Planning at Site-Level in Hill Regions Using Geodesign-Based Approach

IF 1.5 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

International Review for Spatial Planning and Sustainable Development Pub Date : 2023-10-15 DOI:10.14246/irspsd.11.4_1

Neetu Kapoor, Vijay Kumar Bansal

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引用次数: 0

Abstract

The present study focuses on the development of the geodesign-based process for supporting site-level planning in hill regions. It provides a rational and quantitative approach to ensure sustainable development of hill regions. The process developed has three cycles which revolve around the five common core steps. In the first cycle, factors influencing site-level planning are identified and data corresponding to these factors are acquired. In the second cycle, methods for analysing the data acquired are finalized. Finally, in the third cycle, the methods finalized are executed to provide solution for site-level planning. The geographic information system (GIS)-based working model was developed for the automation of the developed process. The developed working model includes various GIS-based tools for spatial and overlay analysis, reclassification, and digitization to derive alternate scenarios. The process was implemented for its validation in the planning of the new institutional campus and identification of locations required for additional built-up spaces in an existing campus. The planning solution of the new institutional campus derived from the developed process has 10 % additional green area and conserved forest, 30% less surface runoff, and 11% more solar irradiance. The implementation results established that the planning decisions taken using the developed process were contextually more appropriate in conserving the sensitive ecosystem of the site under consideration.

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以地理设计为基础的方法在丘陵地区的地盘层面进行规划

本研究的重点是发展基于地理设计的过程，以支持丘陵地区的场地水平规划。为山区可持续发展提供了一种合理、定量的途径。开发的过程有三个周期，围绕着五个共同的核心步骤。在第一个周期中，确定影响场址一级规划的因素，并获取与这些因素相对应的数据。在第二个周期，最后确定分析所得数据的方法。最后，在第三个周期中，执行最终确定的方法，为场地级规划提供解决方案。为实现开发过程的自动化，建立了基于地理信息系统(GIS)的工作模型。开发的工作模型包括各种基于gis的工具，用于空间和覆盖分析、重新分类和数字化，以派生替代方案。该过程的实施是为了在新机构校园的规划中进行验证，并确定现有校园中额外建筑空间所需的位置。新机构校园的规划方案源于开发过程，增加了10%的绿地和保护森林，减少了30%的地表径流，增加了11%的太阳辐照度。实施结果表明，采用已开发的程序所作出的规划决定，在保护所考虑的地点的敏感生态系统方面，更切合实际。

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

International Review for Spatial Planning and Sustainable Development GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-

CiteScore

2.40

自引率

43.80%

发文量

期刊介绍： For investigation regarding the impact of planning policy on spatial planning implementation, International review for Spatial Planning and Sustainable Development (IRSPSD International) seeks to learn from researchers in an integrated multidisciplinary platform that reflects a variety of perspectives—such as economic development, social equality, and ecological protection—with a view to achieving a sustainable urban form. This international journal attempts to provide insights into the achievement of a sustainable urban form, through spatial planning and implementation; here, we focus on planning experiences at the levels of local cities and some metropolitan areas in the world, particularly in Asian countries. Submission are expected from multidisciplinary viewpoints encompassing land-use patterns, housing development, transportation, green design, and agricultural and ecological systems.