This paper presents a case study where wireless sensor networks (WSNs) are exploited to provide indoor localization. Different low-complexity localization techniques, based on received signal strength indicator, are investigated and experimented. To develop a localization system several aspects has to be taken into account at different levels: technology, algorithms, and specifications imposed by location-aware applications. In particular, the following issues are addressed: WSN deployment planning, characterization of indoor propagation, presence of low-reliability measurements, on-field characterization of the deployed platform. The estimated position enables location-aware applications and services of a context-aware platform. Starting from typical context-aware application requirements we give an example of planning and tuning for the whole platform in addition to experimental results in terms of precision and accuracy of the localization platform.
Localization and Immersive Guide in Indoor Mobile Environments through Wireless Sensor Networks: a Support for Emergency Situations / T. Pavani; D. Dardari; A. Conti; O. Andrisano. - ELETTRONICO. - (2007). (Intervento presentato al convegno IEEE Conference on Wireless Rural and Emergency Communications, WRECOM 2007 tenutosi a Roma nel Ottobre 2007).
Localization and Immersive Guide in Indoor Mobile Environments through Wireless Sensor Networks: a Support for Emergency Situations
DARDARI, DAVIDE;ANDRISANO, ORESTE
2007
Abstract
This paper presents a case study where wireless sensor networks (WSNs) are exploited to provide indoor localization. Different low-complexity localization techniques, based on received signal strength indicator, are investigated and experimented. To develop a localization system several aspects has to be taken into account at different levels: technology, algorithms, and specifications imposed by location-aware applications. In particular, the following issues are addressed: WSN deployment planning, characterization of indoor propagation, presence of low-reliability measurements, on-field characterization of the deployed platform. The estimated position enables location-aware applications and services of a context-aware platform. Starting from typical context-aware application requirements we give an example of planning and tuning for the whole platform in addition to experimental results in terms of precision and accuracy of the localization platform.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.