Enterprise dru12/22/2023 Private 5G networks can help address some of these limitations, enabling better reliability and augmenting of existing Wi-Fi networks in the enterprise. Sticky Wi-Fi client behavior can cause connection drops that lead to Automated Guided Vehicles (AGVs) and robots freezing in the middle of their operation. For instance, when to hand over and where to hand over is up to the client. Reliable mobility to enable better process automation.Private cellular networks can help meet tighter Service-Level Agreement (SLA) requirements in addition to higher throughput demands. When you have 100 devices in a 100-square-foot area, the interference level can be high. IoT scale that can help customers connect thousands of devices over both Wi-Fi 6 and private 5G.Low latency, 15 milliseconds or less, required for immersive applications such as AR and VR.Higher performance that will be necessary when students go to 4K and 8K video, as they will soon.These technologies are driven by the need for: Wi-Fi 6 and soon Wi-Fi 6E, as well as private 5G, are various technologies that Enterprises can use to digitize their businesses worldwide. The enterprise can take advantage of the determinism and reliability of LTE and 5G to address mission-critical applications and extend cellular service to areas with poor coverage. For wireless communication, enterprises now have several choices, from Wi-Fi 6 to 4G/LTE and 5G technologies, each suited to several different use cases and providing complementary services. Use cases for the new Wi-Fi 6 and private 5G technologiesĪs businesses look toward digital transformation, wireless communication is expected to play a key role in enabling the Industry 4.0 systems and technologies. However, the Wi-Fi spectrum is prone to interference and reliability challenges. Wi-Fi technology presents a better alternative, addressing some of the drawbacks of Ethernet. Rewiring Ethernet every time can be a very costly affair. Some enterprises, especially those in the manufacturing sector, need to reconfigure their production lines frequently based on changes in their manufacturing plans. ![]() While Ethernet meets their requirements for high throughput, low latency, and reliability, it has only a limited ability to address their device mobility needs. Traditionally, enterprises have been reliant on Ethernet and Wi-Fi for their connectivity needs. Technology evolution in addressing enterprise use cases ![]() ![]() ![]() This paper focuses primarily on how enterprises can use 5G-based radio access networks to enable new use cases and also provides a high-level overview of the architectural options available for different types of enterprise deployments. In addition, 5G operates in new bands up to 60 GHz as well as the legacy spectrum under 6 GHz. Extended support in shared and unlicensed spectrum makes 5G even more attractive for enterprises. Various enhancements supported by the standard make 5G perfectly suitable for emerging enterprise use cases that demand better reliability, wider coverage, and low latency. It is designed to address the requirements of a wide range of use cases, including high throughput, high reliability, low latency, massive IoT deployments, and vehicle-to-vehicle communications. 5G inherits the deterministic behavior and proven mobility performance of traditional cellular technologies. Supporting this growth is a new standard, 5G, the next-generation wireless technology designed to connect virtually everyone and everything. By 2023, there will be 13.1 billion mobile devices and connections globally (up from 8.8 billion in 2018).
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