Architecture, Building and Planning - Research Publications

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Author: Roudavski, Stanislav × Author: Yu, Tony × Type: Design/Architectural Work ×

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    Intelligent Lighting Networks
    Roudavski, S ; Yu, T (Future Implied Media Architecture Biennale, event by Amsterdam University of Applied Sciences, Utrecht University, and others. 24 June 2 July 2021, 2021)
    This project seeks to address detrimental effects of the environmental light pollution by developing intelligent lighting networks that can support nonhuman as well as human needs. The significance of this research is clear from one dramatic contradiction. On one hand, all life on the Earth has evolved to depend on darkness. Ecological evidence shows that harmful effects of light pollution are pervasive and affect all organisms, including humans. On the other hand, human societies crave more light to maximise economic activities. As a result, artificial sources of light at night are increasing by 6% every year. Codes and standards of current lighting design often fail to acknowledge the environmental impact as evident, for example, in the Australian lighting standards and local-council lighting strategies. Existing design trends do not acknowledge the needs of nonhumans or provide systems that can flexibly adapt to their behaviours. Computational analysis, simulation and interactive visualisation provide opportunities to reassess such approaches. We use these tools to ask how design can address the damaging misalignment of nonhuman needs and human preferences for light. In response, our project claims that computational analysis, simulation, and immersive digital media can combine human and nonhuman input to support better design. To test this proposition, this study 1) assesses scientific evidence on the impact of light; 2) reviews current and emerging lighting designs; 3) develops a conceptual framework for more-than-human design in application to lighting; and 4) tests this framework in a concrete design experiment that considers an intelligent lighting network for characteristic urban sites. Our results demonstrate that data-driven simulations, immersive interactive visualisations, and persistent multi-modal input systems can extend design imagination.