The Wireless Broadband Alliance (WBA), the global industry body dedicated to driving the seamless and interoperable service experience of Wi-Fi across the global wireless ecosystem, has shared 10 predictions, laid out by its President and CEO, Tiago Rodrigues, for Wi-Fi in 2025.
Wi-Fi Predictions for 2025 and Beyond
Early adopters of Wi-Fi 7 will include technology-driven industries, smart home enthusiasts, and enterprises needing high-density, high-speed connectivity. Large tech companies and advanced enterprises will be among the first to implement Wi-Fi 7 in their office infrastructures to support increased demands from remote collaboration tools, IoT sensors, and high-definition video conferencing.
Smart cities will also lead the charge, adopting Wi-Fi 7 to enable real-time data collection from IoT devices for traffic management, public safety, and environmental monitoring. Public venues like stadiums, airports, and convention centers will adopt Wi-Fi 7 early to manage the connectivity needs of thousands of simultaneous users, providing seamless streaming and data access for fans, travelers, and attendees. Within the consumer sector, tech-savvy users and smart home aficionados will upgrade to Wi-Fi 7 routers to maximize the performance of their growing array of connected devices, such as smart appliances, security systems, and entertainment systems for 8K streaming and gaming.
AFC (Automated Frequency Coordination) systems will see phased rollouts across multiple regions, particularly in the United States, Canada, the European Union, and parts of Asia, as regulators increasingly approve 6 GHz use for unlicensed Wi-Fi under AFC management. In the United States, the FCC will lead AFC implementation for standard-power Wi-Fi operations in the 6 GHz band, with licensed database administrators managing these AFC systems. Following the U.S. model, other countries are anticipated to adopt similar AFC frameworks, accelerating deployment in enterprise and public spaces by ensuring devices can operate at standard power levels in outdoor or high-traffic areas without compromising incumbent communications. In Canada, AFC approval by regulatory bodies will drive adoption in urban areas and suburban networks, supporting widespread use in places like shopping centers, airports, and sports venues. In Europe, the European Telecommunications Standards Institute (ETSI) will likely coordinate region-specific AFC guidelines, balancing connectivity needs with incumbent protections.
AI-powered routers and cloud platforms will analyze traffic patterns, adjust bandwidth allocation, and manage devices for optimal performance, particularly in smart homes and IoT-heavy environments. As hardware becomes increasingly commoditized, infrastructure vendors create their respective secret sauces to innovate and differentiate.
The convergence of 5G/6G and Wi-Fi will ensure seamless, high-quality connectivity by dynamically
2025 will continue to see an acceleration for OpenRoaming as global adoption continues to grow. Moving forward on the vision to transform public and guest Wi-Fi user experience, and changing the way we connect to Wi-Fi, from remote communities, to universities, stadiums, retail chains, large city deployments and more. OpenRoaming capabilities are extending into the IoT space, with zero touch provisioning of IoT devices, emergency calling and response and private cellular networks. At same time OpenRoaming expands the opportunity for MNOs and MVNOs to incorporate Wi-Fi as part of their wireless solutions to expand capacity and/or coverage, in particular for indoor scenarios.
TIP OpenWiFi adoption is projected to continue expanding, though the pace will likely be uneven
IoT Evolution with Wi-Fi Generations and Wi-Fi Halow – As the number of IoT devices continues to grow, Wi-Fi networks will be optimized to handle large-scale device connections. Wi-Fi 6’s and Wi-Fi 7’s ability to manage more simultaneous devices will become crucial in supporting smart homes, IoT, and smart cities. Further, the Wi-Fi HaLow standard will develop as a disruptive connectivity technology for IoT, with the potential to transform the IoT landscape. With its extensive range, superior penetration, and enhanced battery life, Wi-Fi HaLow is poised to revolutionize industries, including agriculture, smart cities, and manufacturing, improving efficiency and data collection. Wi-Fi HaLow is ready for primetime in the IoT ecosystem and is a natural fit, especially for long-range, intelligent applications.
The API-first strategy has transitioned from a progressive concept to a fundamental practice. Wi-Fi vendors are now building applications with APIs as the primary focus, ensuring that integration, scalability, and future growth are baked into the DNA of their digital solutions. This approach highlights the critical role of APIs in creating flexible, adaptable, and robust digital architectures. While using APIs provides a log of great flexibility and potential, every API integration project is inherently unique. Usually, a single integration build will take engineers at least several weeks. Once it’s built, engineers will likely need to allocate several hours per month to maintain the integration.
Municipalities and governments will continue to expand public Wi-Fi networks
Public Wi-Fi networks will be driven by smart city initiatives, offering free or low-cost connectivity in urban areas. These networks will support everything from smart transportation systems to energy management and public safety. OpenRoaming is set to play a pivotal role in the expansion of public and Smart City Wi-Fi networks. For Smart Cities like Tokyo, Barcelona and others, this seamless transition between networks enables reliable, continuous connectivity for citizens and devices alike, supporting applications like real-time traffic monitoring, public safety systems, and IoT-based services. Municipalities and public Wi-Fi providers will likely prioritize OpenRoaming to enhance user experience, simplify network management, and foster more data-rich urban environments.
Greater Focus on Energy Efficiency
Wi-Fi networks will prioritize energy efficiency, particularly for IoT devices requiring long battery life. Technologies such as Target Wake Time (TWT) will become more prevalent, reducing power consumption in connected devices by allowing them to schedule check-ins with the network.