IoT Top News: Fog Computing Influences Apps
This week BI Intelligence revealed the key benefits of fog computing along with a list of industries adapting this methodology. It is estimated that 5.6 billion IoT devices owned by enterprise and government will soon use fog computing for gathering and processing data. Let’s dive into some recent news from the past week and start by taking a closer look at the latest development in fog (edge or access layer) computing. Fog Computing in the IoT Forecasts industries and adoption benefits Edge or fog computing will become a priority as enterprise deals with the exploding amount of data waiting to be collected, sorted and processed. “The ‘Internet of Everything’ — all of the people and things connected to the internet — will generate 507.5 zettabytes (1 zettabyte = 1 trillion gigabytes) of data by 2019, according to Cisco. A deeper dive into this week’s top news show us a few IoT applications ready to change our world, from farmer robots to drones reconstructing car crashes. Robots are coming to a farm near you The cost of adding robots to agriculture still remains high, yet these IoT machines are threating to shake up the farming community around the globe. Sara Olson, Lux Research Analyst recently reported that, “However, the costs of many systems are coming down, while wages rise due to labor shortages in some areas, and the benefits robots bring in the form of increased accuracy and precision will start to pay off in coming years.” Drones expected to reconstruct car crashes The Justice Department has plans this week to start running tests gauging the ability of drones to accurately reconstruct car crashes. Jeramie Scott, director of the Electronic Privacy Information Center’s Domestic Surveillance Project suggests that, “There should be public, transparent policies spelling out specific use cases to “ensure law enforcement drones acquired for one purpose,” like crash scene reconstruction, “are not then used for secondary purposes that undermine privacy and civil liberties,” like mass surveillance of the public.” We hope you have enjoyed this week’s short round up. Next time you see a smart device at work or around town, think about all the IoT sensors, Wi-Fi, automation and smart applications that come together to bring you state of the art technology experiences, and ask yourself “what will they think of next?”
Fog Computing: Answering the IoT Challenge
Fog Computing is being touted as the data communication solution our Internet of Things (IoT) devices are asking for by bringing the power of cloud computing closer to the end user. The fact is, the number of connected devices is going to continue to grow exponentionally. In fact, Gartner predicts that by 2020 IoT will include 26 billion connected things. Consider the impact that amount of data collected and processed will have. The Challenge Naturally, with billions of devices all connected to the cloud for manufacturing, oil and gas, utilities, municipalities and enterprise, to name a few, the data transmission and processing rate is bound to slow down – especially if the current cloud architecture is upheld. Some IoT devices use the cloud to store data long term, where other connected things send data to the cloud to be analyzed and sent back to the devicewith operational instructions. Ahmed Banafa with SemiWiki explains, “As dependence on our newly connected devices increases along with the benefits and uses of a maturing technology, the reliability of the gateways that make the IoT a functional reality must increase and make up-time a near guarantee.” What is Fog Computing? Fog Computing is a term coined by Cisco, that offers a way to analyze the data closer to the IoT device, thus saving valuable milliseconds. It may be hard to believe, but a millisecond has the power to prevent a M2M line shut-down, increase the speed at which power is restored to utilities and prevent an oil rig from leaking, just to name a few. An easy way to visually understand where Fog Computing fits in our IoT world, is by looking at the diagram above. It clearly shows that Fog Computing hangs between the cloud and the device, much like the fog on an early San Francisco morning. Fog Computing operates at the network edge, extending the cloud capabilities closer to the source (IoT device). Each IoT connection works with what’s called Fog Nodes to digest the intelligent data and then coordinate operational next steps, whether that be acting directly and or transmitting results to the cloud. The diagram below covers the types of response times IoT devices face from both Fog Nodes and main cloud locations. Fog Computing Brings Efficiency to Enterprise A recent report by Machina Research highlights the companies that pioneered Fog Computing and those poised to capitalize on the benefits in their near future. These companies are able to collect, protect, transport and control the data via IoT devices at the edge of the network, saving time and creating a more stream-line approach to sending and receiving data efficiently and more securely. Overall, as our need to connect explodes, we will not only need to think about IoT, but also the way in which intelligent data is processed from the critical infrastructure and back to the cloud. Fog Computing will continue to open more efficient channels across our IoT, as long as we allow it.
Internet of Things Expo: What to expect this week
The Internet of Things (IoT) is essential for both enterprise and personal, everyday use. Leading research firms agree that IoT will experience an unbelievable boom, possibly into the tens of billion devices by 2020 as computers, smartphones and sensors all require connectivity. This week’s Things Expo is a SYS-CON Media annual event, designed to help make sure your enterprise is IoT-ready with 80 breakout sessions focusing on many aspects of IoT, including big data’s use with predictive analytics, smart grid and Industrial IoT (IIoT), wearables, identity in IoT and modem data centers, among many other tracks. Here is a sneak peek at keynote Internet of Things Expo speaker Chris Matthieu. Also…Check out this clip of a Things Expo Power Panel It is going to be an action-packed three days of IoT information dumps from the experts. If you have the chance to be in New York this week, be sure to check out this conference and soak up some knowledge. Scott Allen, CMO of FreeWave, will be presenting “Sensor-2-Server: Intelligent Communication at the Access Layer” at ThingsExpo on Tuesday, June 7th from 4:40 – 5:15p.m. EDT. (http://www.cloudcomputingexpo.com/event/session/3238). Sensor-2-Server™ (S2S™) intelligent communications for the access layer can collect and transport the data that supports higher-level analytics. As IoT becomes adopted by industrial markets, there is going to be an increased demand for video, voice, data and sensor data communication from the outermost layer of the network. Let us know what you think. Which aspects of IoT are most interesting to you? What needs more coverage and information?
IIoT + S2S = Industrial Innovation at the Access Layer
The Industrial Internet of Things (IIoT) is moving at a rapid pace towards a higher intelligence platform to help collect, protect, transport and control data at scale from a myriad of sources. The access layer in the IT landscape is now particularly becoming an innovative technology environment with many new sensory solutions available to bring intelligence back to the core systems and analytics engines. Another area to consider when discussing IIoT are the individuals working with these technologies today, tomorrow and in the future. To start, the younger/millennial generation is entering the workforce in droves and is arguably the first generation open to big data integration and as part of IoT application solutions. Now that IT and Operations personnel work closer together than ever before, there is a need to be able to share the sensor data across the access layer. On the other hand, the older generation is trusting of the SCADA data systems they have been using for years, and are slow at first to adapt to the new intelligence created in the access layer. How Does an Enterprise Address this Transition? One strategy is IT/OT convergence, which promotes a single view of an enterprise’s information. Process-management tools help ensure that every person, machine, sensor, switch and device in an organization has accurate information in the best form and at the right time. As OT products—for example, programmable logic controllers (PLCs) and remote terminal units (RTUs)—become more aligned with IT infrastructure and applications, getting OT information integrated efficiently with IT systems at a process level is difficult enough for many companies. Getting IT and OT systems to work together to maximize business efficiency — while avoiding negative consequences, risks and pitfalls in the process —makes the task more challenging. However, thanks to new technologies, this process is becoming more practical and is creating the opportunities for huge economic benefits when these two disciplines are successfully integrated. Evolution of Sensor-2-Server (S2S) (As described by Brandon Lewis, Technology Editor for IoT Design) S2S architectures define a method for communicating data collected by sensor platforms at the access layer of an IoT network back to servers at other layers, including but not limited to centralized servers in the core network. This type of architecture allows sensor data to be transmitted to points in the network that are best suited to the specific type of analysis, decision making, and control, which in an industrial deployment could be a SCADA controller located at the aggregation layer rather than a mass dump of heterogeneous data from hundreds or thousands of endpoints back to the core network. For critical IoT systems that require real-time or near-real-time analysis of sensor data, this more localized communications can speed decision cycles using data in motion rather than waiting to parse data at rest. Want to Learn More about S2S and the Future of Industrial IoT? For more information and a full discussion on S2S and the future of IIoT, please check out this recent interview with the IoT Roadshow and Scott Allen. You can also listen to the SoundCloud recording below!
Data Drought: Rural Australian Wi-Fi
Data drought in the rural Australian outback has illuminated the myriad problems stemming from a lack of Wi-Fi connectivity. Precision agriculture today requires broadband and high-speed connectivity to compete in the innovative global marketplace. Yet, many rural areas lack the sufficient infrastructure needed, offering only spotty or basic wireless internet solutions. In fact, there are a total of 135,000 Austrian farms over 400 million hectares, that create enough food to feed 80 million people, representing 13 percent of the country’s total export revenue. With that in mind, Australia can no long afford to ignore the demand to increase farming innovation, and so it has begun to look at possible solutions for the geographically complicated continent. A recent FaceBook survey conducted by the Better Internet for Rural, Regional and Remote Australia (BIRRR) found that 88 percent of Australians feel they don’t have services to meet all of their needs. Many living in the rural areas have voiced concerns over the noticeable “data drought,” but these concerns were often thought as a one-off individual problem. The BIRRR results have helped to bring to light just how massive this data drought issue is to farmers and others living in the rural areas of the country. Living in the bush has proven hard to find reliable ways to connect even basic Wi-Fi long enough for remote education, banking and innovative agriculture tools. It’s not for a lack of trying, as nearly every farmer has at least one smartphone. Many have been forced back to the city, even just to rent office space, so they are able to conduct business and digital transactions without interruptions. Is there a solution? The National Broadband Network (NBN) launched satellite Sky Muster, earlier this year with an expected customer capacity of 240,000. Farmers lucky enough to live in range of this satellite are starting to see the benefits of real broadband connectivity. A second satellite is expected to launch later this year with the hope of reducing the data drought across the remote areas of the nation. Another possible solution has been presented by Prime Minister Malcolm Turnbull, who believes mobile technology is key to improving the agriculture and living conditions in the outback. Turnbull has promised to spend 60 million to improve mobile black spots in regional, rural and remote Australia. The AgForce vice-president and committee chair, Georgie Somerset recently said that the “increased investment in fixed wireless roll-out would also enable local Wi-Fi platforms, that can then support businesses and education in rural Queensland with high-speed reliable and affordable data.” It is important to note that, today’s IIoT technology marketplace has begun to produce exciting new solutions to address remote wi-fi needs similar to the challenges being faced in Australia today. The steps Australia takes to find a suitable solution to its connectivity problems can set the stage for solving similar challengs in remote areas across the globe.
IoT Top News: Future is Now
The Internet of Things (IoT) is creeping into every aspect of our lives. With the advent of smart cities, smart manufacturing, precision agriculture, drones and digital energy, businesses and individuals alike have seen the influx of IoT technology. For example, a recent report from Gartner, “suggests that more than 26 billion devices will be connected to the internet by 2020, with 250,000 of them being vehicles.” So, with the billions of connected things, its only natural this week’s top news roundup would highlight how IoT is maturing and what experts see for the future ahead. Research Firm calls for Standardized IoT Deployments As the demand increases to make more smart cities, researchers warn of extra costsand fragmented delays if we don’t create overall IoT standards. Machina Research reports, “Using current non-standardized technologies, it would cost 1.12 trillion dollars to get smart cities up and running by 2025. Were a standardized approach adopted, the total cost would be 781 billion dollars, a savings of 341 billion dollars worldwide.” Is Automation the Key to Unlocking IoT Data? The best approach to implementation is a combination of data analytics with real-time automated wireless results Dave McCarthy senior director of products at Bsquare suggests that, “The goal of any IoT system should be to extract business value from device and sensor data.” Three Ways to Leverage IIoT Some of best ways to leverage Industrial IoT is by learning to adapt machine learning(M2M), embedded sensors and an overall operational shift allowing the wireless technology to be implemented across the business. Scott Stone with Plant Engineering informs us that, “Accenture predicts that vendor-specific and proprietary infrastructure will be replaced over time with interoperable platforms. Harnessing the data through sensor-driven computing, industrial analytics and intelligent machine applications opens the door for innovation.” Internet of Things Offers Vision of the Future IoT is not a new concept, it has actually been around for 30 to 40 years, yet the future of IoT will still be fueled by security and integration concerns as our need to be connected everywhere continues to grow. Basher Saajid with Liberty Voice reminds us that, “Forbes has reported the overall IoT potential to generate additional $10-$15 trillion for the world GDP by 2034.” We hope you enjoyed this quick look at IoT top news, as always tell us about the stories you found of interest!
Digital Oil: Wireless Means Safety & Efficiency
Production demands of the 21st-Century change at an extraordinary pace. Industrial markets, such as energy and oil & gas face challenges going forward, including the reliable monitoring of assets in the field, dealing with 24×7 production demands, and managing high costs in terms of both time and resources to manage assets in remote locations. These market forces have naturally led to the emergence of the industrial internet of things (IIoT) and wireless communications technology. If you’re an operator in the field, you’re well aware that wireless IoT technology is changing the level of safety, efficiency and monitoring available on the rigs. Let’s take a moment and look closer at how these changes are impacting the digital oil field of today. Why? The consequences of incidents, such as natural gas pipeline explosions, have contributed to the demand for more safety and monitoring regulations along pipelines. California for example, saw tightened state regulations as a result of the San Bruno disaster, which included more stringent requirements for pipeline monitoring. Across industries such as oil and gas, there are certainly areas with the presence of hazardous gasses and therefore potentially dangerous environments. Safety First Taking a closer look at safety on an oil field, we realize just how dangerous it can be for people to be on or even near a production site. Advancements in IoT are now more important than ever because they allow more oil and gas companies to enable a digital work environment – not just from an operational perspective, but from a worker health and safety point of view. Safety concerns to be addressed are the elimination of manually painstaking tasks related to checking on-site sensor data or heavy machinery that resides in potentially hazardous environments – for example where explosive gases are present. Safety is now being increased by taking away the pen and pad from the technician and automating wireless remote monitoring capabilities to enter readings, pressures, temperature and other production monitoring values from miles away. Because of this evolution, many technicians have updated their skills in order to provide value in a digital age and the skills gap here is also an emerging issue for energy producers to keep in mind. Jens Norgaard, SafeEx Business Development Director reports that, “There is no doubt that the younger generation…are running around with high tech equipment…and it’s much more sexy using an electronic tool than using pen and paper. Most technicians have taken a technical education because they want to use their hands and are not always very keen on doing administrative work. So if you can reduce the amount of that it will become much more attractive for younger people to do it.” Highly Efficient and Operational The hope with any advancement in technology is that our world will be able to run and function more smoothly. According to LR Energy’s annual 2015-2016 Oil & Gas Technology Radar survey of global oil and gas executives, “the top driver of innovation investment is operational efficiency.” As wireless IoT solutions continue to infiltrate the oil rigs and pads of today, it is only natural to question the operational and efficiency state of things. Over the next decade technological implementations are expected take more people off the drill floor and into the office allowing companies to fill the knowledge gap with remote drill sites, thus paving the way for more automated oil fields. Pierre Sames, DNV GL director of research and innovation in Norway suggests that, “These technologies will help the industry to be more cost efficient in operations, which is very much needed due to the current oil price crisis.” Keeping Production High with High-Tech Whether you are working with an offshore or onshore rig, the ability to seamlessly monitor and control the operations of a oil rig or well pad automatically from an office location is a key component of IoT and an evolution of the digital oilfield. Natural Gas Intel (NGI) informs us that, “One of the most anticipated technologies, automated drilling in the offshore and onshore, could reduce drilling times and costs by up to one-third versus conventional drilling rigs, ensuring more wells are economically feasible, able to hit smaller targets and generating more infill production.” It seems apparent that we are on the midst of an industrial revolution where blended technology ecosystems are going to be the core of what makes modern energy producers competitive. Just think of the combination that Voice, Video, Sensors and Data can have if applied together in a holistic fashion. “Expectations of fully automated drilling operations, autonomous pipeline inspections and the expanded use of natural gas to fuel trucks and railways are likely to be at the forefront by 2025,” industry consultant DNV GL said last month (see Daily GPI, April 6). By 2025, the energy industry will become increasingly “automated, digital and smarter,” according to DNV’s Technology Outlook 2025. What’s next for the oil and gas industry? Join us this week at the 91st International School of Hydrocarbon Measurements(ISHM) conference in Oklahoma. ISHM is designed to educate and update you on the latest technological advancements for the oil and gas industry. This year you will have an opportunity learn with both lecture and hands-on classes as well as network with fellow industry peers. Cannot join us in Oklahoma? Feel free to download the “Building the Digital Oilfield of the Future” white paper for insights into how wireless IoT technology is redefining oil field production and data communications.
XPONENTIAL Recap: Drones and so much more
New Orleans had its sights in the clouds for this year’s AUVSI XPONENTIAL conference. A leading national show for unmanned systems aimed to provide entertainment, education and networking opportunities for more than 8,000 industry leaders and professionals from 55 countries. XPONENTIAL focused this year on oil and gas; agriculture; energy and utilities; construction; and command and control defense applications. Starting off with a bang, national main stream media was drawn to those unmanned crafts in the sky, of all shapes and sizes headlining at this year’s XPONENTIAL. NBCs TODAY Show anchor Gabe Gutierrez captured a stroll through drone road, where every craft in a mile radius magically took to the sky as Gutierrez walked by. A common theme from this year was… The XPONENTIAL team consistently found ways to remind us all how intelligent robotics will continue to transform our business, travel and everyday security. This level of awareness was their way of educating everyone to embrace this technological shift. It’s about time for an FAA perspective! FAA Secretary Huerta found time during the action packed few days to sit down with Miles O’Brien to discuss trending topics and regulation over this coming year with more UAS registered and flying in the skies. Now let’s see what drones are charging into the agriculture scene this year! Farming will never be the same, now that Yamaha is creating a sprayer drone. This UAS wowed the crowds at XPONENTIAL in true rockstar fashion, reminding us all that the future of agriculture will be merged with technology. And it wouldn’t be proper to end this post without at least one brass band shot; we are in New Orleans, folks! This brass band gave the XPONENTIAL crowd a warm southern welcome as the show got under way! We also were thrilled to speak with the show organizers about how “IoT Rides on FreeWave Tech” in regards to debuting a beta version of new radio technology that leverages the Internet of Things movement to allow developers to program the product to perform functions previously unavailable on radios. Thanks to the XPONENTIAL 2016 Team and congratulations to all that made New Orleans a hit this year!
ENTELEC 2016 Conference News Roundup
This past week many of you migrated to Houston, Texas for the annual Energy Telecommunications and Electrical Association Conference (ENTELEC). This user association had around 200 vendors, that mainly focus on control technologies that are used by petroleum, natural gas, pipeline and electric utility companies. In honor of this being the 88th year of ENTELEC, Richard Nation, a fellow board member with Copano Energy gives us a brief history on how this association formed and evolved over the years. Now take a moment and watch this video, its only a few minutes long, so get to watching! A brief history on ENTELEC https://youtu.be/OaSMd2__naQ In case you missed it, we have a full recap here to fill you in on all the happenings at this year’s conference! ENTELEC 2016 started off with a bang, with the keynote address from Carey Lohrenz, the first female F-14 Tomcat Fighter Pilot with the Navy. Carey shared her winning experiences working aboard an aircraft carrier. These tools she explains, can be translated to everyday life in order to reduce error under pressure. Once the conference got under way, the ENTELEC team wanted to remind everyone, “they think you are kind of a big deal.” Inviting everyone to stop by their main booth throughout the conference. The Pipeline & Gas Journal snapped a picture of networking in action, as the communications and control technology experts got a chance to mingle during the opening day of ENTELEC. It was an action-packed conference, filled with speaking, networking, demonstrations and overall knowledge sharing. Hope you have enjoyed this week’s round up; as always tell us what we missed!
First Responders: Saving Lives, Time and Money Through Innovation
How the Internet of Things is Changing the Landscape for First Responders and Industry According to the National Fire Protection Association, in 2013 there were 369,500 home fires causing some $6.8 billion in damages1 — plus an additional 98,000 apartment structure fires contributing an additional $1.6 billion in losses2. A frightening picture, isn’t it? The numbers are staggering — and yet innovation for emergency responders at both a local and national has not been a priority. The Internet of Things (IoT) aims to change that. Companies are now exploring how IoT technology can disrupt the way emergency responders do their jobs, saving countless lives and millions of dollars in the process. The IoT also holds immense promise for industrial applications, which often take place in remote locations where connectivity and communication platforms are rarely available. The IoT is a vast world, enabling the physical world to communicate with the digital world in new and amazing ways. But thanks to innovations fueled by companies focused on industrial, military, and government applications, we can traverse beyond a network of connected thermostats and smart TVs into an environment where first responders, industrial crews, and our military can communicate and receive critical information in real time. An example of technology that is changing the world of emergency responders as well as industries like Oil and Gas, the Military, and Utilities are ruggedized, industrial shorthaul and Wi-Fi platforms that offer secure collection, control and transport of Voice, Video, Data and Sensor information at incredible speeds. So what does this mean for the industries mentioned above? Imagine first responders being enabled to pull up building plans and architectural details as they arrive on scene. Structural notes are delivered at incredible speeds, giving the emergency responders valuable insight into stairway and fire escape placements and potential danger zones. Communication between police, fire crews and ambulance drivers is streamlined — delivered at blazing fast speeds. In other situations, police can access vehicle databases or hospital services, preserving precious minutes than can mean the difference between life and death. For industrial applications, the IoT holds promise for new levels of connectivity — enabling crews to access and consume information at a moment’s notice. This means workers can collect and transmit important data quickly and securely — even in harsh conditions. Beyond connectivity, the Internet of Things also holds massive promise for the monitoring of emergency responders and industrial crews in the field. Critical sensor data — such as oxygen levels, body and ambient temperature, heart rate and more — can be viewed in real time, giving the ability to monitor the vitals of emergency responders and workers in an instant and watch for danger signs and track bio data in the field. This data can be logged and analyzed, fueling innovation that will help keep these employees safe. The IoT is a vast and ever-growing field — and it holds incredible promise for making our cities a better and safer place to live and work. For emergency responders, where seconds saved can be lives saved, and industries where time is money, the IoT holds remarkable promise for changing the way we communicate, gather data, and work in the field. ————- Sources: 1 – http://www.nfpa.org/research/reports-and-statistics/fires-by-property-type/residential/home-fires 2 – http://www.nfpa.org/research/reports-and-statistics/fires-by-property-type/residential/apartment-structure-fires