![]() As a result, the promise of 5G network technology remains the “gold” (or “Goldilocks” as you’ll read below) standard for present and future IoT applications. Public cellular networks are certainly at the tip of the spear, but private networks, Wi-Fi, LoRaWAN, satellite and Bluetooth technologies all play critical roles within the world of IoT.ĭespite the importance of these network technologies, none of them provide a complete end-to-end solution that is: 1) wireless, 2) high bandwidth, 3) low latency and 4) connected to the internet. The future is digital and will require many networking technologies that work symbiotically to deliver on the promise of a fully connected universe of devices. However, the benefits of 5G can’t be realized soon enough, as what was once a free-flowing highway will quickly become gridlocked if U.S. has: 1) recognized the importance of rolling out critical 5G infrastructure and 2) made large strides in its efforts to deliver on its 5G promise. 5G plays a massive role in supporting and advancing these technologies and, while the United States was an early adopter of 5G, there is work to be done if we are going to remain a world leader in enabling access to autobahn-like wireless internet superhighways. But the notion is outdated, as artificial intelligence (AI), autonomous, virtual reality and metaverse use cases require higher-bandwidth, lower-latency networks for the real-time processing of large data payloads at the edge. Typically, people think of the Internet of Things as a universe of connected sensors and telemetry applications that consume MBs of data.
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