Title :
High-precision position estimation in indoor environments
Author_Institution :
Dept. of Comput. Sci., Freie Univ. Berlin, Berlin, Germany
Abstract :
I survey the state of the art on high-precision position estimation in indoor environments with a focus on our own work at the Freie Universität Berlin. Indoor position estimation methods are introduced and shown to be sensitive to underlying assumptions on errors distributions. Performance of algorithms is shown to be location dependent. We compare results obtained by simulation to results obtained by experiments. Differences are caused by wrong assumptions on errors in simulation. Errors in experiments are less random than assumed, but proper models are too complex to be practical. To evaluate our experiments, we built a testbed and explain our robot based solution using off-the-self components. Ground truth is obtained using map matching, odometry, and scanning with a Kinect. The precision of 6.7cm is sufficient for current approaches with show errors one magnitude larger.
Keywords :
distance measurement; indoor environment; position measurement; radio transceivers; signal processing; time-of-arrival estimation; Freie Universitat Berlin; Kinect; error distribution; high-precision position estimation; indoor environments; indoor position estimation method; map matching; odometry; radio transceiver; receive signal strength; time-of-arrival estimation; Buildings; Clustering algorithms; Distance measurement; Estimation; Measurement errors; Measurement uncertainty; Robots; high precision; indoor localisation; simulation; survey; testbed;
Conference_Titel :
Advanced Computer Science and Information Systems (ICACSIS), 2013 International Conference on
Conference_Location :
Bali
DOI :
10.1109/ICACSIS.2013.6761545
