@article{ref1,
title="A graph-based approach to vehicle trajectory analysis",
journal="Journal of location based services",
year="2010",
author="Guo, Diansheng and Liu, Shufan and Jin, Hai",
volume="4",
number="3-4",
pages="-",
abstract="It is difficult to extract meaningful patterns from massive trajectory data. One of the main challenges is to characterise, compare and generalise trajectories to find overall patterns and trends. The major limitation of existing methods is that they do not consider topological relations among trajectories. This research proposes a graph-based approach that converts trajectory data to a graph-based representation and treats them as a complex network. Within the context of vehicle movements, the research develops a sequence of steps to extract representative points to reduce data redundancy, interpolate trajectories to accurately establish topological relationships among trajectories and locations, construct a graph (or matrix) representation of trajectories, apply a spatially constrained graph partitioning method to discover natural regions defined by trajectories and use the discovered regions to search and visualise trajectory clusters. Applications with a real data set shows that the authors' new approach can effectively facilitate the understanding of spatial and spatiotemporal patterns in trajectories and discover novel patterns that existing methods cannot find.<p />",
language="",
issn="1748-9725",
doi="",
url="http://dx.doi.org/"
}