A High-Speed, Low-Latency, No-Jitter Network for Healthcare
Matt MacPherson, CTO for wireless engineering at Cisco Innovation Labs, adds that using the 6GHz band enables doctors and other healthcare practitioners to download large imaging files from MRI and other machines more quickly.
“This way, they can provide better, faster care while increasing productivity and supporting more patients,” he says.
As digitization becomes more immersive — including artificial reality, extended reality, virtual reality and mixed reality — both hospital operations and the patient experience will continue to improve.
“These next-generation applications are dependent on high speed, low latency and jitter-free connectivity,” MacPherson says.
To take full advantage of the benefits of Wi-Fi 6E, healthcare organizations will need the infrastructure to support it.
“This includes switches that can support multi-gig and internet service providers that can deliver the needed bandwidth across the aggregate base layer,” MacPherson says.
Meanwhile, the density of clients will continue to rise as machine-to-machine communications start to outnumber person-to-person communications.
Wireless is now mission-critical in healthcare environments, so reliable connectivity will be key.
“IoT will have new expectations on the network, as machines can absorb information much faster than people,” he says. “Traffic will continue to rise with tighter latency and jitter requirements.”
EXPLORE: Upgrading to Wi-Fi 6E? Consider these design issues.
Support for Advanced Security to Protect Patient Data
Christian Gilby, senior director of product marketing at Juniper Networks, says that when it comes to security, Wi-Fi Protected Access 3 (WPA3) or opportunistic wireless encryption is mandatory for working with 6GHz.
“For many healthcare organizations, adopting 6GHz also means adopting WPA3,” he says. “This is not as daunting as it may seem, but there is some nuance to consider.”
He advises healthcare IT leaders to understand the devices on their networks as best they can, as well as driver versions.
“In some environments, especially with a large BYOD population, this may not be entirely feasible,” he notes. “You should also think about your existing service set identifiers and potentially use Wi-Fi 6E as an opportunity to reimagine your SSIDs.”
Gilby advises enlisting a partner to conduct a site survey to identify the best spots to place wireless Aps for optimal efficiency, reliability and performance, and for network assessment and network design advice.
“Healthcare use cases require more precise location capabilities for inventory, asset and people tracking,” he says. “The complexity of design and operation will soar with more available channels to configure.”
READ MORE: Why should your healthcare organization consider an upgrade to Wi-Fi 6 or 6E?
Healthcare Networking Infrastructure and Installation Best Practices
MacPherson notes that back-end infrastructure is a major consideration, and recommends that IT teams ensure that the core, aggregate and access switches are able to support the higher speeds and bandwidth of Wi-Fi 6E.
“Without this, users won’t realize the full benefits of Wi-Fi 6E,” he says. “Making sure the back end is ready is the most essential part.”
As APs add radios to support current and legacy connectivity, requirements for Power over Ethernet, a technology allowing both data and electrical power to be transmitted over Ethernet cables, may also increase.
Gilby notes that the complexity of design and operation will soar with more available channels to configure.
“This is where innovations such as AI RRM capabilities can be harnessed to simplify and optimize the network for better performance and increased automation,” he says.
From Logan’s perspective, there are multiple stakeholders — from healthcare IT specialists and chief medical information officers to clinical engineering specialists and technology integrators — who must all work together to ensure timely and safe installation of APs.
“It’s really incumbent upon IT to describe the business benefits of application performance, clinician productivity, patient digital experience and patient satisfaction, especially with a longer-term facility,” he says. “Those are the kinds of conversations that must take place.”