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sbg_driver package from sbg_driver repo

sbg_driver

Package Summary

Tags No category tags.
Version 3.2.0
License MIT
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/SBG-Systems/sbg_ros_driver.git
VCS Type git
VCS Version master
Last Updated 2024-10-09
Dev Status MAINTAINED
CI status Continuous Integration : 0 / 0
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

ROS driver package for communication with the SBG navigation systems.

Additional Links

Maintainers

  • SBG Systems

Authors

  • SBG Systems

sbg_driver

ROS driver package for SBG Systems IMU, AHRS and INS.
This driver package uses the sbgECom binary protocol to read data and configure SBG Systems devices.

Initial work has been done by ENSTA Bretagne.

Author: SBG Systems
Maintainer: SBG Systems
Contact: support@sbg-systems.com

Features

The driver supports the following features:

  • Configure ELLIPSE products using yaml files (see note below)
  • Parse IMU/AHRS/INS/GNSS using the sbgECom protocol
  • Publish standard ROS messages and more detailed specific SBG Systems topics
  • Subscribe and forward RTCM data to support DGPS/RTK mode with centimeters-level accuracy
  • Calibrate 2D/3D magnetic field using the on-board ELLIPSE algorithms

[!NOTE] Only ELLIPSE devices can be configured from the ROS driver. For High Performance INS such as EKINOX, APOGEE and QUANTA, please use the sbgInsRestApi

Installation

Installation from Packages

User can install the sbg_ros_driver through the standard ROS installation system.

  • Noetic sudo apt-get install ros-noetic-sbg-driver

Building from sources

Dependencies

Building

  1. Clone the repository (use a Release version)
cd catkin_ws/src
git clone -b master https://github.com/SBG-Systems/sbg_ros_driver.git

  1. Install dependencies
cd ..
rosdep install --from-paths src --ignore-src -r -y

  1. Build using the normal ROS catkin build system
source /opt/ros/${ROS_DISTRO}/setup.bash
catkin_make

Usage

Source the generated setup environment

source devel/setup.bash

To run the default Ros node with the default configuration

roslaunch sbg_driver sbg_device.launch

To run the magnetic calibration node

roslaunch sbg_driver sbg_device_mag_calibration.launch

Config files

Default config files

Every configuration file is defined according to the same structure.

  • sbg_device_uart_default.yaml This config file is the default one for UART connection with the device.
    It does not configure the device through the ROS node, so it has to be previously configured (manually or with the ROS node).
    It defines a few outputs for the device:
    • /sbg/imu_data, /sbg/ekf_quat at 25Hz
    • ROS standard outputs /imu/data, /imu/velocity, /imu/temp at 25Hz
    • /sbg/status, /sbg/utc_time and /imu/utc_ref at 1Hz.
  • sbg_device_udp_default.yaml This config file is the default one for an Udp connection with the device.
    It does not configure the device through the ROS node, so it has to be previously configured (manually or with the ROS node).
    It defines a few outputs for the device:
    • /sbg/imu_data, /sbg/ekf_quat at 25Hz
    • ROS standard outputs /imu/data, /imu/velocity, /imu/temp at 25Hz
    • /sbg/status, /sbg/utc_time and /imu/utc_ref at 1Hz.

Example config files

  • ellipse_A_default.yaml Default config file for an Ellipse-A.

  • ellipse_E_default.yaml Default config file for an Ellipse-E with an external NMEA GNSS.

  • ellipse_N_default.yaml Default config file for an Ellipse-N using internal GNSS.

  • ellipse_D_default.yaml Default config file for an Ellipse-D using internal GNSS.

Launch files

Default launch files

  • sbg_device_launch.py Launch the sbg_device node to handle the received data, and load the sbg_device_uart_default.yaml configuration.

  • sbg_device_mag_calibration_launch.py Launch the sbg_device_mag node to calibrate the magnetometers, and load the ellipse_E_default.yaml configuration.

Nodes

sbg_device node

The sbg_device node handles the communication with the connected device, publishes the SBG output to the ROS environment and subscribes to useful topics such as RTCM data streams.

Published Topics

SBG Systems specific topics

SBG Systems has defined proprietary ROS messages to report more detailed information from the AHRS/INS.
These messages try to match as much as possible the sbgECom logs as they are output by the device.

ROS standard topics

[!NOTE] Please update the driver configuration to enable standard ROS messages publication output.ros_standard. Also, the driver only publish standard ROS messages if the driver is setup to use ENU frame convention output.use_enu.

In order to define ROS standard topics, it requires sometimes several SBG messages, to be merged. For each ROS standard, you have to activate the needed SBG outputs.

NMEA topics

The driver can publish NMEA GGA messages from the internal GNSS receiver. It can be used with third party NTRIP client modules to support VRS networks providers.

Disabled by default, set nmea.publish to true in .yaml config file to use this feature.

  • /ntrip_client/nmea nmea_msgs/Sentence

    Data from /sbg/gps_pos serialized into NMEA GGA format. Requires /sbg/gps_pos.
    Namespace ntrip_client and topic_name nmea can be customized in .yaml config files.

Subscribed Topics

RTCM topics

The sbg_device node can subscribe to RTCM topics published by third party ROS modules.
Incoming RTCM data are forwarded to the INS internal GNSS receiver to enable DGPS/RTK solutions.

Disabled by default, set rtcm.subscribe to true in .yaml config file to use this feature.

  • /ntrip_client/rtcm rtcm_msgs/Message

    RTCM data from /ntrip_client/rtcm will be forwarded to the internal INS GNSS receiver.
    Namespace ntrip_client and topic_name rtcm can be customized in .yaml config files.

sbg_device_mag node

The sbg_device_mag node is used to execute on board in-situ 2D or 3D magnetic field calibration.
If you are planning to use magnetic based heading, it is mandatory to perform a magnetic field calibration in a clean magnetic environnement.

Only ELLIPSE products support magnetic based heading and feature the on-board magnetic field calibration process.

Services

  • /sbg/mag_calibration std_srvs/Trigger

    Service to start/stop the magnetic calibration.

  • /sbg/mag_calibration_save std_srvs/Trigger

    Service to save in FLASH memory the latest computed magnetic field calibration.

HowTo

Configure the SBG device

The SBG Ros driver allows the user to configure the device before starting data parsing.
To do so, set the corresponding parameter in the used config file.

# Configuration of the device with ROS.
confWithRos: true

Then, modify the desired parameters in the config file, using the Firmware Reference Manual, to see which features are configurable, and which parameter values are available.

Configure for RTK/DGPS

The sbg_device node can subscribe to rtcm_msgs/Message topics to forward differential corrections to the INS internal GNSS receiver.

The RTCM data stream is sent through the serial/ethernet interface used by ROS to communicate with the INS.
This enables simple and efficient RTK operations without requiring additional hardware or wiring.

When combined with a third party NTRIP client, it offers a turnkey solution to access local VRS providers and get centimeter-level accuracy solutions.

The driver and the device should be properly setup:

  • Configure the INS to accept RTCM corrections on the interface used by the ROS driver:
    • For ELLIPSE, simply use the sbgCenter and in Assignment panel, RTCM should be set to Port A.
    • For High Performance INS, either use the configuration web interface or the sbgInsRestApi.
  • Install and configure a third party node that broadcast RTCM corrections such as a NTRIP client
  • Update the node config yaml file to set rtcm.subscribe and nmea.publish to true
  • If you use a different node to broadcast RTCM topics, you might have to update the config yaml file to update topics and namespaces.

Calibrate the magnetometers

ELLIPSE products can use magnetometers to determine the heading. A calibration is then required to compensate for soft and hard iron distortions due to the vehicle the product is installed on. The magnetic calibration procedure should be held in a clean magnetic environnement (outside of buildings).

You can read more information about magnetic field calibration procedure from the SBG Systems Support Center.

The ROS driver provides a dedicated node to easily use ELLIPSE on board magnetic field calibration algorithms.
The ELLIPSE offers both a 2D and 3D magnetic field calibration mode.

1) Make sure you have selected the desired 2D or 3D magnetic field calibration mode (calibration.mode in the configuration yaml file). 2) Start a new magnetic calibration session once you are ready to map the magnetic field:

roslaunch sbg_driver sbg_device_mag_calibration.launch
rosservice call /sbg/mag_calibration

success: True
message: “Magnetometer calibration process started.”

3) Rotate as much as possible the unit to map the surrounding magnetic field (ideally, perform a 360° with X then Y then Z axis pointing downward). 4) Once you believe you have covered enough orientations, compute a magnetic field calibration:

rosservice call /sbg/mag_calibration

success: True
message: “Magnetometer calibration is finished. See the output console to get calibration information.”

5) If you are happy with the results (Quality, Confidence), apply and save the new magnetic calibration parameters.
If not, you can continue to rotate the product and try to perform a new computation (and repeat step 4)

rosservice call /sbg/mag_calibration_save

success: True
message: “Magnetometer calibration has been uploaded to the device.”

6) Reset/Power Cycle the device and you should now get an accurate magnetic based heading.

Enable communication with the SBG device

To be able to communicate with the device, be sure that your user is part of the dialout group.
Once added, restart your machine to save and apply the changes.

sudo adduser $USER dialout

Create udev rules

Udev rules can be defined for communication port, in order to avoid modifying the port in configuration if it has changed. Udev documentation

A symlink can be configured and defined to uniquely identify the connected device.
Once it is done, configuration file could be updated portName: "/dev/sbg".

See the docs folder, to see an example of rules with the corresponding screenshot using the udev functions.

Time source & reference

ROS uses an internal system time to time stamp messages. This time stamp is generally gathered when the message is processed and published. As a result, the message is not time stamped accurately due to transmission and processing delays.

SBG Systems INS however provides a very accurate timing based on GNSS time if available. The following conditions have to be met to get absolute accurate timing information:

  • The ELLIPSE-N or D should have a connected GNSS antenna with internal GNSS enabled
  • The ELLIPSE-E should be connected to an external GNSS receiver with a PPS signal
  • A valid GNSS position has to be available to get UTC data
  • The ELLIPSE internal clock should be aligned to PPS signal (clock status)
  • The ELLIPSE should be setup to send SBG_ECOM_LOG_UTC message

You can select which time source to use with the parameter time_reference to time stamp messages published by this driver:

  • ros: The header.stamp member contains the current ROS system time when the message has been processed.
  • ins_unix: The header.stamp member contains an absolute and accurate time referenced to UNIX epoch (00:00:00 UTC on 1 January 1970)

Configuration example to use an absolute and accurate time reference to UNIX epoch:

# Time reference:
time_reference: "ins_unix"

Frame parameters & conventions

Frame ID

The frame_id of the header can be set with this parameter:

# Frame name
frame_id: "imu_link_ned"

Frame convention

The frame convention can be set to NED or ENU:

  • The NED convention is SBG Systems native convention so no transformation is applied
  • The ENU convention follows ROS standard REP-103

Please read the SBG Systems Support Center article for more details.

You can select the frame convention to use with the following parameter:

# Frame convention
use_enu: true

[!NOTE] The driver only publish standard ROS messages if the driver is setup to use ENU frame convention.

Body/Vehicle Frame:

The X axis should point the vehicle forward direction for both NED and ENU frame conventions. The table below summarizes the body/vehicle axis frame definitions for each convention:

NED Convention ENU Convention
X Forward X Forward
Y Right Y Left
Z Downward Z Upward

The navigation frame also referred by ROS as the cartesian representation is defined as follow:

NED Convention ENU Convention
X North X East
Y East Y North
Z Down Z Up

Heading Example:

Based on the definitions above, when using a NED frame, if the vehicle X axis is pointing North, the INS should return a zero heading. When using a ENU frame, the INS should return a zero heading when the vehicle X axis is pointing East.

Troubleshooting

If you experience higher latency than expected and have connected the IMU via an USB interface, you can enable the serial driver low latency mode:

/bin/setserial /dev/<device> low_latency

Contributing

Bugs and issues

Please report bugs and/or issues using the Issue Tracker

Features requests or additions

In order to contribute to the code, please use Pull requests to the devel branch.
If you have some feature requests, use the Issue Tracker as well.

CHANGELOG

Changelog for package sbg_driver

3.2.0 (2024-10-09)

  • Update README according to the latest changes
  • Backported changes from ROS2 driver
  • fix #70 build on Windows
  • remove unused var
  • update doc to build from sources
  • Perform proper name resolution to make name remapping more convenient Fixes #75.
  • Contributors: Michael Zemb, Richard Braun, Samuel Toledano, cledant

3.1.1 (2021-10-15)

  • fix missing dependencies and build status link
    • missing dep on nav_msgs, tf2_geometry_msgs, tf2_ros and tf2_msgs
    • fix build status link in readme
  • update doc with odometry message
  • Contributors: Michael Zemb

3.1.0 (2021-10-06)

  • Feature #44 - odometry output
  • fix #66 - status description for SbgGpsHdt msg
  • fix #66 - missing heading and pitch accuracies in sbgGpsHdt msg
  • add ellipse D default configuration
  • update README
  • Contributors: Michael Zemb

3.0.0 (2021-08-31)

  • Merge pull request #62 from SBG-Systems/devel Devel
  • Merge pull request #61 from SBG-Systems/fix-frame-convention Fix frame convention errors
  • Make sure only delta angles/velocities are used
    • syntax fixes
  • Improved comments & README file
  • Fix missing checks on UTC / Unix time computation
  • Updated sbgECom messages definitions
  • Update README.md and releasePackage.md
  • Clean up readme
  • Fix position accuracy
  • Replace pow by multiplication
  • Complete README.md
  • Fix bugs in message wrapper and complete message definitions
  • Fix Z GPS velocity
  • Fix frame convention errors
  • Merge pull request #59 from SBG-Systems/fix-frame-id Fix param name
  • Fix param name
  • Fix inconsistent tab and spaces usages. Now all files are using spaces
  • Add wrap 2PI
  • Fix bugs
  • Fix matrix accuracy
  • Fix course
  • wrapper: Fix ENU->NED for GPS messages
  • warpper: Change createrVector3 names
  • wrapper: Fix setter
  • wrapper: Fix missing ENU conversion an add comment for cov
  • wrapper: Fix regresion
  • coding style : Remove tables
  • publisher: Configure the wrapper before init the publisher
  • main: Fix loopFrequency type
  • config: Restore output configuration
  • config: Replace enu by use_enu
  • enu: Replace enu by use_enu and rename frame convertion function
  • frame_id: Change default value
  • clean up
  • #51 - Correctly fill convariances parameters
  • project: Update maintainer
  • config: Update parameters
  • #45-#50 - Add parameters to set frame ID and ENU convention
  • #48 - # 52 Add a parameter to select header stamp source and read ROS time when publishing the message
  • #47 Remove node ros::Rate period auto computation and only read it from a node parameter
  • clean up: Remove blank spaces
  • Merge pull request #35 from ShepelIlya/patch-1 Fixed time_stamp value initializing in SbgEkfNavMessage.
  • Added/updated license to MIT
  • Updated maintainer
  • Fixed timeStamp value initializing in SbgEkfNavMessage.
  • Contributors: Michael Zemb, Raphael Siryani, ShepelIlya, bsaussay, rsiryani

2.0.3 (2020-04-01)

  • Improve matrix handling
  • Fix body velocity computation (Issue #31)

2.0.1 (2020-01-24)

  • Improve vector handling
  • Fix include file (Issue #26)

2.0.0 (2020-01-06)

  • Fix integer type
  • Update sbgECom messages (AirData, ImuShort)
  • Update sbgECom library to 1.11.920-stable
  • Improve numeric type
  • Improve configuration applier
  • Improve error handling
  • Code improvement
  • Improve device configuration
  • Update changelog
  • Update and improve README.md
  • Update magnetic services
  • Improve message timestamping
  • Add some ROS standard sensor messages (Issue #17)
  • Comply file structure to ROS best pratices
  • Add a processing time to improve message handling
  • Add udev rules to documentation (Issue #21)
  • Improve magnetometers calibration
  • Update maintainer of the package (Issue #20)
  • Enable/Disable the configuration of the device (Issue #19)
  • Define unified class and launch files for all SBG devices
  • Define classes for device configuration
  • Merge pull request #18 from SBG-Systems/messagePublisherRework
  • Integrate new message publisher to the Ellipse class (Issue #15)
  • Define a class to publish messages
  • Define class to wrap SBG logs to Ros messages
  • Merge pull request #16 from SBG-Systems/v4.3
  • [src] Update SDK version + add LogE support
  • Merge pull request #13 from nicolaje/remove-non-ascii-char
  • [conf] Removed non-ASCII characters, (Issue #8)
  • [msg] Remove non ascii characters

1.1.7 (2018-07-19)

  • [src] Change SbgEkfEuler comments
  • [src] Move .h to include folder + test new method for time saving in calib

1.1.6 (2018-03-18)

  • [config, src] Update default port for gps aiding (Ellipse-E) + add save & reboot for mag calibration
  • [build] Add include for debian jessie arm64 build issue

1.1.5 (2018-03-12 23:49)

  • [src] Update mag calibration

1.1.4 (2018-03-12 23:10)

  • [catkin] Update install launch & config
  • [src] Update library + Correction bugs

1.1.3 (2018-03-12 11:46)

  • Update dependencies to std_srvs

1.1.2 (2018-03-12 09:54)

  • [ChangeLog] Remove
  • [ChangeLog] Update
  • [Changelog] Test
  • [test] Changelog
  • [Changelog] Update
  • [CMake] Correction of message dependency

1.1.1 (2018-03-11)

  • [xml] Update version number
  • [src] Correction of small bugs + add publisher only on activated log
  • [merge] Finalize merge from devel branch (master divergence issue)
  • [lib] Update the library sbgECom version after merging from devel
  • [Merge]
  • Merge branch 'master' of https://github.com/ENSTABretagneRobotics/sbg_ros_driver
  • [src] Update doc
  • [src] Update magnetic calibration node
  • Revert "1.0.7" This reverts commit 8f57f9e578937ac23383e39ebf616d1039384b09.
  • Update README
  • Merge pull request #2 from rpng/master Upgrade sbg_ros_driver
  • Moved the logging function into the class
  • Added - Start of heading code
  • Refactor and added new publishers
  • Increased rates
  • refactoring use a class for callbacks changed callbacks around a bit, now shows raw data rather than ekf logs
  • use gps log message for NavSatFix message
  • add extra debug messages
  • use private namespace
  • modified launch file moved to launch folder and added optional arguments
  • updated sbgECom library

1.1.0 (2018-03-10)

  • [src] Update Events
  • [src] Add params
  • [src] Update (add configuration of the ellipse)
  • [src] Update messages
  • [src] Start creating sbg messages

1.0.7 (2017-04-01)

  • [src][minor] Correct launch file

1.0.6 (2017-03-31)

  • CHANGELOG
  • [src] Add launch example
  • [src] Change imu data & add gyroscopes

1.0.5 (2016-11-17 00:04)

1.0.4 (2016-11-17 00:02)

1.0.3 (2016-11-16 23:59)

  • [src][minor] Correction of Project name in CmakeList

1.0.2 (2016-11-16 22:58)

  • [doc] minor
  • [doc] Update Package

1.0.1 (2016-11-16 22:30)

  • [doc] Update package version to 1.0.0
  • [doc] Add Changelog
  • [src] Update of deprecated function
  • [src] Update (correcting cmake sub project)
  • [src] Correct cmake subdirectory issue
  • Initial commit

Wiki Tutorials

This package does not provide any links to tutorials in it's rosindex metadata. You can check on the ROS Wiki Tutorials page for the package.

Recent questions tagged sbg_driver at Robotics Stack Exchange

sbg_driver package from sbg_driver repo

sbg_driver

Package Summary

Tags No category tags.
Version 3.2.0
License MIT
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/SBG-Systems/sbg_ros_driver.git
VCS Type git
VCS Version master
Last Updated 2024-10-09
Dev Status MAINTAINED
CI status Continuous Integration : 0 / 0
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

ROS driver package for communication with the SBG navigation systems.

Additional Links

Maintainers

  • SBG Systems

Authors

  • SBG Systems

sbg_driver

ROS driver package for SBG Systems IMU, AHRS and INS.
This driver package uses the sbgECom binary protocol to read data and configure SBG Systems devices.

Initial work has been done by ENSTA Bretagne.

Author: SBG Systems
Maintainer: SBG Systems
Contact: support@sbg-systems.com

Features

The driver supports the following features:

  • Configure ELLIPSE products using yaml files (see note below)
  • Parse IMU/AHRS/INS/GNSS using the sbgECom protocol
  • Publish standard ROS messages and more detailed specific SBG Systems topics
  • Subscribe and forward RTCM data to support DGPS/RTK mode with centimeters-level accuracy
  • Calibrate 2D/3D magnetic field using the on-board ELLIPSE algorithms

[!NOTE] Only ELLIPSE devices can be configured from the ROS driver. For High Performance INS such as EKINOX, APOGEE and QUANTA, please use the sbgInsRestApi

Installation

Installation from Packages

User can install the sbg_ros_driver through the standard ROS installation system.

  • Noetic sudo apt-get install ros-noetic-sbg-driver

Building from sources

Dependencies

Building

  1. Clone the repository (use a Release version)
cd catkin_ws/src
git clone -b master https://github.com/SBG-Systems/sbg_ros_driver.git

  1. Install dependencies
cd ..
rosdep install --from-paths src --ignore-src -r -y

  1. Build using the normal ROS catkin build system
source /opt/ros/${ROS_DISTRO}/setup.bash
catkin_make

Usage

Source the generated setup environment

source devel/setup.bash

To run the default Ros node with the default configuration

roslaunch sbg_driver sbg_device.launch

To run the magnetic calibration node

roslaunch sbg_driver sbg_device_mag_calibration.launch

Config files

Default config files

Every configuration file is defined according to the same structure.

  • sbg_device_uart_default.yaml This config file is the default one for UART connection with the device.
    It does not configure the device through the ROS node, so it has to be previously configured (manually or with the ROS node).
    It defines a few outputs for the device:
    • /sbg/imu_data, /sbg/ekf_quat at 25Hz
    • ROS standard outputs /imu/data, /imu/velocity, /imu/temp at 25Hz
    • /sbg/status, /sbg/utc_time and /imu/utc_ref at 1Hz.
  • sbg_device_udp_default.yaml This config file is the default one for an Udp connection with the device.
    It does not configure the device through the ROS node, so it has to be previously configured (manually or with the ROS node).
    It defines a few outputs for the device:
    • /sbg/imu_data, /sbg/ekf_quat at 25Hz
    • ROS standard outputs /imu/data, /imu/velocity, /imu/temp at 25Hz
    • /sbg/status, /sbg/utc_time and /imu/utc_ref at 1Hz.

Example config files

  • ellipse_A_default.yaml Default config file for an Ellipse-A.

  • ellipse_E_default.yaml Default config file for an Ellipse-E with an external NMEA GNSS.

  • ellipse_N_default.yaml Default config file for an Ellipse-N using internal GNSS.

  • ellipse_D_default.yaml Default config file for an Ellipse-D using internal GNSS.

Launch files

Default launch files

  • sbg_device_launch.py Launch the sbg_device node to handle the received data, and load the sbg_device_uart_default.yaml configuration.

  • sbg_device_mag_calibration_launch.py Launch the sbg_device_mag node to calibrate the magnetometers, and load the ellipse_E_default.yaml configuration.

Nodes

sbg_device node

The sbg_device node handles the communication with the connected device, publishes the SBG output to the ROS environment and subscribes to useful topics such as RTCM data streams.

Published Topics

SBG Systems specific topics

SBG Systems has defined proprietary ROS messages to report more detailed information from the AHRS/INS.
These messages try to match as much as possible the sbgECom logs as they are output by the device.

ROS standard topics

[!NOTE] Please update the driver configuration to enable standard ROS messages publication output.ros_standard. Also, the driver only publish standard ROS messages if the driver is setup to use ENU frame convention output.use_enu.

In order to define ROS standard topics, it requires sometimes several SBG messages, to be merged. For each ROS standard, you have to activate the needed SBG outputs.

NMEA topics

The driver can publish NMEA GGA messages from the internal GNSS receiver. It can be used with third party NTRIP client modules to support VRS networks providers.

Disabled by default, set nmea.publish to true in .yaml config file to use this feature.

  • /ntrip_client/nmea nmea_msgs/Sentence

    Data from /sbg/gps_pos serialized into NMEA GGA format. Requires /sbg/gps_pos.
    Namespace ntrip_client and topic_name nmea can be customized in .yaml config files.

Subscribed Topics

RTCM topics

The sbg_device node can subscribe to RTCM topics published by third party ROS modules.
Incoming RTCM data are forwarded to the INS internal GNSS receiver to enable DGPS/RTK solutions.

Disabled by default, set rtcm.subscribe to true in .yaml config file to use this feature.

  • /ntrip_client/rtcm rtcm_msgs/Message

    RTCM data from /ntrip_client/rtcm will be forwarded to the internal INS GNSS receiver.
    Namespace ntrip_client and topic_name rtcm can be customized in .yaml config files.

sbg_device_mag node

The sbg_device_mag node is used to execute on board in-situ 2D or 3D magnetic field calibration.
If you are planning to use magnetic based heading, it is mandatory to perform a magnetic field calibration in a clean magnetic environnement.

Only ELLIPSE products support magnetic based heading and feature the on-board magnetic field calibration process.

Services

  • /sbg/mag_calibration std_srvs/Trigger

    Service to start/stop the magnetic calibration.

  • /sbg/mag_calibration_save std_srvs/Trigger

    Service to save in FLASH memory the latest computed magnetic field calibration.

HowTo

Configure the SBG device

The SBG Ros driver allows the user to configure the device before starting data parsing.
To do so, set the corresponding parameter in the used config file.

# Configuration of the device with ROS.
confWithRos: true

Then, modify the desired parameters in the config file, using the Firmware Reference Manual, to see which features are configurable, and which parameter values are available.

Configure for RTK/DGPS

The sbg_device node can subscribe to rtcm_msgs/Message topics to forward differential corrections to the INS internal GNSS receiver.

The RTCM data stream is sent through the serial/ethernet interface used by ROS to communicate with the INS.
This enables simple and efficient RTK operations without requiring additional hardware or wiring.

When combined with a third party NTRIP client, it offers a turnkey solution to access local VRS providers and get centimeter-level accuracy solutions.

The driver and the device should be properly setup:

  • Configure the INS to accept RTCM corrections on the interface used by the ROS driver:
    • For ELLIPSE, simply use the sbgCenter and in Assignment panel, RTCM should be set to Port A.
    • For High Performance INS, either use the configuration web interface or the sbgInsRestApi.
  • Install and configure a third party node that broadcast RTCM corrections such as a NTRIP client
  • Update the node config yaml file to set rtcm.subscribe and nmea.publish to true
  • If you use a different node to broadcast RTCM topics, you might have to update the config yaml file to update topics and namespaces.

Calibrate the magnetometers

ELLIPSE products can use magnetometers to determine the heading. A calibration is then required to compensate for soft and hard iron distortions due to the vehicle the product is installed on. The magnetic calibration procedure should be held in a clean magnetic environnement (outside of buildings).

You can read more information about magnetic field calibration procedure from the SBG Systems Support Center.

The ROS driver provides a dedicated node to easily use ELLIPSE on board magnetic field calibration algorithms.
The ELLIPSE offers both a 2D and 3D magnetic field calibration mode.

1) Make sure you have selected the desired 2D or 3D magnetic field calibration mode (calibration.mode in the configuration yaml file). 2) Start a new magnetic calibration session once you are ready to map the magnetic field:

roslaunch sbg_driver sbg_device_mag_calibration.launch
rosservice call /sbg/mag_calibration

success: True
message: “Magnetometer calibration process started.”

3) Rotate as much as possible the unit to map the surrounding magnetic field (ideally, perform a 360° with X then Y then Z axis pointing downward). 4) Once you believe you have covered enough orientations, compute a magnetic field calibration:

rosservice call /sbg/mag_calibration

success: True
message: “Magnetometer calibration is finished. See the output console to get calibration information.”

5) If you are happy with the results (Quality, Confidence), apply and save the new magnetic calibration parameters.
If not, you can continue to rotate the product and try to perform a new computation (and repeat step 4)

rosservice call /sbg/mag_calibration_save

success: True
message: “Magnetometer calibration has been uploaded to the device.”

6) Reset/Power Cycle the device and you should now get an accurate magnetic based heading.

Enable communication with the SBG device

To be able to communicate with the device, be sure that your user is part of the dialout group.
Once added, restart your machine to save and apply the changes.

sudo adduser $USER dialout

Create udev rules

Udev rules can be defined for communication port, in order to avoid modifying the port in configuration if it has changed. Udev documentation

A symlink can be configured and defined to uniquely identify the connected device.
Once it is done, configuration file could be updated portName: "/dev/sbg".

See the docs folder, to see an example of rules with the corresponding screenshot using the udev functions.

Time source & reference

ROS uses an internal system time to time stamp messages. This time stamp is generally gathered when the message is processed and published. As a result, the message is not time stamped accurately due to transmission and processing delays.

SBG Systems INS however provides a very accurate timing based on GNSS time if available. The following conditions have to be met to get absolute accurate timing information:

  • The ELLIPSE-N or D should have a connected GNSS antenna with internal GNSS enabled
  • The ELLIPSE-E should be connected to an external GNSS receiver with a PPS signal
  • A valid GNSS position has to be available to get UTC data
  • The ELLIPSE internal clock should be aligned to PPS signal (clock status)
  • The ELLIPSE should be setup to send SBG_ECOM_LOG_UTC message

You can select which time source to use with the parameter time_reference to time stamp messages published by this driver:

  • ros: The header.stamp member contains the current ROS system time when the message has been processed.
  • ins_unix: The header.stamp member contains an absolute and accurate time referenced to UNIX epoch (00:00:00 UTC on 1 January 1970)

Configuration example to use an absolute and accurate time reference to UNIX epoch:

# Time reference:
time_reference: "ins_unix"

Frame parameters & conventions

Frame ID

The frame_id of the header can be set with this parameter:

# Frame name
frame_id: "imu_link_ned"

Frame convention

The frame convention can be set to NED or ENU:

  • The NED convention is SBG Systems native convention so no transformation is applied
  • The ENU convention follows ROS standard REP-103

Please read the SBG Systems Support Center article for more details.

You can select the frame convention to use with the following parameter:

# Frame convention
use_enu: true

[!NOTE] The driver only publish standard ROS messages if the driver is setup to use ENU frame convention.

Body/Vehicle Frame:

The X axis should point the vehicle forward direction for both NED and ENU frame conventions. The table below summarizes the body/vehicle axis frame definitions for each convention:

NED Convention ENU Convention
X Forward X Forward
Y Right Y Left
Z Downward Z Upward

The navigation frame also referred by ROS as the cartesian representation is defined as follow:

NED Convention ENU Convention
X North X East
Y East Y North
Z Down Z Up

Heading Example:

Based on the definitions above, when using a NED frame, if the vehicle X axis is pointing North, the INS should return a zero heading. When using a ENU frame, the INS should return a zero heading when the vehicle X axis is pointing East.

Troubleshooting

If you experience higher latency than expected and have connected the IMU via an USB interface, you can enable the serial driver low latency mode:

/bin/setserial /dev/<device> low_latency

Contributing

Bugs and issues

Please report bugs and/or issues using the Issue Tracker

Features requests or additions

In order to contribute to the code, please use Pull requests to the devel branch.
If you have some feature requests, use the Issue Tracker as well.

CHANGELOG

Changelog for package sbg_driver

3.2.0 (2024-10-09)

  • Update README according to the latest changes
  • Backported changes from ROS2 driver
  • fix #70 build on Windows
  • remove unused var
  • update doc to build from sources
  • Perform proper name resolution to make name remapping more convenient Fixes #75.
  • Contributors: Michael Zemb, Richard Braun, Samuel Toledano, cledant

3.1.1 (2021-10-15)

  • fix missing dependencies and build status link
    • missing dep on nav_msgs, tf2_geometry_msgs, tf2_ros and tf2_msgs
    • fix build status link in readme
  • update doc with odometry message
  • Contributors: Michael Zemb

3.1.0 (2021-10-06)

  • Feature #44 - odometry output
  • fix #66 - status description for SbgGpsHdt msg
  • fix #66 - missing heading and pitch accuracies in sbgGpsHdt msg
  • add ellipse D default configuration
  • update README
  • Contributors: Michael Zemb

3.0.0 (2021-08-31)

  • Merge pull request #62 from SBG-Systems/devel Devel
  • Merge pull request #61 from SBG-Systems/fix-frame-convention Fix frame convention errors
  • Make sure only delta angles/velocities are used
    • syntax fixes
  • Improved comments & README file
  • Fix missing checks on UTC / Unix time computation
  • Updated sbgECom messages definitions
  • Update README.md and releasePackage.md
  • Clean up readme
  • Fix position accuracy
  • Replace pow by multiplication
  • Complete README.md
  • Fix bugs in message wrapper and complete message definitions
  • Fix Z GPS velocity
  • Fix frame convention errors
  • Merge pull request #59 from SBG-Systems/fix-frame-id Fix param name
  • Fix param name
  • Fix inconsistent tab and spaces usages. Now all files are using spaces
  • Add wrap 2PI
  • Fix bugs
  • Fix matrix accuracy
  • Fix course
  • wrapper: Fix ENU->NED for GPS messages
  • warpper: Change createrVector3 names
  • wrapper: Fix setter
  • wrapper: Fix missing ENU conversion an add comment for cov
  • wrapper: Fix regresion
  • coding style : Remove tables
  • publisher: Configure the wrapper before init the publisher
  • main: Fix loopFrequency type
  • config: Restore output configuration
  • config: Replace enu by use_enu
  • enu: Replace enu by use_enu and rename frame convertion function
  • frame_id: Change default value
  • clean up
  • #51 - Correctly fill convariances parameters
  • project: Update maintainer
  • config: Update parameters
  • #45-#50 - Add parameters to set frame ID and ENU convention
  • #48 - # 52 Add a parameter to select header stamp source and read ROS time when publishing the message
  • #47 Remove node ros::Rate period auto computation and only read it from a node parameter
  • clean up: Remove blank spaces
  • Merge pull request #35 from ShepelIlya/patch-1 Fixed time_stamp value initializing in SbgEkfNavMessage.
  • Added/updated license to MIT
  • Updated maintainer
  • Fixed timeStamp value initializing in SbgEkfNavMessage.
  • Contributors: Michael Zemb, Raphael Siryani, ShepelIlya, bsaussay, rsiryani

2.0.3 (2020-04-01)

  • Improve matrix handling
  • Fix body velocity computation (Issue #31)

2.0.1 (2020-01-24)

  • Improve vector handling
  • Fix include file (Issue #26)

2.0.0 (2020-01-06)

  • Fix integer type
  • Update sbgECom messages (AirData, ImuShort)
  • Update sbgECom library to 1.11.920-stable
  • Improve numeric type
  • Improve configuration applier
  • Improve error handling
  • Code improvement
  • Improve device configuration
  • Update changelog
  • Update and improve README.md
  • Update magnetic services
  • Improve message timestamping
  • Add some ROS standard sensor messages (Issue #17)
  • Comply file structure to ROS best pratices
  • Add a processing time to improve message handling
  • Add udev rules to documentation (Issue #21)
  • Improve magnetometers calibration
  • Update maintainer of the package (Issue #20)
  • Enable/Disable the configuration of the device (Issue #19)
  • Define unified class and launch files for all SBG devices
  • Define classes for device configuration
  • Merge pull request #18 from SBG-Systems/messagePublisherRework
  • Integrate new message publisher to the Ellipse class (Issue #15)
  • Define a class to publish messages
  • Define class to wrap SBG logs to Ros messages
  • Merge pull request #16 from SBG-Systems/v4.3
  • [src] Update SDK version + add LogE support
  • Merge pull request #13 from nicolaje/remove-non-ascii-char
  • [conf] Removed non-ASCII characters, (Issue #8)
  • [msg] Remove non ascii characters

1.1.7 (2018-07-19)

  • [src] Change SbgEkfEuler comments
  • [src] Move .h to include folder + test new method for time saving in calib

1.1.6 (2018-03-18)

  • [config, src] Update default port for gps aiding (Ellipse-E) + add save & reboot for mag calibration
  • [build] Add include for debian jessie arm64 build issue

1.1.5 (2018-03-12 23:49)

  • [src] Update mag calibration

1.1.4 (2018-03-12 23:10)

  • [catkin] Update install launch & config
  • [src] Update library + Correction bugs

1.1.3 (2018-03-12 11:46)

  • Update dependencies to std_srvs

1.1.2 (2018-03-12 09:54)

  • [ChangeLog] Remove
  • [ChangeLog] Update
  • [Changelog] Test
  • [test] Changelog
  • [Changelog] Update
  • [CMake] Correction of message dependency

1.1.1 (2018-03-11)

  • [xml] Update version number
  • [src] Correction of small bugs + add publisher only on activated log
  • [merge] Finalize merge from devel branch (master divergence issue)
  • [lib] Update the library sbgECom version after merging from devel
  • [Merge]
  • Merge branch 'master' of https://github.com/ENSTABretagneRobotics/sbg_ros_driver
  • [src] Update doc
  • [src] Update magnetic calibration node
  • Revert "1.0.7" This reverts commit 8f57f9e578937ac23383e39ebf616d1039384b09.
  • Update README
  • Merge pull request #2 from rpng/master Upgrade sbg_ros_driver
  • Moved the logging function into the class
  • Added - Start of heading code
  • Refactor and added new publishers
  • Increased rates
  • refactoring use a class for callbacks changed callbacks around a bit, now shows raw data rather than ekf logs
  • use gps log message for NavSatFix message
  • add extra debug messages
  • use private namespace
  • modified launch file moved to launch folder and added optional arguments
  • updated sbgECom library

1.1.0 (2018-03-10)

  • [src] Update Events
  • [src] Add params
  • [src] Update (add configuration of the ellipse)
  • [src] Update messages
  • [src] Start creating sbg messages

1.0.7 (2017-04-01)

  • [src][minor] Correct launch file

1.0.6 (2017-03-31)

  • CHANGELOG
  • [src] Add launch example
  • [src] Change imu data & add gyroscopes

1.0.5 (2016-11-17 00:04)

1.0.4 (2016-11-17 00:02)

1.0.3 (2016-11-16 23:59)

  • [src][minor] Correction of Project name in CmakeList

1.0.2 (2016-11-16 22:58)

  • [doc] minor
  • [doc] Update Package

1.0.1 (2016-11-16 22:30)

  • [doc] Update package version to 1.0.0
  • [doc] Add Changelog
  • [src] Update of deprecated function
  • [src] Update (correcting cmake sub project)
  • [src] Correct cmake subdirectory issue
  • Initial commit

Wiki Tutorials

This package does not provide any links to tutorials in it's rosindex metadata. You can check on the ROS Wiki Tutorials page for the package.

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