Quantifying the relationships between network distance and straight-line distance: applications in spatial bias correction

IF 2.7 Q1 GEOGRAPHY

Annals of GIS Pub Date : 2021-08-12 DOI:10.1080/19475683.2021.1966503

Xinyue Chen, Yimin Chen

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引用次数: 4

Abstract

ABSTRACT In many applications of spatial analysis methods, straight-line Euclidean distance (ED) is frequently used as the distance metric. However, ED is not adequate to reflect the actual distance between spatial objects and would probably lead to biased results. In order to understand the effects of using ED, this study estimates the quantitative relationships between ED and actual network distance (ND) across 25 Chinese cities and identifies their spatial variations using functional data analysis (FDA). The analysis is based on the detour index (DI), which is defined as the ratio of ND to ED. The results reveal significant linear relationships between ND and ED (with an average DI value of 1.324) across all selected cities. FDA further unveils the modes of the spatial variations of DI from short-distance to long-distance travel at the intra-city scale, showing that short-distance travels in a city usually require more detour than long-distance ones. Finally, we take K-function analysis as an example to demonstrate the usefulness of the estimated DI relationships to correct the bias of ED. Our experiments show that by applying the estimated DI relationships, the results of K-function analysis with ED can be substantially improved to become more realistic. We also suggest and evaluate a kNN based method to determine an appropriate DI value and adjust ED.

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网络距离与直线距离关系的量化:在空间偏置校正中的应用

在许多空间分析方法的应用中，直线欧几里得距离(ED)常被用作距离度量。然而，ED不足以反映空间物体之间的实际距离，可能会导致结果偏差。为了更好地理解城市网络距离的影响，本研究估算了中国25个城市的网络距离与实际网络距离之间的定量关系，并利用功能数据分析(functional data analysis, FDA)识别了二者的空间差异。该分析基于绕行指数(DI)，该指数被定义为交通近距与交通近距的比率。结果显示，在所有选定的城市中，交通近距与交通近距之间存在显著的线性关系(平均DI值为1.324)。FDA进一步揭示了城市内出行从短途到长途的DI空间变化模式，表明城市内的短途出行通常比长途出行需要更多的弯路。最后，我们以k函数分析为例，证明了估计的DI关系对纠正ED偏差的有用性。我们的实验表明，通过应用估计的DI关系，可以大大改善ED的k函数分析结果，使其变得更加真实。我们还提出并评估了一种基于kNN的方法来确定合适的DI值和调整ED。

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

Annals of GIS Multiple-

CiteScore

8.30

自引率

2.00%

发文量