Decentralized Data Fusion and Active Sensing with Mobile Sensors for Modeling and Predicting Spatiotemporal Traffic Phenomena

Author(s)

Chen, Jie; Low, Kian Hsiang; Tan, Colin Keng-Yan; Oran, Ali; Jaillet, Patrick; Dolan, John; Sukhatme, Gaurav; ... Show more Show less

Abstract

The problem of modeling and predicting spatiotemporal traffic phenomena over an urban road network is important to many traffic applications such as detecting and forecasting congestion hotspots. This paper presents a decentralized data fusion and active sensing (D[superscript 2]FAS) algorithm for mobile sensors to actively explore the road network to gather and assimilate the most informative data for predicting the traffic phenomenon. We analyze the time and communication complexity of D[superscript 2]FAS and demonstrate that it can scale well with a large number of observations and sensors. We provide a theoretical guarantee on its predictive performance to be equivalent to that of a sophisticated centralized sparse approximation for the Gaussian process (GP) model: The computation of such a sparse approximate GP model can thus be parallelized and distributed among the mobile sensors (in a Google-like MapReduce paradigm), thereby achieving efficient and scalable prediction. We also theoretically guarantee its active sensing performance that improves under various practical environmental conditions. Empirical evaluation on real-world urban road network data shows that our D[superscript 2]FAS algorithm is significantly more time-efficient and scalable than state-of-the-art centralized algorithms while achieving comparable predictive performance.

Date issued

2012-08

URI

http://hdl.handle.net/1721.1/87049

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

Proceedings of the 2012 Conference on Uncertainty in Artificial Intelligence

Publisher

Association for Uncertainty in Artificial Intelligence (AUAI)

Citation

Chen, Jie et al. "Decentralized Data Fusion and Active Sensing with Mobile Sensors for Modeling and Predicting Spatiotemporal Traffic Phenomena." Proceedings of the 2012 Conference on Uncertainty in Artificial Intelligence, August 15-17, 2012.

Version: Author's final manuscript