Title :
The Membership Degree Min-Max localization algorithm
Author :
Will, Heiko ; Hillebrandt, Thomas ; Yang Yuan ; Zhao Yubin ; Kyas, Marcel
Author_Institution :
AG Comput. Syst. & Telematics, Freie Univ. Berlin, Berlin, Germany
Abstract :
We introduce the Membership Degree Min-Max (MD-Min-Max) localization algorithm as a precise and simple lateration algorithm for indoor localization. MD-Min-Max is based on the well known Min-Max algorithm that uses a bounding box to compute the position. We present an analysis of the Min-Max algorithm and show strengths and weaknesses in the spatial distribution of the position error. MD-Min-Max uses a Membership Function (MF) based on an estimated error distribution of the distance measurements to gain a higher precision than Min-Max. The algorithm has the same complexity as Min-Max and can be used for indoor localization even on small devices, e.g. in Wireless Sensor Networks (WSNs). To evaluate the performance of the algorithm we compare it with other Min-Max algorithms in simulations and in a large real world deployment of a WSN.
Keywords :
distance measurement; indoor radio; minimax techniques; radionavigation; wireless sensor networks; MD-min-max localization algorithm; WSN; bounding box; distance measurements; error distribution estimation; indoor localization; lateration algorithm; membership degree min-max localization algorithm; membership function; position error spatial distribution; wireless sensor networks; Algorithm design and analysis; Complexity theory; Distance measurement; Histograms; Measurement uncertainty; Mobile communication; Position measurement;
Conference_Titel :
Ubiquitous Positioning, Indoor Navigation, and Location Based Service (UPINLBS), 2012
Conference_Location :
Helsinki
Print_ISBN :
978-1-4673-1908-9
DOI :
10.1109/UPINLBS.2012.6409781
