Stephan Robert scite author profile

We present a novel algorithm to match GPS trajectories onto maps offline (in batch mode) using techniques borrowed from the field of force-directed graph drawing. We consider a simulated physical system where each GPS trajectory is attracted or repelled by the underlying road network via electrical-like forces. We let the system evolve under the action of these physical forces such that individual trajectories are attracted towards candidate roads to obtain a map matching path. Our approach has several advantages compared to traditional, routing-based, algorithms for map matching, including the ability to account for noise and to avoid large detours due to outliers in the data whilst taking into account the underlying topological restrictions (such as one-way roads). Our empirical evaluation using real GPS traces shows that our method produces better map matching results compared to alternative offline map matching algorithms on average, especially for routes in dense, urban areas.

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Dynamic tuning of the maximum contention window (CWmax) for enhanced service differentiation in IEEE 802.11 wireless ad-hoc networks

Gannoune¹,

Robert²,

Tomar³

et al.

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Stephan Robert

New models for pseudo self-similar traffic

Ruin problem of a two-dimensional fractional Brownian motion risk process

Dynamic tuning of the contention window minimum (CW/sub min/) for enhanced service differentiation in IEEE 802.11 wireless ad-hoc networks

A force-directed approach for offline GPS trajectory map matching

Dynamic tuning of the maximum contention window (CWmax) for enhanced service differentiation in IEEE 802.11 wireless ad-hoc networks

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