CC BY 4.0Zhao, XinWu, ZuoBin2024-01-222024-01-222023978-908-28191-9-9https://hdl.handle.net/20.500.14235/1224Book of proceedings: 35th AESOP Annual Congress Integrated planning in a world of turbulence, Łódź, 11-15th July, 2023Urban flooding has become an increasing issue due to climate change and urbanization. To address this, urban resilience and parameterized design frameworks for flood-resilient urban planning are crucial. This study presents a framework that integrates the SCS-CN method and Grasshopper software. The SCS-CN method estimates urban runoff and infiltration, while Grasshopper creates adaptable planning workflows. A custom Grasshopper component automates SCS-CN calculations, generating design parameters for optimal flood resilience. The component considers land use, topography, and drainage infrastructure to evaluate design alternatives. This framework is valuable for examining trade-offs and identifying suitable design solutions, incorporating a multi-objective optimization approach for land-use configurations. Ultimately, this parameterized design framework aids urban planners in creating resilient and sustainable cities. Keywords: urban flooding, climate change, flood resilience strategies, parameterized design frameworkEnglishopenaccessConference object522-530