![]() Many people have their WiFi devices on in public places, but they’re not connected to any networks. The 5GHz band supports a significantly greater amount of spectrum – up to 24 in some countries. If you add a fourth AP, you’ll need to copy the same channel, resulting in interference and lowering overall performance on that channel. Because the 2.4GHz band in which WiFi operates only has three non-overlapping channels, just three APs can be effectively deployed in a given region. The common solution – adding more Access Points when traffic increases in a dense area – will only work up to a point before bumping into WiFi’s spectrum limit. This allows you to deploy enough network capacity for your needs, especially when usage is high. Given that WiFi spectrum is a restricted resource, it’s important to make the best use of it possible. As a result, they will be required to build and operate high-performance carrier-grade WiFi networks that are scalable and able to meet consumers’ demand while also providing a high-quality user experience. WiFi technologies are becoming a necessary component of CSPs broadband plans. This type of interference is worse in an apartment complex with several neighbors nearby. A large WiFi network challenge is intermediate interference from other WiFi devices (e.g different networks) or non-WiFi devices (e.g microwaves). Although gigabit broadband connections have been brought into homes by these providers, they typically can’t regulate the home coverage situation. Today, nearly one-third of a CSP’s help desk calls are due to bad in-home connectivity. In any case, regardless of whether the uplink connection is wired fiber, cable or copper or LTE, WiFi is typically the most significant bottle-neck in subscriber performance. WiFi performance today is the key determining element in how a customer judges the QoE provided by their Communication Service Provider (CSP). The demand for carrier-grade WiFi services is increasing at a rapid rate, as IoT and 5G applications, as well as the growing use of smart everything, are all driving adoption. CSPs are less in control of application and device layers, however CSPs can control the usage of spectrum and capacity. The optimization of Wifi can be achieved by optimizing the user access layer, application layer, hardware layer, the spectrum and capacity. The quality of the user experience and high-performance WiFi networks are critical for CSP service success. ![]() WiFi is an important strategic component of network carriers and will continue to grow in future 5G networks. The digital home has seen a dramatic change in recent years in how we use WiFi networks – from an access network supporting a few laptop applications, to a mission-critical network now responsible for supporting many different types of data including video and voice services on various kinds of devices.ĬSPs now consider WiFi to be a necessary business asset. Newer devices don’t have wired connectivity options – WiFi is their only way to connect. With the introduction of end-user devices and cloud-based applications and data, WiFi networks have become the preferred choice for connectivity. Businesses that rely on their WiFi networks, such as hotels or restaurants, need to pay increased attention to this optimization – if you improve your WiFi network, it will positively impact your business’ bottom line. By minimizing the number of WiFi dropouts and maximizing the signal strength and speed, you can keep your customers happy and reduce customer turnover. The process of configuring a WiFi network for optimal performance is called WiFi Optimization. It also provides insights into how a network is performing and what steps you can take to improve it. The solution includes a variety of tools to help troubleshoot and optimize a WiFi network. ![]() WiFi Optimization for Telco & ISP Brands is an optimization solution that helps manage and improve WiFi performance. ![]()
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