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Cities worldwide are facing increasing environmental challenges such as rising temperatures, pollution, and scarce resources. Technology, especially artificial intelligence (AI), is emerging as a key player in addressing these issues. IBM recently partnered with five nonprofits focusing on urban sustainability to provide AI support that enhances their efforts.
These organizations tackle various urban challenges, including green space development, heat management, air quality, water resource management, and climate resilience. IBM’s AI-powered tools will enable them to make smarter decisions, analyze data more efficiently, and scale solutions to benefit city residents. This partnership exemplifies how technology and social impact can merge to shape the future of urban living.
Five Urban-Sustainability Nonprofits Chosen by IBM for AI-Driven Support
Fundación Plan21 – Planning Greener Public Spaces in Buenos Aires
Fundación Plan21 aims to transform neglected urban areas in Buenos Aires into green, community-friendly parks and gardens. Urban green spaces help reduce heat, improve air quality, and offer social and mental health benefits. Plan21 gathers data on temperature variations, air pollutants, pedestrian patterns, and vegetation cover to identify priority areas for intervention.
IBM’s AI will accelerate this analysis by integrating satellite imagery, climate data, and population demographics, enabling Plan21 to adopt a data-driven approach to urban greening. This will allow the nonprofit to simulate different planting scenarios, forecast environmental benefits, and advocate for projects with clear evidence of impact. As a result, Plan21 is expected to expand its reach across Buenos Aires, creating more accessible, healthier green spaces.
The City of Amsterdam – Mapping and Reducing Heat Stress
Heat stress is a growing concern in cities like Amsterdam, where summer heat poses health risks, especially to vulnerable populations. The city has collected data from temperature sensors, tree cover maps, and urban form surveys but struggled to target cooling strategies effectively. With IBM’s AI models, Amsterdam’s planners can identify micro-areas within neighborhoods most affected by heat.
This granular insight will help determine where to plant trees, install shade structures, or modify pavement materials to cool streets and parks. AI will also aid in simulating the effects of these changes over time, enabling efficient planning of cooling efforts across districts. This initiative aims to create a more comfortable urban environment during heat waves and improve public health outcomes.
Fundación Terram – Improving Air Quality in Santiago, Chile
Air pollution is a persistent issue in Santiago, where winter smog often reaches hazardous levels. Fundación Terram monitors pollution sources like vehicle emissions, industrial activities, and residential heating. Despite extensive data collection, interpreting this information quickly and accurately for timely policy decisions has been challenging.
IBM’s AI enhancements will enable Terram to process real-time sensor data and historical trends rapidly, producing clear visualizations and predictive models. This will help city officials and residents understand pollution peaks and sources more clearly. By combining AI forecasts with community outreach, Fundación Terram aims to promote effective pollution control measures, such as traffic restrictions on high-pollution days and incentives for cleaner technologies.
Miyakojima City – Managing Water Resources on a Japanese Island
Water scarcity is a pressing concern for Miyakojima, a subtropical island with limited freshwater resources. The city has collected data on groundwater levels, rainfall, and water consumption, but these datasets exist in separate systems. IBM will help Miyakojima build an AI-driven platform that integrates all relevant data, allowing officials to track water supply in near real-time.
This platform will also incorporate weather forecasts to anticipate droughts and adjust water usage recommendations accordingly. By using AI to balance demand with available supply, Miyakojima can prevent over-extraction and protect its aquifers, ensuring long-term water security.
Resilient Cities Catalyst – Supporting Climate Resilience Projects in US Cities
Resilient Cities Catalyst collaborates with US cities to prepare for climate-related risks, including flooding and extreme heat. Their work involves advising on infrastructure projects and community planning to reduce vulnerability and improve recovery capacity. One challenge is evaluating which projects offer the best safety and cost-effectiveness returns.
IBM’s AI tools allow the Catalyst team to run complex simulations of climate impacts under various scenarios, measuring the performance of interventions like green roofs and flood barriers. This evidence helps justify investments and prioritize impactful projects, supporting more informed decision-making and helping secure funding.
Conclusion
IBM’s collaboration with these five nonprofits illustrates how AI can address real-world urban sustainability challenges creatively and practically. From greener parks and cooler streets to cleaner air and better water management, these projects demonstrate how data-driven insights can support healthier, more sustainable cities. By equipping these organizations with tools for analyzing complex information and guiding informed action, IBM is helping them achieve measurable results more swiftly. As urban populations grow, partnerships like this are crucial for shaping more resilient and enjoyable cities.
