The CASA model, grounded in complex systems theory and network science, offers a novel approach to assess and enhance urban resilience by integrating diverse social and environmental factors and identifying critical vulnerabilities.
An online platform has been developed to assess how close major cities around the world are to the 15-minute city ideal, where essential amenities are accessible within a 15-minute walk or bike ride for residents.
The paper proposes a framework to optimize the allocation of bike lanes in urban areas, considering the trade-off between improving the bike network and minimizing the impact on the car network. The key idea is to formulate the problem as a multi-criteria optimization problem and solve it using a linear programming approach.
superblockify is a Python package that enables the automated generation, visualization, and analysis of potential superblocks in cities, supporting data-driven urban planning and research.
Suburbs are a contentious topic, with strong opinions on both sides regarding their merits and drawbacks.
Integrating urban digital twins with geospatial dashboards enhances community awareness and facilitates decision-making for coastal resilience planning.
PlanGPT is a specialized Large Language Model tailored for urban and spatial planning, addressing unique challenges and enhancing efficiency for urban professionals.
Urban design significantly influences public transit efficiency and carbon emissions reduction.
Effective street network design characteristics enhance resilience and efficiency in the face of disruptions.
Urban planning tasks are enhanced through the specialized Large Language Model, PlanGPT, tailored for urban and spatial planning needs.