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Application of homeostatic principles within evolutionary design processes: adaptive urban tissues

Milad Showkatbakhsh, Mohammed Makki

2020Journal of Computational Design and Engineering30 citationsDOIOpen Access PDF

Abstract

Abstract Nature is a repository of dynamic and intertwined processes ready to be analyzed and simulated. Homeostasis, as a scale-free and universal biological process across all species, ensures adaptability to perturbations caused by intrinsic and extrinsic stimuli. Homeostatic processes by which species maintain their stability are strongly present through ontogenetic and phylogenetic histories of living beings. Forms and behaviors of species are imperative to their homeostatic conditions. Although biomimicry has been established for many decades, and has made significant contributions to engineering and architecture, homeostasis has rarely been part of this field of research. The experiments presented in this paper aim to examine the applicability of biological principles of homeostasis into generative design processes in order to evolve urban superblocks with a degree of morphological and behavioral adaptation to environmental changes; the objective is to eventually develop a modus operandi for the design and development of cities with embedded dynamic adaptation attributes.

Topics & Concepts

AdaptabilityAdaptation (eye)Process (computing)BiologyCognitive scienceEcologyEngineeringComputer scienceNeurosciencePsychologyOperating systemDesign Education and PracticeArchitecture and Computational Design