3. We recommend using Traffic Shaping to control egress traffic, because it is more efficient in the egress direction. Navigate to the CRM > System > Service plans & Products section to add or modify a service plan. Sorry I don't have more info for you. Because adjacent channels (i.e., 36 & 40) suffer greater interference levels than non-adjacent channels (i.e., 36 & 165), the channel design for HD WLANs should position AP cells on adjacent channels as distantly as possible. Instead, pair the UAP-AC-M with directional antennas pointed at specific areas of the HD WLAN event to produce controlled areas of coverage with robust SNR. User groups can be applied automatically as users join a particular WLAN, as long as it’s configured at the WLAN itself. Bandwidth management is important to maintaining a functional network while avoiding traffic “bottlenecks.” UniFi allows operators to set up traffic shaping at the controller for users. Enabling the traffic shaping reduces my down speed to 60mbps or so. UniFi – How to Set Traffic Bandwidth Limits, UniFi – Group Configuration for Access Points, ← Intro to Networking – UniFi Enterprise Networking Platform, EdgeRouter – Beginners Guide to EdgeRouter →.

Although the antenna coverage pattern of each indoor UAP is similar, understand that reflective surfaces and multipath effects in crowded, more dense settings can result in unexpected signal readings from distant and/or nearby APs, therefore necessitating careful cell adjustments based on site survey analysis.

Ensure that the aggregate traffic statistics match WLAN capacity plans, otherwise add/remove UAPs as needed. A suspended client can also still reach UNMS since this default exception is created automatically. More generally, ACI speaks to the type of interference generated along the ‘tail-ends’ of an 802.11 transmission, which raise noise levels for other nearby in-band stations.

This is also important to ensure that the HD WLAN has longevity through down-the-road support for the client devices of today and tomorrow. To discover the “Maximum Aggregate Throughput Requirement,” that is, the total amount of bandwidth needed for the HD WLAN to support ALL client devices simultaneously, multiply the “Per-Client Bandwidth Requirement” (1Mbps) by the “Total Number of Client Devices” (the “FedEx Forum” has a seating of 18,119). Disabling lower rates benefits HD-WLANs in a few important ways: Here are some additional performance recommendations that may improve performance in high-density deployments: 1. And since most client devices opt for fewer antennas (i.e., fewer spatial streams) to conserve battery life, the UAP-HD’s MU-MIMO technology is critically important to ensuring maximum WLAN performance. I want to run the bearer to the max and then shape the traffic by priority classes once the link is nearing saturation. Increased client speeds (e.g., more spatial streams, improved SNR) means fewer APs are required since each AP reaches greater capacity. HD WLANs perform poorly when AP cells are overextended or if channel reuse patterns are not respected. When properly designed, an HD WLAN ensures each connected client device has a strong SNR, while mitigating the potential for collisions and limiting the impact of in-band interference.