IoT News Roundup: Where is IoT headed?
The holiday season is fast-approaching and it seems there’s always a never-ending list of tasks that need to be completed every year. Just like the holiday checklist, tech in the IoT space seems to be ever-changing and expanding. As tech leaders and innovators we understand that life is hectic and unpredictable, but to make sure you don’t miss a beat, check out this week’s line-up for news in the IoT industry. Previously, we explored “How IoT is Saving Lives” when two massive natural disasters struck the U.S. In this post, we’ll ask the question, what’s next for the world of IoT/IIoT? Take a look at some of the top stories from the past couple of weeks: Forrester predicts what’s next for IoT In this recent post from @NetworkWorld about Forrester Research’s predictions post, Fredric Paul, @TheFreditor, asks the question on many people’s minds: Where is IoT headed? Among many points Paul makes in his article, one points out how IoT is likely to become more specialized in the coming year, moving away from generic hardware and software into platforms designed for specific industries. So-called “design and operate scenarios” will let IoT developers focus on the attributes that matter most to their own industries and use cases. Smart networks must evolve for mission-critical environments From @embedded_comp, Michael Ulch explains how the IoT industry has been flooded with advances in smart home automation, self-monitoring appliances, and connected security systems. All of these facets are important for the IoT existence but Ulch asks the same question as other reporters: what is next for IoT? Ulch believes that some of the greatest potential of the IoT is in the industrial and manufacturing realm, where Industrial IoT (IIoT) has the promise to monitor systems for preventative maintenance and boost energy efficiency and workplace productivity. However, Ulch says, successfully scaling from the smart home to the smart factory will require overcoming a number of technical challenges. How manufacturers are benefitting from the IoT revolution In this @NetworkWorld article by Majid Ahmed, it’s made clear that few people stand to benefit more from the IoT revolution than today’s manufacturers. Ahmed states in his article that whether it’s harnessing the power of data and metadata to make wiser decisions, or developing new and more efficient technologies capable of saving energy cost, the IoT is fundamentally reshaping how manufacturers produce the goods we use in our everyday lives. Businesses not aware of IoT issues This article from @techradar by @maxcooter briefly starts off by referencing an article from January, 10 surprising trends in the IoT for 2017, then Cooter continues, stating that Cradlepoint survey finds lots of interest in technology deployment but lack of security awareness. Cooter points out that, from these findings, IoT-using companies should be prepared to have a thorough overhaul of its infrastructure before deploying the technology. Despite the serious concerns about security, most are not having a second thought about rolling out IoT. Will this security breach take down most companies? Time will tell. The Industrial Internet of Things is Here to Stay In this article from @cbronline (Computer Business Review), author David Stain discusses how manufacturers are welcoming in a new era of productivity by enhancing Industry 4.0. The IIoT is at the heart of this transformation. Stain explores how a company’s success is often linked to its efficiency, hence visibility, across the plant floor, and how extending into the supply chain is a necessity. To keep pace with this competitive environment and the ever-increasing customer demands, every stage of the manufacturing process is facing the digital revolution. Final Thoughts: Virtually all industries and workers are benefitting from the technological revolution brought about by the inception and ensuring growth of IoT. Every industry does need to be cautious of the security threats that IoT comes with. Knowing this, we will still continue to see the growth for IoT especially in the manufacturing and Industrial industries. Be sure to stay tuned to our blog for the latest industry news and to read more about our own insights into some of these major trends.
Four Ways to Optimize Your Operations for IIoT
The phrase, “the future is here,” is overused and has evolved into a catchphrase for companies struggling to position themselves in times of technological or digital transformations. Still, the sentiment is understood, especially in times like today, where the Internet of Things is quite literally changing the way we think about hardware and software. We’d like to offer an addendum to the phrase: “The future is here more quickly than we thought it would be.” Digital transformation, increased computing ability, smart hardware and the growth of connectivity capabilities created a perfect storm of accelerated industry, and many were left scrambling to sift through the large amounts of information and solutions available. With that in mind, we wanted to provide some advice for companies across the industrial sector for the best ways to optimize operations for the Industrial IoT. 1) Upgrade your network and throughput capabilities. Nothing can kill the ROI of automated processes more quickly than the literal inability to function. It’s important to understand that as you upgrade machinery and invest in the software to run it all, those systems demand greater bandwidth in order to effectively utilize the big data and analytics capabilities. Several options exist, but for most companies some combination of industrial-strength broadband (WiFi), narrow-band, cellular and RF communications will create the most effective network for the needs. 2) Invest in smart hardware. This may seem like a no-brainer, and really, in the not-too-distant future, you may not even have a choice, but the shift toward Fog Computing is gaining momentum and being able to run decentralized computing between hardware and the Cloud can not only create greater operational efficiency, but it can also allow your data transmission to run more smoothly as well. The beauty of a Fog Computing system is that it allows a greater number of devices to transmit smaller data packets, which frees up bandwidth and speeds real-time data analytics. The core of this lies in the smart hardware. 3) Be proactive about application development. Smart hardware means that it has the ability to host applications designed specifically for your needs. Previously, many companies shied away from app development because it required highly skilled developers and devices capable of hosting those apps – a combination that wasn’t readily available. Today, the scene has changed. With the rise of Node-RED, it is much easier today to create proprietary applications without a computer engineering degree, and any company serious about leveraging IIoT technology needs to be able to to use the full scope of its data. 4) Secure your communications. There isn’t much more to be said about the importance of cybersecurity. If the last few years of massive data breaches haven’t rung alarm bells, then you aren’t paying attention. Cybersecurity today is a multi-layered need. Most companies building smart hardware are beginning to build encryption directly into the devices. But, since many companies use Cloud applications for computing and analytics, it is important to invest in strong security measures at that level as well. Unfortunately, the sophistication of cyber-attacks are only going to increase, along with the increase in importance of the data needing to be protected. It pays to be paranoid and act accordingly.
Looking Ahead: Kicking Off 2018 with Industrial IoT

As we face a quickly approaching 2018, it is shaping up to be a busy year! We are building a line-up of presentations at leading industry conferences to share our findings, innovation and expertise on the trends we’re seeing around Industrial IoT, the intelligent edge, and all the markets we have a presence in – oil/gas, military, unmanned systems, government, and utilities (to name a few). This year, we will be kicking off 2018 with a presentation at an Industrial IoT event in January hosted by TMC and Crossfire Media. This week, show organizers released details about the Industrial IoT Conference program being held January 22-25, 2018 at Disney’s Contemporary Orlando, Fla., and we are thrilled to be a part of the event. Here’s what we learned from their news: “The event will focus on the IoT technologies and solutions increasing the productivity and efficiency of manufacturing and production processes. The Industrial IoT Conference is collocated with IoT Evolution Expo which in its 19th iteration is the leading education and networking forum for the enterprise looking to understand how to develop and implement IoT Solutions.” The event is also going to offer a blend of keynotes, breakout sessions, panels and special events. FreeWave to Present in Orlando During the event, Scott Allen, the CMO of FreeWave Technologies, will have the pleasure of joining the Industrial IoT (IIoT) breakout sessions as a panelist in “IoT on the Factory Floor.” The session, featuring top IIoT experts and business leaders, will look at how IOT is being deployed on the factory floor and how it improves the management of production. Panelists will also answer important questions, such as: Have we gotten to the point where Programmable Line Cards are taking advantage of connectivity or are gateways making human intervention easier? Where is the promise of IoT for manufacturing being delivered and how? See the full event schedule here. Manufacturing & IoT in the News Recent reports indicate IoT in the manufacturing market is expected to grow at a CAGR of almost 30 percent. As manufacturing businesses work to reduce costs and innovate, while dealing with a transitioning workforce, the report predicts rapid growth in IoT investments. A recent Forbes article highlights the opportunity for app development as many in the manufacturing industry head towards retirement. As indicated by the rapid adoption of IoT, the “IoT on the Factory Floor” session in Orlando will certainly offer timely insight. We recently covered some big headlines in manufacturing, read the blog post to see which news stories caught our attention: https://www.freewave.com/iiot-headlines-manufacturing-big-data-predictive-maintenance-remote-access/ As we head towards the new year, we are in awe of the innovation and disruption that we often found ourselves in the middle of in 2017. We have some bold thoughts on what’s to come for IIoT in 2018 – so keep an eye out for that! Be sure to look for us in Orlando if you’re attending the Industrial IoT conference in January! We hope to see you there.
FreeWave Blog Series: The Intelligent Edge (Part 2)
Part 2: Novice App Dev – A Q&A with Greg Corey from FreeWave The Internet of Things (IoT) has changed the consumer world in ways no one ever imagined. By placing intelligence in the IoT network, the “Thing” can do whatever we want it to do. Now Industrial companies are seeking to take advantage of this edge-deployed intelligence in order to maximize profits, improve safety and streamline operations. In addition to the challenges IoT technology had to overcome – such as cybersecurity, scalability and interoperability – Industrial IoT (IIoT) must also focus on reliability, ruggedness and more. FreeWave is uniquely positioned to understand and address all of these challenges. We have delivered world class IIoT platforms for almost 25 years to thousands of industrial and unmanned systems customers. With that experience, we’re now leading the charge to deploy intelligent applications at the edge of industrial networks and unmanned systems. In the third installment – and second half of an interview we ran last week (read part one of the interview here) – of “The Intelligent Edge,” we sat down with Greg Corey, FreeWave systems engineer, to talk about his new app – ZumDash – and the future of app development of the Internet of Things. FreeWave: Over the course of developing ZumDash, are there any lessons or things that you took away from it that if you could go back and do it again, you would change, or moving forward you kind of see as something that you will incorporate into future projects? Greg: Yes, definitely. I’ve only been using this a couple months, and I’ve learned a lot about it. I think what’s really important about Node-RED is that it empowers non-software developers to solve problems using software, and it’s taught me a lot about the types of problems that you’ll run into when doing software development. There are some challenges I’ve had to overcome in that. But, every release that I make of this app it gets better and it becomes more usable. FreeWave: When you say more usable, what are some of the things that you’ve of tweaked to make that happen? Greg: So, instead of having to change a setting in five different places, you change it in one and then you can store that setting and pull it from there. Bringing stuff to the forefront where a user can modify it instead of having to modify the code underneath. Basically, giving users more control over how the application runs and making it simpler after setup are two of the things I’ve tried to flip this on. Incorporating some UX/UI elements. FreeWave: Are there any high-level industry points that you think are important to consider as well? Greg: One thing is that FreeWave radios have always been just a radio product, and that goes for any radio manufacturer: you put data in and then it comes out the other side. And our radios have been put on sites to do just simply that task. If you look at the consumer space, 10 years ago, and you think of all the devices that we had in our lives, like a GPS navigation device, and then maybe an iPod, and a tablet, and then maybe a voice recorder or something like that. Those are like four or five different pieces of hardware that only did specific tasks. Now, in 2017, everybody has a smartphone, nobody has an iPod anymore, nobody has a GPS navigation device anymore because they’ve all leveraged software on hardware on smartphones. Eventually, radio platforms are going to go the same way. In the industrial setting, people are going to buy a radio and put it out there, then they have all these other specific hardware devices to do these things. What if the radio could be that smartphone where you just leverage some software and were able to cannibalize all these other hardware-specific devices by using software just like the smartphone revolution. FreeWave: So, ‘things’ are becoming not just smarter but they’re having a greater possibility to put interactive software applications onto devices that didn’t really used to have that capability? Greg: Hardware has gotten really cheap and it’s gotten really commodified, so any manufacturer can put together a little hardware solution in a very small form factor. The advantage anymore is not hardware anymore, it’s software because a lot of these hardware manufacturers are using the same chipsets from the same vendors. And, really, the playing platform is equal if you’re making just hardware, but the real secret sauce and the advantage comes in leveraging software on devices. FreeWave: What about the Fog Computing aspect of this that seems to be a growing piece of the puzzle? Greg: Fog Computing – that’s the paradigm where you can have these intelligent Edge devices that are making decisions instead of having everything centrally located. It’s like mainframes back in the day, everything was centralized, and then we got decentralized, right? And then everybody got a laptop. And then going to the Internet of Things, and the IIoT, it’s like we went back to something that was centralized, and now we’re going back to the decentralized aspect, where we’re thinking, “Maybe devices need to be independent and intelligent out on the Edge.” It’s a really broad category. It just depends on what you’re looking to do in a network. FreeWave: Are there any projects or anything that you’re working on that you wanted to share? Greg: I’m constantly improving the usability of the ZumDash right now. And then, I don’t want to say too much, but we’re working on a couple of projects where customers want to implement this type of technology, but we’re not really ready to release names or corporate specifics about these projects. FreeWave: Do you see any other interesting trends or challenges facing the Industrial IoT app development space? Greg: There’s this paradigm that in the future everybody will be a software developer. And the reason that everybody isn’t a software developer today is
Know Before You Buy: How to Find Secure IoT Devices
As the number of IoT devices skyrockets, we are seeing the amazing powers of connected networks. Businesses are able to transform as they approach operations with smart, informed decisions. In the industrial sectors, IT decision makers have visibility into the OT networks and are now able to execute logic locally at the edge devices and transport critical data globally – enabling intelligent command and control of the network. We are starting to see glimpses of a connected world we never knew possible just a few years ago. As adoption of IoT rapidly expands, the Achilles Heel of these devices continues to be security – at least in the minds of end-users and consumers. A Recent report circulating around IoT news outlets states that 90 percent of consumers lack confidence in the security of IoT devices. Yet more than half of these consumers own one or more IoT devices. The report, based on a survey conducted by Gemalto, revealed other concerning and somewhat astonishing statistics that have been reported in recent articles, including: 60 percent of respondents say their main fear is hackers taking control of their devices. 54 percent are concerned about personal information being accessed. 54 percent of the consumers surveyed said they own an IoT device but only 14 percent said they knew enough about how to protect it. Only 11 percent of manufacturers and service providers total IoT budget is spent on securing devices. Two thirds of organizations use encryption as their main means of security, with 62 percent encrypting data as soon as it hits the device and 59 percent as it leaves it. Only 50 percent of IoT companies have adopted a security-by-design approach. 92 percent of companies reported an increase in sales or product usage after devices have been made more secure, demonstrating a link between security and adoption 61 percent of businesses said regulation needs to be greater to specify who is responsible for security and data at each stage of its journey. 55 percent said safeguards are needed for ensuring non-compliance with security. 86 percent of businesses and 90 percent of consumers believe governments should handle regulation of the sector. Smart Device Selection Despite security concerns, adoption of IoT devices continues to rapidly expand. For industrial IoT (IIoT) networks, future business success is going to depend on connecting those edge networks in order optimize operations, drive production, reduce downtime, and create a safer work environment. When decision makers choose the IoT devices that will be deployed in their networks, it is critical to find products that meet the security and operating standards of the business. This can be determined through a careful evaluation of options. Are you looking to purchase IoT devices for your IIoT network? Consider carefully reviewing and answering these questions before you make your decision: What are your requirements? Must haves versus Nice to haves? Are there any regulatory considerations? What is the M2M communications technology controlling or automating? Is it essential that it operates without failure? What data is being collected and/or transmitted with this technology? Is it time sensitive and/or mission critical? What technology solutions have a proven track record for the applications being served? What external factors might impact the reliable transmission and receipt of critical data from one point to another? How does this M2M communications technology address challenges such as data encryption, network access control and signal interference? Can the vendor describe the security mechanisms? Can you understand them? Will this be secure even if everyone knows the security measures? (The right answer is yes, otherwise keep looking) Do we need this technology solution to be fail-safe, in order to prevent or eliminate catastrophic damage from occurring? What are the threat vectors I’m most concerned about? Is cyber security or physical security a greater concern for this deployment? What vulnerabilities have the Information Security community identified in the type or category of IIoT equipment I use? What is the right tradeoff between features, ease of use and security for my installation? Do I have a testing or evaluation plan in place? What ongoing improvements do I expect? While device security is going to be a lingering concern – especially as the lines between the IT and OT networks blur – companies have the power to prioritize security in their networks and make informed decisions when it comes to selecting their devices. Until there are more government guidelines in place, it is up to the IIoT decision maker to find these options in their quest for connectivity.
FreeWave Blog Series: The Intelligent Edge
Part 1: Novice App Dev – A Q&A with Greg Corey from FreeWave The Internet of Things (IoT) has changed the consumer world in ways no one ever imagined. By placing intelligence in the IoT network, the “Thing” can do whatever we want it to do. Now Industrial companies are seeking to take advantage of this edge-deployed intelligence in order to maximize profits, improve safety and streamline operations. In addition to the challenges IoT technology had to overcome such as cybersecurity, scalability and interoperability, Industrial IoT (IIoT) must also focus on reliability, ruggedness and more. FreeWave is uniquely positioned to understand and address all of these challenges. We have delivered world class IIoT platforms for almost 25 years to thousands of industrial and unmanned systems customers. With that experience, we’re now leading the charge to deploy intelligent applications at the edge of industrial networks and unmanned systems. In the second installment of “The Intelligent Edge,” we sat down with Greg Corey, FreeWave systems engineer, to talk about his new app – ZumDash – and the future of app development of the Internet of Things. FreeWave: Can you talk about how you got involved in IoT app development and what that means from an Industrial IoT perspective? Greg: I got involved with IoT app development when we [FreeWave] started the ZumIQ project. IoT app development revolves around developing software to interconnect devices, and there’s a huge need for that in the industrial space known as the IIoT. So, I started working with some graphical JavaScript-based environments like Node-RED, and I realized that this quickly allowed me to solve problems that were facing our customers. FreeWave: Are Node-RED and JavaScript the primary languages being used right now to develop those apps? Greg: Yes, mostly you’ll see a lot of Python stuff, a lot of Java, and hence JavaScript, and then you’ll see some stuff written in C as well, but, really, the web-based languages have taken off. People write apps in Java and PHP for the most part. And then Node-RED is a graphical frontend for JavaScript. FreeWave: Can you talk a little bit about the app that you developed for FreeWave – ZumDash – and where it resides within an IIoT network? Greg: So, FreeWave has traditionally made radio products where you just put data in and out of the system and that’s all it does. It’s just a complicated replacement for a physical cable. With the new ZumIQ platform, it allows us to add a lot of intelligence at the Edge of these networks where a radio is functioning much more than just a radio. It’s actually an application development environment. It’s an application platform. So, the app that I developed, I wanted to showcase the radio’s capabilities at the Edge of the network, and specifically, there’s a few other things I wanted to show. I wanted to show data storage: so, actually, it’s recording data on the radio itself. I wanted to show the display of that data in a dashboard format. I wanted to show communication, so the radio can still act as a radio and then you can have email alerts and other alerts based on data points. And then I wanted to show logic as well: If This Then That. So, to be able to read a sensor value and if it’s within a certain range to then take action on it. So, the app that I built was really meant to showcase those four things: data storage, dashboard, communication, and logic. FreeWave: So, for the storage part, how often are people trying to actually store data on those Edge devices as opposed to having them just be conduits for the data transmission? Is that a different way of approaching it? Greg: Yeah, it’s a different way of approaching it, and what it allows you to do is free up network capacity. So, if you’re continuously sending and receiving data from the field to a central source, you’re using throughput and bandwidth on that network. With some of these Edge networks, it could be in something that’s moving on the ground and there’s not a very high antenna height; it could be a really noisy environment; there could be a lot of metal obstructions in the way. Sometimes, in the industrial realm, the networks aren’t as rock solid as you would want them to be, or there’s limited capacity for connectivity. So, by moving some data storage operation to the Edge, we can then free up our network capacity for other resources. FreeWave: So then from there are you able to run analytics on that Edge device to filter out some of the data that you don’t need? Greg: Yeah. Iin ZumDash there’s a frontend on it that I use. Using the frontend, you can remotely log into the radio, you can examine every piece of data the radio has recorded, and you can do that graphically. Then, you can build charts based upon that data, and then you can also export to Excel. So, all the data that resides on the radio in the MySQL database is available for analytics remotely, on demand. FreeWave: Does this have a dual track function where you can store data and look at it later, but you can also get the data in real-time if you need it? Greg: Yes, and also, how often the app records data to the database is configurable. You can look at configured intervals. The quickest time I can do at the moment is five seconds. So, every five seconds it’ll record data from six different sensors. FreeWave: Why was the dashboard display an important part of this app? Greg: It allows easy access to data. Let’s say there’s a problem and you want check on the status of a device. I don’t want to have to look through logs or something like that. I want that data easily displayable. So, adding the dashboard allows anybody to be able to log in and
Industrial IoT Top News: Fog and Edge Computing
As more IoT devices are deployed (with billions to come in the near future) there is a substantial push towards on-device analytics, programmability, and command/control for critical applications. This is especially relevant for businesses that are driving operational transformation with remote or industrial networks. As a result of these factors, all roads point to fog and edge computing as critical practices for meeting the future demands of Industrial IoT (IIoT). Below you will find our list of top news stories that highlight the trends, research data, predictions and best practices around edge and fog computing over the past few weeks. If you want to read about an edge computing application being deployed with our customers today, read about the “Small SCADA” edge application here. Edge Computing Supports the Growing Needs of IoT Devices An article recently featured in Network World by Raj Talluri (@rajtalluri) looks at the increasing power of everyday IoT devices. This newly achieved power results in reduced data center loads and cloud-based capabilities that are leading to IoT innovation. As a result, on-device computing and analytics (i.e. edge computing) are growing in importance. “Edge computing delivers tangible value in both consumer and industrial IoT use cases. It can help reduce connectivity costs by sending only the information that matters instead of raw streams of sensor data, which is particularly valuable on devices that connect via LTE/cellular such as smart meters or asset trackers. Also, when dealing with a massive amount of data produced by sensors in an industrial facility or a mining operation for instance, having the ability to analyze and filter the data before sending it can lead to huge savings in network and computing resources.” The future of IoT Deployments Points to Fog Computing A recent TechTarget article by Alan R. Earls looks ahead at fog computing. It notes that large amounts of data required for IoT devices is leading to a future that includes fog computing and edge IT. The article reveals that IoT leverages more devices than ever was conceivable. In fact, the most recent estimates foresee more than 50 Billion IoT devices deployed in the coming years. These devices are often deployed outside the data center, far beyond the reach of IT professionals. As a result these devices are going to be increasingly software-defined to allow for remote management, revealing the need for critical fog IT strategy planning. “Tomorrow’s cloud will need to extend beyond the walls of a service provider’s data center, seeping into the business — becoming almost pervasive via edge devices and local connection hubs.” Successful Fog Implementation With Fog Computing on the horizon, an EE Times post by Chuck Byers of @OpenFog, offers tips for successful fog implementation. The post focuses on recognition of where fog techniques are needed, spanning software across fog nodes North-South and East-West, understanding the pillars of the fog as identified by OpenFog, Making fog software modular and linked by standard APIs, and tips for making each installation very easy. “Software is the key to the performance, versatility and trustworthiness of fog implementations. Make it manageable and interoperable by carefully partitioning it into functional blocks. The interfaces between these blocks should be based on well tested, standard APIs and messaging frameworks. Open source projects can be a good starting point for fog software development once you’re identified the right properties for your applications.” The Transformative Nature of IoT A post in Computer Business Review discusses the shift in IoT from optimization from transformation. According to the post, more than half of IoT projects have met or exceeded their goals even though most are sticking to improving company efficiencies rather than transforming business processes. A recent survey states that for the 47 percent of companies which failed to meet IoT goals, two reasons stood out: company culture and a shortage of skills.This further demonstrates the importance of getting the whole company behind IoT projects in order to have the greatest chance of success. The article also highlights the early, but growing importance of edge computing. “Edge computing, where computing and analysis is carried out near where data is gathered, not in a central data centre, is continuing to grow in importance but there’s still progress to be made. About 30 per cent of sensor data is currently analysed ‘at the edge’, the rest goes to a traditional data centre which creates issues of latency and bandwidth for the network. But looking forward those surveyed expected more than 70 per cent of sensor data would stay at the edge within five years.” A New Look at Data Through Edge Computing A TechTarget IoT Agenda Blog by Jason Andersen (@JasonTAndersen) examines how more engineers are placing a higher importance on data produced by their automation systems than on the tools needed to make them happen. This evolution in thinking reflects the increasing potential that data and advanced analytics offer enterprises in untapped business value, especially looking at emerging practices like edge computing. “Currently, most industrial enterprises are in the ‘informed’ stage, where they are starting to understand and realize the potential of IIoT, but have not made strides in tapping its potential. However, many are beginning to look ahead and think more tactically about progressing to the next phases.” Could Edge Computing Weaken the Cloud? An opinion piece by Bob O’Donnell (@bobodtech) in TechSpot examines the potential changes we can expect to see as we move closer to edge computing. While he doesn’t see cloud going away by any means, he does expect a shift towards edge computing in some areas. “Exactly what some of these new edge applications turn out to be remains to be seen, but it’s clear that we’re at the dawn of an exciting new age for computing and tech in general. Importantly, it’s an era that’s going to drive the growth of new types of products and services, as well as shift the nexus of power amongst tech industry leaders. For those companies that can adapt to the new realities that edge computing models will start to drive over
IIoT Edge Applications: Small SCADA
In a small SCADA environment, remote monitoring and automation are important tools for creating operational efficiency and ensuring cost-effective solution deployment. Real-time data in small SCADA environments enable programmable radios to act upon data at physical locations of the sensor or device. As such, processes can be remotely monitored and controlled without the Cloud. You still can send data to the Cloud, but only the data you need, when you need it. This frees up network bandwidth and minimizes latency significantly. In industries where even milliseconds count, this kind of Edge intelligence can mean the difference between ops in the red or ops in the black. We recently announced the release of our ZumDash application, which is hosted on our ZumIQ App Server, and can function agnostically across different I/O systems and networks. In a small SCADA environment, the ZumDash is ideal for real-time data aggregation and transmission. It is capable of running both at the Edge on hardware, as well as the Cloud, ensuring uninterrupted functionality. In an oil and gas setting, ZumDash can empower field operations managers via the intuitive dashboard display that can be customized to fit individual needs. Additionally, the app itself is powered by Node-RED programming, making it easy to configure on the fly, along with the ability receive real-time alerts for any operational needs like inspection, parts replacement, or troubleshooting. Essentially, having a remote monitoring and automation system powered by programmable Edge radios that can host proprietary third-party apps like ZumDash enable companies to more effectively deploy resources, saving time and money across the board. For any companies in the Industrial IoT space – or companies that rely on dispersed assets and asset management – intelligence at the Edge can be the true difference maker for your organization. For more information about the ZumDash Small SCADA application, please visit: https://www.freewave.com/zumiq-remote-access-control/ To learn more about the full ZumIQ solution, read case studies or download solutions briefs, please visit: https://www.freewave.com/zumiq/
Connect Field Assets Together with Node-RED App Dev
Until recently, modern solutions for remote process-control and automation applications were limited to expensive retrofits, recurring subscription fees, and costly internal software development. Small- to medium-sized businesses often struggle with the balance of enabling these critical monitoring and control functions, while also focusing on the bottom line. Fortunately, the rise of open source software development has introduced new solutions that finally offer a more affordable option, with rapid ROI and measurably reduced OPEX and CAPEX. These solutions combine process-driven industrial app and edge intelligent platforms that can be implemented easily and affordably. These platforms achieve enterprise-level process control, monitoring and automation by combining 900 MHz wireless telemetry with the ability to program and host third party apps for intelligent control and automation of remote sensors and devices. Picture a Linux-based Raspberry Pi embedded in a robust industrial Ethernet radio. The beauty of these solutions is that they are designed for both experts and novices in the app dev space. Developers can program with any language that is compatible with a Linux kernel. Node-RED, in particular, has proven to be especially successful with the novice developer crowd, enabling fully functioning and visible small SCADA solutions that solve a variety of issues for small- to medium-businesses, namely the cost reduction of installation, maintenance and upkeep of more expensive hardware solutions. With Node-RED, Industrial IoT (IIoT) apps are easily designed and hosted on the radio at the edge of the network – offering local intelligence, analytics and process control to cloud-based systems. These apps have even raised the possibility of eventually serving as SCADA replacement. The programming possibilities are endless and the needs are vast, opening a significant opportunity for IoT developers to create apps that can be executed at the edge. This impacts many industries, but especially those with remote or geographically dispersed networks, such as those in oil and gas, precision agriculture, utilities, water/wastewater, and government/defense. In water/wastewater, for example, we’re already seeing the implementation of a Node-RED, complex water utility app. Node-RED Complex Water Application When a water utility has dispersed assets, such as tanks that are a large distance apart, there is a Node-RED SCADA app available that allows orchestration of both manual and automatic control of the system directly from the app dashboard without using expensive logic hardware. The Node-RED SCADA app also enables real-time alerts to potentially dangerous or damaging events via text or email – directly to their mobile devices. This is easily executed under Nod-RED programming and here’s a demonstration of how it works: With the edge intelligence and process automation delivered in a programmable platform we’re already seeing increased uptime and lower on-site maintenance costs because of the enhanced ability to monitor and troubleshoot remotely. Because data is acted upon at the sensor, these edge intelligent and process automation platforms solve problems, remotely, that are not easily solved with traditional hardware solutions. As we look towards the next generation of SCADA, it’s looking a lot more affordable and flexible. What types of apps would you like to see for water/wastewater?
ZumIQ Named Finalist in Control Engineering’s “Engineers’ Choice Awards”
Last week, Control Engineering Magazine announced our new ZumIQ App Server as a finalist in its Control Engineering 2018 Engineers’ Choice Awards program! This award opportunity is particularly exciting for FreeWave because along with the industry-wide respect that the magazine garners, the products themselves go through a fairly comprehensive review before being selected as a finalist. In late September, we officially announced the ZumIQ App Server, which combines 900 MHz wireless telemetry with the ability to program and host third-party applications, similar to a Linux-based Raspberry Pi embedded in an industrial Ethernet radio. One of the really cool (in our opinion!) facets of the ZumIQ is that Industrial IoT developers can program with any language that is compatible with a Linux kernel, including: Python, Java, C++, Node-RED and Node.js development environments. The ZumIQ App Server software comes pre-loaded with Node-RED, Python and MQTT for easy industrial IoT app development. For FreeWave, it really plants a flag in the ground for our ongoing goal of bringing true intelligence to the Edge. More importantly, it is a true testament to the engineering talent here that have bought into the company’s vision and put together an innovative, game-changing piece of hardware. We’d love to share a little more about the ZumIQ. To learn more, check out our ZumIQ Solutions Brief that can be downloaded here: https://www.freewave.com/zumiq-solution-brief-download/ If you like that, then we’d also love it if you headed over to the Control Engineering website and gave our ZumIQ a vote of confidence! You can find that link here: https://gspplatform.cfemedia.com/pe/productProfile/598e03dbe4b044ddd0c2ebbb It is an exciting time to be part of the FreeWave team, and part of the growth of Industrial IoT in general. The transformations over the last few years have been staggering, and the momentum and understanding of how these systems can improve business, quality of life and many other facets of our critical industries has only continued to grow.