Southwest Research Institute
Assembly Line
Making Robot Programming User Friendly with the Workbench for Offline Robotics Development (SWORD)
Over the years, the ROS-I Consortium has held frequent roadmapping sessions with a wide variety of end users and ROS developers, to address ease-of-use and continuing education. The identified need is a lower barrier of entry for non-programmers (or entry-level developers) to harness the power of tools in the ROS ecosystem, but in a way that aligns with industry adoption of digital thread and industry 4.0 strategies. The traditional ROS workflow is software programming intense, requiring developers deeply familiar with available ROS libraries and tools. Even experienced developers within the ROS-I ecosystem, and beyond, may spend significant time (days to weeks) on the initial setup and configuration of a ROS application. Listening to the voice of our own developers, our diverse stakeholders, and consortium members, we heard the need for easier access to the ROS motion planning tools, while maintaining a tie back to the CAD ecosystem where the products to be worked on are conceived and maintained.
SwRI is launching the SwRI Workbench for Offline Robotics Development (SWORD)™ featuring a graphical toolkit for developing and testing advanced robotic motion-planning applications. SWORD is implemented as a plugin to the open-source FreeCAD application, allowing users to integrate robotics capabilities into a cross-platform CAD environment. It provides a graphical interface to many powerful motion-planning libraries. The goal is to bring ROS to a manufacturing/industrial audience in a way that is more approachable and resides in an environment that is familiar. Most manufacturing engineers are competent with CAD and understand their processes, often doing various forms of programs on process-oriented systems. SWORD seeks to bring advanced motion-planning capability to this audience enabling to set up their systems and take advantage of these more advanced tools in their operational environments.
SwRI improves corrosion-detecting technology that detects leaks in pipes before they occur
“Pipeline corrosion resulting in leaks is very common,” said SwRI Staff Engineer Sergey Vinogradov, who developed the technology with Staff Engineer Keith Bartels and other SwRI staff members. “There are only a few current methods to detect defects before they cause leaks. Quite often, the pipe is repaired and re-inspected after a leak occurs. We’ve developed a technology that can consistently monitor the pipe’s condition, hopefully preventing leaks from happening in the first place.”
The technology is known as a Magnetostrictive Transducer (MsT) Collar. It was originally developed by SwRI in 2002. The updated version has a flat, thin design allowing it to be used on pipes in tight spaces. In custom configurations, it can withstand heat up to 400 degrees Fahrenheit. The new, segmented MsT design also features eight sensors that give the transducer the ability to more accurately identify where in the pipe corrosion is occurring.