6/12/2023 0 Comments Fiwi businessDefine yours, see what needs to change, and optimize. While everyone wants low latency, no congestion, no interference, and high throughput, the actual measurements of what defines something like low latency will differ from network to network. Run performance tests for at least a month, multiple times a day, to establish baseline performance.Īfter determining your baseline and comparing KPIs with user reports, define what optimal performance looks like for your network. Without this, it’s hard to quantify how “good” or “bad” performance is, and how it has changed over the course of an hour, day, month, or quarter. The following four steps will not be implemented linearly but will overlap with one another.Īssess the current WiFi performance using KPIsĮstablishing a performance baseline is necessary. Networks are dynamic and IT professionals need to know exactly what users are always experiencing in order to keep networks running smoothly. Steps to ensure WiFi performance is reliable and optimalĪll WiFi performance analysis and monitoring must be constant. A network with a lot of jitter will also have high latency. Jitter refers to a network’s transfer rate consistency. 50 milliseconds is a general baseline for maximum allowed latency for high-performing applications. Higher latency results in slower connections. This is the time it takes for data to transfer from one device to another. Retransmissions reduce the overall available throughput, and frequent retransmissions could point to poor signal strength or network interference. Similarly, retransmissions occur when the original data transmission didn’t work. Some measure of packet loss is to be expected, but too much will affect performance and is usually a sign of congestion, low bandwidth, and/or network interference. Bandwidth is how much data can be optimally transferred, and throughput is how much is actually transferred over a certain time period.Įvery WiFi network action depends on data packets being transmitted between devices. Some applications, like video conferencing and VR, require a higher signal strength than others.īoth bandwidth and throughput should be measured to determine how well a network is transferring data. Determining your optimal strength requires you to evaluate elements such as how many devices are on your network and what typical network utilization looks like. Not all businesses need the same signal strength. Signal strength is measured in negative decibel-milliwatts (dBm), so -20dBm is a higher signal strength than -50dBm. This is a measure of how often WiFi service is available. Key performance indicators for business continuityįor a WiFi network that meets all user needs at all times, focus on these six essential WiFi network KPIs: Selecting the right KPIs is therefore essential to maintaining operations. KPIs are not the only factors to focus on, but because of what they measure, they provide a high-level look at the overall health of the network. Optimizing a WiFi network requires constant visibility into every aspect of the network ecosystem. They are used to identify potential and existing errors so that IT professionals can improve performance and protect business continuity. KPIs are a quantifiable measure of WiFi network performance. They must ensure key performance indicators (KPIs) always point to worry-free, problem-free networks. This puts significant pressure on IT professionals who must monitor, analyze, and troubleshoot networks of thousands of devices, 24/7. Maintaining reliable and optimal WiFi performance is necessary for success. Networks are becoming more complex, congested, and crucial. We are only growing increasingly dependent on our WiFi networks and WiFi-connected devices, applications, and other technologies. From billing, to designing, to communicating, to selling - if the WiFi is down or performs inconsistently, business continuity takes a hit. Almost every critical business function depends on the WiFi network.
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