https://referently.com/tags/wifi/ Recent content in wifi on Referently.com Hugo -- gohugo.io en-us Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/60-ghz-wigig-is-not-dead-here-is-where-it-actually-makes-sense/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/60-ghz-wigig-is-not-dead-here-is-where-it-actually-makes-sense/ WiGig had a brief moment of consumer visibility around 2017 to 2019. A handful of laptops from Dell and Lenovo shipped with 60 GHz modules. A small number of docking stations used WiGig to replace the DisplayPort and USB cables between a laptop and a desk setup. Then it went quiet, consumer products quietly discontinued, and the technology receded from mainstream WiFi discussions. The conclusion most drew was that WiGig had failed. https://referently.com/802.11r-802.11k-802.11v-the-three-protocols-that-make-wifi-roaming-seamless/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/802.11r-802.11k-802.11v-the-three-protocols-that-make-wifi-roaming-seamless/ In a multi-AP WiFi environment — a mesh system, an office with multiple access points, or a home with a router and a range extender — the experience of moving between access points defines the quality of the whole system. A phone call that drops when you walk from the kitchen to the garden is not a signal problem; it is a roaming problem. Three 802.11 protocol amendments, operating together, are the mechanism that makes roaming fast enough to be invisible. https://referently.com/halow-802.11ah-the-sub-1-ghz-wifi-standard-built-for-iot-that-nobody-talks-about/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/halow-802.11ah-the-sub-1-ghz-wifi-standard-built-for-iot-that-nobody-talks-about/ WiFi above 2.4 GHz gets shorter range, higher throughput, and most of the industry’s attention. WiFi below 1 GHz gets the opposite: longer range, lower throughput, and almost no consumer coverage despite being standardized in 2016. 802.11ah — marketed as WiFi HaLow — is a genuinely distinct technology addressing problems that neither standard WiFi nor cellular IoT handles well. It deserves more attention than it receives. Why Sub-1 GHz Matters for IoT The physics of radio propagation favor lower frequencies for range and obstacle penetration. https://referently.com/how-enterprise-wifi-authentication-actually-works-802.1x-and-radius-explained/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/how-enterprise-wifi-authentication-actually-works-802.1x-and-radius-explained/ Every corporate WiFi network that prompts for a username and password rather than a passphrase is running 802.1X authentication backed by a RADIUS server. The mechanism is invisible to end users but structurally different from home WiFi in ways that matter enormously for security. Understanding how it works explains why enterprise networks handle compromised credentials, device theft, and regulatory compliance requirements in ways that passphrase-based networks cannot. The Limitation of PSK Authentication Home and small office WiFi uses a pre-shared key: one passphrase, shared among all users and all devices. https://referently.com/how-to-read-your-wifi-signal-strength-what-dbm-numbers-actually-mean/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/how-to-read-your-wifi-signal-strength-what-dbm-numbers-actually-mean/ Most devices show WiFi signal as a series of arcs — full bars, three bars, two bars, one bar, gone. The arc display is a hardware abstraction that tells you almost nothing useful for diagnosing problems or evaluating placement. Underneath it is a real number, expressed in dBm, that tells you exactly where on the performance curve your device is operating. Reading that number directly converts WiFi troubleshooting from guesswork into measurement. https://referently.com/mesh-wifi-vs-access-points-which-architecture-is-right-for-your-home/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/mesh-wifi-vs-access-points-which-architecture-is-right-for-your-home/ Two products solve the same problem — covering a large or multi-story home with consistent WiFi — from different engineering philosophies. Mesh systems optimize for installation convenience and seamless roaming. Multi-AP systems using wired backhaul optimize for raw performance and reliability. Which is better depends almost entirely on what your home’s infrastructure looks like and how much the installation process matters. The Single Router Problem A single router positioned in one location covers a sphere of radio energy that attenuates with distance and obstacle density. https://referently.com/multi-link-operation-explained-how-wifi-7-uses-multiple-bands-simultaneously/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/multi-link-operation-explained-how-wifi-7-uses-multiple-bands-simultaneously/ Every dual-band router sold since 2009 has advertised two radios as a feature. Until WiFi 7, those two radios could not cooperate to serve a single device. Each client connected to one band or the other — not both. Multi-Link Operation, the defining architectural feature of WiFi 7, changes that constraint fundamentally. What Dual-Band Actually Meant Before WiFi 7 A dual-band WiFi 5 or WiFi 6 router presents two separate wireless networks: one on 2. https://referently.com/reconfigurable-intelligent-surfaces-the-coming-upgrade-to-indoor-wifi-coverage/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/reconfigurable-intelligent-surfaces-the-coming-upgrade-to-indoor-wifi-coverage/ Every indoor WiFi deployment contends with the same physics: concrete pillars block signal, metal file cabinets create shadows, thick structural walls force users to connect at degraded rates from around corners. The engineering response to date has been to add more access points, reducing the distance from every point to the nearest AP until the obstructions no longer matter. Reconfigurable Intelligent Surfaces propose a different response: change the environment itself. https://referently.com/the-comprehensive-wifi-guide/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/the-comprehensive-wifi-guide/ The Comprehensive WiFi Guide: Standards, Security, Optimization, and the Future of Wireless Networking Wireless networking has reshaped how humanity connects, communicates, and computes. From the first hesitant deployments of 802.11b in late-1990s coffee shops to the multi-gigabit, multi-link environments of WiFi 7, the arc of WiFi’s development is one of the most consequential stories in consumer technology. This guide covers everything: the physics, the standards genealogy, the security landscape, real-world deployment strategy, troubleshooting methodology, and what the standards bodies are building next. https://referently.com/the-hidden-math-behind-wifi-speed-claims-what-9.6-gbps-really-means/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/the-hidden-math-behind-wifi-speed-claims-what-9.6-gbps-really-means/ Every WiFi router box advertises a number. WiFi 6 routers claim “up to 9.6 Gbps.” WiFi 7 boxes say “up to 46 Gbps.” Somewhere in your home is a router that claims speeds you have never once measured. There is no deception happening, exactly — the numbers are real — but the gap between the specification ceiling and the performance you experience is built from a stack of assumptions that the packaging does not explain. https://referently.com/the-krack-attack-what-it-was-what-it-taught-us-and-where-wpa2-stands-today/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/the-krack-attack-what-it-was-what-it-taught-us-and-where-wpa2-stands-today/ In October 2017, security researcher Mathy Vanhoef published a paper describing Key Reinstallation Attacks — KRACK — against the WPA2 four-way handshake. The disclosure triggered emergency patches across every major operating system, router firmware, and WiFi chipset vendor simultaneously. It was the most significant WiFi security event between WEP’s collapse in the early 2000s and WPA3’s introduction in 2018. Understanding what KRACK was, and what it actually threatened, clarifies both the state of WPA2 security today and how the WiFi security ecosystem responds to structural vulnerabilities. https://referently.com/the-right-way-to-plan-wifi-channels-in-a-dense-apartment-building/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/the-right-way-to-plan-wifi-channels-in-a-dense-apartment-building/ An apartment building is the worst possible RF environment for WiFi. Dozens of routers operating within radio range, confined by concrete and drywall to a shared spectrum envelope, contending for three non-overlapping 2.4 GHz channels and a finite pool of 5 GHz channels. The interference is not random — it is structured and analyzable. A ten-minute channel survey and deliberate channel selection produces measurably better performance than accepting whatever channel the router’s auto-select algorithm chose. https://referently.com/what-is-ofdma-and-why-it-makes-wifi-6-better-in-crowded-spaces/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/what-is-ofdma-and-why-it-makes-wifi-6-better-in-crowded-spaces/ OFDMA — Orthogonal Frequency Division Multiple Access — is the core innovation that separates WiFi 6 from everything that came before it. The marketing copy says WiFi 6 is better in crowded environments, and it is true. OFDMA is specifically why. The Problem With How Older WiFi Worked Every WiFi standard from 802.11a through WiFi 5 used OFDM — Orthogonal Frequency Division Multiplexing — as its physical layer transmission scheme. OFDM is excellent. https://referently.com/what-is-wifi-8-multi-ap-coordination-and-why-it-changes-everything/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/what-is-wifi-8-multi-ap-coordination-and-why-it-changes-everything/ WiFi 8 is not a product yet. IEEE 802.11bn, the standard that will become WiFi 8, is in active development with a projected completion date around 2027 and Wi-Fi Alliance certification programs expected in 2028. But the architecture it is building toward represents a more fundamental shift in how WiFi works than any generation since OFDM replaced DSSS in 2001. The defining technology is Multi-AP Coordination, and understanding it requires a brief re-examination of how all previous WiFi generations treated the problem of multiple access points. https://referently.com/why-open-wifi-networks-are-no-longer-necessarily-dangerous-owe-and-enhanced-open/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/why-open-wifi-networks-are-no-longer-necessarily-dangerous-owe-and-enhanced-open/ For fifteen years, the standard advice was simple: never use public WiFi without a VPN. The concern was legitimate — open networks transmitted all traffic in cleartext, readable by anyone in radio range with a packet capture tool. Sitting in a coffee shop and watching an unencrypted HTTP session between a neighboring laptop and a banking site was technically trivial. Sniffing credentials required nothing more than Wireshark and proximity. That threat model has changed in two independent directions: the web has largely moved to HTTPS, and WPA3 introduced Opportunistic Wireless Encryption for open networks. https://referently.com/why-your-5-ghz-wifi-is-faster-but-shorter-range-than-2.4-ghz/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/why-your-5-ghz-wifi-is-faster-but-shorter-range-than-2.4-ghz/ The question comes up in every home networking forum: if 5 GHz WiFi is faster, why does it drop off when you move to the other side of the house? The answer is physics, not a bug in your router’s firmware. Frequency and Wavelength Are Inverse Radio waves are characterized by two linked properties: frequency and wavelength. The relationship between them is fixed by the speed of light — wavelength equals the speed of light divided by frequency. https://referently.com/why-your-smart-home-devices-should-be-on-a-separate-wifi-network/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/why-your-smart-home-devices-should-be-on-a-separate-wifi-network/ The average connected home in 2026 has around forty WiFi devices. Of those, perhaps six to ten are traditional computing devices — laptops, phones, tablets — with current operating systems, automatic security updates, and vendors who issue patches. The rest are smart bulbs, thermostats, door locks, cameras, robot vacuums, speakers, appliances, and sensors. These devices run embedded software that may not have been updated since the day they shipped, respond to default credentials that have not been changed, and have attack surfaces that their manufacturers have not fully audited. https://referently.com/why-your-wifi-router-should-never-be-on-the-floor/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/why-your-wifi-router-should-never-be-on-the-floor/ Router placement is the cheapest performance upgrade available to any WiFi user. It costs nothing and the impact on signal coverage and quality in a typical home is significant — often more significant than upgrading to the next generation of hardware. The principles are simple and rooted in the same physics that governs all radio propagation. The Inverse-Square Law and Height A router transmitting from floor level radiates radio energy outward in all directions. https://referently.com/wifi-6-vs-wifi-6e-vs-wifi-7-what-actually-changed-and-what-it-means-for-you/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/wifi-6-vs-wifi-6e-vs-wifi-7-what-actually-changed-and-what-it-means-for-you/ Three standards, three branding names, one frequently confused consumer. The WiFi Alliance’s decision to number WiFi generations rather than recite IEEE amendment codes simplified marketing without simplifying the technology — and the gap between WiFi 6, WiFi 6E, and WiFi 7 is not a matter of minor iteration. Each represents a genuinely different capability profile, and choosing the wrong one for a deployment, or dismissing an upgrade as unnecessary, costs real performance. https://referently.com/wifi-calling-quality-problems-the-real-culprit-is-usually-not-signal-strength/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/wifi-calling-quality-problems-the-real-culprit-is-usually-not-signal-strength/ A video call that stutters and drops despite showing four bars of WiFi. A VoIP call where the other end sounds like they are speaking through a wall, even though a browser-based speed test shows 200 Mbps. These are the symptoms of a WiFi problem that raw signal strength measurement does not capture, because the issue is usually not signal — it is latency, jitter, and packet loss at the levels that voice and video codecs cannot tolerate. https://referently.com/wpa3-vs-wpa2-what-changed-and-whether-you-need-to-upgrade/ Sat, 18 Apr 2026 00:00:00 +0000 https://referently.com/wpa3-vs-wpa2-what-changed-and-whether-you-need-to-upgrade/ WPA3 has been the current WiFi security standard since 2018. WPA2, its predecessor, has been deployed since 2004 and remains the majority protocol on networks worldwide. The gap between them is not cosmetic — there are genuine security improvements in WPA3 — but the threat model that justifies urgency depends on who is operating the network and what data crosses it. What WPA2 Actually Provides and Where It Falls Short WPA2 introduced AES-CCMP encryption to WiFi, replacing the broken WEP and transitional TKIP protocols that preceded it.