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.
Connected Oil Fields in Peru
China National Petroleum Corporation (CNPC) is one of the largest energy companies in the world with operations in 28 countries. In May 2017, CNPC announced it would invest $2 billion in an oil and natural gas block in the southern part of Peru. Beyond the recent investment, CNPC has had a presence in Peru for more than 20 years, including oil fields in the northern portion of the country. To optimize operations in 2009, CNPC ran a pilot test in Piura, Peru to find the ideal communication solution for monitoring, collecting and transporting data. Piura is a coastal city located near the equator where the average temperatures hover around 95 degrees Fahrenheight. To connect the oil fields into the Supervisory Control and Data Acquisition (SCADA) system, CNPC needed a communication technology built to withstand harsh weather, such as high temperatures, large amounts of rain, wind and a variety of other environmental factors. The goal of the pilot was to have several test sites reporting to a gateway and then into a SCADA system to monitor several pumping devices and equipment including: Pump of Controller (POC), Pump Cavity Progressive (PCP), Balance Oil Recovery System (BORS) and plunger lift. FHSS for Oil and Gas In the Piura test case, the distances between links weren’t long, but depressions, canyons and steams made line-of-site (LOS) a challenge. CNPC, who tested multiple Machine-to-Machine (M2M) communication solutions in Piura, found that FreeWave’s Frequency Hopping Spread Spectrum (FHSS) technology solutions offered the most reliable connectivity in comparison to other solutions used during the test. FreeWave solutions also use repeaters that helped establish and maintain connectivity despite the lack of LOS. Additionally, the links were established easily and fast in comparison to other solutions that were a part of the test. During the entire three-month pilot, the FHSS-based M2M solutions did not lose communication or the ability to send data to the SCADA system. Industrially hardened, ruggedized FHSS technology has proven to be reliable in in many oil and gas installations around the world. As the Industrial IoT (IIoT) drives connectivity, we continue to see the demand for reliable communication links in environments like Piura that can have challenging conditions. FHSS technology offers not only a reliable, easy to install communication link, but it easily integrates into today’s modern IIoT networks. To get the full story about the test sites in Piura, read the case study: https://www.freewave.com/case-studies/china-national-petroleum-company/
2017 IIoT Prediction Series, Part 2: Industrial Apps Outpace Consumer IoT Apps
As 2017 kicks into full gear and a particularly interesting 2016 fades into the rearview mirror, we took a look around the IIoT landscape to see what this year might potentially have in store. We will be unveiling five IIoT-related predictions throughout this week and into next, so stay tuned and let us know what you think! Yesterday, we started our predictions by looking at the potential development of Fog Computing at the Edge and its impact on cybersecurity. IIoT App Development in 2017 In 2016, Industrial IoT app development made headlines as the technology landscape continued to evolve. App developers are becoming increasingly aware of the opportunity to create third-party apps for industrial and critical infrastructure operations. While the demand for Smart Data increases and organizations work to update legacy systems, particularly at edge networks, our next 2017 prediction is all about IIoT app development. The prediction IIoT app development programs will begin to outgrow/outpace consumer IoT app development programs within the next three years. Third party IIoT application development at the edge (i.e., Fog Computing) specifically will eliminate need for big data transmission capabilities. The ability to filter specific data needs directly at the source means less of a need to collect all the data for broad analysis. There are a number of industry drivers that support the prediction. Here’s our take on the big ones: Smarter Data, Not Bigger Data The ability to filter specific data needs directly at the source will reduce the need to collect all the data for analysis as Big Data transitions towards Smart Data. Smart Data Organizations within IIoT will develop applications that enable them to get only the data they need, when they need it. This will drive faster response times and Cloud resources will be able to take on more data intensive tasks like trends and historical analysis. The Developer Benefits The attraction towards the more lucrative business of developing apps for IIoT networks will drive a lot of growth in the area of IIoT app development. Developers will also have the opportunity help solve major infrastructure issues that accompany big initiatives, such as Smart Cities and improvements to critical infrastructure projects. These initiatives are likely to drive more investments into IIoT app development, creating new business opportunities for developers. Cybersecurity Initiatives The demand for cybersecurity will drive the growth of IIoT app development as organizations work to prevent DoS and hacking attacks – especially on legacy systems. Leveraging cybersecurity apps to support those existing systems will help organizations protect their data and improve operations. Interoperability and Open Standards Systems today require more interoperability between disparate and oftentimes outdated technologies and systems. Because of the business demands for interoperability, the IIoT network impact on IT systems, the enterprises will require more software solutions for enhanced visibility and control to bring everyone and every system onto a single toolchain. Because there are more open standards and modern technologies being deployed, IT groups will need new business apps to coincide with the apps deployed along the IIoT systems. It will be interesting to see how each of these moving parts impacts IIoT app development over the next year. Stay tuned for our next prediction focused on IT/OT Convergence and the challenges of recruiting the next generation of the workforce.
2017 IIoT Prediction Series, Part 3: IT/OT Convergence & the Next-Gen Workforce
As 2017 kicks into full gear and a particularly interesting 2016 fades into the rearview mirror, we took a look around the IIoT landscape to see what this year might potentially have in store. We will be unveiling five IIoT-related predictions throughout this week and into next, so stay tuned and let us know what you think! On Tuesday, we started our predictions by looking at the potential development of Fog Computing at the Edge and its impact on cybersecurity. Yesterday, we predicted that the rise of IIoT applications will outpace consumer IoT apps. FreeWave Predictions 2017 As our prediction series continues, we’d like to examine the industrial IoT (IIoT) workforce. Most of the industries that leverage IIoT face an uncertain future as they navigate their own digital transformation, coupled with the pressures of an aging workforce. The biggest challenge affecting IoT talent recruitment is the skills gap – there are not enough qualified applicants to take on new digital-centric, IT roles. From a business perspective, IT/OT convergence further complicates the issue. Enterprises are transforming the way they operate and it impacts everyone – especially the folks on the operations side dealing with legacy systems. Each of these factors has created a talent gap for many organizations. Our IoT Recruitment Prediction Recruitment of IoT talent will continue to be a challenge, incentivizing private enterprises to directly fund secondary education programs to nurture the next generation of a digital-centric workforce. The Business Problem As organizations and enterprises reorganize under the IT umbrella to address new technology opportunities, cybersecurity threats and work towards creating a connected enterprise – there is an underlying business problem. IT teams need better visibility and control of assets in the field while learning how to integrate these people and systems into modern IT practices. Meanwhile, on the OT side, there is an entire workforce that excels at managing and troubleshooting existing legacy systems, but lacks the potential skillsets to help with new technology demands and data analysis. IT/OT convergence is challenging for many businesses and it affects all aspects of the organization. Recruitment and Solution Recruitment challenges are impacting many industries. The Wall Street Journal reported the highest number of open positions in 15 years for the manufacturing industry because the talent pool lacks the skills for the job. As IoT connects and automates more processes, this gap will only continue to grow if nothing is done proactively to change it. There also is the question of whether organizations should bring in new talent or nurture existing talent. In an effort to overcome some of these challenges, we will see enterprises (not IoT vendors) to privately fund secondary education programs to help identify and create a more skilled workforce. In addition to standard HR recruitment and training practices, we expect to see more tactics such as IoT hackathons for the industrial sector, software development and digital/IoT centric accreditations, private contests, internal skill development workshops and IIoT user conferences. This wider investment in education will benefit both the existing, aging workforce and the incoming, next-generation of workers. Stay tuned for our next prediction as we explore the future of Smart Cities across the globe.
Connected Traffic Management Systems
Connected traffic systems are the next push in our growing digital world. There is a massive opportunity to leverage modern technology for a variety of traffic applications. The rise of the Internet of Things (IoT) has led to advancements within many municipalities to optimize public transit, traffic management and public safety. As a result, cities around the country are looking to technology and connected devices to reduce congestion and improve traffic flow. Connected Traffic Systems Technology U.S. Commuters spend 14.5 million hours stuck in traffic every day. The Urban Mobility Scorecard from 2015 reported that commuters generally needed to allow 48 minutes for a trip that would take 20 without traffic. The report predicted that conditions would continue to worsen if dedicated programs, policies and projects are not expanded. From a public transportation perspective, many cities are dealing with outdated infrastructure that can lead to severe delays and transportation outages. Voters in San Francisco, for example, recently approved a measure for a $3.5 billion regional bond to update its aging BART transportation system. In addition to investing in and fixing ageing infrastructure, U.S. cities also aim to become smarter and prepare for the future by leveraging technology. The U.S. Department of transportation has recently offered nearly $65 million in grants to cities around the country that are working on advanced transportation initiatives. The grants support a number of projects including traffic signal technology to reduce congestion at street lights, transit trip planning technology and applications, ride-sharing services, and more. While the cities work on the ground, there are also efforts to improve air traffic congestion. AT&T recently announced that it is partnering with the National Aeronautics and Space Administration (NASA) to develop a traffic management system for drones. Sensor-2-Server for Traffic Management Sensor-2-Server (S2S) solutions offer reliable connectivity options for municipalities looking to fix traffic flow issues and create smoother traffic management. By leveraging S2S operations, the city or municipality can enable intelligent communications at the edge of the communication network, from the sensor at the traffic light back to a specific server, enabling advanced data analytics. Cities with outdated communication infrastructures, such as a T1 phone line for traffic control systems, can easily update their network with wireless S2S solutions. S2S technologies are created to perform in extreme weather, offering a real-time monitoring solution around the clock. The cost of operations is significantly reduced with S2S solutions and they deliver the connectivity needed for modern IoT networks. Some S2S solutions are equipped with the ability to introduce custom, third-party applications at the edge, which can help reduce costs and enable new automation capabilities. As cities throughout the U.S. embrace IoT and work to become Smart Cities, traffic management is a major initiative. While cities work to improve aging infrastructure, they can help improve traffic congestion by incorporating a traffic management system that can leverage data from an S2S network to optimize traffic flow.
Creating A Safer Environment with IoT
We can get a better understanding of the world around us by consistently monitoring our environment. The Internet of Things (IoT) has enabled large-scale environmental monitoring for commercial, industrial and research purposes. New innovations are constantly in progress that will allow us to make better, safer decisions in our everyday life and protect our environment. For example, imagine how much safer roads would be if your car could warn you about upcoming road hazards such as heavy snow or black ice based on weather and road condition data. When connected to an IoT network, modern technologies can also be used to collect data for weather predictions and monitoring. Oil and gas companies can better protect marine life and ocean environments with offshore leak detection systems. On land, residents living near coal power plant facilities can feel better about the air they breathe when air-quality is consistently monitored. Sensor-2-Server (S2S) communication and networking solutions are increasingly used to help monitor the quality of the environment to prevent and actively identify a number or potentially dangerous situations, such as hazardous material leaks and fugitive emissions. From environmental impact assessments and air quality monitoring to soil dynamics analysis, S2S solutions are meant to gather data from any sensor at any point in the IoT network and bring it back to a specific location to be acted upon. With S2S technology in place, operators can consistently gather and transmit data that affects the quality of life for the world population. It’s important to find a solution that has been proven in the harshest environments – that can withstand the weather extremes and volatile elements. Understanding Your Environment in Real-Time In many applications, especially when safety is the top priority, it is critical to review timely and accurate data to ensure there are no glaring issues with the environment. S2S technologies for environmental monitoring should offer real-time information, as well as large quantities of data that can be analyzed to understand trends through predictive analytics engines. Here are some additional applications where S2S solutions can be leveraged for environmental monitoring: CBRN Monitoring for protective measures where chemical, biological, radiological or nuclear warfare hazards may be present Fugitive Emissions Monitoring for volatile organic compounds (VOC) – this is especially common in oil and gas Leak Detection and Repair (LDAR) to ensure compliance with Environmental Protection Agency regulations. Subsea Monitoring for exploration, research and offshore oil and gas applications Levee Performance Testing to understand levee load capacity and prevent breaches. Water Level Monitoring to track rainfall or water levels in industrial settings. River Flow Monitoring to determine how much water flows through lakes and streams. Seismic Monitoring and volcanic monitoring to provide early detection of these events and enable authorities to warn citizens in advance to take appropriate precautionary measures. As we become increasingly connected to the world around us, we also gain visibility into the surrounding environmental conditions. This offers a wide and diverse range of industries a unique opportunity to monitor the environment in new ways and make intelligent decisions to prevent future negative impacts on the environment as a whole.
IIoT Top News: The Future of Wireless
Where wires once ruled the day, wireless data solutions are now entrenched into the very fabric of the business. It will be interesting to see what the future of wireless technology will be able to tackle. This past week, ITU Radio Communication Assembly met to figure out that very thing. The ITU only meets every three to four years, so it is important that they covered the current and expected wireless resolutions. Topping the list was a push for 5G systems expected to become a reality by 2020. 5G will offer extremely high definition video services, real-time low-latency applications and overall expansion of IoT. Yet another key point solved by the ITU meeting is that “RA-15 recognized that the globally connected world of IoT builds on the connectivity and functionality made possible by radio communication networks and that the growing number of IoT applications may require enhanced transmission speed, device connectivity, and energy efficiency to accommodate the significant amounts of data among a plethora of devices.” As the bright future of wireless grows across the globe, it will continue to evolve and transform the way we use wireless in our daily lives. ISA reported this week that automation is essential for the next-generation of industrial wireless. Businesses need to be switching to high-speed broadband wireless in order to capitalize on the technological applications available to move those industries forward. This surge to operate wirelessly has created a crowded technological highway, with everyone wanting their message to be heard. DARPA has recognized this noise and developed a RadioMap to detect radio frequency (RF) spectrum congestion. RadioMap is able to transmit this information through the radios already deployed for various reasons. This unique program helps create plans of action by identifying times when the frequency usage is jammed or clear, thus informing them of the best times to communicate. Now that the wireless traffic has been sorted, let’s consider the possibility of wireless power solutions. According to Oil Price, wireless power is already in use in some commercial spaces, and will continue to gain more support as technology improves. Michael McDonald with Oil Price boldly predicts wireless power could be used to support the massive energy needs of the defense and healthcare industries by 2016. Unfortunately, not everyone agrees that wireless technology has been a seamless transition. ECN recently asked a handful of industry experts about the challenges they face as they integrate wireless IoT into their business. For example, Vera Jorkitulppo, a senior product manager of GE’s embedded power product line at Critical Power Business, believes, “At the other end of the radio link, there will be a multitude of diverse IoT devices developed by innovative companies with new solutions to real-world consumer or industrial problems.” Now, the next-generation of wireless technology may have its challenges, but, overall, the future looks bright, so put on some shades and enjoy this evolution. Hope you enjoy this week’s reading. As always, tell us what we missed! The Future of Wireless Communication (MyBroadband) Last week, the ITU Radio Communication Assembly met to set the future direction of wireless communication. At this year’s assembly, Hans Groenendaal from mybroadband reported back that they had “reached significant decisions that will influence the future development of radio communications worldwide in an increasingly wireless environment.” Industrial Wireless Evolution (ISA) Establishing the next generation of industrial wireless classification, system requirements, I/O and network capabilities for the industry. Soliman Al-Walaie writes, “Wireless technology is an essential business enabler for the automation world.” What Wireless Networking Challenges Do You Foresee with the Onset of IoT? (ECN Mag) Jamie Wisniewski asked an assortment of experts what they see as possible wireless network problems with the integration of IoT. Greg Fyke, a marketing director of IoT wireless products at Silicon Labs, suggests that “There are three key wireless networking challenges for successful Industrial Internet of Things (IIoT) implementation, including reliable communication, security and control.” Darpa’s RadioMap Detects RF Spectrum Congestion (GCN) An interconnected connected wireless world has created congested airways, thus making the management of military communication and intelligence gathering radio frequencies of critical importance. “RadioMap adds value to existing radios, jammers and other RF electronic equipment used by our military forces in the field,” said John Chapin, DARPA program manager. Will 2016 Be the Year of Wireless Energy? (Oil Price) Oil Price looks at the possibility of wireless energy being able to support defense, healthcare and other massive energy needs in the near future, maybe even by 2016. Michael McDonald’s research shows that, “Wireless power has been a dream of mankind’s for decades, but the technology finally appears to be gaining some traction.”
Ships that Sail Themselves
Is it time for ships to sail off on a journey by themselves? As the Internet of Things (IoT) connects the world, while the robotics industry continues to innovate, man and machine are merging together like never before. Unmanned aerial vehicles (UAVs) have impacted a number of industries from agriculture to security. If recent news is correct, it won’t be long before autonomous cars are traveling roads alongside us. Now, organizations and government agencies around the world are actively working to bring autonomous vessels to our oceans. What can we expect from unmanned ships operating in our largest bodies of water? IoT and robotics are being considered for a variety of commercial and military purposes at sea. For most of the world, it seems autonomous ships are in the testing phase, but there are big plans in the works around the globe: The British engine maker Rolls Royce Holdings, PLC is leading the Advanced Autonomous Waterborne Applications initiative with several other organizations and universities. The company is eyeing a timeline of remotely controlled ships setting sail by 2030 with completely autonomous ships in service by 2035. The timeline will be heavily dependent upon automation technologies’ ability to carry large amount of data from ship to shore to ensure safe operations. Recently, the UK’s Automated Ships Ltd and Norway’s Kongsberg Maritime, unveiled plans for a light-duty ship for surveying, delivering cargo to offshore installations and launching and recovering smaller remote-controlled and autonomous vehicles. “This ship is considered the world’s first unmanned ship for offshore operations and is being eyed for many uses including offshore energy, fish farming and scientific industries.” In the U.S., the Navy has begun to consider autonomous ships for a number of applications, but is cautiously approaching these new technology advancements. According to National Defense Magazine, “The Navy for now appears to be in no hurry to pour big money into drone ships and submarines. And there is little tolerance these days for risky gambles on technologies.” However, the article acknowledges that robots at sea could help do the jobs that are dangerous or costly for human operators, such as hunting enemy submarines, detonating sea mines, medical evacuations and ship repairs. The European Union (EU) appears to have a vested interest in sea robotics. As infrastructure costs rise for improving rails and roads, they have begun to seek alternative ways to move large quantities of cargo. According to Maritime Executive they have, “had a long-term goal of making short sea shipping more competitive with road and rail transport, which is under stress from the transportation bottlenecks caused by increasing volumes of internal trade.” As the EU faces massive infrastructure costs to upgrade road and rail, there is increased attention and effort directed at the “motorways of the sea.” The Defense Advanced Research Projects Agency (DARPA) has been testing a robotic ship called the “Continuous Trail Unmanned Vessel,” and has been running sea trials on its radar system. The radar is fastened to a parasail that enables heights of 500-1,500 feet. These are just a few of the autonomous vessel projects in the works. In order for unmanned vessels to operate, it is clear the ability to transport data in massive amounts will play a critical role in the success and safety of those sharing the sea with autonomous ships. As technologies evolve to meet these big data needs, we can eventually expect to see more unmanned vessels in the sea, improving offshore applications, making human jobs safer, and creating new efficiencies for organizations looking to optimize international trade.
IIoT Top News: What the Industry Experts Say
Living in a 24-7 news cycle, it is best to take a break from all your favorite news outlets and go back to the basics. Industry analysts today are charged with giving their audience an unbiased report of their findings, that’s why this week’s top IIoT news is dedicated to seeking out some of the industry expert opinions in this ever-changing digital world. Let’s start by looking at Ovum’s 2015 key theme for the oil & gas industry. According to Ovum, more modernization of IT platforms will continue to help reduce the disconnect from the IT stone-age equipment to the modern real-time IIoT, thus allowing companies to improve their overall decision making process. A closer look at Forrester, we find security topping the list for 2016. In a recent report, Forrester is quick to call out the shortsighted firms for not realizing the importance of implementing proper security measures to protect the collection of data. It is recommended that firms stop focusing on the lowest possible cost to secure data, and turn the focus into the best way to keep and maintain quality information safely. On another digital front, Gartner predicts that by 2016 6.4 billion IoT devices will be in use, and only sees that number soaring with an estimated 20.8 billion things connected by 2020. Overall, we heard about the need to bring ethics to data, and predictions of how data will be turned into insight and action in the coming year. Other reports included the top digital trends and how those trends fit into the new digital mesh landscape. Additionally, we learned about revolutionary IIoT operational ideas for the future and a big data forecast for 2016 and beyond. Hope you enjoy this week’s research related reading! Bringing ethics to data, a board-level agenda item (OVUM) The challenge facing companies today is, what practices should be put in place to handle the large scale, data being collected. Tom Pringle reiterates the assertive stance Ovum has taken when it comes to the ethics of big data, “If data holds the potential to benefit many, it also has the potential to harm many (as an unexpected outcome, or purposefully negative).” Forrester’s 2016 Predictions: Turn Data into Insight and Action In the 2016 Forrester predictions, Brian Hopkins, Enterprise Architecture Professional has broken the it up with three major shifts, that will help turn data into insight and action. Hopkins is quoted as saying, “Machine learning will replace manual data wrangling and data governance dirty work.” Top Ten Digital Trends Signal the Digital Mesh (Gartner) David Clearley, vice president and Gartner fellow details the top digital trends and how those trends fit into the new digital mesh landscape. The fifth trend on Gartner’s list is advanced machine learning, Clearley believes that, “Advanced machine learning is what makes smart machines appear “intelligent” by enabling them to both understand concepts in the environment, and also to learn.” This area is quickly evolving, now is the time to figure out what technologies your company needs so you can have the competitive advantage. Convergence in the Plant Asset Management (PAM) Market (Frost & Sullivan) In this detailed plan from Frost & Sullivan, they see IoT driving the next generation of improvements with predictive analytics. Furthermore, in the plant asset management (PAM) market Frost & Sullivan sees the, “Industry initiatives, including Industry 4.0, Smart Manufacturing, and applications of Internet of Industrial Things (IoT) technologies are revolutionizing operations and maintenance, enabling the cost-effective connectivity of a wide variety of asset classes.” New IDC Forecast Sees Worldwide Big Data Technology and Services Market Growing to $48.6 Billion in 2019 A new report from IDC forecasts the enormous expansion of both big data worldwide and the services market by 2019. IDC predicts that, “The Big Data market continues to exhibit strong momentum as businesses accelerate their transformation into data-driven companies.”
Staying Connected at the Ski Resort
Getting connected at the ski resort, sounds like a dream come true. We can all probably admit that we often have an expectation for Wi-Fi availability at most places we go – our hotels, coffee shops, restaurants, shopping centers and more. Now, Wi-Fi is popping up in the places we would have ruled out for connectivity several years ago. Places like golf courses, campgrounds, marinas and ski resorts. This is catching on quickly. It is becoming a necessity to offer Wi-Fi at ski resorts and this is largely due to the fact that modern technology can allow it. The rise The Internet of Things (IoT) has opened the door to not only connectivity everywhere, but data that allows us to make better decisions. There are apps available today that allow skiers to compare lift line times and identify their location on a trail map. While the concept of complete connectivity is quickly catching on, there are still challenges to overcome. For example, Wi-Fi signals can be limited in strength; especially in snow-packed, rugged outdoor environments at ski resorts where temperatures are consistently well below the freezing-point. Connectivity at the Ski Resort Because the majority of their operations are outdoors, ski resorts require a rugged Wi-Fi option. This is true for all outdoor Wi-Fi applications – whether it’s a campground, marina, golf course or any other outdoor-based business. Each will face challenges due to varying landscapes and weather extremes. These businesses looking to bring connectivity to customers need to find a shorthaul solution that is rugged and secure enough to remain connected in the most extreme elements. They also need to enable high-speed, high throughput application solutions. In addition bringing connectivity to ski resorts – we’ve seen increased adoption of industrial Wi-Fi networks for security programs and disaster response. For the skiing industry, this may be beneficial to avalanche and rescue teams. With the added ability to track skiers on the mountain, as well as send targeted warning or emergency alert messages across the network, resorts would have an additional tool in the arsenal to facilitate safety measures across wide areas. Having reliable Wi-Fi during emergency communications, especially high-speed Voice, Video, Data and Sensor (VVDS) data transport, can help ensure secure lines of communication during emergency or disasters. Additionally, resorts can leverage the secure network from VVDS enabled Wi-Fi to increase resort security. The Rugged Solution Solutions are available today that will help ski resorts stay connected. These types of technologies are used every day in highly industrial environments like oil and gas, water/wastewater and even by the military. They function in the most remote, volatile, exposed environments. Now, they can be used in innovative ways to bring connectivity to ski resorts. Whether a ski resort wants to offer Wi-Fi to guests so they can better access their skiing apps and GPS, or if it’s to create a secure communication link for emergencies and rescue efforts – these solutions are designed to ensure connectivity. They offer robust, secure transport of VVDS information over rugged, shorthaul communication networks for edge devices and outdoor assets. They are specifically designed for outdoor Wi-Fi connectivity that has been tested and proven in extreme weather and environmental conditions.
