![]() ![]() In particular, Mike noted that, with OPC UA, you don’t need to translate, map, or manipulate data as it moves from sensors to the cloud, as those data models are preserved in OPC UA. He explained that OPC UA uses data modeling to scale semantically identical messages across the entire manufacturing enterprise from sensors to the cloud. Mike Clark, director of the OPC Foundation North America, says OPC UA is so widely used because of its secure, repeatable data modeling. ![]() OPC UA is a platform-independent, service-oriented architecture that’s used in nearly every industry vertical, from oil and gas to pharmaceuticals to automotive. So let’s look at how they both target device and system interoperability. Both of these communication methods are supported by all the major industrial protocol organizations as well as most automation technology suppliers. Whether it's a simple wish to send basic operating data from one device to another and have it be accepted and understood by the receiver, or something more complex like having different devices work together more easily in a plug and play manner, interoperability all starts at the communications layer.Īnd the two most prominent players in this space are OPC UA and MQTT. While the objectives and goals of production operations within manufacturing and processing companies vary widely, there is one thing that you could probably get every plant manager, engineer, and operator to agree on.Īnd that's for the various automation technologies that they use to be more interoperable with each other. I’m David Greenfield, Director of Content, and today we’re going to look at how industrial communications-namely OPC UA and MQTT-enable interoperability. Welcome to Take Five with Automation World. How OPC UA Creates Interoperability and Gives Data Context.Creation of Sparkplug Technology Compatibility Kit will be used to verify compatible products so users can easily know if a product is capable of interoperability using MQTT.How the data-agnostic nature of MQTT is being adapted by Sparkplug to enable device interoperability in the operations technology space.Using OPC UA as an interface between controllers from different vendors, to monitor alarms and events, and provide access to historical data.Understand OPC UA’s use of data modeling to scale semantically identical messages across the entire manufacturing enterprise-from sensors to the cloud.WP6 is in charge of Service Category 6 Web-based, interactive workflows on HPC: Europe-wide access to scalable and interactive compute services. WP6 also works on establishing an EBRAINS service for sensitive data, the EBRAINS Health Data Cloud, which enables research on sensitive neuroscience data originating from human subjects, including collaborative sharing, collection and analysis of such data. WP6 is also responsible for coordinating the proposal for having the HBP Research Infrastructure on the ESFRI roadmap and to prepare its operational phase. Most of the tasks planned in this Work Package deal with the operation of these infrastructure services to ensure a high quality of service that can be achieved, e.g. by providing robust operational environments, and establishing mechanisms that allow for timely identification of problems.įurthermore, the Work Package supports the integration of the HBP Facility Hubs into the infrastructure layer. The services of this infrastructure layer thus serve as a basis for the Service Categories (SCs) of WP4 and WP5 and can also be used by (expert) end users. The deployed systems enable the platform services layer and individual vertical solutions to integrate different services within complex workflows. Work Package 6 develops, deploys, integrates and operates a variety of basic IT services including neuromorphic computing systems and services, within the distributed HBP and EBRAINS infrastructure.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |