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Notes
These notes were prepared in pre-version 1 and may no longer be relevant.
- Platform versions: ROS Melodic, Ubuntu 18, Gazebo 9
- Bosch UUV Simulator, https://roscon.ros.org/2018/presentations/ROSCon2018_uuvsimulator.pdf
- plume tracking
- Gazebo plugins and ROS modules
-
If installed from package for ros-kinetic,
roslaunch --files uuv_descriptions upload_rexrov.launch
shows:/opt/ros/melodic/share/uuv_assistants/launch/message_to_tf.launch /opt/ros/melodic/share/uuv_descriptions/launch/upload_rexrov_default.launch /opt/ros/melodic/share/uuv_descriptions/launch/upload_rexrov.launch
Rather than installing and using this package, build it from source under workspace
uuv_ws
. -
When installed from our
uuv_ws
workspace,roslaunch --files uuv_descriptions upload_rexrov.launch
shows:/home/bdallen/uuv_ws/src/uuv_simulator/uuv_descriptions/launch/upload_rexrov.launch /home/bdallen/uuv_ws/src/uuv_simulator/uuv_descriptions/launch/upload_rexrov_default.launch /home/bdallen/uuv_ws/src/uuv_simulator/uuv_assistants/launch/message_to_tf.launch
and
roslaunch --files uuv_gazebo_worlds ocean_waves.launch
shows:/opt/ros/melodic/share/gazebo_ros/launch/empty_world.launch /home/bdallen/uuv_ws/src/uuv_simulator/uuv_gazebo_worlds/launch/ocean_waves.launch /home/bdallen/uuv_ws/src/uuv_simulator/uuv_assistants/launch/publish_world_ned_frame.launch
In page uuv_simulator reference we launched the ocean waves world and spawned a UUV at coordinate(0,0,-20). Here we examine the .launch
files, .world
files, and other code that makes this happen. Later we explore additions to this to provide a target capability: Grasp a ceramic cup.
Launch file ocean_waves.launch
does this:
- Include Gazebo's
empty_world.launch
. - Include
uuv_assistants
filepublish_world_ned_frame.launch
. - Start node
publish_world_models
runningpublish_world_models.py
. - Optionally launch
uuv_assistants
fileset_simulation_timer.launch
.
On default, starts upload_rexrov_default.launch
with initial x,y,z,roll,pitch,yaw values.
This launch file, https://github.com/ros-simulation/gazebo_ros_pkgs/blob/jade-devel/gazebo_ros/launch/empty_world.launch, starts Gazebo, defining default parameters and opening /usr/share/gazebo-9/empty.world
:
<?xml version="1.0" ?>
<sdf version="1.5">
<world name="default">
<!-- A global light source -->
<include>
<uri>model://sun</uri>
</include>
<!-- A ground plane -->
<include>
<uri>model://ground_plane</uri>
</include>
</world>
</sdf>
which defines world "default" with light and ground.
For launch file syntax, see http://wiki.ros.org/roslaunch.
File ~/uuv_ws/src/uuv_simulator/uuv_assistants/templates/robot_model/urdf/sensors.xacro.template
identifies example sensors: GPS, Pose 3D sensor, forward-looking sonar, DVL, RPT, Pressure, IMU, camera. See ~/uuv_ws/src/uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/urdf/*.xacro
for more.
File ~/uuv_ws/src/uuv_simulator/uuv_descriptions/robots/rexrov_sonar.xacro
has xacro:forward_multibeam_sonar_m450_130
. It uses plugin name uuv_plugin
filename libuuv_underwater_object_ros_plugin.so
built from ~/uuv_ws/src/uuv_simulator/uuv_gazebo_plugins/uuv_gazebo_ros_plugins/src/UnderwaterObjectROSPlugin.cc
. It connects services for modeling underwater properties.
File ~/uuv_ws/src/uuv_simulator/uuv_sensor_plugins
has plugins, for example ~/uuv_ws/src/uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/include/uuv_sensor_ros_plugins/gazebo_ros_image_sonar.hh
, .cpp
. From CMakeLists.txt
this makes image_sonar_ros_plugin.so
. File image_sonar_ros_plugin.so
is referenced in ~/uuv_ws/src/uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/urdf/sonar_snippets.xacro
. File sonar_snippets.xacro
is referenced in ~/uuv_ws/src/uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/urdf/sensor_snippets.xacro
. File sensor_snippets.xacro
is included from the following:
~/uuv_ws/src/uuv_simulator/uuv_assistants/templates/robot_model/urdf/base.xacro.template
~/uuv_ws/src/uuv_simulator/uuv_descriptions/urdf/rexrov_base.xacro
~/uuv_ws/src/uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/urdf/sensor_snippets.xacro
~/uuv_ws/src/uuv_simulator/uuv_tutorials/uuv_tutorial_rov_model/urdf/rov_example_base.xacro
File rexrov_base.xacro
is included in several rexrov_*
files, including ~/uuv_ws/src/uuv_simulator/uuv_descriptions/robots/rexrov_oberon7.xacro
, which is included in the ~/uuv_ws/src/uuv_simulator/uuv_descriptions/launch/upload_rexrov_oberon7.launch
file which we are using, meaning that the image_sonar_ros_plugin
plugin is available in Gazebo.
A systematic approach to activating the UUV.
- Launch ocean waves and UUV oberon7
- Find topics
- Move something via a topic
Launch ocean_waves
roslaunch uuv_gazebo_worlds ocean_waves.launch
Using rosrun rqt_graph rqt_graph
we see nodes /publish_world_models
, /gazebo
, ,world_ned_frame_publisher
, and gazebo_gui
. Using rostopic list
we see some Gazebo topics and /hydrodynamics/current_velocity
.
Launch rexrov_oberon7
roslaunch uuv_descriptions upload_rexrov_oberon7.launch mode:=default x:=0 y:=0 z:=-20 namespace:=rexrov
In rqt_graph
, clicking Refresh, we see nodes /rexrov/ground_truth_to_tf_rexrov
and /rexrov/robot_state_publisher
. Topics between rexrov and Gazebo include /rexrov/pose_gt
, /tf
, /tf_static
, /rexrov/joint_states
.
Using rostopic list
we see many /rexrov/*
topics including various sensors and eight thrusters.
About the thrusters: Thruster 0 is at /rexrov/thrusters/0
and has these topics:
dynamic_state_efficiency
input
is_on
thrust
thrust_efficiency
thrust_wrench
See ~/uuv_ws/src/uuv_simulator/uuv_gazebo_plugins/uuv_gazebo_ros_plugins/src/ThrusterROSPlugin.cc
and ~/uuv_ws/src/uuv_simulator/uuv_gazebo_plugins/uuv_gazebo_plugins/src/ThrusterPlugin.cc
. From ThrusterPlugin.cc
thrust
is of type <msgs::Vector3d>
. From rostopic info /rexrov/thrusters/0/thrust
, it is of type uuv_gazebo_ros_plugins_msgs/FloatStamped
and is published by Gazebo. Topic input
is subscribed by Gazebo and is of type uuv_gazebo_ros_plugins_msgs/FloatStamped
.
Move the UUV by launching joy_accel.launch
:
roslaunch uuv_control_cascaded_pid joy_accel.launch model_name:=rexrov
We can specify the Joystick ID, default joy_id:=0
. This starts thruster_manager.launch
and uuv_teleop.launch
. The teleop uses the two joystick controls for up/down/rotate/move while the thruster manager turns these commands into thrust
commands for the eight thrusters.
From robot_config.yaml
, Oberon 7P manipulators have names: azimuth
, shoulder
, elbow
, roll
, pitch
, wrist
. Arm setup is in joint_effort_controllers.launch
. This file is used in uuv_manipulators/oberon7/oberon7_control/launch/jt_cartesian_controller.launch
and uuv_manipulators/oberon7/oberon7_control/launch/joint_control.launch
. These are used in uuv_simulator/uuv_gazebo/launch/rexrov_demos/rexrov_oberon_demo.launch
and uuv_simulator/uuv_gazebo/launch/rexrov_demos/rexrov_oberon_arms_demo.launch
.
In looking at jt_cartesian_controller.launch
and joint_control.launch
, we see that joint_control.launch
has arm names, so try that. See joint_control.launch
for arm actuations, including gripper open/close and RB and LB deadman. Try this:
roslaunch oberon7_control joint_control.launch uuv_name:=rexrov
No, this fails: effort_controllers/JointEffortController does not exist.
Note: there was no joy_id:=0
option, which seems odd.
See files with sonar
in their name. Working up from uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/src/gazebo_ros_image_sonar.cpp
and uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/include/uuv_sensor_ros_plugins/gazebo_ros_image_sonar.hh
we find uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/CMakeLists.txt
which builds image_sonar_ros_plugin
and others including rpt, imu, cpc, magnetometer, dvl, pressure, gps.
File libimage_sonar_ros_plugin.so
is laded from uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/urdf/sonar_snippets.xacro
which is loaded from uuv_simulator/uuv_sensor_plugins/uuv_sensor_ros_plugins/urdf/sensor_snippets.xacro
. Several .xacro files load this, including uuv_simulator/uuv_descriptions/urdf/rexrov_base.xacro
, which should be loaded from rexrov_oberon7.xacro
.
File gazebo_ros_image_sonar.cpp
plugin GazeboRosImageSonar
should provide these topics:
- point cloud
points
or frompointCloudTopicName
, typesensor_msgs::PointCloud2
- depth image
depth/image_raw
or fromdepthImageTopicName
, typesensor_msgs::Image
- normal image from depth image +
_normals
, typesensor_msgs::Image
- multibeam image from depth image +
_multibeam
, typesensor_msgs::Image
- sonar image from depth image +
_sonar
, typesensor_msgs::Image
- raw sonar image from depth image +
_raw_sonar
, typesensor_msgs::Image
- depth image camera info
depth/camera_info
or fromdepthImageCameraInfoTopicName
We might be interested in depth/image_sonar
, emitted by calling cv::Mat GazeboRosImageSonar::ConstructVisualScanImage(cv::Mat& raw_scan)
. These use structures depth_image
and its derivatives normal_image
, multibeam_image
, and raw_scan
. depth_image
comes from cv::Mat(height, width, CV_32FC1, (float*)_src)
where CV_32FC1
is a 32-bit float 1-channel array of value _src
.
Gazebo's DepthCameraPlugin.hh
includes bindings for Gazebo events OnNewDepthFrame
, OnNewRGBPointCloud
, and OnNewImageFrame
.
This GUI offers a list of all compatible active "camera" topics. Usage:
rosrun rqt_image_view rqt_image_view
For example /rexrov/rexrov/camera/camera_image
. Unfortunately, /rexrov/dvl_sonar
related topics have incompatible types. Our dvl types are:
-
/rexrov/dvl
typeuuv_sensor_ros_plugins_msgs/DVL
-
/rexrov/dvl_sonar0
typesensor_msgs/Range
In paper "A Computationally-Efficient 2D Imaging Sonar Model for Underwater Robotics Simulations in Gazebo", DeMarco produces Sonar images as follows:
- Calculate point-cloud using angle of incidence, distance, and surface reflectivity. The reflectivity of a surface is defined by
laser_retro
defined in the surface's SDF file, values 0 to 255. - Add Gaussian noise, transform to sonar image, add median blur, add salt-pepper noise.
File imaging_sonar_sim.cpp
runs a ROS node that subscribes to a point cloud topic of type sensor_msgs::PointCloud
and publishes an image of type sensor_msgs::ImagePtr
which should just be a pointer to sensor_msgs::Image
.