Smart City Gnosys

Smart city article details

Title Clustering Pipeline For Vehicle Behavior In Smart Villages
ID_Doc 14531
Authors Bolaños-Martinez D.; Bermudez-Edo M.; Garrido J.L.
Year 2024
Published Information Fusion, 104
DOI http://dx.doi.org/10.1016/j.inffus.2023.102164
Abstract Smart cities and villages present a plethora of opportunities for fusing and managing multi-source data. However, in the analysis of mobility patterns, the use of only one data source (i.e., road sensors) without considering other contextual data sources, limits the understanding of the process. To address this gap, we propose a pipeline that integrates multiple data sources, providing valuable information for pattern extraction, mainly based on vehicle mobility behavior and provenance. Our research also highlights the critical role of selecting the appropriate normalization algorithm to scale input features from heterogeneous data sources, which has not received sufficient attention in the literature. We conducted our analysis using data from four License Plate Recognition (LPR) cameras, spanning nine months, and incorporating several databases that include provenance, gross income, and holiday information, resulting in a dataset of over 50,000 vehicles. Using this data and our clustering pipeline, we identified various traffic patterns among residents and visitors in a rural touristic area. Our findings assist data analysts in choosing algorithms for analyzing heterogeneous datasets. Moreover, policymakers could use our results to adjust the resources, such as new parking zones. © 2023 The Author(s)
Author Keywords Clustering; Explainability; Internet of Things (IoT); Sensors; Smart villages


Similar Articles

Id Similarity Authors Title Published
13158 View0.883Meegahapola L.; Kandappu T.; Jayarajah K.; Akoglu L.; Xiang S.; Misra A.Buscope: Fusing Individual & Aggregated Mobility Behavior For “Live” Smart City ServicesMobiSys 2019 - Proceedings of the 17th Annual International Conference on Mobile Systems, Applications, and Services (2019)
14519 View0.882Wu F.; Ma W.Clustering Analysis Of The Spatio-Temporal On-Street Parking Occupancy Data: A Case Study In Hong KongSustainability (Switzerland), 14, 13 (2022)
35056 View0.875Mahmud S.; Day C.M.Leveraging Data-Driven Traffic Management In Smart Cities: Datasets For Highway Traffic MonitoringThe Rise of Smart Cities: Advanced Structural Sensing and Monitoring Systems (2022)
25526 View0.874Liu J.; Yuan Y.Exploring Dynamic Urban Mobility Patterns From Traffic Flow Data Using Community DetectionAnnals of GIS, 30, 4 (2024)
59029 View0.871Ku W.K.; Kou K.P.; Lam S.H.; Wong K.I.Trip-Pair Based Clustering Model For Urban Mobility Of Bus Passengers In MacaoTransportmetrica A: Transport Science, 19, 3 (2023)
14518 View0.87Kumari P.M.K.; Manjaiah D.H.; Ashwini K.M.Clustering Algorithms To Analyse Smart City Traffic DataInternational Journal of Advanced Computer Science and Applications, 15, 8 (2024)
28517 View0.869Lohrer A.; Binder J.J.; Kröger P.Group Anomaly Detection For Spatio-Temporal Collective Behaviour Scenarios In Smart CitiesProceedings of the 15th ACM SIGSPATIAL International Workshop on Computational Transportation Science, IWCTS 2022 (2022)
17449 View0.869Höhne E.; Teich T.; Scharf O.; Leonhardt S.; Schlachte M.; Trommer M.; Mewes C.; Kraus M.; Bergelt S.; Queck-Hänel S.Data-Driven Mobility And Transport Planning In Municipalities: Smart Solutions For Limited ResourcesLecture Notes in Networks and Systems, 1028 LNNS (2024)
35052 View0.868Aburas H.; Shahrour I.; Sadek M.Leveraging Crowdsourcing For Mapping Mobility Restrictions In Data-Limited RegionsSmart Cities, 7, 5 (2024)
25928 View0.866Balsa-Barreiro J.; Valero-Mora P.M.; Menéndez M.; Mehmood R.Extraction Of Naturalistic Driving Patterns With Geographic Information SystemsMobile Networks and Applications, 28, 2 (2023)