HashGAT-VCA: A vector cellular automata model with hash function and graph attention network for urban land-use change simulation

IF 7.9 1区 环境科学与生态学 Q1 ECOLOGY Landscape and Urban Planning Pub Date : 2024-06-21 DOI:10.1016/j.landurbplan.2024.105145
Qingfeng Guan , Jianfeng Li , Yaqian Zhai , Xun Liang , Yao Yao
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Abstract

Vector cellular automata (VCA) models, which excel at representing spatiotemporal dynamics of irregularly shaped land parcels, have been widely employed in land use change simulations. However, current research faces the following issues: (1) most VCA models neglect the spatial heterogeneity of driving factors within each land parcel when evaluating the environmental driving effects; (2) when calculating the neighborhood effects, simple statistics of land use types in neighboring parcels are often used, overlooking the influence of driving factors within neighboring parcels; (3) the ability to explore the interactions between land parcels is often limited. To address the aforementioned issues, this study proposes a HashGAT-VCA model for investigating urban land use changes. The model utilizes a Hash function to encode the non-uniform distribution of each driving factor within each irregularly shaped land parcel into a fixed-length vector, and constructs a graph structure between land parcels based on their spatial topological relationships. By employing a Graph Attention Network (GAT), the model explores the mechanisms of environmental driving effects and inter-parcel interactions to calculate the probability of land use change for each parcel. The proposed HashGAT-VCA model was applied to simulate urban land use changes in Shenzhen, China, from 2009 to 2012. Compared to other VCA models, the HashGAT-VCA demonstrated higher simulation accuracy. The results indicated that HashGAT-VCA can effectively capture the impacts of the heterogeneously distributed driving factors and the interactions between land parcels on land use changes. Additionally, this study simulated land use patterns for the years 2025 and 2030 under ecological control strategies, providing decision support for urban planning.

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HashGAT-VCA:带有哈希函数和图注意网络的矢量蜂窝自动机模型,用于城市土地利用变化模拟
矢量单元自动机(VCA)模型擅长表现形状不规则地块的时空动态,已被广泛应用于土地利用变化模拟。然而,目前的研究面临以下问题:(1)大多数 VCA 模型在评估环境驱动效应时,忽略了每个地块内驱动因素的空间异质性;(2)在计算邻近效应时,往往使用相邻地块土地利用类型的简单统计,忽略了相邻地块内驱动因素的影响;(3)探索地块间相互作用的能力往往有限。针对上述问题,本研究提出了一个用于研究城市土地利用变化的 HashGAT-VCA 模型。该模型利用哈希函数将每个不规则地块内各驱动因素的非均匀分布编码成固定长度的向量,并根据地块间的空间拓扑关系构建地块间的图结构。该模型采用图形注意网络(GAT),探索环境驱动效应和地块间相互作用的机制,从而计算出每个地块的土地利用变化概率。所提出的 HashGAT-VCA 模型被用于模拟中国深圳 2009 年至 2012 年的城市土地利用变化。与其他 VCA 模型相比,HashGAT-VCA 的模拟精度更高。结果表明,HashGAT-VCA 能有效捕捉异质性分布的驱动因素和地块之间的相互作用对土地利用变化的影响。此外,本研究还模拟了 2025 年和 2030 年生态控制策略下的土地利用模式,为城市规划提供了决策支持。
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来源期刊
Landscape and Urban Planning
Landscape and Urban Planning 环境科学-生态学
CiteScore
15.20
自引率
6.60%
发文量
232
审稿时长
6 months
期刊介绍: Landscape and Urban Planning is an international journal that aims to enhance our understanding of landscapes and promote sustainable solutions for landscape change. The journal focuses on landscapes as complex social-ecological systems that encompass various spatial and temporal dimensions. These landscapes possess aesthetic, natural, and cultural qualities that are valued by individuals in different ways, leading to actions that alter the landscape. With increasing urbanization and the need for ecological and cultural sensitivity at various scales, a multidisciplinary approach is necessary to comprehend and align social and ecological values for landscape sustainability. The journal believes that combining landscape science with planning and design can yield positive outcomes for both people and nature.
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