diff --git a/tex/bare_conf.tex b/tex/bare_conf.tex index 8c64751..3066310 100644 --- a/tex/bare_conf.tex +++ b/tex/bare_conf.tex @@ -32,7 +32,7 @@ %\updates{yes} % If there is an update available, un-comment this line -\Title{Integrating 802.11 Fine Timing Measurements into an Indoor Localization System} +\Title{Integrating 802.11 Fine Timing Measurements into an Indoor Positioning System} % Author Orchid ID: enter ID or remove command \newcommand{\orcidauthorA}{0000-0002-4698-8232} % Add \orcidA{} behind the author's name @@ -40,12 +40,12 @@ \newcommand{\orcidauthorC}{0000-0001-7213-1024} % Add \orcidC{} behind the author's name % Authors, for the paper (add full first names) -\Author{Toni Fetzer$^{1,*}$\orcidB{}, Frank Ebner$^{1}$\orcidA{}, Markus Bullmann$^{1}$\orcidC{}, Frank Deinzer$^{1}$ and Marcin Grzegorzek$^{2}$} +\Author{Markus Bullmann$^{1}$\orcidC{}, Toni Fetzer$^{1,*}$\orcidB{}, Frank Ebner$^{1}$\orcidA{}, Frank Deinzer$^{1}$ and Marcin Grzegorzek$^{2}$} % Authors, for metadata in PDF -\AuthorNames{Toni Fetzer, Frank Ebner, Markus Bullmann, Frank Deinzer and Marcin Grzegorzek} +\AuthorNames{Markus Bullmann, Toni Fetzer, Frank Ebner, Frank Deinzer and Marcin Grzegorzek} -\keyword{indoor localization; Wi-Fi; PDR; sensor fusion; smartphone; particle filter; sample impoverishment; estimation; historic buildings; navigation mesh} +\keyword{fine timing measurement; Wi-Fi; position estimation; sensor fusion; smartphone; indoor positioning system; IEEE 802.11-2016} % Affiliations / Addresses (Add [1] after \address if there is only one affiliation.) \address{% @@ -53,7 +53,7 @@ $^{1}$ \quad University of Applied Sciences W\"urzburg-Schweinfurt - Faculty of $^{2}$ \quad University of Siegen - Pattern Recognition Group; marcin.grzegorzek@uni-siegen.de} % Contact information of the corresponding author -\corres{Correspondence: toni.fetzer@fhws.de} +\corres{Correspondence: markus.bullmann@fhws.de} % missing math operators diff --git a/tex/chapters/1_introduction.tex b/tex/chapters/1_introduction.tex index c0b11ec..a83b0f3 100644 --- a/tex/chapters/1_introduction.tex +++ b/tex/chapters/1_introduction.tex @@ -1,7 +1,7 @@ \section{Introduction} \label{sec:intro} % (3/4 - 1 Seite) -Many indoor positing system (IPS) rely on radio technologies for estimating a pedestrian's position inside a building \cite{Ebner-15}. Probably the most widespread approaches are those based on Received Signal Strength Indication (RSSI) provided by Wi-Fi, as many buildings nowadays offer good infrastructure and as the be located receiver, standard smartphones can be used. These two features make Wi-Fi particularly interesting for the commercial consumer market, e.g. navigating inside an airport or shopping mall. +Many indoor positioning system (IPS) rely on radio technologies for estimating a pedestrian's position inside a building \cite{Ebner-15}. Probably the most widespread approaches are those based on Received Signal Strength Indication (RSSI) provided by Wi-Fi, as many buildings nowadays offer good infrastructure and as the be located receiver, standard smartphones can be used. These two features make Wi-Fi particularly interesting for the commercial consumer market, e.g. navigating inside an airport or shopping mall. %Probleme von RSSI By measuring the RSSI emitted from Wi-Fi access points (AP) at known locations, the receiver and thus the pedestrian is able to get its current position using the principles of multilateration.