“The autonomous indoor logistics demonstration on the demonstration day was a great example of a unique collaboration. ROS2 and VDA5050 interoperability platforms and standards reduce the risks and uncertainties derived from critical supplier dependencies and vendor locks. An interchangeable Mitsubishi Logisnext’s FleetController and a Navitec System’s Navithor fleet control controlling a multi-vendor fleet of Rocla AGV’s ROS2-based Automated Reach Truck ART prototype and K-Hartwall’s A-Mate AMR using VDA5050 interoperability standard.A global 3D LIDAR & IMU based SLAM navigation, sensor fusion and vehicle control integrated from existing, previously incompatible components by four different companies, using ROS2 as middleware and communications platform.“The proof of concept and smooth interoperability of various technologies were presented during the demo, and we believe the success of this project sets the ground for future development and promising benefits for the automation industry,” comments Navitec Systems.įrom a technical perspective, the key results presented in the PEAMS demo were the following: Moreover, the existing features of the ROS2 components can be easily deployed in new applications. The open standards make the integration transparent and smooth the open-source drivers can be used for different hardware instead of having to program those from scratch. In the PEAMS research project, standard software interfaces provided by ROS2 are utilised for communicating with various in-house software by the development partners. In a multivendor platform, hardware and software components can be interchangeable, or their function in the system can vary over time or based on the application at hand. ROS is a set of software libraries and tools for building robot applications. Many leading companies in the industry have widely adopted Robot Operating System (ROS2) to facilitate collaboration and rapid and agile development. Also, it showed clear proof of the value of ROS2 and, more importantly – the value of Finnish cooperation,” says GIM Robotics. “The demo proved that full-scale indoor logistics can work seamlessly with two different types of AGVs under two separate fleet management systems. The demo was built together by the research partners Navitec Systems, GIM Robotics, Exertus, Atostek, Helsinki University, Tampere University, and Mitsubishi Logisnext Europe Oy. The demonstration was arranged on the 11 th and 12 th of January 2023 in the Demo Center at Mitsubishi Logisnext Europe Oy in Järvenpää, Finland. And secondly, to demonstrate the interoperability of two different types of AGV system controls and multivendor AGV fleet, supporting the VDA5050 open architecture standard (a standard for communication between fleets of AGVs and a central system control). Firstly, to demonstrate the interoperability of ROS2-based open-source software components in AGVs. There were two main goals set for the PEAMS project. The project focuses on utilising sustainable open-source software for autonomous machines and takes on several aspects of open interfaces: the business models emerging from ecosystems, the maturity and readiness of open-source software tools, and the control of AGVs with a multivendor technology platform. In the spring of 2021, FIMA 1 partners launched a collaborative research project called Platform Economy of Autonomous Mobile Machines Software Development, PEAMS.
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