Title :
High-resolution range estimation technique using shift invariant TOA estimation algorithm for indoor localization of chirp spread spectrum system
Author :
Ying-chun Li ; Jong-Wha Chong
Author_Institution :
SoC & Wireless location Lab., Hanyang Univ., Seoul, South Korea
Abstract :
We proposed a subspace-based two-way ranging system for high resolution indoor ranging that is robust to frequency offset. The problem of sampling frequency offset (SFO) is resolved by adopting SDS-TWR protocol, which is developed against SFO. Although there are many papers about subspace-based TOA estimations, they do not consider the effect of carrier frequency offset (CFO). We consider and resolve the effect of CFO through the proposed algorithm with chirp spread spectrum (CSS) signals. Experimental results are obtained through the prototype ranging system composed of a FPGA development board and a RF kit. Results show that the ranging error of the proposed ranging system averages less than 1 meter in an indoor environment.
Keywords :
field programmable gate arrays; indoor environment; protocols; signal resolution; signal sampling; time-of-arrival estimation; CFO effect; CSS signals; FPGA development board; RF kit; SDS- TWR protocol; SFO; carrier frequency offset effect; chirp spread spectrum system; estimation algorithm; frequency offset; high resolution indoor ranging; high-resolution range estimation technique; indoor environment; indoor localization; prototype ranging system; ranging error; sampling frequency offset; shift invariant; subspace-based TOA estimations; subspace-based two-way ranging system; Chirp; Distance measurement; Estimation; Frequency estimation; Protocols; Time frequency analysis; Time of arrival estimation; Chirp; Ranging system; Subspace; TOA;
Conference_Titel :
Network Infrastructure and Digital Content (IC-NIDC), 2012 3rd IEEE International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4673-2201-0
DOI :
10.1109/ICNIDC.2012.6418818
