It is our pleasure to announce the official launch of the Robot Web Tools organization. Robot Web Tools is a collection of open-source modules and tools for building web-based robot apps.
A variety of routes are available for architecting a robot web application. A common route is building web technologies on an existing robot framework. The Robot Operating System (ROS) is one of the top frameworks to program robots and can run on a variety of robots, from a TurtleBot to a PR2 to an Arduino connected to a computer. ROS - and other robot middleware frameworks - provide common robot functionality, including drivers for interfacing with a variety of sensors and actuators and algorithms for navigation, perception, and manipulation.
Robot Web Tools is being spearheaded by five supporting organizations: Brown University, Robert Bosch LLC, Willow Garage Inc., Worcester Polytechnic Institute, and Yujin Robot.
For more information, check us out on our homepage, http://robotwebtools.org/, or see our current projects listed at http://robotwebtools.org/
To keep up to date, be sure to subscribe to our Google Group email list at https://groups.google.com/
-- Russell Toris, Community Manager & The Robot Web Tools Team
From Sachin Chitta via ros-users@
Willow Garage is proud to announce the initial release of MoveIt! : new software targeted at allowing you to build advanced applications integrating motion planning, kinematics, collision checking with grasping, manipulation, navigation, perception, and control. MoveIt! is robot agnostic software that can be quickly set up with your robot if a URDF representation of the robot is available. The MoveIt! Setup Assistant lets you configure MoveIt! for any robot, allowing you to visualize and interact with the robot model quickly.MoveIt! can incorporate both actual sensor data and simulated models to build an environment representation. Sensor information (3D) can be automatically integrated realtime in the representation of the world that MoveIt! maintains. CAD models can also be imported in the same world representation if desired. Collision-free motion planning, execution and monitoring are core capabilities that MoveIt! provides for any robot. MoveIt! updates its representation of the environment on the fly, enabling reactive motion planning and execution, which is essential for applications in human-robot collaborative environments.
MoveIt! interfaces with controllers through a standard ROS interface, allowing for ease of inter-operability, i.e. the ability to use the same higher-level software with a variety of robots without needing to change code. MoveIt! is architected to be flexible, using a plugin architecture to allow users to integrate their own custom components while still providing out-of-the-box functionality using default implementations. Furthermore, the ROS communication and configuration layer of MoveIt! is separated from core computational components such as motion planning or collision checking, the latter components being provided separately as C++ libraries.
Workspace analysis tools allow robot designers to test out the capabilities of their robot designs before building the hardware, using environment and object specific task specifications to quantify the workspace characteristics of different designs. This reduces costly mistakes and iterations in the design stage. We are actively working on completing the pick and place capabilities in MoveIt!, integrating with object recognition, perception, and grasping to allow manipulators to execute generalized pick and place actions.
More Information about MoveIt!, including instructions on how to get and use it, can be found on the MoveIt! website. MoveIt! is currently an alpha release.Acknowledgements
Willow Garage gratefully acknowledges the contributions of the following people to MoveIt! and associated packages that MoveIt! uses and depends on:
- Lydia Kavraki, Mark Moll, and associated members of the Kavraki Lab (Rice University) for developing OMPL - a suite of randomized planners that MoveIt! uses extensively.
- Dinesh Manocha and Jia Pan of UNC Chapel Hill for developing FCL - a package of collision checking algorithm used extensively by MoveIt!
- Maxim Likhachev (CMU), Ben Cohen (Penn) and Mike Phillips (CMU) for developing SBPL, a search-based planning library integrated with MoveIt!
- Armin Hornung, Kai Wurm, Maren Bennewitz, Cyril Stachniss, and Wolfram Burgard for developing Octomap - software for 3D occupancy mapping used by MoveIt!
- Mrinal Kalakrishnan, Peter Pastor and Stefan Schaal at USC for developing STOMP, the distance field components in MoveIt! and the implementation of the CHOMP algorithm in Arm Navigation
- Dave Coleman from the University of Colorado, Boulder for developing the MoveIt! Setup Assistant and adding documentation to the MoveIt! website.
MoveIt! evolved from the Arm Navigation and Grasping Pipeline components of ROS and we gratefully acknowledge the seminal contributions of all developers and researchers to those packages, especially Edward Gil Jones, Matei Ciocarlie, Kaijen Hsiao, Adam Leeper, and Ken Anderson.
We also acknowledge the contributions of the Willow Garage interns who have worked on MoveIt!, Arm Navigation and associated components, members of the ROS and PR2 communities who have used, provided feedback and provided contributions to MoveIt! and Arm Navigation and members of the ROS community for developing the infrastructure that MoveIt! builds on.
We also acknowledge the contributions of the ROS-Industrial consortium led by the Southwest Research Institute for supporting and building up infrastructure for applying MoveIt! and Arm Navigation to industrial robots and environments. Similarly, we acknowledge the contributions of Fraunhofer IPA to MoveIt! and support for the ROS-Industrial effort in Europe.
For more information visit moveit.ros.org
The Personal Robotics Lab in the School of Mechanical, Industrial and Manufacturing Engineering at Oregon State University is proud to announce our repository, orst-ros-pkg. Our current released stacks and packages are:
Event Title: ROS-Industrial Basic Developer's Class June 4-6, 2013
Event Description: We are delighted to invite you to attend the ROS-Industrial Basic Developer's Training class, which will be held June 4-6, at Southwest Research Institute, in San Antonio, TX. The class will provide a hands-on introduction to ROS and ROS-Industrial, and it will culminate with hardware integration exercises with live industrial robots and peripherals. The class is FREE to Full/Associate Members of the ROS-Industrial Consortium. Others may attend for a fee. For your convenience, we are also offering for you to purchase the preconfigured small form factor ROS-I PC that you will use during the class. To learn more about the class, please browse to the website: http://rosindustrial.org/ric/
I would like to announce the new release of BRIDE for ROS.
In addition to multiple small fixes these are the new features of the 0.2.0 release:
* Graphical creation of System models: Components can now be added graphically to the system model. No xml hacking any more!
* Coordinator development: You can develop state machines in BRIDE now, so called Coordinator Components. They make use of the Capability Components in you system by triggering actionservers or serviceclients. The Coordinator models are code generated into SMACH components and appear as regular components in the system diagram.
* Action support in code generation: ActionServers are now auto-generated. Only the execution_callback has to be implemented in the user code in the corresponding user_code section.
* Standalone compiler: In the bride_compiler package there is a standalone compiler to use the code generation without Eclipse. Code generation can also be triggered by running "make regen" in the terminal for updating after changes in the model.
As the templates are in the separate bride_templates package, it is now easier to recommend changes in the templates and improve them in smaller iterations.
As usual the installation instructions are on the http://www.ros.org/wiki/bride/ wiki page and the updated tutorials are athttp://www.ros.org/wiki/bride/
Feel free to give feedback directly, by mailing-list or post bugs and feature requests at https://github.com/ipa320/