Imag(in)e nature: imaging energetic footprint of urban environments through multispectral data acquisition

Abstract

AbstractThe Vibrant Fields project endeavors to construct novel representational tectonics of urbanization, aiming to comprehend the materiality of forms and the genesis of multispectral relations within complex information systems governing the interplay of atmospheric and embodied energy cycles in the biosphere. This project asserts that any perceivable condition of nature arises from dynamic processes that transcend human sensory perception.Inspired by theoretical biology, the project models the urban environment as a systemic entity characterized by modularity, representing the biosphere's dynamic interplay of chemical and physical elements engaged in information exchange within ecological systems, influenced by technology, geography, and atmospheric conditions.Vibrant Fields utilizes layers of observation systems to translate the complex biosphere into dimensionally reduced data streams. It introduces complementary devices, bridging the gap between global and local data to better understand microclimatic phenomena.The project observes the simultaneous realities and temporalities of urban field information within its ecological context. It investigates the architecture, technology, flora, and fauna of cities in relation to their geographic, geological, and ecological conditions, analyzing multiple temporal historical and geological scales.