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ROS package for pmd-based ToF cameras based on the Royale SDK

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royale-ros

royale-ros is a wrapper around the pmd Royale SDK enabling the usage of pmd-based ToF cameras from within ROS software systems.

rviz1

Software Compatibility Matrix

royale-ros version Royale SDK version Linux/ROS distribution pair(s) Supported Hardware
0.1.0 3.5 Ubuntu 16.04/Kinetic,
Ubuntu 14.04/Indigo
Pico Flexx
0.2.0 3.16.0.51 Ubuntu 16.04/Kinetic Pico Flexx,
Pico Monstar

NOTE: Theoretically, any camera supported by Royale will be compatible with this library. However, the above listed hardware is what we have available to us for testing. We welcome your feedback related to other Royale-based cameras and their compatibility with this ROS interface.

Building and Installing the Software

Building and installing the software has two primary steps:

  1. Installing the pmd Royale SDK
  2. Installing the ROS node

ROS Interface

camera nodelet

The core royale-ros sensor interface is implemented as a ROS nodelet. This allows for lower-latency data processing vs. the traditional out-of-process node-based ROS interface for applications that require it. However, we ship a launch file with this package that allows for using the core royale-ros driver as a standard node. To launch the node the following command can be used:

$ roslaunch royale_ros camera.launch

This launch file encapsulates several features:

  1. It exposes some of the camera_nodelet parameters as command-line arguments for ease of runtime configuration.
  2. It instantiates a nodelet manager which the camera_nodelet will be loaded into.
  3. It launches the camera_nodelet itself.
  4. It publishes the static transform from the camera's optical frame to a traditional ROS sensor frame as a tf2 static_transform_publisher.

You can either use this launch file directly, or, use it as a basis for integrating royale-ros into your own robot software system.

Parameters

Name Data Type Default Value Description
~access_code string - The Royale access code used to unlock level 2+ access to the Royale SDK functions. If no access code is supplied (the default), Level 1 access will be granted by Royale.
~on_at_startup bool true The pmd cameras use an active illumination unit as part of its ToF measurement principle to compute the distance to objects in the scene. Continuously pulsing the illumination unit both consumes power and generates heat. To that end, for some applications, it is desireable to have the ability to turn on/off the illumination unit in software. royale-ros provides that capability through a ROS service call (see below). This parameter controls whether or not the camera will start pulsing its illumination unit (and by extension, streaming image data) at node startup time.
~serial_number string - Each pmd camera has a unique serial number. Each instance of the royale-ros camera nodelet manages the data from a specific camera instance. This parameter controls which specific camera serial number this instance of the nodelet should manage. The special string "-" (a minus sign, no quotes) communicates to the nodelet that the first camera found on the USB bus should be used. This is convenient for cases where you will only ever be using a single camera but may be using many different cameras with different serial numbers. At the same time, having this serial number mapping allows for robust robot configurations whereby you can map camera serial numbers to semantically meaningful node names (e.g., serial number XXX = front_left_camera).
~initial_use_case string - pmd-based Royale cameras encapsulate a set of camera and imager settings into the notion of a "use case". These use cases give a name to a set of prepackaged parameter settings. This parameter allows for setting a particular use case on the camera at nodelet startup time. The use case can be changed at any point in time via the Config service, however, this simplifies setting the use case at startup. The special (and default) value of "-" (a minus sign, no quotes) communicates to the nodelet that no particular use case should be set at startup time.
~poll_bus_secs float 1. Integral to the camera nodelet is a running watchdog timer. This parameter controls the frequency at which the watchdog will run a health check loop. This is also the mechanism by which this nodelet provides robustness to a camera cable being unplugged and re-plugged back in (something that could very likely happen in an industrial setting due to pinched cables, etc.). Every poll_bus_secs this node will try to reinitialize the camera should it become unplugged for whatever reason.
~timeout_secs float 1. This is a threshold value used by the nodelet to determine that a running camera has timed-out or otherwise become unavailable. On every iteration of the watchdog (i.e., every poll_bus_secs), if the camera is currently "on", a check is made to see if frame data have been received within this timeout threshold. If this timeout threshold has been exceeded, the camera will be reinitialized.
~optical_frame string camera_optical_link The name of the optical frame in the tf tree
~sensor_frame string camera_link The name of the sensor frame in the tf tree

Published Topics

NOTE: pmd cameras can produce data with different imager settings simulataneously. This is the so-called mixed mode feature. For a particular use case there will be one or more data streams that it offers. So for each image topic published by royale-ros, we namespace it into a stream. While Royale gives each camera stream a unique stream id encoded as a uint16, for the purpose of topic names, royale-ros streams are simply positive integers. So, for example, the point cloud topic for a single stream use case will be published on stream/1/cloud. For a mixed-mode use case (lets assume two data streams), the point clouds will be published on stream/1/cloud and stream/2/cloud. In the table below, we use the variable X as a placeholder for the stream number.

Name Data Type Description
stream/X/camera_info sensor_msgs/CameraInfo The intrinsic calibration parameters for the camera
stream/X/cloud sensor_msgs/PointCloud2 The point cloud data
stream/X/conf sensor_msgs/Image The pixel confidence image
stream/X/gray sensor_msgs/Image The amplitude image
stream/X/noise sensor_msgs/Image The noise image
stream/X/xyz sensor_msgs/Image The point cloud data (Cartesian data only, no amplitude) encoded as a three channel (the x, y, z spatial planes respectively) OpenCV image.
stream/X/exposure_times royale_ros/ExposureTimes The exposure times used to acquire the pixel data.

Subscribed Topics

Name Data Type Description
SetExposureTime royale_ros/SetExposureTime Allows for a lightweight/fast means to change the exposure time for the current use case on-the-fly (assuming the camera is in a manual exposure mode).
SetExposureTimes royale_ros/SetExposureTimes Allows for a lightweight/fast means to change the exposure times for the current use case on-the-fly (assuming the camera is in a manual exposure mode). This feature is only available if the camera_nodelet is running with Level 2 access. It allows for finer-grained access to all exposures.

Advertised Services

Name Service Definition Description
Dump royale_ros/Dump Dumps the state of the camera parameters to JSON
Config royale_ros/Config Provides a means to configure the camera and imager settings, declaratively from a JSON encoding of the desired settings.
Start royale_ros/Start Starts the camera data stream
Stop royale_ros/Stop Stops the camera data stream and, by extension, turns off the active illumination unit.

Additional Documentation

LICENSE

Please see the file called LICENSE.

ATTRIBUTION

The initial development of royale-ros has been sponsored by Locus Robotics. The authors thank them for their contribution to the open-source robotics community.

AUTHORS

Tom Panzarella



Copyright © 2017 Love Park Robotics, LLC

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ROS package for pmd-based ToF cameras based on the Royale SDK

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