by Gary Mintchell | May 26, 2017 | Internet of Things
Dell EMS Internet of Things (IoT) group assembled a mini supply chain as its booth at the user conference Dell EMS World in Las Vegas in May. At the October Dell EMS World in Austin, these were put together as an ice cream factory and distribution, and the booth featured an ice cream machine. I sure could have used an ice cream by the time I got through all the exhibits.
The Dell IoT Gateway was the common denominator of the exhibit tying everything together.
The first station features construction. Here are a couple of guys trying out the DAQRI augmented reality helmets. I had the opportunity to try these in Hannover. A really cool application of AR.
They are looking at a combination of the construction (see the red “steel” framework) and drawings that show the layout of electrical conduit, HVAC ducting, and other details. As a construction worker, they can get a feel of where things go, as well as spot interferences the designer missed.
This station showed product on its way to market through sensing and communication from Nokia.
Below is a layout of the Emerson process manufacturing system.
They brought actual pipe, pump, motor, instruments, wirelessHART communication. No, it didn’t make ice cream.
This station featured IMS Evolve–an application that brings sensor data into the cloud and provides track and trace, as well as other analytics, assuring the safety of the food product through the supply chain from the point of view of proper temperature.
Don’t forget security! Here is a photo of a physical security video system from V5.
The Dell Gateway is an edge device capable of accumulating data from the disparate sources, performing storage and analysis at the edge then sending information to the cloud for further analysis. It seems that everywhere I go, the “edge” is the place where innovation is centered right now. This simple demo showed the power of the edge.
by Gary Mintchell | May 3, 2017 | Automation, Data Management, Networking, Operations Management, Security, Technology
OPC UA was everywhere in the Digital Factory and automation areas of Hannover Fair 2017. Not only was the expanded OPC Foundation stand busy, an “OPC Wall” at the Microsoft stand was constantly packed. Microsoft executives took attendees on a digital path using OPC UA from the factory to the Azure cloud.
Spokespeople pointed out that OPC UA was crucial to a solution that was open, secure, and agnostic. While waiting for the finalization of OPC UA pub/sub (publish / subscribe), they wrote a transport in JSON and AMQP to get there.
The OPC Foundation announced an open-source implementation of the OPC UA technology, available on GitHub to truly enable the OPC community successful adoption of OPC UA across all markets and all platforms.
Microsoft contributed a huge amount of lines of code to this open source effort.
OPC UA is the set of standards for multivendor multiplatform secure reliable interoperability for moving /information from the embedded world to the cloud. The testimonial to the standards is a complete reference implementation that is now been posted as an open-source implementation, replacing the original OPC Foundation .NET deliverables that were developed and maintained for the last 10 years.
The original OPC Foundation .NET OPC UA reference implementation has been available to OPC Foundation members and last year was provided as an open-source implementation on GitHub. This version was targeted and limited to Microsoft Windows only.
The new OPC Foundation reference stack, based on the new .NET Standard Library technology, was developed and optimized by Microsoft to serve as the complete platform-independent infrastructure, from the embedded world to the cloud. This new version is enabled on the following supported platforms: Various Linux distributions, iOS, Android, Windows 7, Windows 8, Windows 8.1, Windows 10, Windows Phone, HoloLens and the Azure cloud.
One of the important features of the .Net Standard stack is the expansion of the security features to meet the needs of the Industrial Internet of Things (IIoT) applications, as well as the requirements of “Plattform Industrie 4.0”.
Additional benefits of the OPC UA .Net Standard Stack include:
- The .Net Standard stack is cross platform specifically enabling OPC UA applications.
- The .Net Standard API portability strategy is all about developing once and running everywhere: No need to special-case OS-specific functionality.
- The architecture of the .Net Standard stack focuses on managed code, which translates to rapid application development.
- Microsoft deliberately enabled the creation of NuGet packages, which allows suppliers to quickly integrate OPC UA support into their application with a few simple clicks.
- The .Net Standard stack includes increased security inclusive of support for SHA512.
- The .Net Standard stack enable support for cross-platform UI design tools through Xamarin.
- Microsoft has provided, in conjunction with the OPC Foundation, an extremely rich set of sample applications, inclusive of reference clients, reference servers, an aggregation server, an OPC classic wrapper and a web application to quickly display OPC UA telemetry data sent to the cloud.
- Microsoft has also provided, in conjunction with the OPC Foundation complete samples demonstrating Azure connectivity leveraging the OPC UA publish/subscribe technology (the specification of which is currently being finalized).
Microsoft’s Sam George, Director of Microsoft Azure IoT said “OPC UA has truly established itself as the interoperability standard for Industrial IoT. We are honored to work with the OPC Foundation on the continued evolution of the standard. The response from the Industrial IoT community to our .Net Standard reference stack contribution has been very positive.”
OPC Foundation’s President Thomas J. Burke said, “The Microsoft commitment to open standards, and specifically to the OPC Foundation is absolutely amazing. Microsoft is clearly a pioneer and a leader in developing and bringing to market the best technology that truly enables multivendor information integration and interoperability. It has been a pleasure to work with the Microsoft development team, and how they are enabling so many of the suppliers to have seamless connectivity to the Azure cloud, through their development and commitment providing an open-source implementation of the OPC UA technology”.
Stefan Hoppe, OPC Foundation’s Vice President said, “Microsoft is the strongest open-source contributor to the OPC Foundation’s industrial interoperability standard, OPC UA. Microsoft’s integration of the OPC UA code with Microsoft Azure IoT as well as Windows IoT allows companies to bring millions of devices and apps to the public cloud and manage them with one single application, no matter if the devices run on Windows, Linux, iOS or Android. Using this OPC UA implementation, IT and Manufacturing will merge seamlessly”.
Siemens’ Thomas Hahn said: “As a founding member, Siemens has supported the OPC Foundation for years. For us, open connectivity – from shop floor to the cloud – is a must. We therefore appreciate the availability of OPC UA technology as open source!”
The OPC Foundation will continue to develop, maintain and extend this new .NET technology as the new OPC Foundation endorsed open-source .NET reference implementation. Some of these significant new features to be added include the publish/subscribe extensions as well as support for important IoT protocols like AMQP and MQTT.
by Gary Mintchell | Dec 16, 2016 | News, Operations Management, Organizations, Standards
Interoperability, standardization, and collaboration were the key words for OPC Foundation in 2016. Tom Burke, OPC Foundation President, recently recapped a busy 2016 for the Foundation. Adoption of OPC UA has been gaining momentum in the market. Collaboration with other groups is growing. And the technology is finally beginning to show significant use beyond industrial automation.
Burke says, “It has been a very exciting year. We have seen record growth in adoption of the OPC UA technology across multiple domains and vertical markets. The OPC Foundation policy of being truly open has expanded the reach of the OPC technology. The specifications are available to everyone, the technology is open sourced, and now we have opened up our certification labs to non-members.”
The OPC Foundation byline since the beginning has been recognized as the “The Interoperability Standard for Industrial Automation.” With the significant international membership growth and adoption of the OPC UA technology across multiple vertical markets the byline of the OPC Foundation has been ratified as “The Industrial Interoperability Standard.” This byline recognizes the case that OPC is no longer just for automation.
OPC UA specifications and technology are actively being deployed across global boundaries supplying the key infrastructure for everything related to the Internet of Everything (IIoT, Industrie 4.0, China 2025, IIC, M2M…); inclusive of:
- numerous testbeds with the OPC UA technology being standardized in the Industrial Internet Consortium (IIC)
- being recognized as the communication and information modeling standard for Industrie 4.0
- OPC UA being finalized as a Chinese National Standard
In May 2016, BSI (German Federal Office for Information Security) conducted a thorough security analysis of OPC UA and found it exceeded the security requirements for Industrie 4.0.
Collaboration with numerous organizations beyond industrial automation is the strategy and path forward to allow information integration from the embedded world to the cloud.
New members and new products are emerging as end users are looking for information solutions for IIoT, and the OPC UA technology is well-positioned to address the needs of the Internet of Everything.
Numerous organizations continue to partner with the OPC Foundation and/or develop companion specifications for their respective information models to seamlessly plug into OPC UA.
Organizations announcing releases of their companion specifications in 2016 for the OPC UA technology included:
• AutomationML
• PLCopen
• AIM
• VDMA: Injection Molding (status: release candidate)
• VDMA: Vision Cameras (status: in foundation)
• VDMA: Robotics, starting with the help of KUKA (status: in preparation)
VDMA is very active standardizing on OPC UA information models and expects to rollout a multitude of additional information models in 2017, leveraging OPC UA information integration communication as it’s strategy for seamless information integration and interoperability.
Board of Directors
Board members are elected as individuals for a two-year term. Elected to new 2-year terms were: Russ Agrusa, (ICONICS), Veronika Schmid-Lutz (SAP), Stefan Hoppe (Beckhoff) (also VP of OPC Foundation), and Matthias Damm (Ascolab). Also on the OPC Foundation Board of Directors are Thomas Burke (OPC Foundation), Thomas Hahn (Siemens) (also VP of OPC Foundation), Matt Vasey (Microsoft), and Ziad Kaakani (Honeywell) (also Treasurer of OPC Foundation), and Shinji Oda (Yokogawa).
by Gary Mintchell | Nov 15, 2016 | Automation, Data Management, Internet of Things, Operations Management
Kepware Technologies, a PTC business, announced the release of KEPServerEX Version 6 software for industrial automation data connectivity. A major release of its flagship industrial connectivity platform, Version 6 strengthens Kepware’s core product offering for global corporations requiring increased operational scalability, security, and support. Enhancements include a new method for remote configuration, additional languages that support critical industrial automation markets, and significant updates to the user interface and licensing experience.
“Since the launch of Version 5 in 2009, the need for industrial connectivity has grown tremendously. As the Internet of Things (IoT) continues to influence industrial architectures, companies require a comprehensive solution that can communicate and analyze a greater volume, variety, and velocity of data to a wider, more diverse set of client applications,” said John Harrington, Vice President of Product Management, Kepware. “We’ve incorporated important usability and architectural enhancements that support these evolving industry standards into KEPServerEX Version 6. Enterprise-ready, IT-friendly, and secure, Version 6 is a direct response to our customers’ expanding and evolving needs.”
KEPServerEX Version 6 features significant enhancements to the core server functionality and user experience that deliver an IoT-friendly industrial connectivity platform, including:
- Programmatic Changes via the Configuration API: The new REST-based API enables off-site users to remotely apply programmatic changes to the configuration via third-party client applications. Now customers can easily configure multiple KEPServerEX instances from their enterprise software, enabling improved security and collaboration between Operations and IT.
- Localization for Japanese and German Markets: Core features and top-tier drivers have been localized to improve the accessibility, productivity, and safety of KEPServerEX for local customers in Japan and Germany as well as global multinationals.
- Native Development of OPC UA Technology: Native development of core OPC UA technology provides improved performance, enhanced diagnostics, and a solid foundation for continued OPC UA functionality enhancements.
- Streamlined Licensing: Updates to KEPServerEX, the License Utility, and My Kepware improve the user experience and simplify license management—providing customers with more streamlined tools to deploy, manage, and update their servers.
- Improved User Interface (UI): An enhanced user interface streamlines project setup and deployment, enabling more effective and efficient interactions with KEPServerEX. The updates also promote a safe user experience, enable increased productivity, and improve accessibility.
- Robust Security: Now included as a complimentary core server component, the Security Policies advanced plug-in complements an industrial defense-in-depth strategy by enabling customers to assign security access permissions on individual objects based on user role.
“With the release of KEPServerEX Version 6, Kepware is able to provide a secure, truly enterprise-ready connectivity layer to the market,” said Tony Paine, Platform President, Kepware. “Our customers will benefit from an easy migration path that maximizes uptime—allowing them to meet productivity demands today while preparing for the requirements of tomorrow.”
KEPServerEX is an industrial connectivity platform that leverages OPC and IT-centric communication protocols to provide a single source of industrial automation data to enterprise applications. The platform offers a library of more than 150 device drivers, client drivers, and advanced plug-ins—enabling connectivity to thousands of devices and other data sources.
by Gary Mintchell | Jan 20, 2016 | Automation, Internet of Things, Networking, Operations Management
Everyone is in a rush to get an opinion or observation published about the Internet of Things. Evidently it gets lots of page views. Recently other analysts have been publishing thought pieces on IoT in Industry. It appears they have reached the same conclusion that I first broached a couple of years ago. The IoT is not a “thing.” To make any sense of it and use it for any strategy, it must be thought of as an ecosystem encompassing a variety of technologies.
Here is an article that appeared in the Sloan MIT Management Review. Since I am a subscriber, I don’t know if you can see the article at this link.
The writer is Sam Ransbotham is an associate professor of information systems at the Carroll School of Management at Boston College and the MIT Sloan Management Review Guest Editor for the Data and Analytics Big Idea Initiative. He suggests, “The Internet of Things will bring huge changes to the way markets and businesses work — and it could get messy.”
Here is a bromide that I’ve read a thousand times, “Most businesses aren’t ready for the changes to the marketplace that the Internet of Things will bring. But the time to prepare for them is now.”
Actually most business adapt. Some are visionary and will develop new products, processes, and services–and make a lot of money. Others will adapt and survive. Still others will wonder what happened and die. That is the way of business for at least 5,000 years.
Use Case for Internet of Things
“Yes, the potential insights from IoT are enticing. For example, it’s fun to think about the potential personal and even societal benefits from self-driving cars, such as fewer accidents, no problems with parking, more productivity while traveling, car sharing, greater infrastructure efficiency, etc. But perhaps a more profound implication is the data that they can collect. These cars will also be widely distributed “things,” gathering performance data that can help manufacturers diagnose problems, operational data that can help mechanics prevent failures, driver data that can help insurers understand risk, road data that can help cities improve infrastructure, etc. These kinds of insights, we’re ready for.”
But there are a lot more changes coming with the IoT transformation than many people may recognize.
Ransbothem looks into information technology as a model for what will happen in IoT. “About a decade ago, advances in information technology converged to fuel a boom in corporate use of analytics. First, widespread implementation of information systems captured unprecedented amount of data in ways that could be used in isolation or combined. Second, tools and technologies allowed the inexpensive storage and processing. Third, savvy analytical innovators creatively combined these to show everyone else what could be done.”
We have seen all this play out in industrial systems. There remains more to be done, here, though.
He proceeds to look at Internet of Things. “First, the cost and physical size of sensor technology have dropped such that they can be incorporated into most items. Second, widespread communications infrastructure is in place to allow these distributed components to coordinate. Third, once again, savvy innovators are showing the rest of us the possibilities from the data they collect.”
Manufacturing and production are not only poised to exploit these technologies and strategies, they have already been implementing to one degree or another. But his point is valid. IoT needs the ecosystem of sensing devices, networking, communication technology, databases, analytics, and visualization.
Ransbothem identifies four areas of change. Of these, I direct your attention to the last–process changes. I think everything feeds into process changes–not just the processes to make things, but also the information technology, supply chain, and human processes that must not only adapt but thrive with the new information awareness.
- Market Power: IoT should provide a greater amount and a greater value of data, but are companies ready to align their interests in obtaining value from this data with the multiple other companies and end users who create, own, and service the products that originate the data? In the driverless car example, it is easy to see how multiple stakeholders could make use of the data from cars; the same is true for other devices. But it may not be clear who owns what data and how it can be used.
- Complexity: Few organizations are prepared to be hardware and software development companies. But that’s what the Internet of Things will enable. As products are built with embedded sensors, the component mix increases in complexity. As a result, manufacturing systems and supply chains will become more elaborate. Software embedded in products will need to be updateable when the inevitable shortcomings are found.
- Security: If we believe data is valuable, then we need to be ready for people to want to take it from us — why would data be any different than any other precious item? The IoT context intensifies the need for security requirements; for example, sensors or software that allow physical control of the product make attacks easier.
- Process Changes: Many business processes continue to be “pull” oriented. Information is gathered, then analyzed, then decisions are made. This works when change is slow. But with the IoT transition, data will stream in constantly, defying routine reporting and normal working hours. Flooding data from IoT devices will give opportunities for quick reaction, but only if organizations can develop the capacity needed to take advantage of it. Few mainstream large companies are ready for this, much less small- to medium-sized companies that lack the resources of their larger corporate brethren.
The Internet of Things is bringing and will continue to bring advances in how we do business. How well will executives, managers, and engineers execute on this vision? That is key.
