Joint Wireless Positioning and Emitter Identification in DVB-T Single Frequency Networks

Digital television (DTV) signal has been recognized as a promising signal for navigation and positioning. However, due to the single frequency network (SFN) transmission within the European standard digital video broadcasting terrestrial (DVB-T) system, emitter confusion problem occurs in navigation and positioning, resulting in that a receiver is unable to know from which emitter a received signal comes. In this paper, we consider the wireless positioning with emitter confusion problem in DVB-T SFN networks. A joint wireless positioning and emitter identification algorithm is proposed, which is based on the expectation maximization (EM) method. The proposed algorithm is tested in a scenario, where signals are received from three to five emitters. Simulation results show that, relying on more than three emitters used in the tests for 2-D positioning, the EM-assisted positioning algorithm is feasible to achieve accurate positioning results in the existence of the emitter confusion problem. Our studies show that the performance achieved by the proposed algorithm approaches the Cramér-Rao bound. Furthermore, the proposed algorithm is effective to identify the DTV emitters, and the positioning performance is robust to the emitter identification error. Additionally, our methodology is general, and can be employed for time of arrival-based positioning in any SFNs.

[1]  Jun Yan,et al.  Base station identification in single-frequency network positioning system under mixed line-of-sight/non-line-of-sight condition , 2012, IET Commun..

[2]  Wing-Kin Ma,et al.  Least squares algorithms for time-of-arrival-based mobile location , 2004, IEEE Transactions on Signal Processing.

[3]  Matthew Rabinowitz,et al.  A new positioning system using television synchronization signals , 2005, IEEE Transactions on Broadcasting.

[4]  Olivier Julien,et al.  Analysis on the TOA Tracking With DVB-T Signals for Positioning , 2016, IEEE Transactions on Broadcasting.

[5]  A. Brix Bayesian Data Analysis, 2nd edn , 2005 .

[6]  Tapabrata Maiti,et al.  Bayesian Data Analysis (2nd ed.) (Book) , 2004 .

[7]  Sailes K. Sengijpta Fundamentals of Statistical Signal Processing: Estimation Theory , 1995 .

[8]  D. Rubin,et al.  Maximum likelihood from incomplete data via the EM - algorithm plus discussions on the paper , 1977 .

[9]  Lie-Liang Yang,et al.  Time delay tracking for positioning in DTV networks , 2012, 2012 Ubiquitous Positioning, Indoor Navigation, and Location Based Service (UPINLBS).

[10]  Yan Hong,et al.  Indoor DTV reception: measurement techniques , 2004, IEEE Transactions on Broadcasting.

[11]  Olivier Julien,et al.  TOA Estimation for Positioning With DVB-T Signals in Outdoor Static Tests , 2015, IEEE Transactions on Broadcasting.

[12]  Xianbin Wang,et al.  A New Position Location System Using DTV Transmitter Identification Watermark Signals , 2006, EURASIP J. Adv. Signal Process..

[13]  Elliott D. Kaplan Understanding GPS : principles and applications , 1996 .

[14]  Niilo Sirola Closed-form algorithms in mobile positioning: Myths and misconceptions , 2010, 2010 7th Workshop on Positioning, Navigation and Communication.

[15]  Xianbin Wang,et al.  A New Positioning System Using DVB-T2 Transmitter Signature Waveforms in Single Frequency Networks , 2012, IEEE Transactions on Broadcasting.

[16]  Anders Mattsson Single frequency networks in DTV , 2005, IEEE Transactions on Broadcasting.