Wi-fi Sensing
Wi-Fi sensing addresses the growing need for efficient, real-time monitoring of urban environments, a challenge that cities worldwide face as they continue to expand and evolve. Traditional methods of environmental monitoring, such as standalone sensors or cameras, often require substantial infrastructure and maintenance, making them costly and energy-intensive. Wi-Fi sensing, however, provides a sophisticated solution by leveraging existing wireless communication networks to perform dual functions: data collection and transmission. This not only reduces the need for separate sensor networks but also enhances the ability of urban planners and environmental managers to monitor various aspects of city life seamlessly.
At its core, Wi-Fi sensing relies on the latest advancements in integrated sensing and communication technologies, particularly those emerging with the advent of 6G networks. These networks are designed to simultaneously collect data (sensing) and transmit it (communication), all within the same infrastructure. For example, Wi-Fi signals can be used to detect changes in the environment, such as variations in humidity, temperature, or even the presence of people in a space. This data is then instantly communicated to relevant systems or authorities, enabling real-time responses. The efficiency of this system is further enhanced by its ability to reduce energy consumption and the use of silicon, making it not only a powerful tool but also an environmentally sustainable one.
By enabling more precise and dynamic environmental monitoring, this technology can play a crucial role in smart agriculture, helping to optimise water usage and crop management. It also offers significant benefits for environmental conservation, allowing for the continuous observation of natural habitats and the early detection of ecological changes. In urban planning, Wi-Fi sensing provides planners with detailed, real-time insights into how spaces are used, which can inform decisions on topics such as traffic management and public safety.
