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The Metrics You Need to Measure for Optimal Wireless Performance

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(Image: Pixabay)

When it comes to enterprise wireless technologies, the secret to fast, reliable performance lies in the numbers. By studying a handful of key metrics, it's relatively easy to determine whether on-site wireless technologies and service providers are living up to their promised performance levels.

Building baselines

Wireless metrics are useful for establishing a baseline that network teams can periodically refer to evaluate a network's performance and reliability over a specific time frame. Metrics allow viewers to determine the stability and efficiency of a network’s components and activities, noted Jay Botelho, director of engineering at network performance management firm LiveAction. "Being able to understand these metrics can help [organizations] to quickly detect and resolve issues," he said. "As a result, teams can troubleshoot faster and reduce the frequency and duration of downtime incidents."

Packet loss metrics, for example, can be used to measure the quality of packet data for specific applications, such as Voice over Wide Local Area Network (VoWLAN). Latency measurements are an important tool for assessing transmission, server, and network delay. Organizations can turn to roaming latency results to pinpoint whether poor performance is caused by a faulty network device, an application, or the WLAN itself. "Network jitter helps measure a wireless network’s transfer rate and can indicate congestion or queuing on a network link," Botelho observed. "Packet re-transmission [statistics] can be an indication of a wireless network’s poor performance due to glitches with hidden nodes, collisions, and more."

Simple metrics

With all wireless technologies understanding basic RF metrics, such as the received signal strength indicator (RSSI) and signal-to-noise ratio (SNR), is essential. "For cellular, this is important because the device could be very far away from the nearby tower," said Anthony Lawson, manager, technical marketing engineering, for modem and router manufacturer Cradlepoint. "However, with Wi-Fi, the RSSI/SNR could be extremely good, but other metrics would be more important to the wireless user experience." Factors, such as channel interference and contention with other nearby wireless units, are critically important to the overall Wi-Fi user experience, Lawson noted.

Whenever a service issue arises, wireless signal strength and quality should be measured across the entire premises to provide an accurate, complete description of the problem. "Anecdotal pieces of information do not complete the picture showing the overall network performance," observed Slavko Djukic, CTO of Zinwave, a wireless antenna system manufacturer.

4G LTE and 5G

The strength and quality of cellular operators' signals within a building are typically measured by a pair of metrics: Reference Signal Received Power (RSRP) and Reference Signal Received Quality (RSRQ). "It can be difficult to measure these parameters directly without special equipment, so data throughput rates—both download and upload—and voice call quality are good proxies," Djukic noted. "Problems with either one suggests issues with the signal strength or quality in a building." A distributed antenna system can be used to address weak or poor quality signals within a building.

With 5G cellular technology knocking on the door, network managers need to pay even closer attention to metrics, given the technology's limited range and other unique characteristics. "One of the key metrics to watch as we move into mass-market 5G is latency," advised Adrian Baschnonga, global telecoms analyst lead for professional services firm EY. Improved network responsiveness will be critical to a host of new use cases in mobility, from vehicle-to-vehicle communications to remote surgery. "Ensuring that 5G delivers on its low-latency promise is essential if cutting-edge services for industry verticals are to mature," he noted.

Not worth a look

While many types of metrics are useful for ensuring optimal wireless performance, there's at least one widely-used indicator that isn't particularly meaningful or insightful—the signal strength bars displayed on users' mobile handsets. "In many cases, signal strength alone isn’t enough," Djukic stated. "Don’t look at the number of bars and think you have a good or a bad network inside your building."

Contrary to conventional wisdom, a low number of bars displayed on a device operating within a clean network environment—a location not drenched with competing wireless signals—may still allow a call, an app, or video download to proceed uninterrupted at an acceptable rate. "Conversely, five bars could indicate your phone is receiving a strong signal, but the quality may be too poor to create a usable connection," Djukic explained.

 

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