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GeoInformatica
Erschienen in: GeoInformatica 4/2015

01.10.2015

Planning unobstructed paths in traffic-aware spatial networks

verfasst von: Shuo Shang, Jiajun Liu, Kai Zheng, Hua Lu, Torben Bach Pedersen, Ji-Rong Wen

Erschienen in: GeoInformatica | Ausgabe 4/2015

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Abstract

Route planning and recommendation have received significant attention in recent years. In this light, we study a novel problem of planning unobstructed paths in traffic-aware spatial networks (TAUP queries) to avoid potential traffic congestions. We propose two probabilistic TAUP queries: (1) a time-threshold query like “what is the path from the check-in desk to the flight SK 1217 with the minimum congestion probability to take at most 45 minutes?”, and (2) a probability-threshold query like “what is the fastest path from the check-in desk to the flight SK 1217 whose congestion probability is less than 20 %?”. These queries are mainly motivated by indoor space applications, but are also applicable in outdoor spaces. We believe that these queries are useful in some popular applications, such as planning unobstructed paths for VIP bags in airports and planning convenient routes for travelers. The TAUP queries are challenged by two difficulties: (1) how to model the traffic awareness in spatial networks practically, and (2) how to compute the TAUP queries efficiently under different query settings. To overcome these challenges, we construct a traffic-aware spatial network G t a (V, E) by analyzing uncertain trajectories of moving objects. Based on G t a (V, E), two efficient algorithms are developed to compute the TAUP queries. The performances of TAUP queries are verified by extensive experiments on real and synthetic spatial data.
Vorheriger Artikel Travel topic analysis: a mutually reinforcing method for geo-tagged photos
Nächster Artikel The CASE histogram: privacy-aware processing of trajectory data using aggregates

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Fußnoten
9
For a moving object o, when it arrives at vertex p, vertex p is occupied by other objects, and the number of objects to be processed exceeds the capability of vertex p. Then, object o has to be waiting at p, and this scenario is called congestion. The computation method of congestion time-delay is introduced in Section 3.1.
 
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Metadaten
Titel
Planning unobstructed paths in traffic-aware spatial networks
verfasst von
Shuo Shang
Jiajun Liu
Kai Zheng
Hua Lu
Torben Bach Pedersen
Ji-Rong Wen
Publikationsdatum
01.10.2015
Verlag
Springer US
Erschienen in
GeoInformatica / Ausgabe 4/2015
Print ISSN: 1384-6175
Elektronische ISSN: 1573-7624
DOI
https://doi.org/10.1007/s10707-015-0227-9

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