It can be said that there’s an inverse relationship between the ease that Wi-Fi has given to broadband connectivity and the complication that has crept into the mass market Wi-Fi device testing. There is constant acquiring of multiple testing equipment from numerous vendors, handling integrations, adding more test chambers with more antennas, substantial cabling between antennas and chambers, and calculating how to correctly isolate mechanisms for repeatable testing. That was challenging when Wi-Fi was a standalone, consumer-intensive technology. But with Wi-Fi 6 supporting new high-performance offerings and increasing 5G, complexity cannot be stood in testing.
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Now, with Wi-Fi 6 and 5G composed to join forces to address trends across WFH, industry, fixed wireless access, healthcare anywhere, and far beyond, investors just don’t have time for testing bothers. With this thing in mind, it’s no longer possible for service providers and device manufacturers to continue with homegrown testbed solutions. Not when effectiveness, customer experiences, and time-to-market are at stake.
Wi-Fi 6 boosting new testing requirements
The complexity of obsolete Wi-Fi testing settings has grown. There were roaming, handoffs, and mesh networks to be tested. All those instruments under test and test systems had to be secluded in a range of chambers and unified through many cable connections, as increasing requirements like traffic loading and increasing count of antennas were supplemented in the overall spectrum.Wi-Fi 6 and Wi-Fi 6E, powered by over a gigahertz of novel spectrum in more than a few nations, introduce even more testing necessities. Added capacity, extended battery life, improvements in latency, extended range, data increases, QoS guarantees, and even more users, and it all has to be repeatable across environments.
It is not possible for service providers and device manufacturers to go to numerous vendors for high-performance testing and they can’t be consumed with handling a complex range of chambers and antennas and cabling. There’s a need for the deployment of a complete solution for the new testing requirements. With Wi-Fi 6/6E, a turnkey, segmental approach to testing has arisen as a necessity.
A modern, combined Wi-Fi testing platform built to accommodate old and evolving requirements will deliver channel emulation, testbed mechanization, full layer testing, and load testing. A modular method addresses the full variety of requirements any service provider or device maker would bring, from standards-based and pre-certification testing to forward-thinking options for high-performance testing. It is reinforced by highly-accurate channel and network traffic imitation allowing stress testing based on actual conditions.
Nowadays, Wi-Fi chipsets, access points, residential gateway, and connected device sellers place a premium on automation and comfort of integration to present systems when choosing Wi-Fi testbeds. In response, a complete testing solution should support automatic benchmarking of product performance and authentication of functionality and scalability, while giving simple interfaces and choices for incorporation with prevailing lab automation.
Better Wi-Fi Testing in Future
Modular solutions proficient in producing highly-accurate traffic, genuinely replicating a variety of deployment environments, plummeting traditional intricacy headaches, and supporting automatic, repeatable testing situations signify the new necessities for Wi-Fi testing.
