Smart cities are pinnacles of technological and environmental innovation. In the age of artificial intelligence (AI), smart tech and the Internet of Things (IoT) will become more competent. This is pivotal in cleaning urban air, which is laden with pollutants and causing health concerns. How is AI bringing breaths of fresh air to cities?
Evidence for Using AI Air Detection and Purification Systems
A region’s air quality dataset is invaluable to a budding smart city. Air purification systems have improved data visualization paired with AI, better prioritizing what it needs to eliminate.
Do AI air purifiers improve places, or is this another tech trend? As legislation pushes its implementation, cities are undergoing trials to see how well it works to remove the most noteworthy pollutants. One study used a predictive model, employing four machine learning and two deep learning strategies to measure air quality in smart city applications. It recognized important contaminants, such as:
- PM2.5
- PM10
- O3
- CO
It also recognized changes in weather patterns and how that would influence the spread and density of the pollutants. The AI would learn how these variables interacted with each other to predict how the region handled low air quality. The models were successful in painting an accurate representation of the conditions, informing experts on what equipment to develop in the future to combat the most pressing concerns.
Innovations in AI Air Purification for Smart Cities
Discover what machinery is driving changes in urban air quality and how they function. What technologies are being used to improve smart cities?
Infrastructure workers need options for new builds or retrofits, and LG has created a new air conditioning system embedded with AI. The LG Whisen Objects Collection Tower adapts its direction, wind strength and temperature based on household behaviours and outside conditions. Its cleaning function requires no intervention or manual labor. It automatically sterilizes the air outlet and leverages a next-generation filter to minimize allergens. Tech like this will help buildings on a local level.
Philips also has an air purifier, adding to the industry’s competitive density. Its Air Performer 7000 series clears particulate matter, tackling dust mites, mold and harmful gases. Installing AI with this system gives operators more insight into their homes than ever, making them literate in what pollutants impact their region the most.
Smart home ventilation is crucial in influencing a city’s collective air. Significant amounts of indoor air seep outside and should be purified to contribute to the concentrations of better air. Ventilation also removes invading pollutants, including the following:
- Asbestos
- Lead
- Pesticides
- Radon
- Volatile organic compounds
- Biological pollutants like bacteria and pollen
Proof of a Positive Climate Impact
AI-powered air purifiers will improve city dwellers’ quality of life and contribute to decarbonization. Urban regions are heat islands, spreading pollutants at unprecedented paces while containing technologies and industrialization that produce them in higher concentrations. Manufacturers and industries in cities will use AI-powered indoor air quality sensors to monitor and report progress and cleaning efforts.
Smart city construction includes AI-informed air quality control and supplements other air-cleaning technologies, like clean power generators. Promoting green power lowers pollutant emissions by reducing reliance on fossil fuels poisoning the atmosphere.
Putting the AI in Air
AI will overwrite citizens’ assumptions about city air quality. The technology will get better as machine learning becomes more familiar with every area’s metrics and quirks, informing experts to develop equipment to clean even smarter. Because of the collaboration of AI and the IoT, smart cities have the potential to have some of the cleanest air in the world. Industry experts are learning how to better care for residents with every AI-informed breath.