On Predicting and Compressing Vehicular GPS Traces

Many vehicular safety applications rely on vehicles periodically broadcasting their position information and location trace. In very dense networks, such safety messaging can lead to offered traffic loads that saturate the shared wireless medium. One approach to address this problem is to reduce the frequency of location update messages when the movements of a vehicle can be predicted by nearby vehicles. In this paper, we study how predictable vehicular locations are, given a Global Positioning System trace of a vehicles recent path. We empirically evaluate the performance of linear and higher degree polynomial prediction algorithms using about 2500 vehicle traces collected under city and highway driving conditions. We find that linear polynomial prediction using the two most recent known locations performs best. Also, traces with a time granularity of 0.2s are highly predictable in low speed city environments, and a location update rate of 1Hz may suffice to represent city vehicular movements. Lastly, the paper also evaluates compression of different time-granularity traces using line simplification and polynomial interpolation techniques to reduce message sizes.

[1]  F. Bai,et al.  Bounded-Latency Alerts in Vehicular Networks , 2007, 2007 Mobile Networking for Vehicular Environments.

[2]  Pravin Varaiya,et al.  A wireless token ring protocol for intelligent transportation systems , 2001, ITSC 2001. 2001 IEEE Intelligent Transportation Systems. Proceedings (Cat. No.01TH8585).

[3]  Hariharan Krishnan,et al.  Performance evaluation of safety applications over DSRC vehicular ad hoc networks , 2004, VANET '04.

[4]  TrajcevskiGoce,et al.  Spatio-temporal data reduction with deterministic error bounds , 2006, VLDB 2006.

[5]  Mustafa Ergen,et al.  Multichannel Medium Access Control for Dedicated Short-Range Communications , 2006, IEEE Transactions on Vehicular Technology.

[6]  Raja Sengupta,et al.  Cooperative Collision Warning Systems: Concept Definition and Experimental Implementation , 2006, J. Intell. Transp. Syst..

[7]  Raja Sengupta,et al.  Medium Access Control Protocol Design for Vehicle–Vehicle Safety Messages , 2007, IEEE Transactions on Vehicular Technology.

[8]  Ouri Wolfson,et al.  Spatio-temporal data reduction with deterministic error bounds , 2003, DIALM-POMC.

[9]  Panganamala Ramana Kumar,et al.  Efficient Message Composition and Coding for Cooperative Vehicular Safety Applications , 2007, IEEE Transactions on Vehicular Technology.