width="180" ></a> <a alt="ANYmal rough-terrain locomotion planner" href="https://www.youtube.com/watch?v=CpzQu25iLa0"><img src="elevation_mapping_demos/doc/anymal_locomotion_planner.jpg" align="left" width="180" ></a> <a alt="ANYmal outdoor stair climbing" href="https://www.youtube.com/watch?v=vSveQrJLRTo"><img src="elevation_mapping_demos/doc/anymal_outdoor_stairs.jpg" width="180" ></a>

Citing

The robot-centric elevation mapping methods used in this software are described in the following paper (available here). If you use this work in an academic context, please cite the following publication(s):

Installation

Dependencies

This software is built on the Robotic Operating System (ROS), which needs to be installed first. Additionally, the Robot-Centric Elevation Mapping depends on following software:

Building

In order to install the Robot-Centric Elevation Mapping, clone the latest version from this repository into your catkin workspace and compile the package using ROS.

cd catkin_workspace/src
git clone https://github.com/anybotics/elevation_mapping.git
cd ../
catkin config --cmake-args -DCMAKE_BUILD_TYPE=Release
catkin build

Unit Tests

Build tests with

roscd elevation_mapping
catkin build --catkin-make-args run_tests -- --this

Run the tests with

 rostest elevation_mapping elevation_mapping.test -t

Basic Usage

In order to get the Robot-Centric Elevation Mapping to run with your robot, you will need to adapt a few parameters. It is the easiest if duplicate and adapt all the parameter files that you need to change from the elevation_mapping_demos package (e.g. the simple_demo example). These are specifically the parameter files in config and the launch file from the launch folder.

TurtleBot3 Waffle Simulation

A running example is provided, making use of the Turtlebot3 simulation environment. This example can be used to test elevation mapping, as a starting point for further integration.

To start with, the Turtlebot3 simulation dependencies need to be installed:

sudo apt install ros-melodic-turtlebot3*

The elevation mapping demo together with the turtlebot3 simulation can be started with

roslaunch elevation_mapping_demos turtlesim3_waffle_demo.launch

To control the robot with a keyboard, a new terminal window needs to be opened (remember to source your ROS environment). Then run

export TURTLEBOT3_MODEL=waffle
roslaunch turtlebot3_teleop turtlebot3_teleop_key.launch

Velocity inputs can be sent to the robot by pressing the keys a, w,d, x. To stop the robot completely, press s.

Simple Demo & Ground Truth Demo

A .ply is published as static pointcloud, elevation_mapping subscribes to it and publishes the elevation map. You can visualize it through rviz. For visualization, select /elevation_mapping/elevation_map_raw.

Note. You might need to toggle the visibility of the grid_map_plugin to visualize it.

roslaunch elevation_mapping_demos ground_truth_demo.launch

While ground truth demo estimates the height in map frame, simple demo sets up a more realistic deployment scenario. Here, the elevation_map is configured to track a base frame. To get started, we suggest to play around and also visualize other published topics, such as /elevation_mapping/elevation_map_raw and change the height layer to another layer, e.g elevation_inpainted.

Nodes

Node: elevation_mapping

This is the main Robot-Centric Elevation Mapping node. It uses the distance sensor measurements and the pose and covariance of the robot to generate an elevation map with variance estimates.

Subscribed Topics

Published Topics

Services

Parameters

Changelog

See Changelog

Bugs & Feature Requests

Please report bugs and request features using the Issue Tracker.