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Robot-Centric Elevation Mapping

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. kinect, 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.

The Robot-Centric Elevation Mapping packages have been tested under ROS Indigo and Ubuntu 14.04. This is research code, expect that it changes often and any fitness for a particular purpose is disclaimed.

Author: Péter Fankhauser, [email protected]
Affiliation: Autonomous Systems Lab, ETH Zurich

Citing

The robot-centric elevation mapping methods used in this software are described in the following paper (available here):

P. Fankhauser, M. Bloesch, C. Gehring, M. Hutter, and R. Siegwart, "Robot-Centric Elevation Mapping with Uncertainty Estimates", in International Conference on Climbing and Walking Robots (CLAWAR), 2014.

@inproceedings{Fankhauser2014RobotCentricElevationMapping,
  author = {Fankhauser, Péter and Bloesch, Michael and Gehring, Christian and Hutter, Marco and Siegwart, Roland},
  title = {Robot-Centric Elevation Mapping with Uncertainty Estimates},
  booktitle = {International Conference on Climbing and Walking Robots (CLAWAR)},
  year = {2014}
}

Here a videos of this software in use: StarlETH Kinect Elevation Mapping Outdoor Terrain Mapping with ANYmal

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/ethz-asl/elevation_mapping.git
cd ../
catkin_make

Unit Tests

Run the unit tests with

catkin_make run_tests_elevation_map_msg run_tests_elevation_mapping

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.

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

  • elevation_map (grid_map_msg/GridMap)

    The entire (fused) elevation map. It is published periodically (see fused_map_publishing_rate parameter) or after the trigger_fusion service is called.

  • elevation_map_raw (grid_map_msg/GridMap)

    The entire (raw) elevation map before the fusion step.

Services

  • trigger_fusion (std_srvs/Empty)

    Trigger the fusing process for the entire elevation map and publish it. For example, you can trigger the map fusion step from the console with

      rosservice call /elevation_mapping/trigger_fusion
    
  • get_submap (grid_map_msg/GetGridMap)

    Get a fused elevation submap for a requested position and size. For example, you can get the fused elevation submap at position (-0.5, 0.0) and size (0.5, 1.2) and safe it to a text file form the console with

      rosservice call -- /elevation_mapping/get_submap -0.5 0.0 0.5 1.2 []
    
  • clear_map (std_srvs/Empty)

    Initiates clearing of the entire map for resetting purposes. Trigger the map clearing with

      rosservice call /elevation_mapping/clear_map
    

Parameters

  • point_cloud_topic (string, default: "/points")

    The name of the distance measurements topic.

  • robot_pose_topic (string, default: "/robot_state/pose")

    The name of the robot pose and covariance topic.

  • base_frame_id (string, default: "/robot")

    The id of the robot base tf frame.

  • map_frame_id (string, default: "/map")

    The id of the tf frame of the elevation map.

  • track_point_frame_id (string, default: "/robot")

    The elevation map is moved along with the robot following a track point. This is the id of the tf frame in which the track point is defined.

  • track_point_x, track_point_y, track_point_z (double, default: 0.0, 0.0, 0.0)

    The elevation map is moved along with the robot following a track point. This is the position of the track point in the track_point_frame_id.

  • robot_pose_cache_size (int, default: 200, min: 0)

    The size of the robot pose cache.

  • min_update_rate (double, default: 2.0)

    The mininum update rate (in Hz) at which the elevation map is updated either from new measurements or the robot pose estimates.

  • fused_map_publishing_rate (double, default: 1.0)

    The rate for publishing the entire (fused) elevation map.

  • relocate_rate (double, default: 3.0)

    The rate (in Hz) at which the elevation map is checked for relocation following the tracking point.

  • length_in_x, length_in_y (double, default: 1.5, min: 0.0)

    The size (in m) of the elevation map.

  • position_x, position_y (double, default: 0.0)

    The position of the elevation map (center) in the elevation map frame.

  • resolution (double, default: 0.01, min: 0.0)

    The resolution (cell size in m/cell) of the elevation map.

  • min_variance, max_variance (double, default: 9.0e-6, 0.01)

    The minimum and maximum values for the elevation map variance data.

  • mahalanobis_distance_threshold (double, default: 2.5)

    The threshold for the Mahalanobis distance. Decides if measurements are fused with the existing data, overwritten or ignored.

  • multi_height_noise (double, default: 9.0e-7)

    Added noise for cell with multiple height measurements (e.g. walls).

  • min_horizontal_variance, max_horizontal_variance (double, default: pow(resolution / 2.0, 2), 0.5)

    The minimum and maximum values for the elevation map horizontal variance data.

  • sensor_cutoff_min_depth, sensor_cutoff_max_depth (double, default: 0.2, 2.0)

    The minimum and maximum values for the length of the distance sensor measurements. Measurements outside this interval are ignored.

  • sensor_model_normal_factor_a, sensor_model_normal_factor_b, sensor_model_normal_factor_c, sensor_model_lateral_factor (double)

    The data for the sensor noise model.

Bugs & Feature Requests

Please report bugs and request features using the Issue Tracker.