Jason Shepherd, Ecosystem VP, has been busy building this edge ecosystem and took time to chat with me about this news from ZEDEDA. The bullet points below summarize. First, I thought I do a reminder about “edge orchestration”, the core of ZEDEDA’s offering. Essentially edge orchestration makes it easier (on the typical engineering scale of easy) to build management and security of hardware and applications as you build out your IoT system.
Partnerships are a growing trend, and this release details several both with commercial companies and with consortia. Google Cloud makes another appearance on my blog, as well. As I’ve said, these enterprise cloud services are getting very interesting. This release focuses on the energy vertical. Look for additional focus industries coming in the future.
- Google collaboration to leverage ZEDEDA’s expertise in distributed edge computing
- Additional partnerships include Juniper Networks, Advantech, Dianomic and the IOTA Foundation
- ZEDEDA joins LF Energy, OSDU and Project Alvarium to advance open collaboration to address industry challenges
The energy industry is undergoing rapid evolution as it adjusts to sweeping changes in everything from aging infrastructure to an imbalance in traditional ways consumers use and produce energy.
To address this complex equation, ZEDEDA, the leader in orchestration for the distributed edge, today announces significant advances in three key areas—partnerships, industry consortiums and a developer program—that position open collaboration as a key enabler for the industrial market, including companies looking to address the macro trends in the energy space.
ZEDEDA will provide its zero-trust, cloud-based orchestration solution for distributed edge computing to help Google Cloud customers securely scale deployments of any edge application, including AI/ML, on choice of hardware. This is in response to the growth of cloud infrastructure in industrial markets for centralized data storage and management, cross-facility analytics and visibility, and hyperscale compute capabilities to augment workloads deployed at the edge.
Together with joint edge application partners like Dianomic, customers will be able to drive new efficiencies through insights derived from edge environments. While the solution is horizontal in nature, the partnership is placing an initial focus on the energy space with target edge assets, including wind turbines, solar farms, and more.
“We see a number of edge use cases for multiple industries, including energy, that can be addressed with this Google Cloud partnership,” said Said Ouissal, ZEDEDA founder and CEO. “Our zero-touch provisioning and simplified lifecycle management enable businesses to start realizing business value with Google Cloud together with choice of edge hardware and applications.”
“As high-speed connectivity grows, organizations with presences at the network edge stand to benefit from low-latency access to business applications and cloud capabilities that can help modernize business processes, manage data, and more,” said Tanuj Raja, Global Head, Strategic Partnerships at Google Cloud. “We’re excited that ZEDEDA will make its edge orchestration capabilities available with Google Cloud, helping enable greater access to these applications and capabilities for customers across industries.”
In addition to its recent partnership with Agora, ZEDEDA has added additional partnerships to support energy customers facing key challenges such as digitizing legacy infrastructure, remotely monitoring critical assets, and balancing the grid with unpredictable renewable energy sources. Those partnerships announced today include:
- Juniper Networks: a joint offering for secure-edge computing with Juniper’s Session Smart Router and the vSRX Virtual Firewall secure networking capabilities on top of ZEDEDA’s zero-trust edge orchestration foundation. Together, ZEDEDA and Juniper provide customers with the simplicity of cloud orchestration and the flexibility of either backhauling data to the cloud or keeping it on-prem.
- Dianomic: an edge application platform for Industrial IoT use cases. ZEDEDA’s edge orchestration solution simplifies secure deployment of Dianomic’s FogLAMP platform and management of the underlying hardware.
- IOTA Foundation: a key collaborator for Project Alvarium, focused on facilitating trust in interconnected ecosystems through its feeless Distributed Ledger Technology (DLT). IOTA is leading a number of decentralized, innovative projects in the energy space.
“We are pleased to be working with ZEDEDA to provide advanced solutions for the energy sector,” said Karen Falcone, Sr. Director of Enterprise Marketing at Juniper Networks. “Combining our broad networking experience, including software-defined capabilities with the Juniper Session Smart Router and the vSRX Virtual Firewall with ZEDEDA’s Zero Trust architecture, provides customers with a robust security foundation for any mission-critical use cases within the energy vertical and beyond.”
“Together, Dianomic, ZEDEDA and Google deliver a complete Industry 4.0 edge stack built on an open-source foundation,” said Tom Arthur, CEO at Dianomic. “The energy industry faces new challenges as its generation and storage systems become massively distributed. Combining Dianomic’s FogLAMP for edge application development and data acquisition with ZEDEDA’s secure orchestration solution and Google’s state-of-the-art ML and cloud services delivers a robust and flexible foundation for edge computing challenges in industrial use cases.”
ZEDEDA is also increasing focus with Advantech as a strategic hardware partner for the energy space due to its broad portfolio of edge computing offerings, including models with C1/D2 certification for critical environments and new NVIDIA Jetson-enabled boxes to power edge AI.
“We are always looking for new and innovative ways to make edge computing solutions easier, more efficient, and more secure for customers in an industry that is seeing tremendous change,” said Jeff Brown, Sr. Sales Director for Advantech’s Industrial IoT Group. “Working with strategic, domain-focused partners such as ZEDEDA and Dianomic allows us to do just that. Advantech has one of the broadest hardware portfolios in the market, and our expansive Class 1, Division 2 product line allows for reliable, rugged solutions in remote and hazardous locations. We are thrilled to be a part of this ground-breaking group that’s putting digital transformation into the hands of the energy industry.”
Collaboration with PVHardware
ZEDEDA continues to make great progress with energy customers, recently closing a win with PVHardware. The company is using ZEDEDA’s orchestration solution to deploy and manage edge hardware and applications that aid in tracking the sun to maximize power generation.
“As we looked to leverage edge computing to help maximize power generation, we needed a solution to securely scale deployments in solar plants, including the ability to remotely manage the overall deployment lifecycle,” said Ivan Arkitpoff, CTO at PVHardware, “ZEDEDA provided us with a solution that makes it easy to deploy hardware and applications in the field and perform fail-proof updates from the cloud without having to send a technician out to the plant.”
ZEDEDA Joins Industry Consortium Groups LF Energy, OSDU and Project Alvarium
The emerging trends that face the energy industry are so wide-ranging that they require industry collaboration to address. ZEDEDA has joined several industry consortiums to drive standards via open source:
- LF Energy, a Linux Foundation project, is seeking to accelerate the energy transition of the world’s power and transportation systems through open-source technology. As a member, ZEDEDA will work with the LF Energy community to integrate EVE-OS into its reference architecture.
- The OSDU Forum, part of the Open Group and focused on developing an open, standards-based foundation to accelerate innovation in the energy space. ZEDEDA and Dianomic are assisting in building a proof-of-concept for OSDU’s edge computing reference architecture leveraging EVE-OS and Fledge from LF Edge, with more open-source efforts to be integrated over time.
- Project Alvarium, an emerging project within the Linux Foundation, is focused on enabling data confidence through the concept of trust fabrics. ZEDEDA is collaborating with Dell, the IOTA Foundation, Intel and other industry leaders to formally launch the project, with energy being an initial focus vertical.
“ZEDEDA’s capabilities enable zero-touch deployments of IOTA and Project Alvarium, creating scalable connective fabrics at the edge,” said Mat Yarger, Head of Smart Mobility at the IOTA Foundation. “This can enable a peer-to-peer utility of data in the energy sector, which has massive implications to address critical problems with grid management and oversight. It will also allow new business models around electric vehicles and smart grids to thrive, as well as the realization of new asset structures. All with trust being ingrained in how these systems operate.”
To learn more about how ZEDEDA is partnering with Google Cloud and Dianomic on edge solutions, register for ZEDEDA Transform 2021 on August 18-19. This free online event brings together experts from across the edge computing and IoT landscape to discuss today’s trends, challenges and opportunities. (Shameless self-promotion plug, you might find me among the participants there.)
These IT cloud services are penetrating ever more deeply into industrial and manufacturing applications. I’m beginning to wonder where the trend is going for traditional industrial suppliers combining AWS (and Google Cloud and Azure) with control becoming more and more a commodity. What sort of business shake-ups lie in store for us? At any rate, here is news from a company called Element Analytics, which bills itself as “a leading software provider in IT/OT data management”. I’ve written about this company a couple of times recently. It has started strongly.
Element, a leading software provider in IT/OT data management for industrial companies, announced June 9 a new offering featuring an API integration between its Element Unify product and AWS IoT SiteWise, a managed service from Amazon Web Services Inc. (AWS), that makes it easy to collect, store, organize, and monitor data from industrial equipment at scale. The API integration is designed to give customers the ability to centralize plant data model integration and metadata management, enabling data to be ingested into AWS services, including AWS IoT SiteWise and Amazon Simple Storage Service (S3) industrial data lake.
Available in AWS Marketplace, the Element Unify AWS IoT Sitewise API integration is designed to allow engineers and operators to monitor operations across facilities, quickly compute performance metrics, create applications that analyze industrial equipment data to prevent costly equipment issues, and reduce gaps in production.
“We are looking forward to bridging the on-premises data models we’ve built for systems like OSIsoft PI to AWS for equipment data monitoring using Element Unify,” said Philipp Frenzel, Head of Competence Center Digital Services at Covestro.
Element also announced its ISO 27001 certification proving both the security controls protect customer data and the Information Security Management System (ISMS) provide governance, risk management, and controls required for modern SaaS applications. Element Unify also supports AWS PrivateLink to provide an additional level of network security and control for customers.
“Our customers are looking for solutions that can help them improve equipment uptime, avoid revenue loss, cut O&M costs, and improve safety,” said Prabal Acharyya, Global Head of IoT Partners for Energy at AWS. “Now, the Industrial Machine Connectivity (IMC) on AWS initiative, along with Element Unify, makes possible a seamless API integration of both real-time and asset context OT data from multiple systems into an industrial data lake on AWS.”
Industrial customers need the ability to digitally transform to maximize productivity and asset availability, and lower costs in order to remain competitive. Element Unify, which aligns IT and operational technology (OT) around contextualized industrial IoT data, delivers key enterprise integration and governance capabilities to industrials. This provides them with rich insight, enabling smarter, more efficient operations. By integrating previously siloed and critical time-series metadata generated by sensors across industrial operations with established IT systems, such as Enterprise Asset Management, IT and OT teams can now easily work together using context data for their entire industrial IoT environment.
Though the API integration, AWS IoT SiteWise customers can now:
- Centralize plant data model integration and metadata management into a single contextual service for consumption by AWS IoT SiteWise.
- Ingest data directly into AWS services, including AWS IoT SiteWise and Amazon S3 data lake.
- Integrate and contextualize metadata from IT/OT sources in single-site, multi-site, and multi-instance deployments, and deploy the data model(s) to AWS IoT SiteWise.
- Enable metadata to be imported into AWS IoT SiteWise from the customers systems through Inductive Automation Ignition and PTC KEPServerEX to create context data.
- Keep both greenfield and brownfield AWS IoT SiteWise asset models and asset hierarchies updated as the Element Unify models adapt to changes in the underlying data.
- Close the gap between raw, siloed, and disorganized IT/OT data and enriched, contextualized, and structured data that can be easily paired with business intelligence (BI), analytical tools, and condition monitoring tools like AWS IoT SiteWise.
- Empower the user to build complex asset data models with ease.
- Build and deploy data models to AWS IoT SiteWise and keep them up to date with changes happening in source systems.
- Easily create the underlying data models to power AWS IoT SiteWise and many other analytical systems including Amazon SageMaker, Amazon QuickSight, and Amazon Lookout for Equipment.
“Operations data must be easy to use and understand in both the plant and in the boardroom. Industrial organizations who transform their plant data into context data for use in AWS IoT SiteWise, and other AWS services, will drive greater operational insights and achieve breakthrough business outcomes,” said Andy Bane, CEO of Element.
The Element Unify and AWS IoT SiteWise integration will be available to AWS IoT SiteWise customers in AWS Marketplace.
Qualcomm is in release mode these days—especially concerning chips for 5G and IoT. Last month was one new chipset. This month—four more. These will power many devices for your IoT / digital transformation initiatives.
Next-generation solutions deliver advanced Edge-AI performance, breakthrough power-efficiency, 5G connectivity capabilities and enhanced features for processing and security from entry level to premium tiers.
The opportunity to connect the unconnected has never been more prevalent. Qualcomm Technologies Inc.is enabling an IoT ecosystem of 13,000+ IoT customers to date, helping to accelerate the digital transformation and development of connected products.
Qualcomm Technologies extends its support for the IoT ecosystem by introducing seven new solutions to help enable the proliferation of next-generation IoT devices: Qualcomm QCS8250, Qualcomm QCS6490/ QCM6490, Qualcomm QCS4290/ QCM4290, and Qualcomm QCS2290/ QCM2290.
These solutions range from entry-level to premium tier to expand access to a variety of industrial and commercial applications. These latest IoT solutions from Qualcomm Technologies are purpose-built to help meet the needs of the expanding IoT ecosystem for key segments including transportation and logistics, warehousing, video collaboration, smart cameras, retail, healthcare, and more.
“Qualcomm Technologies is uniquely positioned to lead the IoT ecosystem forward with our systems-level approach. Along with the recently announced Qualcomm 315 5G IoT modem, these new IoT solutions further exemplify our commitment to driving global digital transformation and providing a portfolio of solutions to transform industrial and enterprise IoT applications to achieve cutting edge performance and seamless connectivity,” said Jeff Lorbeck, senior vice president and general manager of connected smart systems at Qualcomm Technologies. “We believe in the power of technology to enrich lives through purposeful innovation with solutions to support the ecosystem in reimagining how the world connects, works and communicates. These new IoT solutions are a step towards achieving that goal.”
The seven new IoT solutions offer a breadth of capabilities for a range of smart devices and connected solutions with extended life hardware and softwareoptions forachieving long-term support for a minimum of eight years:
Qualcomm QCS8250 | Target applications: connected healthcare, digital signage, retail, and video collaboration The Qualcomm QCS8250 is Qualcomm Technologies’ next-generation premium-tier offering, optimized to deliver maximum performance at greatest power efficiency enabling compute intensive AI at the edge with support for Qualcomm Wi-Fi 6 solutions and 5G connectivity. This solution is designed to deliver premium-level performance through the Qualcomm Kryo 585 CPU architecture, the Qualcomm Artificial Intelligence (AI) Engine, and powerful image signal processor (ISP) to support up to 7 concurrent cameras with encode at up to 4Kresolution at 120 frames per second. This powerful solution offers a new Neural Processing Unit (NPU) for ultra-intuitive AI in addition to machine learning for compute-intensive IoT applications to enable smart cameras, video collaboration, AI hubs, connected healthcare and smart retail. Purpose-built for industrial and commercial applications, this platform delivers ultimate performance experience with flexible options enabled by our 3rd party ecosystem to accelerate deployment and commercialization at scale.
Qualcomm QCS6490/QCM6490 | Target applications: connected healthcare, logistics management, retail, transportation, and warehousing The Qualcomm QCS6490 and Qualcomm QCM6490 are Qualcomm Technologies’ first optimized IoT solutions built to deliver premium-tier features including global 5G connectivity and lightning-fast Wi-Fi 6E for high-tier IoT devices. With the Kryo 585 CPU architecture this solution delivers powerful performance and is purpose-built for industrial and commercial IoT applications such as transportation, warehousing, connected healthcare, logistics management and across retail point of sale (POS) kiosks. Equippe to support 5G mmWave/Sub-6 GHz and Wi-Fi 6E, this solution helps enable the latest generation of ruggedized handhelds and tablets, industrial scanners, and human machine interface systems. Through powerful connections, reduced latency, along with dynamic triple ISPs and advanced Edge-AI and compute based on 6th generation Qualcomm AI Engine, this solution delivers astonishing performance at reduced power compared to previous generation solutions.
Qualcomm QCS4290/QCM4290| Target applications: cameras, industrial handhelds, and security panels The Qualcomm QCS4290 and Qualcomm QCM4290offer maximum mid-tier benefits delivering greater performance. With the Kryo260 CPU architecture for increased speeds and robust on-device performance, in addition to the 3rd generation Qualcomm AI Engine, this platform delivers powerful performance, dynamic camera capabilities and broad connectivity options (LTE Cat13, Wi-Fi 6-Ready), ideal for industrial and commercial IoT applications such as industrial handhelds in logistics and warehousing, security panels and cameras. For increased intuitive on-device intelligence, devices based on this new solution will help enable productive and efficient work environments.
Qualcomm QCS2290/QCM2290| Target applications: camera applications, industrial handhelds, retail and tracking The Qualcomm QCS2290 and Qualcomm QCM2290 are robust entry-level offerings, enabling reliable performance and power-conservation with LTE connectivity, upgraded features and memory support for low power consumption. Equipped with the Cortex A53 CPU architecture, the entry-level platform is a cost-effective solution, delivering greater performance, higher graphics capabilities, better quality images, and improved power performance. This platform is well-suited for, retail point-of-sale (POS), industrial handheld, tracking and camera applications. Also, QCS2290/QCM2290 baseband chip is pin-to-pin compatible with QCS4290/QCM4290which helps customers utilize hardware and software across various IoT devices to reduce cost and time to market.
The Qualcomm QCS8250, Qualcomm QCS4290/ QCM4290, and Qualcomm QCS2290/ QCM2290 solutions are available now. The Qualcomm QCS6490/ QCM6490 solution are expected to be available in second half of 2021. Qualcomm Technologies’ new solutions are fueling future technology developments to enable the next generation of innovation across the IoT ecosystem.
“As a tremendous impact of COVID-19, the video conferencing system becomes a must. The development of the Qualcomm QCS8250 helps enable AmTran to deliver fine-tuned audio and video processing products, for communication without distance and interference,” Sam Wu, president, AmTram Technology.
“As a global leading supplier of camera and room solutions for meeting spaces, we are thrilled by the announcement of Qualcomm QCS8250 which will enable us to not only stay competitive but also to bring better UC&C solutions in the video conferencing ecosystem” said Andy Hsi, president, AVer Information Inc.
“Given our strong focus on intelligent camera and machine vision solutions, eInfochips is excited about the launch of Qualcomm QCS8250 solution. Leveraging 25-plus years of product design experience, eInfochips enables intelligent devices, such as collaboration devices, smart robots, AR/VR devices, home/industrial automation and intelligent cameras based on this module,” said Parag Mehta, chief business development officer, eInfochips.
“The announcement of Qualcomm Technologies’ newest IoT solutions is an exciting step forward in the global proliferation of next-generation IoT devices. Coupled with Fibocom’s end-to-end IoT modules and wireless communications solutions, these new solutions will enable powerful, intelligent, and revolutionary IoT solutions across a variety of industries and vertical applications,” said Lingpeng Ying,chief executive officer, Wireless Inc.
“As a leading IoT solution distributor in Taiwan, we have strong application insights and support customers from concept to design to manufacturing. The Qualcomm QCS8250 is a leading AI computing platform, and we are pleased to be collaborating with Taiwan customers to enable the high-performance, low-power computing IoT platform in 1H2022, including a SMARC module from iBase and video conference solution from Aver,” said Eric Cheng, president, Hongtech Electronics Co., Ltd.
“With the recommendation of HongTech, we have adopted the next-gen premium-tier processor, the Qualcomm QCS8250 into our Qualcomm-based SMARC module which provides power efficiency and superior performance with 4K resolution at 120 frames per second video resolution, making it an ideal choice for high-tier multi-display/multi-camera signage, IWB, video conferencing or retail analytics applications,” said YN Chen, vice-chief executive officer, IBASE Technology.
“The new QualcommQCS8250 platform brings exciting new capabilities to the intelligent video market for developers. This development will enable Lantronix to provide IoT vertical market customers the ability to get to market quickly, especially in video collaboration, surveillance/smart cities, smart display, and AI retail boxes. The Qualcomm QCS8250 will drive the next generation of video developments by addressing important video processing and latency considerations, Lantronix looks forward to being part of this journey,” said Paul Pickle, president and chief executive officer, Lantronix.
“As a global leading supplier of cellular modules for the IoT, we are thrilled by the announcement of Qualcomm Technologies’ next-generation IoT solutions. These new solutions will support us in developing next-generation IoT applications and usher in a new generation of IoT applications and expansion in the ecosystem,” said Benjamin Du, chief executive officer, MeiG Smart.
“Qualcomm Technologies’ newest IoT solutions are a strong step forward for the retail market and IoT ecosystem to enable the global proliferation of next-generation devices. We are proud to work with Qualcomm Technologies to continue to enable the growth of this market and ecosystem.” said Tom Luo, executive vice president, PAX Computer Technology (Shenzhen) Co.,Ltd.
“Qualcomm Technologies’ newest IoT solutions mark an exciting step forward in the global proliferation of next-generation IoT devices. These solutions are highly compatible with Quectel’s existing 5G and LTE modules, allowing customers to accelerate their designs with fast time-to-market. We are very proud to work with Qualcomm Technologies as we continue to enable the growth of the Internet of Things,” said Patrick Qian, chief executive officer, Quectel.
“The announcement of Qualcomm Technologies’ newest IoT solutions is an exciting step forward in the global proliferation of next-generation POS devices. Coupled with SUNMI’s flagship products, these new solutions will enable powerful, intelligent, and revolutionary devices across a variety of industries and vertical applications,” said Jeep, chief operations officer, SUNMI.
“SUNSEA AIoT is committed to utilizing advanced IoT technologies to develop all-in-one solutions for the IoT ecosystem from 5G modules to smart communities solutions. Through the introduction of Qualcomm Technologies’ latest IoT solutions, Qualcomm Technologies is enabling us to develop next-generation products, provide end-to-end 5G solutions, intelligent industrial applications and help enterprises keep leading of the industry forward with the latest IoT advancements,” said Yang Tao, chief executive officer, SUNSEA AIoT.
“Tymphany, a worldwide leader in audio ODM services, has collaborated with Qualcomm Technologies to bring to the market an integrated audio and video conferencing platform leveraging the Qualcomm QCS8250 on video collaboration bars. The video bar can support up to 3 video streams, 52M pixels sensor x2 and TOF with wide view angle lens. It’s also covered with modularized Wi-Fi 6 connectivity. Tymphany is also working with internal speaker and audio solutions for a best-in-class video collaboration experience for user. The Qualcomm QCS8250 enables a standalone architecture that is critical to enable certifications for today’s leading video collaboration software applications” said Tungwen Tu, director of conferencing products in professional audio division, Tymphany.
“VIDERI is sincerely grateful to be an early adopter of the Qualcomm QCS8250 with Qualcomm Technologies alongside its world-class engineers and developers,” commented Francois Gariepy, chief technology officer, VIDERI. “With its powerful graphics and neural network processing, not to mention the integratedWiFi6 capability, the Qualcomm 8250chipsetwill become the cornerstone of our next-generation, AI-curated retail visual experience platform.”
“Based on our long strategic relationship, we congratulate Qualcomm Technologies on the launch of these cutting-edge solutions,” said Julie Johnson, vice president of product management, Zebra Technologies. “This innovation gives us more flexibility than ever before to build the right technology solutions for our customers based on their specific needs.”
Qualcomm is the world’s leading wireless technology innovator and the driving force behind the development, launch, and expansion of 5G.When we connected the phone to the internet, the mobile revolution was born. Today, our foundational technologies enable the mobile ecosystem and are found inevery3G, 4G and 5Gsmartphone.We bring the benefits of mobile to new industries, including automotive, the internet of things, and computing, and are leading the way to a world where everything and everyone can communicate and interact seamlessly. Qualcomm Incorporated includes our licensing business, QTL, and the vast majority of our patent portfolio. Qualcomm Technologies, Inc., a subsidiary of Qualcomm Incorporated, operates, along with its subsidiaries, substantially all of our engineering, research and development functions, and substantially all of our products and services businesses, including our QCT semiconductor business.
Two news items from The Industrial Internet Consortium (IIC) came my way recently regarding work on IoT. One announced the the publication of the Global Industry Standards for Industrial IoT whitepaper. The other announced launch of an IoT Patterns Initiative.
The whitepaper offers industry guidance in the development, adoption, and use of IIoT standards. The whitepaper outlines a vision and strategy to enable interoperability and system compatibility across the entire IIoT ecosystem.
“The Industrial Internet of Things (IIoT) is a rapidly expanding world of connected objects. As IIoT systems proliferate, organizations consume large amounts of data through machine learning algorithms and share it between partners, customers, and others,” said Erin Bournival, Co-Chair, IIC Standards Task Group and Distinguished Engineer, Dell Technologies. “Integration and interoperability are critical in IIoT environments. That’s not easy to achieve in complex IIoT environments, so standards play a critical role.”
The whitepaper lists categories of standards and the organizations that produce them. It provides business cases for adopting standards as well as strategies for participating in standards development. “Users and vendors cannot engineer a custom interface every time components or systems need to interact,” said Erich Clauer, Co-chair IIC Standards Task Group, and VP Industry Standards & Open Source, SAP. “Standards are the lingua franca for interoperability and can make the explosion of interfaces manageable. For suppliers, standards can reduce or eliminate costs.”
“Operational Technology (OT) can no longer deploy isolated islands of automation,” said Claude Baudoin, Principal Consultant, cébé IT & Knowledge Management, and one of the authors of the whitepaper. “Information Technology (IT) and OT must work together to achieve digital transformation. IIoT environments are connected to enterprise systems through the internet, and must adhere to IT communication, security and data norms.”
What is more, customers require standards compliance to avoid vendor lock-in. Standards compliance creates a competitive environment in which failure to support standards — international, regional, industry- or function-specific — becomes a competitive disadvantage. Regulatory agencies require standards adherence to make their monitoring and auditing work feasible. Standards also make employee skills portable across divisions and companies.
“Organizations must define a standards strategy and execute it,” said Sven Toothman, Lead Project Editor and Industry Standards & Open-Source Architect, SAP SE. “IIoT stakeholders could adopt and implement standards as they emerge, but this limited engagement exposes an organization to surprises. By participating in standards development, organizations can anticipate the emergence of new standards. That involves a commitment and extends to processes, product design, and budget.”
IIC members who wrote the Global Industry Standards for Industrial IoT whitepaper and a list of members who contributed to it can be found here on the IIC website.
IOT PATTERNS INITIATIVE
The IIC also announced the IIC IoT Patterns Initiative to crowdsource, review, revise, and publish a library of high-quality and well-reasoned IoT patterns for use and reuse across industries.
A pattern describes a recurring design or architectural problem in a specific context and offers an established scheme for its solution. IoT patterns include architectural designs to represent essential cohesive components and their assembly; and design patterns that illustrate solutions to specific problems.
“Patterns capture and condense teachings from developer and system architect experiences that others can use to tackle new problems,” said François Ozog, Director Edge & Fog Computing Group, Linaro, and Co-chair, IIC Patterns Task Group. “The IIC is also developing application notes to describe how to use patterns effectively in various contexts and to help identify the best patterns for solutions.”
Use-cases describe various perspectives of a system based on user roles by defining user requirements and identifying essential functionalities. “Many patterns are technical,” said Daniel Burkhardt, doctoral student, Ferdinand-Steinbeis-Institut, and Co-chair, IIC Patterns Task Group. “But by focusing on end-user concerns and requirements, developers and system architects will use patterns effectively, and solution designs will improve.”
“Patterns enable industries to succeed through collaboration on best practices,” said Dr. Jason McC. Smith, OMG Vice President, and Technical Director. “IIC is leading the way in IoT by building a pattern repository that developers can use to solve new problems.”
IIoT developers and system architects can access the IIC IoT Patterns repository on the IIC Resource Hub. Developers can also join the IIC Community Forum to discuss patterns. Workshops to educate the IIoT developer community will follow. For more information about the IIC IoT Patterns Initiative, read our blog.
Important news about IoT enabling technologies development. Europe and China are first targeted markets. Seemingly US engineers just don’t jump on new technologies and initiatives as quickly as the rest of the world. Management problem? Note that the supporting quotes are from Germany and France.
Qualcomm Technologies, Inc. helps lead the IoT ecosystem forward by introducing the company’s first, purpose-built Internet of Things (IoT) modem solution equipped with 5G connectivity and optimized for Industrial IoT (IIoT) applications.
The Qualcomm 315 5G IoT Modem-RF System is a comprehensive modem-to-antenna solution designed to support the IoT ecosystem in building upgradeable LTE and 5G devices for IoT verticals, accelerate the adoption of 5G connectivity for IoT, and expand the overall opportunity for 5G in the IoT industry. 5G was conceived as a broad connectivity fabric and today the momentum is beginning to exemplify the promised impact and growth of 5G for emerging applications including IoT. Acting as a catalyst for digital transformation, Qualcomm Technologies is at the forefront enabling the ecosystem with the solutions to update existing IoT systems and make 5G for IoT a reality.
The needs of modern IoT include seamlessly transitioning wired factories to wireless with solutions capable of supporting both LTE and 5G connectivity. The Qualcomm 315 5G IoT modem was designed with industrial and enterprise applications in mind, built with premium gigabit class performance, low-power, and thermal-efficient capabilities to enable a new generation of fast, powerful and high-performing IoT solutions. The Qualcomm 315 5G IoT modem is intended to meet the needs of industry segments including: retail, energy, automation and manufacturing, precision agricultural, construction, mining, public venues, and more.
With the global expansion of 5G, the Qualcomm 315 5G IoT modem is a new solution serving the high end of IoT broadband modems, complementing Qualcomm Technologies’ existing portfolio of LTE IoT modems with a path towards 5G proliferation. Additionally, due to its reduced footprint and highly integrated RF front-end, this solution expands the portfolio, purposely designed to provide a pin-to-pin compatible solution for current LTE legacy modules. This provides legacy modules with ability to upgrade their solutions with no changes needed to existing hardware, minimizing development efforts, costs and providing a seamless transition from LTE to 5G.
“Qualcomm Technologies is continuously optimizing and developing industry-leading technologies and modems ranging from the most power efficient NB-IoT solutions to new products like the Qualcomm 315 5G IoT modem, purpose-built to bring 5G connectivity capabilities to IoT,” said Jeffery Torrance, senior vice president, product management, Qualcomm. “We are pleased to unveil our new 5G IoT solution which will help stimulate and scale the 5G IoT industry and enable the transitions needed for Industry 4.0. This solution will help create long-lasting devices and promote growth and expansion in the 5G IoT industry, allowing seamless integration for customers utilizing previous generations of connectivity.”
The Qualcomm 315 5G IoT Modem supports global 5G NR sub-6GHz bands and operates in stand-alone (SA) only mode, with the capability to switch to LTE as needed, and can be deployed over private or public 5G networks, leveraging network slicing or in isolation. This solution is optimal for IoT applications that can be seamlessly integrated with existing ethernet and wired technologies. The new modem comes with extended life software and hardware maintenance and support, prolonging IoT devices for the duration of their life span. This new solution will help accelerate the digital transformation of the 5G IIoT industry, proliferating 5G for IoT.
The Qualcomm 315 5G IoT modem is expected to be commercially available in the second half of 2021.
The Qualcomm 315 5G IoT Modem is a significant step for the IoT ecosystem:
“5G is an important standard for the factory of the future. We are therefore working intensively on integrating 5G into our products. The Qualcomm 315 5G IoT Modem enables interesting new functions specifically for industrial IoT applications and helps usto open up new applications with 5G,” summarizes Dr. Steffen Haack, Member of the Executive Board of Bosch Rexroth AG and responsible for development.
“We recently released the first commercially available 5G router for industrial automation – _a solution that utilizes Qualcomm Technologies’ _5_G_ _solutions. The interest for 5G in industrial applications is steadily growing and we see many advantages with the announcement of the Qualcomm 315 5G IoT modem, as it will enable a smaller formfactor for industrial devices and open up new use cases,” said Jens Jakobsen, Development Manager at HMS Labs, HMS Networks’ initiative for new innovation and technology.
“We are excited by the launch of Qualcomm 315 5G IoT modem which addresses the specific needs for massive bandwidth, reliability, and performance across industries. This technology has the potential to become a catalyst of digitization, helping unlock unprecedented opportunities and efficiencies in innovative 5G industrial applications,” said Benoit Jacquemin, Innovation director Industry business, Schneider Electric.
Siemens:“Siemens and Qualcomm Technologies have a longstanding collaboration focused on technological cooperation in wireless communication technologies. With the release of products such as the Qualcomm 315 5G IoT Modem, Qualcomm Technologies shows its strong commitment to drive the digital transformation of industry and enables us to develop state-of-the-art Industrial 5G products,” said Sander Rotmensen, Director Industrial Wireless Communication, Siemens AG, Digital Industries.
Back in the 90s, I used to haul around a $25,000 vision system in the trunk of my car to perform demonstrations of machine vision technology applications.
Today, there is more video power in my smartphone than in that entire system.
Just like all the technologies we use in manufacturing, vision systems and video have become more powerful and useful,most often leveraging consumer electronics or IT innovations. I visited a small chemical refinery that installed streaming video into its operator interface for a unique, but essential, personnel safety/security application. Located in a rural area of Texas, the refinery operators periodically opened the gates to allow railway cars into the facility or to let the filled cars leave. The open gates became a welcome invitation to the local coyote population. Of course, these guys were not wanted wandering around the facility. The video system watched for incursions and alerted personnel.
Not too long ago, the bandwidth required by that streaming video would have been too expensive or awkward to be economical. Now, it’s just another sensor.
Intelligent Video for Health and Safety
These Covid pandemic days have led to new use cases for video. AT&T identifies a few key examples on their video intelligence page:
- Ensuring social distancing
- Counting people to maintain safe capacity
Infrared thermal imaging has progressed to the point that strategically placed thermal imaging cameras can monitor personnel for fevers—an outward sign of potential Covid infection. We can potentially stop the spread of the virus at the plant entrance.
Another Covid-related application involves contact tracing and social-distancing assurance. These applications require high bandwidth along with sophisticated analysis software—both now readily available. And, both technologies are poised for improvement. We will see 5G installations before long that will improve bandwidth, speed, and latency forvideo applications.
“Outside of these pandemic applications, process plants with hazardous areas have found video sensors to be a perfect solution to determining personnel safety during an incident. Rescue teams need to know who is in the area and where they are. Security teams can be alerted if someone wanders into a hazardous or restricted area.
Intelligent Video for Quality Control
Then we return to the applications I once tried to solve—product quality. While it is best practice to fix the process such that defects are not produced, vision inspection is another step in assuring products that fail to meet specification are not shipped to customers. Taking a feedback loop from inspection information provides a pathway to solving the process problem. As network bandwidth improves and video sensors become smaller, cheaper, faster, these video IoT solutions become more attractive.
5G is the Foundation
Apple released its latest iPhone (one of which is lying on my desk) with great hoopla about 5G. Apple pundits were originally less than enthusiastic about the 5G bandwidth. I have been advising them, along with clients and readers,about the tremendous value that will be unlocked by 5G. It may not be as apparent in an individual iPhone, but we will see a massive shift in business and manufacturing applications.
5G skeptics do exist, but most technologists are decidedly bullish on the possibilities. I think that manufacturers of many varieties will begin deploying the networks for one or two of the reasons that fit them, and then discover that they’ve received more benefit than they expected. Then managers and engineers will have difficulty remembering why there was any debate over moving from LTE to 5G.
As the AT&T Business team puts it in their “Agility Refined” white paper:
5G is the next generation of wireless communications technology. In essence, 5G will put the network edge closer to users and devices. It uses mid-band frequencies and millimeter wave (mmWave) to help accomplish this.
5G offers significantly larger spectrum allocations and enables exponentially increased data rates. It has a reduced range compared to today’s 4G frequencies—but the antennae needed for 5G are much smaller. This will allow for a dense network of small cells, enhancing the current user experience.
As you lay out your 5-year-and-beyond scenarios, this intelligent video powered by 5G will be technology to keep in the narrative.
This post was sponsored by AT&T Business, but the opinions are my own and don’t necessarily represent AT&T Business’s positions or strategies.