Turn calculations for the indoor application of the fewest turns path algorithm

Present-day indoor navigation systems are often not well adapted to the specific needs and requirements of its users. This research aims at improving those indoor navigation systems by providing navigation support that cognitively closer to user preferences and behaviour. More specifically, the focu...

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Veröffentlicht in:	International journal of geographical information science : IJGIS 2019-11, Vol.33 (11), p.2284-2304
Hauptverfasser:	Vanclooster, Ann, Vanhaeren, Nina, Viaene, Pepijn, Ooms, Kristien, De Cock, Laure, Fack, Veerle, Van de Weghe, Nico, De Maeyer, Philippe
Format:	Artikel
Sprache:	eng
Schlagworte:	algorithm Algorithms Human motion indoor Indoor environments Mathematical analysis Navigation Navigation systems Network Perception turn User requirements Walking
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container_end_page	2304
container_issue	11
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container_title	International journal of geographical information science : IJGIS
container_volume	33
creator	Vanclooster, Ann Vanhaeren, Nina Viaene, Pepijn Ooms, Kristien De Cock, Laure Fack, Veerle Van de Weghe, Nico De Maeyer, Philippe
description	Present-day indoor navigation systems are often not well adapted to the specific needs and requirements of its users. This research aims at improving those indoor navigation systems by providing navigation support that cognitively closer to user preferences and behaviour. More specifically, the focus is on the implementation of an accurate turn calculation method in a turn minimization algorithm, aiming to lower the complexity of routes and route instructions. This new-introduced perception-based turn calculation procedure is based on a direct door-to-door walking pattern, and, in contrast to previous algorithms, independent of the underlying indoor network type. It takes into account the effects of geometry of indoor space on human movement. To evaluate its functioning, both the traditional algorithm and the proposed perception-based algorithm are applied in the fewest turns path algorithm. It is demonstrated that the proposed algorithm accurately calculates turns in alignment with people's perception. The implementation of the calculation algorithm in the fewest turns path algorithm also allows future applications in indoor simplest path algorithms, and overall contributes to cognitively richer indoor navigation systems.
doi_str_mv	10.1080/13658816.2019.1630629
format	Article
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subjects	algorithm Algorithms Human motion indoor Indoor environments Mathematical analysis Navigation Navigation systems Network Perception turn User requirements Walking
title	Turn calculations for the indoor application of the fewest turns path algorithm
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