Investigating the Potential of Nighttime Light Data to Estimate Travel Demand

IF 2.1 3区地球科学 Q2 GEOGRAPHY

Transactions in GIS Pub Date : 2024-08-31 DOI:10.1111/tgis.13240

Chao Sun, Jian Lu

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引用次数: 0

Abstract

Taking the bike‐sharing travel demand (BSTD) as an example, this study investigates the potential of Nighttime Light (NTL) data to optimize forecasting performance and replace the land use factors. Stepwise regression is trained with the travel demand in each unit as the dependent variable, and land use factors are introduced as the independent variable one by one, which finds the set of independent variables. Five machine learning algorithms driven by ensemble learning and decision trees including the GBDT, Random Forecast, Adaboost, Extratrees, and Catboost, are employed and evaluated to achieve comparative analysis of “before considering‐after considering NTL data”. The methodological verification of Beijing city shows: (1) Adaboost and GBDT are superior to all other algorithms, since they generally have the highest R2, lowest RMSE, and lowest absolute MAPE. (2) All methods by employing NTL data obviously optimize the performance of BSTD forecast with decreased RMSE, decreased MAPE, etc. In particular, GBDT performs the best in reducing MSE, with a percentage of −99.99% in the training set and −86.985% in the test set, which AdaBoost, Extratrees, and Catboost follow. (3) Land use factors no longer make sense in predicting BSTD after employing NTL data, and NTL data has covered the roles of land use factors to ensure accuracy. The conclusions presented here enrich our understanding of the relative roles of land use factors and NTL data in travel demand and boost our optimization in traffic prediction in the future.

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研究夜间灯光数据在估算旅行需求方面的潜力

本研究以共享单车出行需求（BSTD）为例，探讨了夜间照明（NTL）数据优化预测性能并替代土地利用因素的潜力。以每个单元的出行需求为因变量，逐一引入土地利用因素为自变量，进行逐步回归训练，从而找到自变量集。采用集合学习和决策树驱动的五种机器学习算法，包括 GBDT、随机预测、Adaboost、Extratrees 和 Catboost，并对其进行评估，实现了 "考虑前-考虑后新界地块数据 "的对比分析。北京市的方法验证表明(1) Adaboost 和 GBDT 优于所有其他算法，因为它们通常具有最高的 R2、最低的 RMSE 和最低的绝对 MAPE。(2）采用 NTL 数据的所有方法都明显优化了 BSTD 预测的性能，降低了 RMSE 和 MAPE 等。其中，GBDT 在降低 MSE 方面表现最佳，在训练集中的 MSE 为-99.99%，在测试集中的 MSE 为-86.985%，AdaBoost、Extratrees 和 Catboost 紧随其后。(3）采用 NTL 数据后，土地利用因子对预测 BSTD 不再有意义，NTL 数据已涵盖了土地利用因子的作用，确保了预测的准确性。本文的结论丰富了我们对土地利用因素和新界线数据在出行需求中的相对作用的理解，并促进了我们未来交通预测的优化。

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

Transactions in GIS GEOGRAPHY-

CiteScore

4.60

自引率

8.30%

发文量

116

期刊介绍： Transactions in GIS is an international journal which provides a forum for high quality, original research articles, review articles, short notes and book reviews that focus on: - practical and theoretical issues influencing the development of GIS - the collection, analysis, modelling, interpretation and display of spatial data within GIS - the connections between GIS and related technologies - new GIS applications which help to solve problems affecting the natural or built environments, or business

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