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!
Critical (Outdoor) IoT Applications Need Robust Connectivity
It’s safe to assume that the majority of all Internet of Things (IoT) devices operate near large populations of people. Of course, right? This is where the action happens – smart devices, smart cars, smart infrastructure, smart cities, etc. Plus, the cost of getting “internet-connected” in these areas is relatively low – public access to Wi-Fi is becoming widely available, cellular coverage is blanketed over cities, etc. But what about the devices out in the middle of nowhere? The industrial technology that integrates and communicates with heavy machinery that isn’t always “IP connected,” operating in locations not only hard to reach, but often exposed harsh weather. The fact remains, this is where IoT connectivity is potentially most challenging to enable, but also perhaps the most important to have. Why? Because these numerous assets help deliver the lifeblood for our critical infrastructures – electricity, water, energy, etc. Without these legacy and geographically dispersed machines, a smart world may never exist. But let’s back up for a second and squash any misconceptions about the “industrial” connectivity picture we’re painting above. Take this excerpt from Varun Nagaraj in a past O’Reilly Radar article: “… unlike most consumer IoT scenarios, which involve digital devices that already have IP support built in or that can be IP enabled easily, typical IIoT scenarios involve pre-IP legacy devices. And unfortunately, IP enablement isn’t free. Industrial device owners need a direct economic benefit to justify IP enabling their non-IP devices. Alternatively, they need a way to gain the benefits of IP without giving up their investments in their existing industrial devices — that is, without stranding these valuable industrial assets. Rather than seeing industrial device owners as barriers to progress, we should be looking for ways to help industrial devices become as connected as appropriate — for example, for improved peer-to-peer operation and to contribute their important small data to the larger big-data picture of the IoT.” It sounds like the opportunity ahead for the industrial IoT is to provide industrial devices and machines with an easy migration path to internet connectivity by creatively addressing its constraints (outdated protocols, legacy equipment, the need for both wired and wireless connections, etc.) and enabling new abilities for the organization. Let’s look at an example of how this industrial IoT transformation is happening. Voice, Video, Data & Sensors Imagine you are a technician from a power plant in an developing part of the world with lots of desert terrain. The company you work for provides power to an entire region of people, which is difficult considering the power plant location is in an extremely remote location facing constant sand blasts and extreme temperatures. The reliance your company places on the industrial devices being used to monitor and control all facets of the power plant itself is paramount. If they fail, the plant fails and your customers are without power. This is where reliable, outdoor IoT connectivity is a must: With a plethora of machinery and personnel onsite, you need a self-healing Wi-Fi mesh network over the entire power plant so that internet connections aren’t lost mid-operation. Because the traditional phone-line system doesn’t extend to the remote location of the power plant, and cell coverage is weak, the company requires Voice over IP (VoIP) communications. Also, because there’s no physical hardware involved, personnel never needs to worry about maintenance, repairs or upgrades. The company wants to ensure no malfeasance takes place onsite, especially due to the mission-critical nature of the power plant. Therefore, security camera control and video transport is required back to a central monitoring center. Power plants require cooling applications to ensure the integrity and safety of the power generation taking place. The company requires Supervisory Control and Data Acquisition (SCADA) networking for monitoring the quality of the inbound water being used to cool the equipment. The company wants to provide visibility to its customers in how much energy they are consuming. This requires Advanced Metering Infrastructure (AMI) backhaul networking to help manage the energy consumption taking place within the smart grid. Since the power plant is in a remote location, there is only one tiny village nearby being used by the families and workers at the power plant. The company wants to provide a
Drone Innovation: Supporting 2016 and Beyond
Drones are an interesting case study in the technology maturation process. Previously only available for military and defense applications, drone use have spread through the industrial and consumer markets faster than nearly anyone, especially the FAA, was prepared for. Despite the regulatory issues that have accompanied this growth, users are finding increasingly innovative and creative applications for the technology. This week, we’ve looked around for drone applications that really caught our eye for the potential long-term implications to the respective industries. Of course, for every example we’ve found, there are hundreds more. Let us know which applications you find most interesting! In case you need a recap, Donald Bell, with CNET highlights five industries that will be dramatically changed by drone use. Now that you are caught up on basics, check out the way drones are poised to save lives in remote areas of Malawi. The biggest problem with testing children in remote areas is the cost to get to the remote area and the time it takes to receive the tests back at a lab for testing. If Malawi is able to substitute drones for the courier service, they will save valuable time and be able to start treating. The Guardian reports that “Working with the government, Unicef is considering using drones to transport medical tests and blood samples from rural clinics to laboratories, avoiding the rutted roads that make even short journeys uncomfortable and unpredictable, partly because of fuel costs and a lack of motorbike drivers.” Drones can save lives, but can they also help us improve the experience on the links? Golf just got a whole lot more interesting in Japan! A new company has created a drone that with one click of your smart phone will bring you more golf balls or a refreshing beverage. What will drones do next? If your answer is, “finally make some of Batman’s crazy tools work in real life,” you would not be far off. Check out this footage from New Scientist of a drone mimic the flexible wings of a bat. Perhaps it’s simply a matter of time before we can strap on our utility belts and batwings and save the world… On the industrial side of things, drones are being used to gather data and infrastructure-related inspections, like bridges. The benefits for this project are twofold: drones could reduce the number of humans needed for the job, and they can also make the job safer by inspecting the more dangerous sections of the bridge. The Minnesota Department of Transportation has also tested the viability of drones for bridge inspections. It’s certainly a viable option that can translate across many industrial applications. Finally, what kind of society would we be if we didn’t begin to prepare our drones for the inevitable future of light sabers and hand-to-hand combat? All jokes aside, teaching drones to have this kind of reaction time to obstacles mid-flight could mean a step forward in some of the concerns about the use of drones in airspaces. For now, though, let’s appreciate this drone-turned-sword-evader. What else is out there? Let us know what you’ve seen around the world with drone applications!
Robots Will Steal Your Future Paychecks
We’ve spent many words on this blog talking through new Industrial IoT technologies, hardware and software, and the way that the status quo has shifted to demand better connectivity, smarter infrastructure, and better access to real-time data across the spectrum. Where we haven’t spent much time is considering the economic impact these technologies will have on the average person. Without looking too far into the future, we can already see the impact of a more automated workforce. With that in mind, and on top of all our other daily worries, do we need to be worried about robots stealing our paychecks in the future? Eric Brynjolfsson, recently presented a TED Talk about this very topic, but unlike the sci-fi fear mongers, Eric had a different approach. Brynjolfsson suggests we stop trying to compete with machines and focus in on how they can complement our work-life. It’s true today it takes less people to get the job done. This shift to automation is forcing companies to rethink infrastructure and think more about speed, efficiency and overall time. This isn’t the time to reinvent the wheel, it’s time to think about how that wheel can be tweaked to operate more smoothly and consistently over time. Now, before you let your imagination run wild of a robot powered world, that will be lucky to be apart of, take a moment and watch Brynjolfsson’s TED Talk. Not to worry there is still hope, you may not have to hand over your paychecks to tomorrow’s robots, just yet!
Who’s Your Betamax of IoT Standards?
Image Courtesy of Flickr Creative Commons In the world of IoT/IIoT an explosion of standards has fallen upon us. While we all can agree that standards are what binds our current communication infrastructures together, it does take time for the victorious standard to rise to the top of adoption. Some of us remember the battle that arose in the video tape arena between VHS and Betamax (https://en.wikipedia.org/wiki/Videotape_format_war). While Betamax’s claim to fame was the superior picture, VHS had the longer recording time and a larger backing from the industry. In the end VHS won. And who can remember the tale of HD-DVD vs Blu-Ray, token-ring vs 10Base-T or WiMax vs LTE? Enter the IoT/IIoT wannabes. In the communication protocol arena we have standards such as 802.15.4 (ZigBee), 802.11ah (Wi-Fi HaLow) and LoRa that want to use the 900 MHz spectrum to connect your devices back to a gateway and then to your cloud. There are also application software framework standards such as Thread, Alljoyn, IoTivity, Arrowhead and LWM2M. I won’t even mention all of the cloud platforms that aim to bring all of these pieces together in one place. Really, how many people think about the actual physical mechanisms that enable connectivity throughout the world? And within that, who thinks about the standards set by organizations that dictate the best method for connecting all our devices? Standards have the potential to affect ranges of communication, battery life on remote devices, signal interference, and many other things. The interesting part about the race to the top, so to speak, is that the standards mentioned above all have viable aspects that could potentially make them the ideal solution for connected infrastructure. Many of these standards have consortiums with major players such as Google, Microsoft, ARM and Samsung, all of which play at different places in the IoT/IIoT theatre. So, unlike the tail of Betamax, many of these standards have the backing of multiple entities. But, who’s going to win? Which standard will come out on top? Or, will we find ourselves with multiple standards because we can’t agree on one to do the job? What do you think? Who is your Betamax pick for IoT/IIoT?
IWCE 2016: What to expect next week?
The International Wireless Communications Expo (IWCE), is an annual event for communication technology professionals working globally in a broad range of the communications field, including energy, utilities, emergency response and municipality/infrastructure. This conference will get under way next week, from March 21-25, in Las Vegas. An estimated 7,000 individual industry experts are expected to attend from government/military; public safety (law enforcement, fire service and first responders); utility, transportation and business enterprise. IWCE will also feature around 370 exhibitors ready to show you the latest product innovations and trends forecasted this coming year. Donny Jackson editor of Urgent Communications, the official tradeshow media partner, believes that this year’s IWCE will give industry professionals a chance to get educated about the latest critical-communications technology, all while making key network contacts with industry experts. So, what else can we look forward to? IWCE promises to offer engaging content–with their 5-day comprehensive conference program; more quality time with peers; industry experts providing the latest strategies and tactics; minimal expenses–when you take advantage of conference discounts; structured networking opportunities; tangible handouts you can use throughout the year; more face-to-face learning time and more educational opportunities will be available this year. Excitement is building! Here are just a few of the people and organizations excited for next week’s event! Tune in next week for our IWCE insider recaps. Vegas here we come!
Top News: Manufacturing the Fate of Our Digital World
Manufacturing is in the midst reinventing itself on the heels of the latest IoT innovations. The industrial automation paradigm, which some say also gave rise to the lean manufacturing management philosophy, continues to influence organizations that wish to find new ways to capitalize on business opportunities in the digital age. Through that lens we gathered the top articles from the week and found some interesting perspectives. Some reports started suggesting manufacturing is in a time of trouble, both in the U.S. and around the globe, namely in places like China. But upon further investigation, we also find exciting trends that are shaping the evolution of manufacturing. We hope you enjoy this week’s roundup, and be sure to comment on your top articles of the week below! Chinese manufacturing fall adds to evidence of sharp global downturn (The Guardian) As the world watches Chinese manufacturing slow, many believe this is evidence of a major global downturn. The Guardian reminds us all that, “In another sign that manufacturers are braced for a long period of chasing business from a diminishing number of customers, they continued to lower their prices in February.” American Manufacturing in Peril (U.S. News) Gone are the golden days of domestic manufacturing, analysts now believe American manufacturing is in serious trouble. Andrew Soergel with U.S. News suggests that part of the problem for manufacturing is that, “The job market has changed. The generation has changed. The skill requirements to work in factories have changed.” The Manufacturing Side of CPG’s Digital Disruption (Automation World) In this era of digital disruption, consumer buying behavior will impact manufacturing practices. According to Stephanie Neil with Automation World, she thinks manufacturing could benefit from, “The use of standardized, reusable software modules simplifies configuration of robotic movements and integration with machine control functions. This allows machine builders to focus on increasing machine performance, added functionality, and equipment energy efficiency.” Despite all this talk about downturn and disruption in the manufacturing industry, there are some positive trends we should mention as well. Top 10: Manufacturing Trends of 2015 (Manufacturing Global) IoT, nanotechnology, SMAC Stack and greater visibility were all key manufacturing trends last year. According to Manufacturing Global’s trends, “Additive manufacturing, or 3d printing, is big news in the manufacturing sector. The new technology has captured the imagination of the general public and manufacturing executives alike, however it has also proven to be a game-changer for the industry.” 3-D Printing Poised to Shake up US Manufacturing (New York Post) In the last year 3-D printing has shown up in the medicine cabinet, operating rooms and even New York Fashion week. U.S. Manufacturing is getting a serious shake up with the launch of more 3-D printers. Catherine Curan with New York Post states that, “The 3-D printing boom isn’t big enough to single-handedly revive local manufacturing, but it will help.”
Top News: IoT Rules at Mobile World Congress (MWC)
After a week of everything mobile, at least in Barcelona at the Mobile World Congress (MWC), it is only fitting this week’s top news recap focuses on the other three letter acronym so hotly discussed from the show – IoT. Whether you have been living under a rock or just hadn’t embraced the fascination with the latest handheld smart technologies and cellular networking, this week’s Mobile World Congress (MWC) presented by GSMA, brought together around 800 mobile operators from more than 250 companies from around the globe to discuss the latest products, software and innovations that will push the IoT space even further into maturity. Some of the key themes to come out of this year’s MWC were the fifth generation wireless systems or 5G, the impact this next-gen tech and mobile will have on the Internet of Things (IoT) and the booming IoT businesses laying the foundations of the connected world. Now as you nestle up to your favorite mobile device or smart tablet, relax and dive into this week’s IoT news roundup from MWC! MWC: 5G Key to unlocking IoT … Just Not Yet (IndustryWeek) As the MWC surged forward with excitement for 5G to finally unlock IoT, experts warn the connective battle isn’t over, as the world dives into incorporating 5G throughout. Agence France-Presse with Industry Week reports that, “5G is the term on everyone’s lips at the Mobile World Congress in Barcelona and a global race to develop it is under way.” IoT Race Heats up at MWC 2016 (RCR Wireless) The race heats up for IoT, as 2G networks scramble to find a new way to connect with the announcement of 5G at MWC 2016. “Mobile World Congress is all about the newest wireless technologies, but this year the end of an old technology is driving conversations around the Internet of Things.” This Week’s 5G Buzz Indicates IoT is Finally Kick-Starting (VentureBeat) The hot topic on everyone’s mind this week had to be 5G and the need for more IoT connectivity. Leon Hounshell, with Greenwave Systems reminds us that, “Regardless of the hype, CES and MWC do not reveal an IoT revolution, but they certainly show us a determined evolution, where devices will unceasingly become more connected, open, and smart.” Mobile World Congress: Internet of Things Business is Humming (USA TODAY) This week may have shown us a lot of shiny new IoT products for consumers, but the truth is IoT for business will really dominate deal-making. USA TODAY believes that, “It’s not hard to see why. Gartner forecasts that the market for IoT services will top $101 billion this year, nearly 30% more than the $78 billion that businesses spent last year. By 2020, spending for services like network deployment, operations management and data analytics is forecasted to balloon to $257 billion.” Mobile World Congress: Why Every Brand Should Become a Tech Brand (Campaign Live) Connectivity is everything, and moving forward in this technological age the MWC believes all companies should become a tech brand in order to incorporate IoT. Natalie Bell with Campaign Live states that, “We are now in an era of connecting everyone and everything. So, while Mark Zuckerberg is urging us to focus on the former and ensure wider basic connectivity across the entire globe, there’s a huge tech focus on the latter — the Internet of Things, which will be greater enabled by the increasing capacity in 5G. It’s this vast array of connected objects that have caught my attention this year.”
IIoT Top News: Wireless and Wi-Fi
Gone are the days of limited connectivity—at least that’s the plan this year. According to Wireless Design Magazine, The Broadband Alliance has announced plans to hosts a world Wi-Fi-day. This global initiative has teamed up with more than 135 technology companies to help encourage all utilize the IoT and IIoT to its fullest, by taking steps to help business, industry and neighborhoods have access to quality wireless. Now as you reach for your smart device, smart machine or connected thing, hold on tight wireless is taking you to the deep end. Don’t worry you can handle it. Enjoy this week’s reading, and as always tell us what we missed! Army Command Post Gets Secure Gigabit Wi-Fi (GCN) The army is hoping to save countless hours tearing down wired battle systems networks with a new secure gigabit Wi-Fi. Mark Pomerleau with GCN reports that “Wireless capability speeds that configuration, improves troop mobility and provides greater flexibility for commanders.” Subsea Fiber Optic Networks: Past, Present and Future (RCR Wireless News) In this interconnected world, it is amazing to think about the amount of subsea fiber optic networks connecting the planet today, tomorrow and yesterday. Joey Jackson with RCR Wireless News reminds us all that “Subsea fiber optic networks are responsible for the transmission of 90% of the world’s international data.” Type With Your Brain: Future Tech Ditches Keyboard (Discovery News) The future of wireless could allow you to get rid of the keyboard all together and simply type with your brain. Eric Niiler, with Discovery News, tells us that “Scientists are already working on technology that connects the brain to electronic gadgets and two new devices unveiled this week could help usher in a future without keyboards: a wireless brainwave headset and a brain sensor that dissolves in the body after completing its job.” The Future of Wireless Technology is Coming at Light Speed (The Telegraph) One hundred times faster than Wi-Fi, the future of wireless is expected to reach light speed. Rob Waugh with the Telegraph believes that “The speed boost will come from an unlikely source: the lighting above your head. Instead of Wi-Fi radio aerials beaming data through buildings to your laptop, computer-controlled LED bulbs will flicker above your head, beaming out signals like a super-fast Morse code.” The Future of Public Wi-Fi: What To Do Before Using Free, Fast Hot Spots (Wall Street Journal) Setting up an office on the sidewalk isn’t a realistic option year-round, but change is coming. It is good to know what to do before you jump on that free public Wi-Fi.Joanna Stern with the Wall Street Journal informs us, “Wi-Fi networks with widespread coverage and new standards are popping up to allow us to cut back on paying the carriers an arm and a leg for cellular data.”
Can You Hear Me Now? Remote Wi-Fi in the Connected World
(Image courtesy of Tony Webster, via Flickr Creative Commons) One of the more fascinating aspects of our eternal march toward ‘the future’ is the occasional, but impacting, intersection of our critical infrastructure and the general consumer. Like a sine wave across the axis, our connected world meets at points in time that catalyze technological explosions. The transition of computers from behemoth industrial-sized calculators into the first iteration of the personal computer is a good, somewhat recent example. So is the Internet. Each of those began as a fairly raw tool used for enterprise industrial services before intersecting with the consumer and birthing new innovations and applications.Today, the connected world on the horizon, envisioned by dreamers and pragmatists alike, is taking form on the backbone of wireless connectivity in a way that has the ability to impact our critical industries, our smart cities, our homes and our daily lives like never before. Remote Wi-Fi is a tool that has enabled connectivity and data transport for industries like oil and gas, precision agriculture, utilities and seismic monitoring, leading to a boom in the use of predictive analytics to better streamline the work processes in the field for these traditionally remote areas. However, two of the main problems with traditional remote wi-fi network deployment are the security of these networks, as well as the latency of the data transmission. To combat this, these industries have turned to the use of shorthaul (between 1-5 miles) wi-fi hotspots to utilize built-in security measures and decrease latency for data-intensive applications like voice, video, data and sensor connectivity. As a result, these industries have been better able to collect and transport data throughout an entire smart ecosystem, affecting everything from decision-making in the field, to the way the consumer can track personalized utility usage. Our smart cities and municipalities depend on data collected remotely to anticipate infrastructure-related resiliency issues, like grid outages, seismic events and disaster preparedness. Companies in these industries depend on remote data to solve production, maintenance and transport problems. Wi-Fi Will Save the Connected World In early January, the Wi-Fi Alliance, a worldwide network of companies trying to standardize global Wi-Fi provision, announced a new protocol that promises to trigger changes throughout the industrial landscape. Wi-Fi HaLow, as it is called, is an addendum to the IEEE 802.11ah protocol that is set to be finalized later in 2016. HaLow operates in frequencies below 1 GHz and can potentially provide a longer range than Wi-Fi has traditionally offered. The implications for remote Wi-Fi and the Industrial Internet of Things are huge. The addendum means more efficient battery usage due to operating on a lower frequency and with a lower data rate, which, in turn means a greater range and lower transmission power. This standard is still awaiting a final vote, so before we anoint HaLow as the magic bullet for which the Internet of Things has been waiting, the IEEE standards committee will have its say. To come full circle, the potential advent of better long-range Wi-Fi in remote settings could be the next intersection of the axis and the sine wave, enabling innovation and growth at both the industrial and consumer levels of connected-world technology.
