An Adaptive Vehicle Location Prediction Using Machine Learning: A Case Study of Campus Shuttle Bus

An Adaptive Vehicle Location Prediction Using Machine Learning: A Case Study of Campus Shuttle Bus

Vehicle location prediction and the use of vehicle location tracking are increasingly important topics of discussion among connected vehicle researchers. Location tracking for mobile users is essential due to the correlated services and to improve the quality of service; however, it is challenging....

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Bibliographic Details
Main Authors: Tarak Nandy, Raenu Kolandaisamy, Rafidah Md Noor, Sananda Bhattacharyya
Format: Article
Language:English
Published: IEEE 2025-01-01
Series:IEEE Access
Subjects:
Location prediction
intelligent transportation systems
machine learning
SVR
ARIMA
SARIMA
Online Access:https://ieeexplore.ieee.org/document/10971389/
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Summary:Vehicle location prediction and the use of vehicle location tracking are increasingly important topics of discussion among connected vehicle researchers. Location tracking for mobile users is essential due to the correlated services and to improve the quality of service; however, it is challenging. On the other hand, the stateless predictive model is unsuitable due to lower accuracy and mismatched pattern analysis. This paper proposed a vehicle location prediction model using machine learning based on a case study of a campus shuttle bus scenario. Firstly, this paper comprehensively analyzes the recent research on vehicle location prediction models and provides a complete taxonomy. The proposed model uses the Support Vector Regression (SVR) based vehicle location predictive model in the implementation phase. In addition, a significant time-series predictive model, ARIMA, is configured and tested. Moreover, the seasonal ARIMA model is experimented with to predict the location of a mobile vehicle. The whole experiment is performed on a real dataset based on the university shuttle bus service. The results of the experiments, analysis, and discussions on the proposed model show the accuracy and effectiveness of its use on others. As a result, seasonal ARIMA outperformed ARIMA and SVR infractions.
ISSN:2169-3536

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