Sustainable urban landscapes: a computation framework for enhancing sustainability in early-stage design

IF 1.8 1区艺术学 0 ARCHITECTURE

Archnet-IJAR International Journal of Architectural Research Pub Date : 2023-10-17 DOI:10.1108/arch-06-2023-0152

Hatzav Yoffe, Noam Raanan, Shaked Fried, Pnina Plaut, Yasha Jacob Grobman

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引用次数: 0

Abstract

Purpose This study uses computer-aided design to improve the ecological and environmental sustainability of early-stage landscape designs. Urban expansion on open land and natural habitats has led to a decline in biodiversity and increased climate change impacts, affecting urban inhabitants' quality of life and well-being. While sustainability indicators have been employed to assess the performance of buildings and neighbourhoods, landscape designs' ecological and environmental sustainability has received comparatively less attention, particularly in early-design stages where applying sustainability approaches is impactful. Design/methodology/approach The authors propose a computation framework for evaluating key landscape sustainability indicators and providing real-time feedback to designers. The method integrates spatial indicators with widely recognized sustainability rating system credits. A specialized tool was developed for measuring biomass optimization, precipitation management and urban heat mitigation, and a proof-of-concept experiment tested the tool's effectiveness on three Mediterranean neighbourhood-level designs. Findings The results show a clear connection between the applied design strategy to the indicator behaviour. This connection enhances the ability to establish sustainability benchmarks for different types of landscape developments using parametric design. Practical implications The study allows non-expert designers to measure and embed landscape sustainability early in the design stages, thus lowering the entry level for incorporating biodiversity enhancement and climate mitigation approaches. Originality/value This study expands the parametric vocabulary for measuring landscape sustainability by introducing spatial ecosystem services and architectural sustainability indicators on a unified platform, enabling the integration of critical climate and biodiversity-loss solutions earlier in the development process.

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可持续城市景观:早期设计中提高可持续性的计算框架

目的利用计算机辅助设计提高景观设计初期的生态环境可持续性。在开放土地和自然栖息地上的城市扩张导致生物多样性下降，气候变化影响加剧，影响了城市居民的生活质量和福祉。虽然可持续性指标已被用于评估建筑和社区的性能，但景观设计的生态和环境可持续性受到的关注相对较少，特别是在应用可持续性方法的早期设计阶段。设计/方法/方法作者提出了一个计算框架，用于评估关键景观可持续性指标并向设计师提供实时反馈。该方法将空间指标与广泛认可的可持续性评级体系积分相结合。开发了一个专门的工具，用于测量生物质优化、降水管理和城市热缓解，并在三个地中海社区一级设计中进行了概念验证实验，测试了该工具的有效性。研究结果表明，应用设计策略与指标行为之间存在明确的联系。这种联系增强了使用参数化设计为不同类型的景观开发建立可持续性基准的能力。该研究允许非专业设计师在设计阶段早期测量和嵌入景观可持续性，从而降低纳入生物多样性增强和气候缓解方法的入门级。本研究通过在一个统一的平台上引入空间生态系统服务和建筑可持续性指标，扩展了测量景观可持续性的参数词汇，使关键的气候和生物多样性丧失解决方案能够在开发过程的早期整合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Archnet-IJAR International Journal of Architectural Research ARCHITECTURE-

CiteScore

5.50

自引率

35.50%

发文量

期刊介绍： Archnet-IJAR: International Journal of Architectural Research is an interdisciplinary scholarly journal of architecture, urban design and planning, and built environment studies. The journal aims at establishing a bridge between theory and practice in these fields. The journal acts as a platform that reports on the latest research findings for examining buildings and urban environments and debates innovative approaches for creating responsive environments. Archnet-IJAR is truly international and aims at strengthening ties between scholars, academics, and practitioners from the global north and the global south with contributors and readers reaching across the boundaries of cultures and geographies.