WiFi 7 made some incredible advances through across-the-board boosts in speed, higher 6GHz bandwidth through 320 MHz channels, and ultra-low latency. But in too many scenarios, those advances have remained just out of reach. Part of the problem concerns legacy regulations, which have limited the way that WiFi 6E and WiFi 7 routers can make use of the 6GHz band — though AFC support is bringing relief in this regard. For other users, especially those who live in apartments, dorms, and townhome communities, network congestion and interference due to competition from nearby devices and wireless networks continue to cause headaches.
These frustrating limitations were most noticeable for anyone whose router ended up in a non-centralized location. Devices on the opposite end of the environment could face serious struggles with internet connections. In edge locations like a backyard patio, an attic apartment, or a finished basement, wireless signals can be prone to interruptions or latency spikes. Similar issues confront businesses that operate in large campuses, or in buildings with multiple rooms and thick walls.
Even in these challenging networking scenarios, you rely on reliable, stable wireless connections. To help you enjoy the performance advancements of WiFi 7 more often, the engineers and technologists over at IEEE have been hard at work designing the standards for WiFi 8. To upgrade wireless networking for everyone, they established Task Group IEEE802.11bn. According to their latest IEEE scope document, WiFi 8 will start rolling out in 2028 with a radical shift of focus.
What’s new with WiFi 8
With every generation of WiFi, we get closer to the “holy grail” of wireless networking: to achieve the freedom and convenience of WiFi connectivity with the fast, high-bandwidth, low-latency connections provided by Ethernet ports. The WiFi 7 standard approached the speed of wired networking with multi-gigabit throughput and latency below ten milliseconds. For many users, that level of performance has given them the freedom to unplug the Ethernet cord. But others have found that congested wireless networks, signal interference, and range requirements have conspired to keep the impressive theoretical benefits of WiFi 7 from elevating their real-world experience.
For these users, WiFi 8 is poised to arrive as a breath of fresh air. WiFi 8 drills down on reliability by introducing several innovations that promise to solve the most prominent connectivity problems. The advantages begin with much lower latency compared to WiFi 7, leading to fewer dropped packets and higher throughput in even the most challenging signal conditions. Simply put, WiFi 8 is a tool for accessing the greater speeds and latency of WiFi 7 more often.
WiFi 8 is also designed for a world where airports, hospitals, and campuses offer public WiFi access as predictably as they provide restrooms and water fountains. These sprawling public spaces need coverage in every corner of the environment. Users need stable connections as they roam across the quad or move from one floor to another. And in highly populated areas where multiple networks operate in the same space, users need networks that resist signal interference. These are the users who stand to gain the most from the next generation of wireless networking.
As with previous generations, you’ll need both a WiFi 8 router and compatible WiFi 8 devices to get the most out of the new standard, and the specific features available will depend to a certain extent on the device. But WiFi 8 is poised to make an impact when it arrives. Let’s take a closer look at what it’ll bring to the table.
No more dead zones with WiFi 8
Everyone is familiar with that part of their home or office building where the WiFi signal cuts out. These edge zones range from the far perimeter of the property, where we count on security cameras to stay connected, to the upstairs room at the far end of a house where video streams are interrupted by constant buffering. WiFi 8 primes your router and devices to perform even in these less-than-ideal signal situations.
By bolstering modern WiFi speeds with even more reliability, WiFi 8 serves the passive devices we all depend upon. Imagine a security camera far away from your router, separated by plenty of thick walls. This camera doesn’t need speed to operate, it needs a constant WiFi signal to upload images so they can be reviewed later. Poor WiFi signals could lead to low video quality, while a dropped signal might mean the loss of critical evidence.
WiFi 8 optimizes networking for edge devices by introducing a range of enhancements to the physical hardware that drives routers. These hardware upgrades provide stronger performance and more stable connections at greater distances, all the way to the boundaries of the WiFi network.
Some devices have to live on the edge of your network, but what about devices like your smartphone that roam there and back? The enhanced reliability of WiFi 8 also promises seamless connectivity for all devices moving through the whole network environment. Built into WiFi 8, seamless roaming guarantees that, once a device is connected, it will effectively stay connected. That includes moments when you move between different access points, which have traditionally caused interruptions or packet drops during the handoff.
Seamless roaming will be welcome news for enterprise campuses where workers rush from one meeting to the next as they develop projects. The same is true for hospitals, logistics hubs, and smart factories that are preparing for a future of mobility and automation. Innovations like collaborative robots, autonomous vehicles, and automated systems will require uninterrupted connections while doing their work. WiFi 8 will provide the networking infrastructure they need.
Besides businesses, large homes with mesh WiFi systems will also benefit from WiFi 8. As your family roams from the basement to the second floor, their smartphones, tablets, and PCs will stay connected to the web for uninterrupted streaming or video chats. Seamless roaming is especially welcome news for everyone who uses wearable tech. We’re not just talking about fitness trackers or watches linked with your phone. Next-generation wearables like Augmented Reality glasses and AI-driven medical devices will demand high-throughput, low-latency peer-to-peer links. The same goes for live-video feeds and home security systems. WiFi 8 creates the invisible fabric weaving your smart home together.
WiFi 8 is perfect for high-population areas
Constant connectivity can be most difficult to maintain in high-population areas. For instance, a large office building typically houses numerous businesses, each running at least one WiFi network. The same scenario applies to high-density housing situations like large apartment buildings, townhome communities, or densely packed urban duplexes. With so many network signals competing for bandwidth in the same space, problems like signal interference, latency spikes, and dropped packets are inevitable.
Signal interference is an irritation when it interrupts your streaming videos or file transfers. But it presents a serious problem for the growing number of people who rely on AI-driven health monitors, which report sudden changes in the patient’s condition to a caregiver. In these cases, signal interference and dropped connections can cause real harm.
WiFi 8 cuts through the challenges of overlapping signals with multi-access-point coordination. Under this new standard, every access point in your WiFi 8 network cooperates with all the others, efficiently sharing resources between different access points. Users in high-density environments can expect lower latencies and improved performance when their access points work together to maintain consistent connectivity by filling in one another’s service gaps. Everything works better when we work together.
Besides dense WiFi deployments, another problem with hyperconnected environments comes from multiple devices using Bluetooth and ultra-wideband signals to communicate. To help these gadgets coexist, WiFi 8-compatible devices will feature improved in-device coexistence that coordinates multiple radios sharing antennas or spectrum bandwidth. Smarter management of devices on these frequences will lead to less disruptive temporary outages, like when one antenna is used for different technologies.
WiFi 8’s new focus on reliability makes the most sense in light of developments in artificial intelligence. The continuing rise in AI-driven systems puts reliability at the center of the conversation. Whether AI is embedded in a laptop computer or a monitoring device, AI-powered tech depends on stable, low-latency internet connections for cloud-based processing and reporting. A host of new AI-powered appliances and gadgets will demand IoT connections on their local networks. WiFi 8 will manage demand to keep the data flowing.
A sneak peek at what we’re doing with WiFi 8
WiFi 8 is still on the horizon, but we’re already hard at work to bring its advancements to your home or business. At CES 2026, we’re showcasing a WiFi 8 demo that we’re calling the ROG NeoCore. The technology and design are very much under development, but both the ROG NeoCore moves in a new direction on both fronts. Visually, this concept device refines classic ROG style into the distinctive shape of an icosahedron. (Fans of D&D will recognize this shape from their beloved 20-sided dice.)
Even though it’s still early days for WiFi 8 — the standard is not expected to be finalized until late in 2028 — we’ve been working to assess the advantages of WiFi 8 over WiFi 7. Judging by draft specifications, WiFi 8 delivers up to 2x higher mid-range throughput, 2x wider IoT coverage, and up to 6x lower P99 latency thanks to smarter multi-AP/multi-client operation.
Those are theoretical figures, though. To get a better look, we engineered the first real-world throughput test of WiFi 8. We designed a test WiFi 8 router based on the draft specifications and compared it to a WiFi 7 router with otherwise identical specifications. According to this test, WiFi 8 significantly boosts throughput by more than 10% compared to WiFi 7 without losing data speed.
Again, this is a demo unit based on a draft specification that isn’t expected to be ratified until 2028. As with previous generations of WiFi, full use of WiFi 8 will require a router and client that both support WiFi 8. Actual performance will vary by device and the environment, and some features of WiFi 8 are optional or dependent on the implementation. But even bearing those disclaimers in mind, there’s a lot to be excited about with WiFi 8. Allowing users to access more of the game-changing speeds introduced by WiFi 7 in more scenarios is no mean feat.
Making the move from theoretical potential to real-world performance can be tricky, but ASUS is no stranger to the cutting edge of WiFi technology. We were among the first to achieve FCC certification for launching new products in the WiFi 6, WiFi 6E, and WiFi 7 standards. The ROG NeoCore WiFi 8 demo and our real-world throughput test represent our ongoing work to make the convenience and speed of wireless technology accessible and reliable in even more scenarios.
Later this year, ASUS Networking plans to release our first lineup of WiFi 8 home routers and mesh systems, all powered by proprietary ASUS AiMesh technology and the ASUS AI Network Engine. This new generation of ASUS WiFi 8 routers will embody the concept of “Smarter Spectrum, Better Experience.” We are excited to usher in a new wireless era for the AI age. Please stay tuned for updates on our progress — we’ll have a lot more information to share as WiFi 8 gets closer.