With the recent advances in technology, it's hard to know where to put your attention. For example, 5G hasn't taken off as fast as people would have hoped, but the possibility of combining it with artificial intelligence (AI) may lead to considerable innovations in the next few years. A decade from now, the combination of AI and 5G networks will have revolutionized how business gets done in our everyday lives. They'll receive this requested information almost instantaneously due to the vast bandwidth provided by 5G. This high-speed data connection will open up new opportunities.
The next generation of wireless technology will offer new consumer and business applications, with near real-time connectivity. In the last decade, 4G wireless technology has become the standard for many mobile consumers around the world. From social media platforms like Snap and Instagram to transportation apps like Uber and Lyft, many companies have benefited tremendously from the reliable connectivity and speed provided by today's 4G systems. This report analyzes the connectivity initiatives of Google and the broader Alphabet organization, which are helping to extend the company's global reach. While this fourth generation of wireless technology has paved the way for new mediums of mobile consumption, it does have limitations.
After years of hype, 5G wireless networks are now live in cities across the United States. While it will take years for 5G coverage to become as ubiquitous as 4G LTE, the next generation of cellular technology promises to enable significant benefits in certain aspects of smart city deployments. While 5G will not enhance every smart city application beyond what LTE currently provides, it will bring significant benefits to some and will enable a wider range of Internet of Things sensors and devices. "The proliferation of the IoT and the impending development of 5G connectivity will open the floodgates for the first truly smart city," Ian Watterson, CSG's head of Americas and Asia-Pacific, tells ZDNet. "The major impediment to moving the smart city from the theoretical to the practical was the sheer speed and bandwidth to handle the amount of data generated by the IoT and process it in real time. This will be exemplified in everything from public transit to law enforcement."
The driving force behind today's smarter cars, homes, factories, and cities is the myriad of Internet of Things (IoT) devices now in place. They can collect data on almost any physical or environmental parameter, such as pressure, temperature, light intensity, and humidity, and transfer large amounts of data to the internet by means of unlicensed wireless communications bands. Given the increasing speeds of cellular wireless communications networks such as 4G LTE and the emerging 5G New Radio (NR) high-speed networks, once the data from IoT devices has been stored on "the cloud" of servers connected on the internet, it can be applied almost instantly for monitoring and analysis. In turn, hospitals become safer, production plants are more efficient, and homes and cities become "smarter" and more livable. Wireless cellular communications may not always be available for interconnection of IoT sensors to the internet and, for that reason, IoT systems function as "networks within a network."
To think we live in a wirelessly connected world is a bit of an understatement Our lives revolve around technology! Here us out: many of us begin our days checking our smartphones. We often tell Alexa to switch on the radio while preparing a meal and use wearables to track our daily workouts. None of this was imaginable ten years ago! Add the Internet of Things (IoT) to the mix in the public spaces, and we can suddenly operate systems and devices from afar — from automatically-controlled street lights to agri-apps to optimize fertilizer usage to remotely-monitored parking garages. Long