WI-FI PERFORMANCE OPTIMIZATION IN DENSE URBAN ENVIRONMENTS

Abstract

Urban living has embraced wireless fidelity (Wi-Fi), which now serves both personal and business needs for connectivity. However, variables in heavily populated urban locations, interference, channel selection, and deployment tactics can significantly impact Wi-Fi performance. This study examines various methods for enhancing Wi-Fi performance in challenging urban environments. We explore the complex labyrinth of WiFi problems in our quest for improvement while providing creative solutions. Beginning with an investigation of interference management, we will demonstrate the effectiveness of cutting-edge methods for real-time detection, mitigation, and adaptation. Next, we explore the area of sophisticated channel allocation, where flexible tactics and newly available spectrum resources are reshaping the WiFi environment in cities. Our journey ends with clever deployment tactics that turn rooftops and lampposts into connectivity beacons. This provides better traffic management and quality of service strategies to meet needs of urban dwellers. WiFi access has transformed from a convenience to a need in our increasingly urbanized world, enabling citizens, enterprises, and civic infrastructures. However, the special difficulties presented by densely populated urban environments—characterized by interference, a lack of spectrum resources, and complex building landscapes—require creative solutions to enhance WiFi performance and coverage. This inquiry sets out on a quest to unearth ground-breaking methods designed specifically for urban environments, tackling the urgent problems of interference, channel allocation, and tactical deployment. This study provides a thorough path to improve urban WiFi networks, ensuring that cities remain seamlessly linked and at the forefront of technological innovation. It does this by examining improved interference control, dynamic channel allocation, and smart network implementation.