ROS Index
Repository Summary
| Description | ROS driver for Continental's 3D Flash Lidar |
| Checkout URI | https://github.com/continental/hfl_driver.git |
| VCS Type | git |
| VCS Version | ros1/main |
| Last Updated | 2021-03-18 |
| Dev Status | DEVELOPED |
| CI status | No Continuous Integration |
| Released | UNRELEASED |
| Tags | ros perception vision lidar automotive industry pointcloud |
| Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
| Name | Version |
|---|---|
| hfl_driver | 0.1.0 |
README
Continental’s HFL110 ROS Driver
This package was designed to be a Robotic Operating System (ROS) driver for Continental’s 3D Flash Lidar products.
Supported platforms/releases: | Platform | ROS Release | | ———————————————————- | ————————————————————– | | Ubuntu 16.04 Bionic | ROS Kinetic | | Ubuntu 18.04 Bionic | ROS Melodic | | Ubuntu 20.04 Bionic | ROS Noetic |
License: BSD Two Clause License
Please review the source code documentation for more details on how the project is structured.
Quickstart
Install like any other ROS package:
sudo apt install ros-<ros-distro>-hfl-driver
Note: there may be a delay from when new code is available in this repository to when it will become available via apt.
Install from source
First, make sure your system is supported and already has ROS installed (see table above)
Go ahead and clone this repository into your catkin_ws.
# url
git clone https://github.com/continental/hfl_driver.git
# ssh
git clone git@github.com:continental/hfl_driver.git
Read up on catkin_ws by following this tutorial.
From your catkin_ws directory, use rosdep to install dependencies rosdep install hfl_driver:
rosdep install hfl_driver
Within your catkin_ws directory, go ahead and compile the code:
catkin_make
# with tests
catkin_make run_tests
After a successful compile, add the new HFL ROS packages to your environment:
echo "source <path/to/your/catkin_ws>/devel/setup.bash" >> ~/.bashrc
source ~/.bashrc
In two separate terminals, run the following commands.
Terminal 1:
roscore
Terminal 2:
roslaunch hfl_driver hfl110dcu.launch
Parameters for hfl_driver launch file
| Parameter | Description | Default Values |
|---|---|---|
| camera_model | HFL Model to launch | hfl110dcu |
| camera_version | HFL Firmware version | v1 |
| camera_ip_address | HFL IP address (IPv4) | 192.168.10.21 |
| frame_data_port | HFL PCA Port | 57410 |
| computer_ip_address | Computer IPv4 Address | 192.168.10.5 |
TIP: check a launch files arguments before calling roslaunch to confirm you are passing the correct parameters.
TIP: If you cannot connect to the sensor, use wireshark or another network tool to see if you are receiving packets.
Be sure to check the documentation website for more information.
CPP static code analysis
ROS also comes with static code analysis support, therefore in order to run it for the hfl_driver package, type:
catkin_make run_tests roslint_hfl_driver
This will output the errors and warnings on console. If more info is required see this.
Authors
Many have contributed to this project beyond just the people listed here. Thank you to those who have answered any questions, emails or supported the project in other ways. Without you none of this would have been possible.
- Gerardo Bravo
- Evan Flynn
CONTRIBUTING
Any contribution that you make to this repository will be under the BSD 2-Clause Simplified License, as dictated by that license.
Repository Summary
| Description | ROS driver for Continental's 3D Flash Lidar |
| Checkout URI | https://github.com/continental/hfl_driver.git |
| VCS Type | git |
| VCS Version | ros1/main |
| Last Updated | 2021-03-18 |
| Dev Status | DEVELOPED |
| CI status | No Continuous Integration |
| Released | RELEASED |
| Tags | ros perception vision lidar automotive industry pointcloud |
| Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
| Name | Version |
|---|---|
| hfl_driver | 0.1.0 |
README
Continental’s HFL110 ROS Driver
This package was designed to be a Robotic Operating System (ROS) driver for Continental’s 3D Flash Lidar products.
Supported platforms/releases: | Platform | ROS Release | | ———————————————————- | ————————————————————– | | Ubuntu 16.04 Bionic | ROS Kinetic | | Ubuntu 18.04 Bionic | ROS Melodic | | Ubuntu 20.04 Bionic | ROS Noetic |
License: BSD Two Clause License
Please review the source code documentation for more details on how the project is structured.
Quickstart
Install like any other ROS package:
sudo apt install ros-<ros-distro>-hfl-driver
Note: there may be a delay from when new code is available in this repository to when it will become available via apt.
Install from source
First, make sure your system is supported and already has ROS installed (see table above)
Go ahead and clone this repository into your catkin_ws.
# url
git clone https://github.com/continental/hfl_driver.git
# ssh
git clone git@github.com:continental/hfl_driver.git
Read up on catkin_ws by following this tutorial.
From your catkin_ws directory, use rosdep to install dependencies rosdep install hfl_driver:
rosdep install hfl_driver
Within your catkin_ws directory, go ahead and compile the code:
catkin_make
# with tests
catkin_make run_tests
After a successful compile, add the new HFL ROS packages to your environment:
echo "source <path/to/your/catkin_ws>/devel/setup.bash" >> ~/.bashrc
source ~/.bashrc
In two separate terminals, run the following commands.
Terminal 1:
roscore
Terminal 2:
roslaunch hfl_driver hfl110dcu.launch
Parameters for hfl_driver launch file
| Parameter | Description | Default Values |
|---|---|---|
| camera_model | HFL Model to launch | hfl110dcu |
| camera_version | HFL Firmware version | v1 |
| camera_ip_address | HFL IP address (IPv4) | 192.168.10.21 |
| frame_data_port | HFL PCA Port | 57410 |
| computer_ip_address | Computer IPv4 Address | 192.168.10.5 |
TIP: check a launch files arguments before calling roslaunch to confirm you are passing the correct parameters.
TIP: If you cannot connect to the sensor, use wireshark or another network tool to see if you are receiving packets.
Be sure to check the documentation website for more information.
CPP static code analysis
ROS also comes with static code analysis support, therefore in order to run it for the hfl_driver package, type:
catkin_make run_tests roslint_hfl_driver
This will output the errors and warnings on console. If more info is required see this.
Authors
Many have contributed to this project beyond just the people listed here. Thank you to those who have answered any questions, emails or supported the project in other ways. Without you none of this would have been possible.
- Gerardo Bravo
- Evan Flynn
CONTRIBUTING
Any contribution that you make to this repository will be under the BSD 2-Clause Simplified License, as dictated by that license.
Repository Summary
| Description | ROS driver for Continental's 3D Flash Lidar |
| Checkout URI | https://github.com/continental/hfl_driver.git |
| VCS Type | git |
| VCS Version | ros1/main |
| Last Updated | 2021-03-18 |
| Dev Status | DEVELOPED |
| CI status | No Continuous Integration |
| Released | RELEASED |
| Tags | ros perception vision lidar automotive industry pointcloud |
| Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
| Name | Version |
|---|---|
| hfl_driver | 0.1.0 |
README
Continental’s HFL110 ROS Driver
This package was designed to be a Robotic Operating System (ROS) driver for Continental’s 3D Flash Lidar products.
Supported platforms/releases: | Platform | ROS Release | | ———————————————————- | ————————————————————– | | Ubuntu 16.04 Bionic | ROS Kinetic | | Ubuntu 18.04 Bionic | ROS Melodic | | Ubuntu 20.04 Bionic | ROS Noetic |
License: BSD Two Clause License
Please review the source code documentation for more details on how the project is structured.
Quickstart
Install like any other ROS package:
sudo apt install ros-<ros-distro>-hfl-driver
Note: there may be a delay from when new code is available in this repository to when it will become available via apt.
Install from source
First, make sure your system is supported and already has ROS installed (see table above)
Go ahead and clone this repository into your catkin_ws.
# url
git clone https://github.com/continental/hfl_driver.git
# ssh
git clone git@github.com:continental/hfl_driver.git
Read up on catkin_ws by following this tutorial.
From your catkin_ws directory, use rosdep to install dependencies rosdep install hfl_driver:
rosdep install hfl_driver
Within your catkin_ws directory, go ahead and compile the code:
catkin_make
# with tests
catkin_make run_tests
After a successful compile, add the new HFL ROS packages to your environment:
echo "source <path/to/your/catkin_ws>/devel/setup.bash" >> ~/.bashrc
source ~/.bashrc
In two separate terminals, run the following commands.
Terminal 1:
roscore
Terminal 2:
roslaunch hfl_driver hfl110dcu.launch
Parameters for hfl_driver launch file
| Parameter | Description | Default Values |
|---|---|---|
| camera_model | HFL Model to launch | hfl110dcu |
| camera_version | HFL Firmware version | v1 |
| camera_ip_address | HFL IP address (IPv4) | 192.168.10.21 |
| frame_data_port | HFL PCA Port | 57410 |
| computer_ip_address | Computer IPv4 Address | 192.168.10.5 |
TIP: check a launch files arguments before calling roslaunch to confirm you are passing the correct parameters.
TIP: If you cannot connect to the sensor, use wireshark or another network tool to see if you are receiving packets.
Be sure to check the documentation website for more information.
CPP static code analysis
ROS also comes with static code analysis support, therefore in order to run it for the hfl_driver package, type:
catkin_make run_tests roslint_hfl_driver
This will output the errors and warnings on console. If more info is required see this.
Authors
Many have contributed to this project beyond just the people listed here. Thank you to those who have answered any questions, emails or supported the project in other ways. Without you none of this would have been possible.
- Gerardo Bravo
- Evan Flynn
CONTRIBUTING
Any contribution that you make to this repository will be under the BSD 2-Clause Simplified License, as dictated by that license.