提取城市系统建模的基本要素--词到矢量方法

IF 3.9 Q2 ENVIRONMENTAL SCIENCES
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引用次数: 0

摘要

由于其不断演变的性质,城市化的复杂性继续升级,进一步加剧了城市可持续发展的挑战。这就需要通过建模方法进行循证决策,以促进知情决策,推动城市可持续发展。主要的制约因素是,在将城市作为复杂系统建模时,如何以结构化的方式确定需要考虑的基本特征,并在认识到这些特征的相对重要性的同时将其整合在一起。可以从同行评审的文献中找出影响城市复杂系统建模的独特城市系统、相应的系统特征和相互依存关系。限制因素是,尽管研究数据库中广泛存在关于城市的信息,但将这些文献用于定量模型的能力尚未得到证实,因此存在研究空白。这种方法造成了极大的复杂性。为了解决这些复杂性,本研究寻求一种基于系统的方法,包括一个两层结构化协议,利用定性到定量技术自动提取影响城市模型开发的关键系统。通过系统的文献综述,从 Scopus 和 ScienceDirect 等研究数据库中定性提取了 13 个关键系统的数据,时间跨度为 2014 - 2024 年。通过 word2vector 分析,利用机器学习技术将每个城市系统定量映射为相应的系统特征,并根据相对重要性对其进行定量说明。结果表明,基于机器学习和文本分析,这种拟议的方法对于描述构成城市复杂系统的基本系统具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Extraction of the essential elements for urban systems modelling – A word-to-vector approach

Due to its ever-evolving nature, urbanisation continues to escalate in complexity, further exacerbating the urban sustainability challenges. This necessitates the need for evidence-based policymaking enabled by modelling approaches, to facilitate informed decisions, and propel and gravitate towards urban sustainability. The major constraint is that of identifying the essential characteristics for consideration when modelling cities as complex systems, in a structured manner that integrates these characteristics, cognisant of their relative importance. The distinctive urban systems, corresponding system characteristics and interdependencies impacting the modelling of cities as complex systems, can be identified from peer-reviewed literature. The limiting constraint is, although there is widely available information on cities in research databases, the ability to use this literature for a quantitative model has not been proven, presenting a research gap. This approach results in significant complexities. In order to resolve these complexities, this study seeks a systems-based approach including a 2-tier structured protocol, leveraging qualitative-to-quantitative techniques to automatically extract the key systems which impact the development of city models. Through a systematic literature review, data on 13 key systems is qualitatively extracted from research databases such as Scopus and ScienceDirect, for the duration 2014 – 2024. Through word2vector analysis, machine learning techniques are utilised to perform the quantitative mapping of each urban system into corresponding system characteristics, and quantitatively illustrate them based on relative importance. The results illustrate that this proposed method is significant to characterize the essential systems that constitute a city as a complex system, based on machine learning and text analytics.

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来源期刊
City and Environment Interactions
City and Environment Interactions Social Sciences-Urban Studies
CiteScore
6.00
自引率
3.00%
发文量
15
审稿时长
27 days
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