The Internet of Things (IoT) will soon become the Internet of Everything (IoE).
In fact, it has already started! Soon, everything in the world will be connected with one another via network technology—from cars to street lamps and everything in between. Imagine being able to control your thermostat, and power your home and office electronics all from your smartphone or wearable device. This isn’t science fiction—it’s already happening! Powering this future will be Industry 4.0, an emerging technology that uses cutting-edge wireless and wired connections to put data at the center of automation systems.
1) Why Even Worry About Industry 4.0
Industry 4.0 will be the next iteration in automation and digitization as we try to make our production processes more efficient and cost-effective. As technology advances, it's important to stay on top of this development with the right tools like a 24 port PoE switch to power our future.
2) How the Internet of Things Is Changing The World
An introduction to the growing, and evolving industry that is the Internet Of Things. IoT technology is increasingly finding its way into our homes, and connecting us in ways we never thought possible, but as this emerging industry evolves, it has revealed some major flaws that need addressing if we want to see a bright future for IoT in the years ahead.
Industry 4.0 is the next step for IoT technology which will see 24 port PoE switches power our homes and devices with Power over Ethernet (POE). But before it can become a standard, there are some important questions that need answering first including: who will own all the data? Can any one of us control our privacy? And what will happen when everything becomes connected?
3) IoT Sensors Are Monitoring Everything From Roads To Factories
IoT sensors are monitoring everything from roads to factories, and the next big wave will be power over Ethernet, which can make it easier to deploy smart-city projects by avoiding the need to run a lot of wires in advance. These new sensors are paving the way for a more connected world where cities can collect data on traffic patterns, parking availability, or water quality and share that information with citizens and city managers in real-time. In fact, Cisco estimates there will be 50 billion devices connected to IoT networks by 2020.
4) Big Data Requires New Infrastructure
Industry 4.0 will be powered by a new infrastructure that is capable of handling the big data we'll need in order to make sense of our world, and it's all thanks to Power over Ethernet (POE). POE allows power and data to be transmitted over a single cable, meaning we can replace our old 16-port POE switch with an affordable 24-port POE switch- quite literally powering innovation with every connection.
5) Big Data Analytics Can Lead to Smart Decisions
Big Data analytics has a key role to play in the coming future, as it will be able to provide the data necessary to make smart decisions. In the past, information was gathered and analyzed by humans and then interpreted to derive meaning from it. But with Big Data Analytics, data is collected and analyzed by computers and can be used to derive insights that are more accurate than anything that people could come up with on their own. The computers can use algorithms in order to glean insights from the data, which helps identify meaningful relationships that might not have been seen before if they were only looked at manually.
As new technologies like Industry 4.0 develop, these insights will become even more important because they'll allow companies to better predict what customers want or need before they even know themselves.
6) Quantum Computers Will Change The World Forever
Quantum computers will change the world forever. They are able to perform tasks and calculations that are beyond the capabilities of traditional computers, which rely on binary bits in a sequence. Quantum computers use quantum bits, or qubits, which can exist in a superposition state (like 0 and 1 simultaneously). This means they have the potential to compute huge amounts of data in parallel, process large quantities of data much faster than any traditional computer, and discover solutions to problems that would otherwise take years to solve by taking advantage of methods that are not possible with traditional computing systems.
