The greater IT community makes abundant use of open source projects. These projects have proven great worth in operating systems, networking, and applications. The OT community, well, not so much. Maybe some. Microsoft and Dell Technologies, among many others, have donated millions of lines of code to open source projects.
However, the Internet of Things has proven to be one of the places where IT and OT can come together.
Meanwhile, The Eclipse Foundation has been a favorite of mine for probably 20 years. I remember downloading and playing with the Eclipse IDE for Java a long time ago. The foundation makes the news again this year announcing open source advancements in IoT.
It announced major milestones that make Eclipse IoT a leading collaboration of vendors working together to define an open, modular architecture to accelerate commercial IoT adoption. Similar to the early days of the Internet–where open source and vendor collaboration on standard building blocks brought the web to ubiquity–industry leaders including Bosch, Red Hat, Cloudera, and Eurotech are collaborating to standardize open source, modular IoT architecture components within the Eclipse IoT Working Group.
In 2011, the Eclipse IoT Working Group was launched with three projects aimed at reducing the complexity of developing Machine-to-Machine IoT solutions. Eclipse IoT quickly evolved as vendors signed up to collaborate on IoT’s end-to-end interoperability and performance challenges across key areas like constrained devices, device gateways, and scalable cloud platforms. Today the Eclipse IoT community has grown to 37 projects, 41 member companies, and 350 contributors who are building IoT solutions based on Eclipse IoT code.
In a recent case study, Bosch Software Innovations detailed the reasons why it decided in 2015 to participate in Eclipse IoT and the major advantages that open source community involvement has brought to its cloud-based IoT platform, the Bosch IoT Suite. Bosch today has more than 60 developers working on Eclipse IoT projects and has contributed around 1.5 million lines of code. The Bosch IoT Suite is based on the Eclipse Ditto, Eclipse hawkBit, Eclipse Hono, and Eclipse Vorto open source projects.
“We have accomplished so much since we began our open source strategy at Bosch,” added Caroline Buck, Product Owner, Bosch IoT Suite. “Open source development has enabled us to transform how we build software internally and it is making our organization a better product company. Any company that is serious about IoT should consider an ‘open source first’ strategy. If you are planning to do open source IoT, then Eclipse IoT is THE community we recommend.”
In a recent report–Eclipse Foundation’s Open Source IoT Activity Reaches Critical Mass–industry analyst firm 451 Research concluded: “It is time to take a look at what Eclipse IoT has to offer as organizations that choose vendor-specific (proprietary) alternatives to get started begin to run into challenges regarding scale, complexity or cost that has them interested in open source alternatives. While it is not necessarily easier to get an IoT project up and running using open source software, the long-term advantages once an IoT system reaches critical scale are clear–more predictable costs and avoidance of vendor lock-in–and they are driving enterprises to investigate open source options.”
“We are proud that Eclipse IoT is the open source community of choice for commercial-grade IoT innovation,” said Mike Milinkovich, Executive Director of the Eclipse Foundation. “Eclipse IoT projects are where industry leaders collaborate on developing the production-ready, interoperable, and flexible open source building blocks needed for the market adoption IoT. Our members are at the forefront of accelerating IoT innovation with the quality and sustainability that the Eclipse Foundation is known for.”
On Eclipse Foundation’s blog, Milinkovich described how–similar to the early trajectory of the commercial Internet, and the importance of the LAMP stack in particular–industrial IoT’s progress is being catalyzed by open source standards and interoperability that allow vendors to drive solutions forward while competing above the common infrastructure level. Eclipse IoT represents the largest open source community that’s driving these open, interoperable, and flexible components.
Eclipse IoT projects are broadly grouped under three categories of innovation critical for building an end-to-end IoT architecture:
- Constrained Devices — the set of libraries that can be deployed on a constrained embedded device to provide a complete IoT development stack.
- Edge Device Gateways — projects that provide capabilities to coordinate the connectivity of a group of sensors and actuators to each other and to external networks.
- IoT Cloud Platform — projects that deliver the highly scalable, multi-cloud software infrastructure and services required to manage and integrate devices and their data. These technologies support deployment flexibility for running IoT workloads at the edge, on any of the leading cloud platforms (e.g. Amazon Web services, Microsoft Azure, Google Cloud), or in enterprise data centers. These projects also facilitate the interoperability of Eclipse IoT-based solutions with existing enterprise applications and other IoT solutions.
In addition to the Bosch IoT Suite, Eclipse IoT technologies are powering production-ready, commercial IoT offerings from other leading vendors. Eurotech’s award-winning Everyware IoT integrated IoT portfolio is based on Eclipse IoT projects. Everyware Software Framework is an enterprise-ready IoT edge framework based on Eclipse Kura, a Java/OSGi middleware for IoT gateways. Everyware Cloud, an enterprise-ready edition of Eclipse Kapua, offers an open, modular, and microservices-based IoT cloud platform.
“The market adoption of new business models is driving the demand for more agile, secure, and flexible solutions based on open standards and open source technologies. This trend contributed to Eurotech’s decision, in 2012, to become a founding member of the Eclipse IoT Working Group hosted by the Eclipse Foundation”, said Giuseppe Surace, Chief Product and Marketing Officer at Eurotech. “The Eclipse Foundation is the place where industry leaders collaborate to deliver innovative and extensible tools, frameworks, and runtime components for an open development environment. Within Eclipse IoT, Eurotech is working with Cloudera, Red Hat, and others to develop key IoT runtimes and other enabling technologies that will deliver an integrated, end-to-end open IoT architecture. Eurotech was the original contributor to the Eclipse Kura and Eclipse Kapua projects within the IoT Working Group. Our core objective is to ensure that when customers are ready to deploy IoT, the solutions will be there.”
IoT ecosystem leaders join Eclipse IoT to take advantage of the following opportunities:
- Participate in industry collaborations to develop common open IoT platforms for Industrial IoT, Industry 4.0, Smart Home, Edge Computing, and more.
- Ensure the quality and sustainability of an end-to-end enterprise IoT architecture fully based on open source and open standards
- Play a role in defining Eclipse IoT strategic priorities
- Gain insights into the Eclipse IoT technology roadmap and direction
- Benchmark and learn best practices from peers for leveraging open IoT technologies to accelerate product development and improve time-to-revenue
Learn more about joining the Eclipse IoT or participating in any of its projects.
The world is in Barcelona at the Mobile World Conference (except for me). But that’s OK, I’m seeing plenty of news. Much of it relates to the Edge. And as 5G heats up, expect that to emphasize compute at the edge even further. (Talk of 6G is best left for politicians who by and large are not technical…)
This news comes from Hewlett Packard Enterprise (HPE) where VP and GM Tom Bradicich has been using Twitter to tease this week’s announcement. HPE Edgeline EL8000 Converged Edge System designed to help communication service providers (CSP) capitalize on data-intensive, low-latency services for media delivery, connected mobility, and smart cities. The system enables CSPs to process vast amounts of data in real time directly at the edge, based on open standards to boost flexibility and reduce costs. HPE also announced collaborations with Samsung and Tech Mahindra to accelerate CSPs 5G adoption, leveraging the HPE Edgeline EL8000 Converged Edge System to deploy the next generation of edge-centric virtual 5G applications.
IDC forecasts that more than 150 billion devices will be connected across the globe by 2025, most of which will be creating data in real time. As a result, IDC predicts real-time data to represent nearly 30 percent of the Global Datasphere by 2025. Estimated to be 33 zettabytes in 2018, IDC forecasts the Global Datasphere to grow to 175 zettabytes by 2025.
To deliver new services that tap into this massive growth of real-time data, CSPs must transform their telecommunications network edge towards standard IT systems and software-defined architectures, such as virtual radio access networks (vRAN) and virtual cable modem termination systems (vCMTS). The open-standards-based HPE Edgeline EL8000 Converged Edge System was therefore developed as a cost effective replacement for CSPs’ current proprietary edge systems, with enhanced performance and versatility for data-intensive real-time digital services. Additionally, the HPE Edgeline EL8000 Converged Edge System’s unique design delivers high performance and ultra-low latency for the most demanding use cases, including media streaming, IoT, artificial intelligence, and video analytics, in a compact and ruggedized form factor, equipped with edge-optimized serviceability and remote systems management.
“CSPs have come a long way in virtualizing their networks. As this continues, the distribution of converged communications and compute capacity throughout the network will accelerate lower costs and improve service”, said Dr. Tom Bradicich, Vice President and General Manager, Converged Servers, Edge and IoT Systems, HPE. “The HPE Edgeline EL8000 Converged Edge System delivers the capabilities of closed proprietary systems and more, but on an open-standards platform, combined with proven data-center class IT.”
The EL8000 delivers the capabilities of closed proprietary systems but on an open-standards platform
Designed for the real-life challenges
The massive growth of data volumes requires that CSPs deploy high-performance edge systems in their cell sites, often in remote and harsh environments. Moreover, this infrastructure must support many workload and quality-of-service requirements for which tailored slices of the network are employed. The HPE Edgeline EL8000 Converged Edge System delivers an combination of capabilities to meet these challenges, including:
- Compact and ruggedized design optimized for harsh cell-site locations – Exceeding the requirements of industry standards NEBS and ASHRAE class 3 and 4, the system is resistant against hazardous environmental influences like heat, shock and vibration, as well as failover, supporting continuous operation between 0 and 55 degrees Celsius. The system can run rack mounted or stand-alone in any space available, with either a front-to-back and back-to-front cooling design.
- Low-latency, high-performance system design powers data-intensive applications at the edge – The single-socket design, equipped with high-end Intel® Xeon® Scalable Processors, reduces latency and energy consumption. System components can be combined, scaled and hot-swapped to meet changing demands, supporting, among others, NVIDIA® Tesla® GPUs, FPGAs from Intel and Xilinx, NICs from Intel or Mellanox, up to 1.5TB of memory and 16TB of storage.
- Modular blade and chassis options for use-case flexibility – With a range of depth and width options for blades and chassis, the system can be flexibly configured and scaled to meet new or changing use-case requirements. The flexible design allows CSPs to extend small- and micro-cell deployments, ensuring that cellular coverage can keep pace with increasing numbers of connected devices.
- One-click provisioning and remote systems management ensures continuous availability and performance in far-flung cell-sites – HPE’s proven HPE iLO 5 technology and the newly developed chassis manager software enable remote provisioning, ongoing system health monitoring, updates, and management of HPE Edgeline EL8000 Converged Edge Systems across thousands of cell sites, from cell towers to oil rigs, without needing IT expertise on site.
“Collaboration between HPE and Intel has resulted in this versatile platform for network transformation at the edge,” said Sandra L. Rivera, Senior Vice President and General Manager, Network Platforms Group, Intel. “Powered by Intel Xeon Scalable processors and based on open standards, the HPE Edgeline EL8000 Converged Edge System will enable high performance, flexible and intelligent networks that are required to deliver high bandwidth and low latency for edge and 5G services.”
HPE and Samsung Electronics Corporation (SEC) are collaborating to provide a joint edge-to-core vRAN commercial solution based on Samsung’s radio network technologies and system integration services and the HPE Edgeline EL8000 Converged Edge System.
“Samsung and HPE combine their strengths in radio networks, edge systems, and telecommunications infrastructure to drive the change towards a standard-IT based and software-defined network edge,” said Wonil Roh, Vice President, Head of Technology Strategy at Samsung Network Business. “The HPE Edgeline EL8000 Converged Edge System will play a key role in Samsung’s challenge to evolve our customers’ networks with 5G vRAN demanding intense low-latency.”
While some CSPs aim to deploy 5G from 2020 onwards, others may not be able to do so for a few years, potentially leaving entire regions without 5G coverage. As part of this interim process CSPs are turning to multi-access edge computing (MEC) software, which delivers many of the benefits of 5G, but using 4G LTE infrastructure. For this reason, HPE is collaborating with Tech Mahindra, a global leader in MEC software, to deliver MEC solutions based on the HPE Edgeline EL8000 Converged Edge System.
“Our collaboration with HPE and the introduction of the HPE Edgeline EL8000 Converged Edge System is a major step for driving a fast and smooth transformation towards open standards at the edge in the Telco and Comms marketplace,” said Karthikeyan Natarajan, Global Head, Engineering, IoT & Enterprise Mobility, Tech Mahindra. “As a leader in Telco and Comms software and services, Tech Mahindra sees HPE as ideally positioned to help us deliver significantly improved user experiences, particularly through the often-uneven transformation from 4G to 5G.”
The HPE Edgeline EL8000 Converged Edge System will be available worldwide from June 2019.
Programmers of machine control in the US still stick with the old Ladder Diagram editor, so Opto 22 adds it to its groov EPIC controller. This is sort of the outlier of the things I learned at last weeks’s ARC Industry Forum in Orlando. Most of my interviews were either cyber security or HMI/SCADA it seems. I had wall-to-wall meetings and then travel. So, I’m just catching up on thoughts.
Somewhere around 25-30 years ago I could program (not proficiently, but turn out work anyway) in BASIC, C, C++, Java, Pascal. Then I ran into Ladder Logic. Why would anyone do this, I exclaimed! In the US all this time later, it’s Ladder or nothing in much of the country. Maybe the millennials can move this forward???
Recognizing this fact of life, the prototypical flow chart programming company, Opto 22 has added a free software upgrade with standard IEC 61131-3 programming methods.
Opto says, “Adding these new programming options to the existing flowchart and custom user-written options in groov EPIC gives control engineers the ability to program using a variety of languages they already know, while taking advantage of the EPIC’s extended capabilities for automation and industrial internet of things (IIoT) applications. All IEC 61131-3 standard languages are supported by groov EPIC, including Function Block Diagram (FBD), Structured Text (ST), Sequential Function Charts (SFC), and Ladder Diagram (LD).”
Engineers can mix and match several software tools to build control and IIoT solutions on one unified platform. Plus companies can continue to leverage existing employee knowledge in IEC 61131-3 programming methods, including decades-old ladder logic.
The PC-based CODESYS® Development System V3 is used to create and compile IEC 61131-3 programs for download to a pre-installed CODESYS Runtime running on groov EPIC. The CODESYS Development System is available at no charge from the CODESYS Store. The CODESYS Runtime on groov EPIC is enabled by a free software license available from Opto 22.
“As the world’s leading manufacturer of independent IEC 61131-3 software,” stated Markus Bachmann, President of the U.S. subsidiary of the CODESYS Group, “we are excited that CODESYS has been chosen to boost Opto 22’s groov EPIC to the next level in industrial automation products, integrating state-of-the-art industrial control with new IIoT and Industry 4.0 applications.”
In addition to IEC 61131-3, groov EPIC can also be programmed using Opto 22’s native PAC Control. Field-proven, flowchart-based PAC Control with optional scripting offers 400+ plain English commands for analog process and digital sequential control, complex math, conditional branching, string handling, and other complex functions.
groov EPIC integrates the easy-to-use HMI software groov View with its control programs. Once an IEC-61131-3, PAC Control, or custom software application is developed, the control program’s tags and I/O are available for building a groov View HMI. Data from other systems and equipment on premises, at remote locations, and in the cloud can also be included in the HMI. The drag-drop-tag HMI construction is quick, security is built in, and trending and user notifications are included.
Authorized users can view this HMI to see data and control processes on the integral, industrial-grade color touchscreen display on the front of the EPIC processor. They can also view the HMI on an external HDMI monitor, and from any web browser or mobile device.
Free Product Upgrade
To take advantage of this new programming option, current groov EPIC owners can simply install a free upgrade. As with all quarterly upgrades to groov EPIC since its introduction in February 2018, this upgrade requires only a software download. Unlike all other industrial automation products and platforms, groov EPIC is improved quarterly based on user feedback, with no need to replace existing hardware. These software upgrades provide significant performance improvements and protect user hardware investments, all at little or no cost. The groov EPIC system can change with you as your application grows or changes.
groov EPIC System
Based on Opto 22’s 45 years of experience as an automation manufacturer, the groov EPIC system merges tough industrial hardware with open protocols and standards to provide an ideal system for both automation and IIoT applications. Built to withstand conditions at the edge of networks in factories and remote locations, EPIC is approved for use by UL in hazardous locations and is ATEX compliant. EPIC can be used to collect, process, view and exchange data where it is produced, and this data can then be securely shared among databases, cloud services, PLC systems and other components. In recognition of its unique capabilities, groov EPIC won the 2019 Control Engineering Engineers’ Choice Award in the Industrial Internet of Things Connectivity category.
This is another aspect of consolidation as the Linux Foundation brings several open source projects together under one umbrella. This action should coordinate development and speed access to the market. Among these announcements, I see that EdgeXFoundry the project I’ve addressed a few times before and actively backed by Dell Technologies has been morphed into the organization. An announcement by ZEDATA relative to these activities is attached below.
The Linux Foundation launches LF Edge, an umbrella organization that aims to establish an open, interoperable framework for edge computing independent of hardware, silicon, cloud, or operating systems.
Backed by more than 60 global leaders including AT&T, Samsung, Dell, HP, IBM, Intel, Huawei, Qualcomm, Red Hat and ARM, LF Edge will create a software stack that brings the best of telecom, cloud, and enterprise to ensure greater harmonization with lower latency, increased data speed, more security and scalability.
LF Edge is initially comprised of five projects that will support emerging edge applications in the area of non-traditional video and connected things that require lower latency, faster processing and mobility.
LF Edge includes Akraino Edge Stack, EdgeX Foundry, and Open Glossary of Edge Computing, formerly stand-alone projects at The Linux Foundation. The initiative also includes a new project contributed by Samsung Electronics, which will create a hub for real-time data collected through smart home devices, and another project from ZEDEDA, which is contributing a new agnostic standard edge architecture.
“The market opportunity for LF Edge spans industrial, enterprise and consumer use cases in complex environments that cut across multiple edges and domains. We’re thrilled with the level of support backing us at launch, with more than 60 global organizations as founding members and new project contributions,” said Arpit Joshipura, general manager, The Linux Foundation. “This massive endorsement, combined with existing code and project contributions like Akraino from AT&T and EdgeX Foundry from Dell EMC, means LF Edge is well-positioned to transform edge and IoT application development.”
Through the formation of a software stack that brings the best of telecom, cloud, and enterprise (representing location, latency and mobility differentiation), LF Edge will help ensure greater harmonization to accelerate deployment among the rapidly growing number of edge devices slated to exceed 20 billion by 2020. In order for the broader IoT to succeed, the currently fragmented edge market needs to be able to work together to identify and protect against problematic security vulnerabilities and advance a common, constructive vision for the future of the industry.
More about LF Edge projects:
- Akraino Edge Stack is creating an open source software stack that supports high-availability cloud services optimized for edge computing systems and applications;
- EdgeX Foundry is focused on building a common open framework for IoT edge computing.
- Home Edge Project, seed code contributed by Samsung Electronics, is a new project that concentrates on driving and enabling a robust, reliable, and intelligent home edge computing framework, platform and ecosystem running on a variety of devices in our daily lives.
- Open Glossary of Edge Computing provides a concise collection of terms related to the field of edge computing.
- Project EVE (Edge Virtualization Engine), contributed by ZEDEDA, will create an open and agnostic standard edge architecture that accommodates complex and diverse on- and off-prem hardware, network and application selections.
As the IoT increasingly trades legacy embedded devices for cloud native computing devices with greater compute power, edge and IoT developers need vendor-neutral platforms and a shared vocabulary for deploying and securing their devices. Industries including industrial manufacturing, cities and government, energy, transportation, retail, homes, building automation, automotive, logistics and healthcare all stand to be transformed by edge computing, which by its nature spans many different systems, domains, hardware and software.
Bringing Unity to the Fragmented Edge Computing Realm
Already home to several other thriving umbrella organizations – including Cloud Native Computing Foundation, LF Networking, and LF Deep Learning –The Linux Foundation provides a neutral structure for building an open source community. Under the auspices of The Linux Foundation, LF Edge will drive better, more secure development at the edge, outlining an aligned vision for the diverse and complex edge projects being built today.
LF Edge is already supported by a strong roster of industry-leading founding members: (Premier) Arm, AT&T, Baidu, Dell EMC, Dianomic Inc., Ericsson, HP Inc., HPE, Huawei, IBM, Intel, inwinStack, Juniper Networks, MobiledgeX, Netsia, Nokia Solutions, NTT, OSIsoft, Qualcomm Technologies, Radisys, Red Hat, Samsung Electronics, Seagate Technology, Tencent, WindRiver, Wipro, ZEDEDA; and (General) Advantech Co., Alleantia srl, Beechwoods Software Inc., Canonical Group Limited, CertusNet, CloudPlugs Inc., Concept Reply, DATA AHEAD AG, Enigmedia, EpiSensor, Foghorn Systems Inc., ForgeRock US Inc., Foundries.io, Hangzhou EMQ Technologies Co. Ltd., IOTech Systems Ltd., IoTium, KMC, Linaro, Mainflux, Mocana, NetFoundry, Packet, Pluribus Networks, RackN, Redis Labs, VaporIO, Vitro Technology Corp., Volterra Inc., Wanxiang Group; and (Associate) Automotive Edge Computing Consortium (AECC), Beijing University of Posts and Telecommunications (BUPT), Electronics and Telecommunications Research Institute (ETRI), Infrastructure Masons, Inc., and Project Haystack.
“End-to-end cohesion requires big companies to come together to foster the space for industrial collaboration and emerging architectures across mobile, residential, SMB and enterprise organizations when dealing with the edge,” said Roman Shaposhnik, vice president of Product and Strategy, ZEDEDA. “This initiative provides critical leadership — not just a piece of the edge puzzle — with the ultimate output being working code.”
“As devices play more important roles in our everyday lives, the edge computing is one of the key driving forces for a new computing paradigm within the IT industry,” said Seunghwan Cho, executive vice president of Samsung Research, the advanced R&D arm of Samsung Electronics’ device business. “As Samsung is one of the leading open source contributors at LF Edge, we’ll be in the forefront of realizing and accelerating edge computing, which can provide assistance to a wide array of fields, including Home Edge, Industrial, and Mobile Edge Computing (MEC).”
“The Linux Foundation has created the perfect vehicle for collaboration and coordination across the diversity of LF Edge projects,” said Matt Trifiro, former chair of the Open Glossary of Edge Computing and chief marketing officer, Vapor IO. “We see the the Open Glossary playing a vital role in fostering a shared understanding that accelerates innovation. We look forward to working with the all of the LF Edge projects to cross-pollinate terminologies and harmonize the lexicon.”
“We are thrilled by the progress of Akraino Edge Stack so far and excited to see the Linux Foundation deepen its commitment into edge computing,” said Oliver Spatscheck, former Akraino Board chair and assistant vice president at AT&T Labs. “The launch of LF Edge will accelerate edge innovation and drive real business value by bringing a diverse set of edge players under one roof.”
“LF Edge will create a comprehensive and coordinated set of foundational open source tools to enable developers to accelerate time to value in creating IoT and Edge computing solutions,” said Jason Shepherd, former governing board chair of EdgeX Foundry, and IoT and Edge Computing chief technology officer at Dell Technologies. “We look forward to continuing to foster IoT interoperability within the EdgeX community in addition to collaborating across LF Edge projects to develop de facto-standard APIs for intelligent interactions between the application and infrastructure planes within the broader edge ecosystem.”
In further news, ZEDEDA Announces Project EVE, Partners with The Linux Foundation to Develop an Open On-Prem Enterprise Edge Computing Architecture
Open source Project EVE (Edge Virtualization Engine) chartered to create open, agnostic edge architecture targeting on-premise, cyber-physical enterprise edge
Joins LF Edge, The Linux Foundation’s new umbrella organization to establish an open, interoperable framework for edge computing independent of hardware, silicon, cloud, or operating system.
Project EVE establishes a lightweight virtualization engine and open APIs for IoT edge gateways and edge servers with built-in security for enterprise applications including industrial automation, clean energy, retail and beyond
Embraces zero-trust as the de-facto method for securing on-prem edge devices
“Open source is the ideal approach for enabling app developers to navigate the crowded, diverse, multi-vendor edge that exists in the enterprise today,” said Roman Shaposhnik, Co-Founder and VP Product & Strategy, ZEDEDA. “By accelerating the development of cloud-native edge applications, Project EVE is paving the way for the next generation of edge applications in enterprises — from robotics to AI to predictive analytics and automation.”
Consolidation is the name of the game for the past few years in the automation and controls market. We’ve seen companies on the acquisition trail. Not limited to for-profit companies, industry alliances and organizations have been consolidating as well. A few years ago it was Fieldbus Foundation and HART Communication Foundation joining to form FieldComm Group. Now we have consolidation in the Industrial Internet of Things space. This no doubt signals growing maturity of the market and technologies.
The Industrial Internet Consortium (IIC) and the OpenFog Consortium (OpenFog) announced January 31 that they have finalized the details to combine the two “largest and most influential” international consortia in Industrial IoT, fog, and edge computing. Effective immediately, the organizations will work together under the IIC umbrella to drive the momentum of the industrial internet, including the development and promotion of industry guidance and best practices for fog and edge computing.
This action brings OpenFog members into the IIC at a time when their complementary areas of technology are emerging in the mainstream. The first formal meeting of the unified organization will be held in Raleigh, N.C., from February 11-14.
The IIC, now incorporating OpenFog, also announced that the IIC Steering Committee, which guides the strategic direction of the organization, has elected two OpenFog principals:
· Ron Zahavi, Chief Strategist for IoT Standards, Azure IoT, Microsoft. Mr. Zahavi is focused on IoT standards and consortia and also leads Microsoft’s Worldwide IoT Architecture Community. Mr. Zahavi has extensive experience in all aspects of technology management and solution delivery, 18 of those related to IoT solutions. Matt Vasey, Microsoft director, AI and IoT business development, will serve as the alternate to Mr. Zahavi.
· Mung Chiang, John A. Edwardson Dean of the College of Engineering, Purdue University. Dr. Chiang was previously the Arthur LeGrand Doty Professor at Princeton University and founded the Princeton EDGE Lab in 2009. The Lab bridges the theory-practice gap in edge computing/networking research by spanning from proofs to prototypes. Dr. Chiang received the 2013 Alan T. Waterman Award for his contributions to networking R&D.
“This agreement brings together the two most important organizations shaping the Industrial Internet of Things. The combined organization offers greater influence to members, more clarity to the market, and a lower-risk path to the future for end users. We will be the center of gravity for the future of Industrial IoT systems across industry verticals,” said Stan Schneider, CEO of Real-Time Innovations (RTI) and Vice Chair of the IIC Steering Committee. “We welcome the experience and vision that Ron Zahavi and Mung Chiang bring to our Steering Committee.”
“We are excited to take the first steps toward integrating the OpenFog Working Groups, Testbeds and Use Cases with those of the IIC,” said Matt Vasey, OpenFog chairman and president, and director, AI and IoT business development, Microsoft. “Our membership is highly motivated to contribute at every level to continue the advancement of fog technology in the Industrial Internet.”
Following are additional quotes from IIC Steering Committee Members
“We are looking forward to our continued work at the IIC strengthened with the addition of OpenFog. The combined organization will cover the edge to cloud continuum and leverage the international diversity of its members, regional committees and testbeds.” Ron Zahavi, Chief Strategist for IoT Standards, Azure IoT, Microsoft, IIC Steering Committee Member
“The OpenFog Consortium and the Industrial Internet Consortium coming together marks a major step in the evolution of IoT and embedded AI. The complementary strengths of the two organizations now jointly serve global industry in the most exciting era of these technologies.” Dr. Mung Chiang, John A. Edwardson Dean of the College of Engineering, Purdue University, IIC Steering Committee Member
“Building out the IIoT ecosystem is essential to ensuring quick market adoption. A significant amount of data is processed at the edge in a majority of IoT solutions being deployed. Joining our memberships as well as our technical edge and fog expertise is a force multiplier for the guidance that we are creating for the IoT industry.” Wael William Diab, Senior Director, Huawei Technologies, IIC Steering Committee Secretary
“ABB’s digital approach recognizes the importance of all elements of an IIoT stack, from the edge to the cloud, from the sensor, the automation system, and the IoT analytics, as well as the importance of open standards to ensure interoperability. As an IIC member since early days and an IIC Steering Committee member, ABB sees a great value in joining forces between the Industrial Internet Consortium and the Open Fog consortium.” Dr. Christopher Ganz, ABB Group VP Service R&D, IIC Steering Committee Member
I highly recommend putting Seth Godin on your radar—both his blog and his podcast. He always makes you rethink your assumptions.
He discusses problems—crisis versus chronic in this blog post.
We all live to the crisis. Pumps go down. Motor bearings freeze. Valves stick.
I’ve lived the situation of the plant manager threatening bodily harm if I don’t get the machine running—now.
Chronic? That’s an entirely different situation.
The problem exists. We just are not aware of it. That is, until it becomes a crisis.
Chronic is a system problem. We got used to it. A small, but nagging, pain that we learn to live with.
These require a change to the system to repair. Think the advice of W. Edwards Deming.
This is where a good IIoT system with solid analytics and visualization can save your bacon.
What little problems are you letting slide until it becomes a crisis?