Title :
An improved NLOS detection scheme using stochastic characteristics for indoor localization
Author :
Horiba, Manato ; Okamoto, Eiji ; Shinohara, Toshiko ; Matsumura, Katsuhiko
Author_Institution :
Dept. of Comput. Sci. & Eng., Nagoya Inst. of Technol., Nagoya, Japan
Abstract :
Indoor localization scheme using sensor networks is expected to be applied in various fields, and the localization scheme using time of arrival (TOA) is well-known. However, the estimation accuracy of TOA localization is severely deteriorated in non-line-of-sight (NLOS) environments, and the NLOS mitigation scheme such as iterative minimum residual (IMR) scheme is required. The IMR scheme is often applied because of its lower calculation complexity. However, when an increased number of NLOS nodes exist, the NLOS detection errors increase in the IMR scheme and the estimation accuracy deteriorates. Therefore, in this paper, we propose a new scheme exploiting rough NLOS detection based on stochastic characteristics before the application of IMR scheme to improve the localization accuracy. The improved performance is shown by computer simulations.
Keywords :
indoor radio; interference suppression; sensor placement; stochastic processes; time-of-arrival estimation; wireless sensor networks; IMR scheme; NLOS detection errors; NLOS mitigation scheme; TOA localization; improved NLOS detection scheme; indoor localization technique; iterative minimum residual; non-line-of-sight; sensor networks; stochastic characteristics; time of arrival estimation accuracy; Accuracy; Estimation; Global Positioning System; Measurement uncertainty; Noise measurement; Position measurement; Stochastic processes; NLOS environment; TOA position estimation; iterative minimum residual scheme; sensor network; stochastic characteristics;
Conference_Titel :
Information Networking (ICOIN), 2015 International Conference on
Conference_Location :
Cambodia
DOI :
10.1109/ICOIN.2015.7057951
