A Comparison of Neighbourhood Selection Techniques in Spatio-Temporal Forecasting Models

Haworth, James; Cheng, Tao

doi:10.5194/isprsarchives-xl-2-7-2014

Cited by 3 publications

(2 citation statements)

References 26 publications

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“…(Gao, Sun, & Shi, 2011) apply a graphical Lasso approach. (Haworth & Cheng, 2014) give a comparison about different techniques. However, those are still based on a link level approach.…”

Section: Related Workmentioning

confidence: 98%

Spatio-Temporal Congestion Patterns in Urban Traffic Networks

Rempe¹,

Huber

Bogenberger

2016

Transportation Research Procedia

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Traffic congestion in urban areas is a big issue for cities around the world. Thus, studying congestion and respective counter measures is of high importance for the increasing urbanization of society. Congestion analysis and forecast is most of the times done either on a link-wise network or on a networkwide level. Though, due to bottlenecks in the infrastructure and similar commuting patterns by road users, usually the same parts of an urban traffic network get congested. The idea is to observe and investigate primarily these most vulnerable parts of the network, which are denoted as congestion clusters, as they are crucial to both, drivers and operators. A methodology for determining congestion clusters is described, which provides a significant amount of flexibility to be able to meet different needs for different applications or cities. Based on a five months set of Floating Car (FC) data, the suggested methodology is tested. First analyses are conducted to understand up to which degree these clusters are able to represent the congestion level of the entire network. Besides, correlations between the clusters are investigated on a statistical basis and conclusions are drawn. The results provide a basis for potential traffic estimation and forecast systems.

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“…(Gao, Sun, & Shi, 2011) apply a graphical Lasso approach. (Haworth & Cheng, 2014) give a comparison about different techniques. However, those are still based on a link level approach.…”

Section: Related Workmentioning

confidence: 98%

Spatio-Temporal Congestion Patterns in Urban Traffic Networks

Rempe¹,

Huber

Bogenberger

2016

Transportation Research Procedia

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“…Kamarianakis et al [51] applied LASSO to vector autoregressive models; Piatkowski et al [52] utilised LASSO and elastic net techniques to construct a graphical (random field) model; Li et al [53] and Zhou et al [54] executed preliminary feature selection and constructed LASSO-regularised autoregressive distributed lag models. Haworth and Cheng [55] analysed alternative regularisation techniques, maximum concave penalty (MCP) and smoothly clipped absolute deviation (SCAD), and found MCP beneficial with respect to the estimated STN sparsity.…”

Section: Class 4: Embedded Feature Selection Methodsmentioning

confidence: 99%

Feature selection and extraction in spatiotemporal traffic forecasting: a systematic literature review

Pavlyuk

2019

Eur. Transp. Res. Rev.

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A spatiotemporal approach that simultaneously utilises both spatial and temporal relationships is gaining scientific interest in the field of traffic flow forecasting. Accurate identification of the spatiotemporal structure (dependencies amongst traffic flows in space and time) plays a critical role in modern traffic forecasting methodologies, and recent developments of data-driven feature selection and extraction methods allow the identification of complex relationships. This paper systematically reviews studies that apply feature selection and extraction methods for spatiotemporal traffic forecasting. The reviewed bibliographic database includes 211 publications and covers the period from early 1984 to March 2018. A synthesis of bibliographic sources clarifies the advantages and disadvantages of different feature selection and extraction methods for learning the spatiotemporal structure and discovers trends in their applications. We conclude that there is a clear need for development of comprehensive guidelines for selecting appropriate spatiotemporal feature selection and extraction methods for urban traffic forecasting.

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