Spatio-temporal compression of trajectories in road networks
Résumé
With the proliferation of wireless communication devices integrating GPS technology,
trajectory datasets are becomingmore and more available. The problems concerning the transmission
and the storage of such data have become prominent with the continuous increase in volume of these
data. A few works in the field of moving object databases deal with spatio-temporal compression.
However, these works only consider the case of objects moving freely in the space. In this paper, we
tackle the problem of compressing trajectory data in road networks with deterministic error bounds.
We analyze the limitations of the existing methods and data models for road network trajectory
compression. Then, we propose an extended data model and a network partitioning algorithm into
long paths to increase the compression rates for the same error bound.We integrate these proposals
with the state-of-the-art Douglas-Peucker compression algorithm to obtain a new technique to
compress road network trajectory data with deterministic error bounds. The extensive experimental
results confirm the appropriateness of the proposed approach that exhibits compression rates close to
the ideal ones with respect to the employed Douglas-Peucker compression algorithm.