Camillo Vitale scite author profile

Camillo Vitale

2Publications

20Citation Statements Received

28Citation Statements Given

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University of L'Aquila

Publications

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Dynamic Arc-Flags in Road Networks

D’Angelo

Frigioni

Vitale

2011

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Abstract. In this work we introduce a new data structure, named RoadSigns, which allows us to efficiently update the Arc-Flags of a graph in a dynamic scenario. Road-Signs can be used to compute Arc-Flags, can be efficiently updated and do not require large space consumption for many real-world graphs like, e.g., graphs arising from road networks. In detail, we define an algorithm to preprocess Road-Signs and an algorithm to update them each time that a weight increase operation occurs on an edge of the network. We also experimentally analyze the proposed algorithms in real-world road networks showing that they yields a significant speedup in the updating phase of Arc-Flags, at the cost of a very small space and time overhead in the preprocessing phase.

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Fully Dynamic Maintenance of Arc-Flags in Road Networks

D’Angelo¹,

D’Emidio²,

Frigioni³

et al. 2012

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Abstract. The problem of finding best routes in road networks can be solved by applying Dijkstra's shortest paths algorithm. Unfortunately, road networks deriving from real-world applications are huge yielding unsustainable times to compute shortest paths. For this reason, great research efforts have been done to accelerate Dijkstra's algorithm on road networks. These efforts have led to the development of a number of speed-up techniques, as for example Arc-Flags, whose aim is to compute additional data in a preprocessing phase in order to accelerate the shortest paths queries in an on-line phase. The main drawback of most of these techniques is that they do not work well in dynamic scenarios. In this paper we propose a new algorithm to update the Arc-Flags of a graph subject to edge weight decrease operations. To check the practical performances of the new algorithm we experimentally analyze it, along with a previously known algorithm for edge weight increase operations, on real-world road networks subject to fully dynamic sequences of operations. Our experiments show a significant speed-up in the updating phase of the Arc-Flags, at the cost of a small space and time overhead in the preprocessing phase.

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Camillo Vitale

Dynamic Arc-Flags in Road Networks

Fully Dynamic Maintenance of Arc-Flags in Road Networks

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