by Gary Mintchell | Mar 22, 2017 | Data Management, Internet of Things, Operations Management
Analytics is everything when it comes to looking at the value of the Internet of Things ecosystem. It matters not if you can tie all the intelligent devices together if you cannot gain intelligence about them. Here is another take at doing analytics at the edge. This is not the first one I’ve seen, but it reflects a trend.
Greenwave Systems announced that the acquisition of Predixion Software has enabled it to offer a real-time visual edge analytics solution called AXON Predict. Greenwave’s AXON Predict performs analytics at the edge. It adds a new level of intelligence to machines and sensors at every step of the network, enabling real-time action right at the source of input.
“We’ve built a small, smart, self-healing and predictive maintenance solution to reduce asset management costs and drive new revenue streams for enterprises and original equipment manufacturers (OEM),” said Simon Arkell, general manager of software platforms and analytics at Greenwave Systems. “We tailor our visual analytics engine for each customer to maximize efficiency, deliver automatic anomaly detection and unleash opportunities that other solutions simply can’t deliver.”
Greenwave’s AXON Platform extends analytics and machine learning down to the chip level and at all points in between. With the addition of AXON Predict to its product family, the company is now extending computational power and real intelligence to industrial, commercial, and consumer market segments within the Internet of Things (IoT). Together, the company’s real-time visual edge analytics software and sophisticated data management platform will enable enterprises and OEMs to manage critical data at the edge of a network in real time, which is far more effective than waiting for it to be uploaded and processed in the cloud.
“We’ve seen a real need for this in the market and our customers have affirmed our belief; smart devices often lack the ability to analyze real-time data at the source, causing latency, compliance and cost issues associated with data loss,” said Arkell. “We’re addressing this pain point head on by delivering intelligence to make devices and ordinary silicon smarter. Our analytics engine provides sharper insights and faster response times for our customers and helps them improve both their top and bottom line.”
by Gary Mintchell | Mar 15, 2017 | Automation, Process Control, Standards
The latest attempt at building an open control platform is driven by ExxonMobil and given some support by the ARC Advisory Group by offering a venue for meetings. I wrote about the meeting during the ARC Forum in Orlando. What I find most interesting is linking this to the Internet of Things.
It will be interesting to see where this leads. I’ve seen attempts in the past to try to get suppliers to ditch their computing or control platforms to go with a generic open system where end users could drive pricing down to commodity levels. Of course, such a system would require lots of engineering—a boon to systems integrators.
Although the dream of complete plug-and-play requiring no integration is a problem waiting a solution. We’ve seen this scenario play out in the computer business. The result was locked down hardware with a measure of interoperability of systems. I think that this is where standards are most valuable.
WindRiver has cast its lot with the ExxonMobil-led Open Process Control initiative and has announced a product in support of the effort. It has announced availability of a software virtualization platform enabling critical infrastructure companies to cost-effectively evolve aging legacy control systems not previously designed to support the connected nature of IoT. Wind River Titanium Control empowers the next generation of on-premise analytics to optimize industrial processes.
“ARC believes the influx of new IIoT technologies now entering the automation market has the potential to be a major disruption to existing business models that have been relatively stable for decades,” said Harry Forbes, research director at ARC Advisory Group, a leading technology research firm for industry and infrastructure. “An excellent example is Titanium Control, which combines Wind River’s long experience in real-time operating systems with on-premise cloud computing technology. This combination enables the virtualization of real-time automation applications that until recently could only be implemented in embedded systems hardware. The implications of this capability for the manufacturing automation market are very far-reaching, and automation suppliers are noticing.”
Because traditional industrial control systems were not designed to support IoT, most are rigid, single purpose, and have a high cost to deploy, integrate, and maintain. Additionally, the obsolescence cycle is driving system updates that require new systems to keep pace with innovation while maintaining or lowering capital costs.
Titanium Control is a commercially deployable on-premise cloud infrastructure that virtualizes traditional physical subsystems using a platform based on open standards. It delivers the high performance, high availability, flexibility, and low latency needed to reduce capital and operating expenses, as well as minimize unscheduled downtime for industrial applications and control services at any scale. Unlike enterprise IT virtualization platforms, it provides high reliability for applications and services deployed at the network edge, for example in fog deployments.
Key features of Titanium Control include:
- De facto standard open source software for on-premise cloud and virtualization, including Linux, real-time Kernel-based Virtual Machine (KVM) and OpenStack
- High performance and high availability with accelerated vSwitch and inter-VM communication, plus virtual infrastructure management
- Security features including isolation, secure boot and Trusted Platform Module enabled through Enhanced Platform Awareness
- Scalability from two to over 100 compute nodes
- Hitless software updates and patching with no interruption to services or applications
“With the emergence of Industrial IoT, companies are looking to deploy next-generation open and secure control systems; Titanium Control addresses this need, and is in active trials with customers in industries ranging from manufacturing to energy to healthcare,” said Jim Douglas, president of Wind River. “Our software has been providing these companies with powerful ways to increase efficiency and bolster safety, security, and reliability for the last 35 years. With the addition of Titanium Control to our product portfolio, Wind River is driving a new industrial era through virtualization, real-time performance and edge-to-cloud connectivity.”
Titanium Control is part of the Wind River Titanium Cloud portfolio of virtualization products for the deployment of critical services from operations to data center environments that require real-time performance and continuous service availability. It is optimized for Intel Xeon processors, and is pre-validated on hardware from the leading providers of Intel-based servers.
by Gary Mintchell | Mar 6, 2017 | Automation, Internet of Things, Operations Management, Security
When all things are connected, security becomes the crucial yet often overlooked component of the plan. Dell EMC as an enterprise IT supplier is long familiar with the necessity for planning security. This addition to its IoT Partner Network adds another dimension to its secure IoT offering. We have watched Dell EMC steadily building its IoT presence over the past couple of years. The gateway concept with computing at the edge is really catching on.
Asavie, the provider of next-generation enterprise mobility management and Internet of Things (IoT) connectivity solutions, announced today at the Industry of Things World it has joined the Dell IoT Solutions Partner Program as an Associate Technology Partner.
Asavie PassBridge cloud-hosted platform delivers on-demand IoT services that manage and secure connectivity across diverse networks, at scale. In combination with Dell Edge Gateways , Asavie PassBridge provides enterprises with end-to-end control of their network connectivity to ensure the commercial success of their IoT projects. It enables enterprises to rapidly rollout IoT projects, and securely capture and manage the vast amounts of data transacted between IoT devices.
Welcoming the announcement, Lars Jerkland, Vice President, OEM for Asavie, said, “We are pleased to be part of Dell’s growing network of IoT Partners. Customers are struggling with IoT network connectivity and integration challenges and our work with Dell helps address these obstacles. Together, Asavie and Dell offer industrial customers a secure, seamless, end-to-end IoT connectivity experience without any of the potential delays typically associated with rolling out a global cellular project.”
“Dell is focused on providing our customers with a comprehensive IoT solution to help them build new business models and grow,” said Jeff Brown, Dell EMC vice president, Global IoT and Embedded PC Sales, OEM Solutions. “Dell’s Edge Gateways and Asavie PassBridge, provide customers with a scalable, secure and robust IoT solution. As a result, enterprises can accelerate IoT implementation, generating increased cost savings and rapid delivery of new services to market,” continued Brown.
by Gary Mintchell | Feb 24, 2017 | Automation, Internet of Things, News, Operations Management, Safety, Software, Technology
Connections, services, augmented reality. Three technology directions and three companies that contacted me last month to point out some cool things going on, often beneath the radar. One of them just raised a bunch of VC money, though. I think you’ll be hearing more.
Now that I’m catching my breath from a couple of intense weeks with the ARC Forum and then the Industry of Things Conference, I have time to look at some new directions.
Knowledge Connected
Omnity uses the tagline Knowledge, connected. It accelerates the discovery of otherwise hidden, high-value patterns of interconnection within and between fields of knowledge as diverse as science, medicine, engineering, law and finance.
More than 2,500 scientific papers and 2,200 patent applications are published every day. Just the last five years of most scientific and engineering fields have produced on the scale of 100,000 documents. Reading these one an hour would take 50 years, a professional lifetime. Pair-wise comparison of these documents at three minutes per comparison would take more than 9,000 years, nearly the length of recorded human civilization. It is impossible to stay current in any field, much less the boundaries between two or more different fields, where most innovation occurs.
Omnity enables research and development professionals in all fields to rapidly and efficiently detect otherwise hidden patterns of relevant document interconnections. Whether for basic research or advanced product development, Omnity allows real-time insight into complex document sets, enabling research and development professionals to efficiently and systematically answer a wide range of questions. Read more here.
I heard about it on the podcast/radio show Tech Nation.
Augmenting Field of Vision
Safety Compass overlays information on your smartphone camera view, enhancing your field of vision. Warnings when and where you need it most—it is with you at work whenever and wherever you are, with coverage for the entire team. Simple, clear functionality with interactive hazard information suits any workplace size.
- Sign in and Select Your Site
- Supervisors can add a site or specific area on site within minutes.
- Adding hazard information is easy, simply follow the prompts to identify issues quickly.
- Workers can then sign in with secure login details and select from any number of relevant worksites.
- Scan Your Location for Hazards Using Augmented Reality
- The Safety Compass uses intuitive augmented reality to communicate hazard information to users in the field.
- Using the phone’s GPS and accelerometers the app superimposes real time information onto the camera view that adapts and compensates for worker’s field of vision.
- View Hazards Site-Wide
- By accessing the worker’s physical location, the app presents vital information on present dangers straight to the worker’s phone, avoiding the necessity of bulky safety manuals to locate and manage risk.
- A worker’s position is shown in relation to hazards, and workers can zoom, tilt and pan across a detailed site map.
- Access In-Depth Safety Information
- Workers receive critical site information well before they enter a hazardous area, allowing them time to prepare for safe work practices and overcoming the challenges of reading large volumes of complicated text in dark, shifting, loud or crowded environments.
- Additional safety information including video content can be added for more detail.
Frameworks of Applications
MuleSoft Agility starts with an application network according to MuleSoft. Mobility, Cloud services, the Internet of Things are creating incredible opportunities for business — but they’re raising customers’ expectations. MuleSoft builds application networks: seamless frameworks of applications, data sources, and devices connected by APIs, whether on-premises or in the cloud. They speed up app launch and modification cycles, make it easier to secure and manage access, and ultimately enable companies to do more — and faster — with less.
Leverage the power of API-led connectivity for a complete connectivity solution for digital business. Connect and orchestrate data on IoT devices, across devices, or with back-end applications. Leverage open standards and developer-friendly tools for speed and productivity. Connect to devices using out-of-the-box transport protocols like Zigbee and MQTT. Adapt Anypoint Platform to fit IoT architecture, not the other way around. Achieve full flexibility with a hybrid architecture and extensibility to connect future technologies.
MuleSoft recently received a large investment. Look for more from it.
by Gary Mintchell | Feb 10, 2017 | Automation, Internet of Things, News, Operations Management, Software, Technology
I’m tackling Internet of Things Edge computing in the first of many posts as I finally have some time to gather my notes and thoughts after an intense four days in Orlando at the ARC Advisory Group Industry Forum.
Announced during the Monday press conferences and later at a special breakfast presentation, Inductive Automation announced a series of products designed to take more power to the edge of the network. Certainly much work has been done regarding computing at the edge for the past couple of years.
So, Inductive Automation announced a March release for a line of products built on an embedded version of Ignition—Ignition Edge. Inductive Automation was recently in the news with an announcement that growth has been so good that it bought a building to house its growing workforce.
Ignition Edge by Inductive Automation is a line of lightweight, low-cost Ignition products to be embedded into field and OEM devices at the edge of the network. Ignition is designed to work on central servers and deploy to multiple clients, while Ignition Edge products can be installed on devices at the edge. With Ignition and Ignition Edge together, organizations can build scalable and affordable enterprise-wide systems.
“To truly have IIoT, industrial organizations need a new architecture,” said Don Pearson, chief strategy officer for Inductive Automation. “A big part of that involves collecting data near the source, at the edge of the network. It means polling as close to the devices as possible, rather than from the SCADA system. Ignition Edge is a very affordable way to get data from the edge and into a database so it can be leveraged for analysis and better decision-making.”
One of the products features embedded MQTT protocol. Cirrus Link Solutions is based in Kansas City, Kan. Arlen Nipper, president of Cirrus Link, is a co-inventor of Message Queueing Telemetry Transport (MQTT). MQTT is a lightweight pub/sub messaging transport that’s perfectly suited to the IIoT. MQTT provides fast, bi-directional communication in a very simple manner, so it requires minimal network bandwidth.
Nipper co-invented MQTT with Andy Stanford Clark of IBM specifically for real-time, mission-critical SCADA systems. Ignition Edge capitalizes on MQTT for more efficient, easier access to data. “Having the power of Ignition extend down to edge devices in the field offers a disruptive approach to how industrial network infrastructures are designed, deployed, and managed,” said Nipper.
Ignition Edge Panel enables creation of local HMIs for field devices. It enables edge-of-network HMI functionality with robust Ignition features, including one local client, one remote web client for mobile access, and alarming features including email notification. It includes one week of data buffering for trending and local client fallback for mission-critical applications.
Ignition Edge Enterprise acts as an Agent Gateway in a multi-Gateway Ignition system by leveraging the Ignition Enterprise Administration Module (EAM). So it requires that the EAM be installed on the central Ignition Gateway. It’s got powerful features such as remote backup, restoration management, centralized monitoring of performance and health metrics, and remote alarm notification. Edge Enterprise comes with up to a week of data buffering, and it can synchronize local tag history to a central Ignition historian for store-and-forward.
Ignition Edge MQTT by Cirrus Link was developed by Cirrus Link Solutions, a strategic partner of Inductive Automation. Ignition Edge MQTT enables publication of field device data through MQTT. It turns virtually any field device, such as a touch panel or a client terminal, into a lightweight, MQTT-enabled edge gateway. Ignition Edge MQTT uses MQTT to transmit data to any MQTT broker and supports the Sparkplug data-encoding specification.
