Latest reports from the industry indicate that globally 5G subscriptions are closing in on 20% of all mobile subscriptions. Mobile operators are deploying 5G networks at an increasing rate and 5G is at an early stage of its life cycle. Global data usage increases year by year and mobile operators’ cellular networks are hard-pressed to withstand all the traffic, requiring investment in more infrastructure.
5G provides higher data rates and other benefits compared to the previous generations, but at the cost of lower signal range. Strong 5G signal for proper coverage requires operators investment in small cell networks and even with one customers might struggle with in-door service quality. At the same time, there are commercial and other WiFi network infrastructure already in place for many of the areas where operators struggle with in-door coverage.
In this blog post, we’ll take a look at underlying reasons driving the demand for Wi-Fi offloading, and how Radiator SIM Pack solution provides the seamless authentication to enable it. In short, with the performance and reliability that Wi-Fi 6 and 7 have brought to the table, it is easy to see the economical and environmental benefits Wi-Fi offloading brings to those who adopt it, all while improving end users’ coverage and quality of service indoors without need for massive infrastructure investments.
Solve coverage issues with existing infrastructure
Even before 5G, operators were struggling with in-door coverage of cellular networks. Upgrading to 5G will not improve the coverage, but rather do the exact opposite. 5G utilises higher signal frequency millimetre waves, which are unable to penetrate obstructions and have short range. This is becoming a key concern when designing 5G networks in congested areas. However, building a network of small cells to reach proper coverage in-doors is fast becoming a challenge for operators in urban areas.
Wi-Fi offloading can significantly enhance coverage and quality of service for network operators by leveraging the ubiquitous presence of Wi-Fi networks to alleviate congestion on cellular networks. By directing data traffic from overloaded cellular networks to available Wi-Fi connections, operators can effectively extend coverage into areas with weak cellular signal and manage high-demand scenarios, such as large public venues. Wi-Fi offloading not only optimises the utilisation of network resources but additionally offloading traffic to Wi-Fi can help operators reduce network congestion and associated operational costs, making it a win-win solution for both service providers and their customers.
As an added benefit for the end user, According to Wireless Broadband Association, smartphones and IoT devices using Wi-Fi 6 have an up to 67% lower power consumption compared to their respective cellular networks. This energy efficiency will be further enhanced with Wi-Fi 7. This does not directly affect the operator, but enhances the end users’ service quality.
Wi-Fi has gotten better. Much better.
This point is not specific to 5G, but rather for all operators who have previously considered Wi-Fi offloading and found Wi-Fi to have high latency, unreliable connections and low data rate, not matching the standard operators want for their networks. This may have been the case once, but not anymore.
Wi-Fi 6, 6E and especially Wi-Fi 7 have brought down latency (below 5ms on most estimations), increased data rate tremendously (up to 46 Gbps) and made connections much more reliable. And as discussed previously, Wi-Fi networks are built with coverage in mind, bringing offloading users optimal quality of service even in areas with dozens of devices online.
Another concern our MNO customers have expressed from time to time is that Wi-Fi security is not up to par with mobile networks. Today’s Wi-Fi offloading solutions use EAP-AKA and EAP-AKA’ authentication, which provides vast improvements to older protocols. IMSI Privacy and standards in MAC address randomisation should be in place in a modern Wi-Fi offloading solution, with which end users details remain private and can not be snooped. Security and privacy concerns are a thing of the past for operators who want to adopt Wi-Fi offloading, so long as the operator chooses a solution that provides these features.
5G and Wi-Fi 7: Better together
We’ve seen many industry blogs and articles discuss the differences of 5G and Wi-Fi, often comparing them as rivals and recommending customers choose one or the other based on their needs. This need not be the case. As leading operators have demonstrated, these networks are not at odds, but rather better utilised together.
Wi-Fi offloading can solve operators’ problem of coverage in congested areas, particularly in-doors and in large venues with high volumes of data traffic. These areas often have Wi-Fi infrastructure in place which operators can utilise, lessening the need for investment in small cell networks.
As an improvement to previous mobile network generations, Wi-Fi offloading has been clearly specified as part of 5G architecture in 3GPP standards (3GPP TS 33.501; Annex S). When viewed as part of the architecture with dedicated authentication interface, rather than a case-by-case solution, Wi-Fi offloading is becoming a more integral part of operators’ connectivity stack.
Looking to deploy Wi-Fi offloading in your network?
Are you looking to adopt Wi-Fi offloading to your cellular network? Radiator SIM Pack is the product for you! Radiator SIM Pack provides seamless authentication for mobile users roaming between cellular and wireless networks.
Radiator SIM Pack provides SIM-based authentication (EAP-SIM, EAP-AKA, EAP-AKA’) with IMSI Privacy and a variety of different integration options for Diameter interfaces and for logging. Often combined with the Radiator Policy and Charging Pack for OCS billing integration, these products provide a one stop shop for operators looking to adopt seamless Wi-Fi offloading for their mobile customers.
If you wish to learn more about our Wi-Fi offloading deployments, please do not hesitate to contact sales@radiatorsoftware.com
