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/
Diving Deep Into the Internet of Underwater Things
Much has been said and done regarding the Internet of Things (IoT) across the terrestrial and aerial environments – just look at the proliferation of robotics, drones and unmanned vehicles being used across the globe. But, what about our submarine world? Does the IoT only apply to systems above water?This week we are going to take a “deep dive” into the life aquatic and see what forms the IoT is taking underwater. As many scientists and researchers continue to demonstrate, there is much to be learned about life underwater, especially when it comes to the largest bodies of water on the planet – the seas and oceans. The development of an Internet of Underwater Things (IoUT) would certainly help make the discovery, recording and transmission of information a lot easier, especially if it would in turn be limiting the manual intervention of humans. Collecting and transmitting data throughout large bodies of water could enable a system of roaming, autonomous vehicles and underwater sensors, all communicating with each other and relaying information to networks above the surface. This could be used for a wide range of underwater tasks, from pipeline repairs and crash site surveys to seismic and ecological monitoring applications. As Richard Mills, director of sales at Norwegian AUV and marine robot developer Kongsberg Maritime, states in an interview with NauticExpo e-magazine, “there are an incredible number of possibilities for IoUT and autonomous underwater vehicles (AUVs). The technology has finite bounds, but new applications are only limited by our imagination.” Underwater Apps Bound by Tech Limits Before the IoUT can become a practical endeavor, engineers, scientists and researchers still have plenty of work to do to make it a reality. One of the biggest challenges surrounding the IoUT is the fact that underwater data communications are somewhat limited and unconventional as compared to the systems that work above water. The science behind underwater communications requires different thinking and technology requirements – for example, the electromagnetic waves used by conventional WiFi networks only travel a few centimeters in water. Furthermore, background noise from marine life and anthropogenic activity can also lead to signal interference. Also, the cost of implementing remotely operated vehicles (ROVs) comes at a significant cost as compared to autonomous underwater vehicles (AUVs), which looks to be the replacement in the near future. An AUV’s ability to function without manual human intervention is already a huge advantage and the cost of deploying an AUV is significantly lower than that of an ROV, while their autonomous nature minimizes the human effort needed during missions. As the IoUT develops, it will facilitate new ways for AUVs to interact with the subsea environment. Such vehicles increasingly will be used to harvest data from instruments on the seabed for scientific monitoring and surveying oilfield infrastructure, for example. With better submarine communications, the use of AUVs is already diversifying. There is an increasing number of deep-water and under-ice research projects, and new applications in defense and shallow-water seabed imagery rising to the surface. At FreeWave, we’ll be keeping a close eye on these developments as the possibilities for underwater IoT applications abound.
Industrially Hardened Time Keeping
Today, a wide variety of industries with outdoor OT assets require technology that can connect the assets to a modern communication network. Depending on the application, the solution is not always as simple as slapping on a cellular or standard WiFi solution. For one, many industries have assets located in remote locations where cellular coverage is limited and long range communication is required. The OT network must also be highly secure and have the ability to avoid interference. Additionally, any outdoor communication network is subject to weather and natural elements. The best hope for maintaining reliable, secure, real-time connectivity is with a solution that is ruggedized, industrially hardened and proven to work in the most extreme environments. Recently we talked about wireless communication solutions used in Antarctica, that are performing under some of the most extreme conditions in the planet. These Frequency Hopping Spread Spectrum (FHSS)-based technologies are built to last and perform with a secure connection. Did you know that the same solutions have also made their way into the sport of boat racing? When November rolls around each year, rowing enthusiasts gather in Chatanooga, Tenn. For the Head of the Hooch race. A total length of 5,000 meters, it is one of the largest and fastest growing regattas in the U.S. Each year more than 2,000 boats race over the course of two days. Participants come in from all over the U.S. and the event has hosted international teams from Canada, Germany, Sweden and Australia. Real-Time Accuracy The race is organized by the Atlanta Rowing Club. In the early days, organizers relied upon stopwatches for keeping time. As the race grew and more boats participated, the manual method of time keeping was no longer feasible. Organizers needed a time keeping solution with a link strong enough to deliver race results in real-time in any weather condition. Organizers selected an industrially hardened wireless communication solution and used it in conjunction with a timing system built for downhill skiing races. The system offers precise timing accuracy – down to 1/10th second for each boat. The wireless solution uses FHSS technology that is typically used in utility-scale Industrial IoT (IIoT) applications. These types of solutions have been used for monitoring and control of outdoor assets in the utility industries for decades and have proven to ensure accurate, real-time connectivity in harsh, remote locations. Not only is the “hopping” nature of FHSS inherently secure, but there are solutions with AES-encryption and other advanced security features to further secure the network. The solutions also offer a range of 60 miles Line-of-Site (LOS), and have proven to be ideal for the Head of the Hooch race. Over the years, races have been conducted in cold, rainy, cloudy and/or windy weather, and the solution has reliably performed in all whether conditions present during the race. Rugged, industrially hardened communication solutions that are well known in the oil/gas and utilities markets – aren’t always the initial choice for connecting non-industrial outdoor networks. In some cases, decision makers in these markets may simply be unfamiliar with the benefits of FHSS. What they need to know is that FHSS solutions have been trusted for years to provide long-range, real-time connectivity, and they are often ideal for a variety of use cases outside of industrial markets. Read the full Head of the Hooch case study here: https://www.freewave.com/case-studies/head-of-the-hooch/
IIoT Top News — Security Remains Top of Mind
Cybersecurity has been top of mind for industry experts and consumers alike. The WannaCry ransomware is putting a legitimate scare into affected companies, although many are apparently preparing to call the hackers’ bluff. Yesterday, another cyberattack was announced as well, and it has the potential to be far more lucrative for the developers. The common denominator between the two? A leaked exploit developed by the NSA that leverages a Windows file-sharing protocol. These attacks are indicative of the long-term game of cat and mouse that the government and private enterprise faces for the foreseeable future of security and counterintelligence. Moving forward, the growing network of connected devices for the Industrial Internet of Things (IIoT) faces similar security threats. This week, we found several stories demonstrating some of the solutions surrounding those potential security issues. The 9 Best Practices for IIoT from a Dell Security Expert At a recent presentation for 2017 Dell EMC World Conference, Rohan Kotian, Dell EMC’s senior product manager for IoT security, spoke about his nine best practices for improved IIoT security. His number one strategy? Simply understanding the concerns. Many IoT devices come out of the box with few security controls in place, and understanding the risk is the most important step in addressing them. In this article from Tech Republic, you can read Mr. Kotian’s other nine best practices, including studying the attack trends, classifying risk, and leveraging fog computing. IIoT Market Expected to Approach One Trillion Dollars by 2025 Grand View Research writes that the industrial Internet of Things will experience explosive growth over the next decade, going from a $109 billion industry in 2016 to an expected $933.62 billion by 2025. The massive market increase will be driven by a number of factors, one of which continued investment by government agencies and corporate leaders. As the report states, “The role of the Internet of Things (IoT) is increasingly becoming more prominent in enabling easy access to devices and machines. Government-sponsored initiatives and innovative efforts made by key companies, such as Huawei, GE, and Cisco, are anticipated to enhance the adoption of IIoT worldwide over the forecast period.” IIoT Presents Unique Security Challenges Security is always a top priority in the Internet of Things, but IIoT applications present unique challenges. In this article from CSO Online, Phil Neray, CyberX’s vice president of industrial cybersecurity, writes that despite the growth of IoT applications in oil, gas, electric, and pharmaceuticals, “The fact is that all of these devices were designed a long time ago.” That means IIoT innovators have the challenge of integrating the newest technology into systems that may be decades old. This sort of retrofitting can make security a real challenge and there are few experts available who have both the knowledge of legacy systems and the latest IIoT solutions. Sprint to Deploy LTW Cat 1 by End Of July The Internet of Things relies heavily on low-power communication protocols to perform, so a recent announcement on FierceWireless.com that Sprint will be releasing LTE Cat 1 by the end of July is music to IoT developer’s ears. LTE Cat 1 is designed to support low-power applications on the Sprint network such as vehicle telematics and industrial IoT applications. “As one of the leading enablers and solution providers of the internet of things, Ericsson believes in its power to transform industries and capture new growth,” said Glenn Laxdal, head of Network Products for Ericsson North America. “Ericsson looks forward to partnering with Sprint to deploy Cat M1 next year and bring the transformative power of IoT to the Sprint Nationwide network.” The announcement also noted that Cat M would be following in mid-2018. TE Cat M1 and LTE Cat NB1 will support other applications requiring ultralow-throughput and power consumption.
Do You Speak the Languages of Industrial IoT?
There is an ongoing transition from a world where having an internet connection was sufficient, to a world where ubiquitous connectivity is quickly becoming the norm. The ability to gather and transport data at high speeds from anywhere is leading to increased automation, smart-everything (vehicles, homes, appliances – you name it), and a standardization of languages and protocols that make the possibilities nearly endless. Recently, IEEE and Eclipse Foundation completed surveys that provided a snapshot on tools, platforms and solutions being used by engineers and programmers alike to build the Internet of Things. According to Joe McKendrick for RTInsights.com, there were several notable conclusions to be drawn from the results, including the revelation that, of the 713 tech professionals surveyed, nearly 42 percent said their companies currently deploy an IoT solution, and 32 percent said they will be deploying/working with an IoT solution over the next 18 months. Additionally, RT Insights writes: “In terms of areas of concentration, 42% report they are working with IoT-ready middleware, while 41% are concentrating on home automation solutions. Another 36% are working with industrial automation as part of their IoT efforts. One-third are working on IoT for smart cities, and the same number are building smart energy solutions.” An interesting note from those conclusions is that 36 percent are working with industrial automation as part of their IoT efforts. Earlier this year, we predicted that Industrial IoT (IIoT) app development would outpace consumer IoT apps, and although this sample size is somewhat limited, it still bodes well for the development of the IIoT sector that is just starting to come into its own. Among IoT developers, there has been a bit of debate over the programming languages that best suit IoT apps. There are situationally appropriate uses for the main languages, but currently, the majority of developers prefer Java and the C language. For developers, being able to build out IoT apps that can work across platforms is a giant step toward standardization. Specifically, in the Industrial IoT, being able to build apps that can function at the Edge to enable smart data collection is a becoming an unofficial mandate for any companies hoping to transition legacy OT operations into the IT/OT convergence movement taking place across critical industries. Of course, building apps is a meaningless task if the hardware being deployed can’t host those apps, a finding that was demonstrated by the survey: Hardware associated with IoT implementations include sensors, used at 87% of sites, along with actuators (51%), gateways and hub devices (50%), and edge node devices (36%). This Edge functionality and sensor deployment are two pieces that are driving the adaption of IoT technology across industries that have traditionally relied on data as the main tool for decision making. However, with smarter hardware, these industries now have the opportunity to improve the efficiency of that decision making – a transformative capability in the industrial realm. Join FreeWave’s ZumLink IPR Pilot Program! What if you could….. Collect, analyze and react to data in real-time at the sensor edge? Reduce BIG DATA that clogs data pipelines? Minimize the cost of expensive PLCs? Control your sensor at the closest touchpoint? The ZumLink IPR App Server Radio combines 900 MHz wireless telemetry with the ability to program and host 3rd party Apps for intelligent control and automation of remote sensors and devices. To participate in the pilot program, visit: https://www.freewave.com/zumlink-ipr-pilot-program/. Pilot Program participants: Receive a complimentary hardware/software Dev Kit Get support from FreeWave software engineers Should have App developer’s skills Let’s discuss: Use cases that would help you or your organization solve a problem Problems you would like to solve Developers that could build this App
A ‘Heads Up’ on Drone Safety
We all know that what goes up must come down. In the case of drones falling out of the sky, hopefully your head isn’t in the collision path. Drones are becoming increasingly popular for commercial and recreational purposes. According to a recent FAA report, this has sparked an “increase in accidents resulting in blunt impact or laceration injuries to bystanders.” The report, released late last month, generated a fair share of news coverage. It examines the dangers of drone collisions with people on the ground, the risk of injury and ways to reduce those risks. The good news, and probably most newsworthy conclusion, is that if a small drone were to hypothetically fall from the sky and collide with your head, you probably won’t die. One of the tests conducted during the study included dropping a drone on the head of a crash test dummy. The drone used in the test represented a typical drone — a Phantom 3, which weighs about 2.7 pounds. Test results determined that a drone causes significantly less damage than a wood block or steel debris. Findings also showed that the “drag,” caused by air resistance slowed the drone down much more than the wood and steel. A USA Today article reported that while there was only a 0.01 to 0.03 percent chance of a serious head injury, but there was an 11-13 percent chance of a serious neck injury. While the risk of serious injury might be lower than expected, both drone manufacturers and operators of remotely piloted aircrafts can continue to actively take responsibility for the risks by operating from a preventative and safety-focused perspective. A combination of proper training, education and reliable, secure command and control links (C2) can lead each side to a safer drone environment. Knowing the Rules Groups have formed with commercial drone safety in mind. Know Before You Fly is an organization dedicated to educating drone operators on the FAA guidelines for operation. They also offer resources on how to safely and responsibly operate unmanned aircraft systems (UAS). The FAA report also names Academy of Model Aeronautics (AMA), Association of Unmanned Vehicle Systems International (AUVSI), and the FAA as groups dedicated to educating hobbyist and commercial UAS users on the important requirements for piloting UAS. New drone operators who leverage the assortment of educational tools available can help champion the pursuit of responsible drone operations. Building Drones with Reliability and Safety in Mind In addition to training and education from the operator perspective, when the right command-and-control (C2) solution is in place, drone operations can become much more safe and reliable. Secure wireless data communication solutions that leverage data encryption capabilities, adhering to FIPS and AES standards, are already heavily relied on for mission-critical government and defense applications. Additionally, certain types of wireless solutions, like Frequency Hopping Spread Spectrum Technologies (FHSS) are secure in their nature. For example, frequency-hopping techniques can leverage coordinated, rapid changes in radio frequencies that literally “hop” in the radio spectrum, thus evading detection and the potential of interference Some wireless products also can deliver multiple user-defined cryptography keys (as many as 32 user-defined keys in some cases), providing more robust link security by allowing the automatic and frequent changing of cryptographic keys. In addition to secure data, these solutions also offer distance. There are FHSS radio solutions that can transmit more than 60 miles Line-of-Sight (LOS). When the communication links are robust and prevent interference, they are much less likely to be jammed or disrupted, ultimately preventing drone performance issues (i.e., falling from the sky). This is a very important consideration because of the growing number of unmanned vehicles operating in industrial and commercial sectors today. With a secure and reliable wireless C2 link, these technical issues are substantially reduced. Drones have opened the door for many hobbyist and commercial opportunities, but that also means there are more inexperienced operators. If an operator educates themselves on the FAA guidelines and safety procedures when operating a drone, and the manufacturers build in a secure and reliable C2 link that works over long distances, then both are taking the steps to decrease drone-related injuries. Although the FAA report shows the risk of serious injury and death is low, manufacturers and operators still need to keep safety a top priority.
British Antarctic Survey Leverages Ruggedized Data Transport
Antarctica inhabits a unique place in the human exploration mythos. The vast expanse of uninhabitable land twice the size of Australia has birthed legendary stories of human perseverance and cautionary tales about the indomitable force of nature. However, since those early years, Antarctica has become a rich research center for all different kinds of data collection – from climate change, to biology, to seismic and more. And although today there are many organizations with field stations running this data collection, the nature of its, well, nature still presents daily challenges that technology has had a hand in helping address. Can You Send Data Through Snow? British Antarctic Survey (BAS) – of recent Boaty McBoatface fame – has been collecting data from its field station network for more than 60 years. Over that time, BAS has become a global leader for polar science and polar operations, collecting data on sediments, ice cores, the polar atmosphere and the ever-changing ice shelves – all of which are vitally important for helping predict the climate of the future. To collect this data, BAS required a network that could reliably transmit it in what could be considered one of the harshest environments on the planet. This means deploying GPS equipment, motion and atmospheric sensors, radios and more that could stand up to the daily tests. In order to collect and transport the data in this harsh environment, BAS needed a ruggedized solution that could handle both the freezing temperatures (-58 degrees F in the winter), strong winds and snow accumulation. Additionally, the solution needed to be low power due to the region’s lack of power infrastructure. The Solution BAS found that FreeWave’s 900 MHz radios could handle this myriad of requirements. The organization deployed 19 radios across its network, each connected to a remote GPS station containing sensors that track the movement of the Brunt Ice Shelf near one of the primary research stations. The GPS sensors determine the Shelf’s position and dynamics before sending the data back to the station. There are several other specs that make the deployment of these radios operationally viable for British Antarctic Survey, but to find out more check out our case study with all the details: https://www.freewave.com/case-studies/british-antarctic-survey/!
IIoT Top News: Internet of Things Growth Continues at Dizzying Pace
The Industrial Internet of Things, or IIoT, has fundamentally transformed the way organizations not only conduct business in their current day-to-day operations, but also has changed the way businesses plan for the future. The explosive growth in data, and the corresponding business decisions driven by that data, is causing a massive ripple effect through the industry and is driving hyper-growth in software, hardware, cloud services, security and integration platforms. Here are some of the recent headlines in IIoT that are shaping the landscape. IIoT’s Growth Shows No Signs of Slowing A recent report released by ABI Research and published by Fierce Wireless forecasts that industrial manufacturing applications will generate more than $138 million this from cellular and satellite connectivity fees alone. Driving this massive fee generation is the expectation that the IIoT will exceed 53M installed connections in 2017. The largest marketplace for this activity is the Asian-Pacific region, where an additional 5 million connections are expected over this year. IIoT Security Concerns Increase While the IIoT is experiencing massive growth, new security concerns continue to arise. A new study from Tripwire published in IoT Tech News sought insight from 400 IT professionals who describe security as a “significant” part of their job. Of the respondents, over 50% say they do not feel prepared for security attacks that exploit unsecured IIoT devices. 94% of those same respondents believe that the IIoT exposes their organizations to increased vulnerability for cyber attacks. Robert Westervelt, security research manager at IDC, said: “The apparent contradiction of known risks and continued deployment demonstrates that security and operations need to coordinate on these issues. While IIoT may bring new challenges and risks, the fundamentals of security still apply. Organisations do not need to find new security controls, rather they need to figure out how to apply security best practices in new environments.” IIoT is Booming — But is Your Company Ready? Industry leaders across the globe are making large-scale investments in the IoT — but are they ready for all the challenges that come along with it? In a recent report developed by the BPI Network and featured in the Data Center Journal, 52 percent of executives at large enterprises expect IIoT to have a significant or major impact on their industry within three years — yet only 1.5% of executives surveyed say they have a clear plan and are on their way to implementation. These aren’t leaders from small brands, but executives from huge organizations like Whirlpool, Hitachi and Philips Lighting. And what is these executives biggest concern about the IIoT? You guessed it — security and data privacy. Robotic Automation Changing the Workforce Secretary of the Treasury Steve Mnuchin recently made news when he claimed that the effect of automation on the U.S. workforce is still “50 to 100 more years” away. A recent working paper from the National Bureau of Economic Research strongly disputes that. As written about by the MIT Technology Review, the NBER claims that just in the time period from 1990 to 2007, as many as 670,000 U.S. jobs were lost to automation. Despite this significant impact, robots are still relatively scarce in the U.S. economy. With the growing strength of the IIoT, the number of robots used for automation are expected to increase rapidly, and it will be worthwhile to monitor the impact on the U.S. labor force, particularly in the area of manufacturing.
IIoT News RoundUp – Security, New Products and More
The Industrial IoT (IIoT) continues to drive big news headlines. Recently we’ve seen news on security, connectivity and new products. We’ve compiled a handful of the most compelling IoT headlines from the past couple of weeks (including exciting news from FreeWave). IIoT in the News How I Learned to Stop Worrying and Love the Industrial IoT Posted on @RTInsights | By @joemckendrick “Moving to IIoT — to capture and be able to act on real-time information on production, machine health, facility conditions, supply chain movements, inventory, shipping, and a host of other capabilities — is nothing short of a new industrial revolution. Embracing these capabilities requires hefty investments, training, skills acquisition, re-directing of resources, and even re-thinking the business you are in.” Standardized Connectivity Protocols Lead to Growth of IIoT Apps Posted on @ITKE | By @S_Allen_IIoT “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.” First Industrial IoT Programmable Radio Enables World of Connected Possibilities Posed on @CEAsiaMag | By Lim Guan Yu “The rise of Fog Computing as a driver of intelligent analytics created a need for industrial companies to transport more data faster from Edge sensors. Rather than transport massive packets of data – Big Data –a programmable platform deployed at the edge of IP networks enables sensor control functionality and allows them to send smaller packets of data as determined by the IIoT app. This results in Smart Data that streamlines decision making, provides predictive analytics for maintenance and support, and allows organizations to automate processes that previously required ongoing, manual attention.” Data Leakage And The IIoT Posted on @SemiEngineering | By @Chip_Insider “In the past, the complexity and size of an operation generally provided safeguards against data theft or leakage. But with commonly used data mining tools, it’s now possible to separate out meaningless shop floor data and hone in on the important events, which roughly adhere the 80/20 rule. Add in multiple companies and begin correlating bottlenecks and other noteworthy industrial events, and that data suddenly becomes much more valuable to a lot of people—makers of equipment, government or industry policies, marketing groups, as well as the highest bidders within a particular industry or those looking to invest in an industry.” FreeWave Technologies Updates New WaveContact Wireless Technology Solutions Posted on Yahoo Finance “WaveContact products interface with a wide variety of sensors deployed in industrial and critical infrastructure markets such as oil and gas, electric power, water and wastewater and environmental monitoring. The product line is built for short-range field applications where simplicity and ease of use in Class 1 Division 1 hazardous locations are critical for success.” Why Collaboration Is the Key to IIoT Posted on @automationworld | By Phil Marshall “Building the Industrial Internet of Things (IIoT) is a complex undertaking. When Hilscher started to create an IIoT strategy, we realized that no single organization would be capable of a total solution. Too much was involved across too many domains. Plus, there is a lot that automation vendors don’t know about IT, while the IT world also knows little about automation—at least for now.” FreeWave Technologies Teams Up with Alliance Corporation Posted on @IoTEvolution | By @KenBriodagh “FreeWave said it is expanding its traditional channel partner distribution network with new relationships with distributors who offer new avenues for sourcing through the channel. As FreeWave expands its product offerings further into the IIoT space, aligning and building relationships with partners, like Alliance, is a critical step in offering a full system of integrated hardware and software solutions.” Security Professionals Expect More Attacks on IIoT in 2017 Posted on @HeardOntheWire | By @notjbg “The fears of a large-scale attack waiting to happen were solidified this week when security firm Tripwire released the results of a study it performed about the rise of industrial IoT deployment in organizations, and to what extent it is expected to cause security problems in 2017. The IIoT includes segments ranging from critical infrastructure such as energy and utilities all the way to government, health care and finance. Not surprisingly, more than 50 percent of the security professionals surveyed said they weren’t prepared for an IIoT attack, and 96 percent expected to see an increase in such attacks this year.”
Join the ZumLink IPR Pilot Program
What if you could collect, analyze and react to data in real-time at the sensor edge? Zumlink IPR combines RF wireless communication with programmability to control sensor data at the edge. CLICK HERE to participate in our Zumlink IPR Pilot Program. What types of Apps can you develop? Develop an App that only sends data when Modbus exceptions occur Translate Modbus to MQTT to send messages to the cloud For perimeter security, transmit still photos in real-time And more…. ZumLink IPR Pilot Program Prerequisites A use case that would solve a wireless communication problem for your company Access to developers with Java or Python programming skills
