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Machine Learning
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Elastic translation invariant matching of trajectories

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Abstract

We investigate techniques for analysis and retrieval of object trajectories. We assume that a trajectory is a sequence of two or three dimensional points. Trajectory datasets are very common in environmental applications mobility experiments video surveillance and are especially important for the discovery of certain biological patterns. Such kind of data usually contain a great amount of noise that makes all previously used metrics fail. Therefore here we formalize non-metric similarity functions based on the Longest Common Subsequence (LCSS) which are very robust to noise and furthermore provide an intuitive notion of similarity between trajectories by giving more weight to the similar portions of the sequences. Stretching of sequences in time is allowed as well as global translating of the sequences in space. Efficient approximate algorithms that compute these similarity measures are also provided. We compare these new methods to the widely used Euclidean and Dynamic Time Warping distance functions (for real and synthetic data) and show the superiority of our approach especially under the strong presence of noise. We prove a weaker version of the triangle inequality and employ it in an indexing structure to answer nearest neighbor queries. Finally we present experimental results that validate the accuracy and efficiency of our approach. © 2005 Springer Science + Business Media Inc.

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Machine Learning

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