Who Needs Rugged, Outdoor Wi-Fi Networks?
When we think about Wi-Fi, we tend to lean towards the idea of connections that allow us to access our mobile devices. With a Wi-Fi connection we can stream videos, access our apps, check email, work and basically manage our digital lives. In non-traditional settings, the need for outdoor Wi-Fi connectivity is increasing, but it is accompanied by some unique challenges. Outdoor Wi-Fi Connectivity Industries that operate mostly outdoors are finding a greater need for Wi-Fi connectivity. Campgrounds are providing Wi-Fi as both an amenity and as a tracking and booking tool for managers and campers alike. Golf courses have deployed industrial-scale Wi-Fi networks to monitor irrigation, golfers and other assets throughout a course, and marinas are using Wi-Fi networks for both communication and vessel management needs. There has also been a strong uptick in the use of industrial Wi-Fi networking for security programs and disaster response. Companies can use high-speed Voice, Video, Data and Sensor (VVDS) data transport as building blocks for a security network capable of real-time monitoring. These Wi-Fi solutions are especially ideal for video monitoring, as they provide the bandwidth necessary to transport large amounts of data. Disaster response has also been an ideal application for industrial-scale Wi-Fi. Often times, cell networks can get knocked out during environmental disasters, effectively eliminating a critical component for communication. Today, organizations can deploy these Wi-Fi platforms on vehicles or other response assets that can enable communications in emergency or disaster situations. For any industry with outdoor operations, assets will be exposed to the worst natural elements – extreme heat, freezing temperatures, heavy snow, strong wind, dust storms and more. The challenge is finding a shorthaul, Wi-Fi solution that is rugged and secure enough to withstand the elements, but also advanced enough to enable new types of high-speed, high throughput application solutions. Rugged Wi-Fi Communication Solutions There are solutions designed for robust, secure transport of VVDS information for the edge devices in industrial communication networks. These rugged, shorthaul communication networks are specifically designed for outdoor Wi-Fi connectivity and have proven reliability in extreme environmental conditions. These types of solutions are ideal for oil and gas, utilities, mining, power plants, municipalities, disaster recovery or any other type of industrial applications. They also suit innovative deployments at golf courses, marinas, campgrounds and other settings that require outdoor Wi-Fi connectivity. How would you like to have Wi-Fi connectivity for your own outdoor networks? FreeWave just launched a new contest and the winner will receive their own network of rugged, outdoor Wi-Fi solutions. Enter Today! Contest Closed Enter today for a chance to win FreeWave’s award-winning WavePro WP201shorthaul and Wi-Fi solution. Contest entrants must provide a high-level account of the application of the WavePro, along with a description of the need for the platform. Winners will be announced at the close of the entry period. To enter the contest, please visit http://go.freewave.com/wavepro-network-giveaway. Submissions are due by September 30.
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
Video: What are the Future Uses of Drones?
While drones are responsible for one of the latest tech crazes to hit the mainstream, it’s safe to say that you should not expect them to invade your airspace anytime soon. However, the influx of these flying smart machines may not be as far off as you might think. With heavy-hitters like Amazon, Google and Walmart recognizing the immense opportunity of using drones for shipping and logistics purposes, its no wonder that people are saying “the drones are coming!” Industrial Applications for Drones What could prove to be more promising than the consumer-driven demand for flying drones is the use of that technology in industrial settings and applications. Already, we see companies using drones for the following scenarios: Emergency Response Enables immediate action, providing emergency response teams with fast, flexible visibility to assess critical situations. Utilities Safely allows for the quick inspection of high voltage power lines and wind turbines, helping mitigate worker risk and improve monitoring. Military & Defense Assisting with intelligent surveillance and reconnaissance missions to deliver timely, relevant, and assured information to thwart potential threats. Oil & Gas Protects and helps maintain extensive miles of pipeline covering large, remote areas that would otherwise require enormous amounts of time and resources. Agriculture Creates more efficient farms by monitoring inventory, growth, water and fertilizer levels, and crop health to facilitate production and increase yields. Public Safety Supporting firefighting operations by providing more up-to-date information at a lower cost, while reducing the number of responders in harm’s way. So what does the future hold for these next-generation technologies? It’s hard to say really. One of the biggest hurdles still to jump is figuring out how these aircrafts will fit into the Federal Aviation Administration’s (FAA) existing airspace regulations. There is no doubt there will be new policies that are drone-specific on the horizon. In fact, the FAA has already taken steps in that direction by requiring drone owners to register their aircrafts as a first step in ensuring the safety of everyone who uses the skies. Let’s just assume that over then next five years policy and technology come together and we finally have lift-off in the drone world. What’s next? Check out this video courtesy of Be Amazed that explores 10 amazing futuristic uses of drones:
