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Projecte llegit

Títol: Efficient Fingerprinting Radio Map Construction in Indoor Environments


Estudiants que han llegit aquest projecte:


Director/a: ZOLA, ENRICA VALERIA

Departament: ENTEL

Títol: Efficient Fingerprinting Radio Map Construction in Indoor Environments

Data inici oferta: 21-12-2021     Data finalització oferta: 21-07-2022



Estudis d'assignació del projecte:
    DG ENG SISTE/TELEMÀT
Tipus: Individual
 
Lloc de realització: EETAC
 
Segon director/a (UPC): MARTIN ESCALONA, ISRAEL
 
Paraules clau:
IEEE 802.11, indoor positioning, Wi-Fi, RTT, Gaussian process regression, radio map construction
 
Descripció del contingut i pla d'activitats:
The goal of this project is to define and analyze the
performance of an hybrid location system for indoor positioning.
For more info, please contact us!
 
Overview (resum en anglès):
The demand for indoor location services has exploded due to the wide range of applications they have to offer. For this purpose, classic positioning technologies (GPS among others) are not able to provide an effective response due to the low level of coverage they achieve. There are commercial solutions based on the use of Wi-Fi technology to offer this service, as it is widely deployed and accessible from practically any mobile device on the market, thus reducing the costs associated with its implementation. This work has analysed ¿fingerprinting¿, one of the positioning techniques that promises to provide the best results indoors. Its main limitation lies in the need to perform a manual mapping of the site prior to deployment. In order to have up-to-date information on the environment, mapping must be repeated frequently in these spaces due to their changing nature. The time and resource cost of such a procedure hampers the large-scale deployment of this technique. It is therefore proposed to use a Gaussian prediction model, which minimises the impact of the survey by scanning only certain points of the scenario and making a prediction of the remaining map. The main objective of the study was to determine the degree of similarity between the map generated by the algorithm and that resulting from a full manual scan. This partial scan is based on a set of time measurements over the location area, using strategically distributed Wi-Fi access points. The stability of this type of measurement is expected to reduce the update interval compared to other works in the field. Altogether, the current study proposes an efficient and innovative approach to the classical fingerprinting known to date.


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