Title :
Quasi-rectilinear (MSK, GMSK, OQAM) co-channel interference mitigation by three inputs widely linear fresh filtering
Author :
Chevalier, Pascal ; Chauvat, Remi ; Delmas, Jean-Pierre
Author_Institution :
CEDRIC Lab., CNAM, Paris, France
Abstract :
Widely linear (WL) filters have the capability to perform single antenna interference cancellation (SAIC) of one rectilinear (R) or quasi-rectilinear (QR) co-channel interference (CCI). The SAIC technology for QR signals is operational in GSM handsets but requires enhancements for both VAMOS standard, an evolution of GSM/EDGE standard, and FBMC-OQAM networks, which are candidate for 5G mobile networks. For this reason, we propose and analyze in this paper, for QR signals, a SAIC/MAIC enhancement based on the concept of three inputs WL FRESH filtering, exploiting almost exhaustively both the non-circularity and the cyclostationarity of QR signals, contrary to classical approaches which only exploit very partially these properties.
Keywords :
5G mobile communication; antenna arrays; cellular radio; channel bank filters; cochannel interference; interference suppression; quadrature amplitude modulation; 5G mobile network; FBMC-OQAM network; GSM handset; GSM-EDGE standard; QR cochannel interference mitigation; QR signal cyclostationarity; SAIC; SAIC/MAIC enhancement; VA-MOS standard; WL filter; filter bank multicarrier; quasirectilinear co-channel interference mitigation; single antenna interference cancellation; three input widely linear fresh filtering; GSM; Interference; Maximum likelihood estimation; Modulation; Receivers; Signal to noise ratio; CCI; Continuous-Time; FRESH; Non-circular; Pseudo-MLSE; Quasi-Rectilinear; SAIC; Widely linear;
Conference_Titel :
Acoustics, Speech and Signal Processing (ICASSP), 2015 IEEE International Conference on
Conference_Location :
South Brisbane, QLD
DOI :
10.1109/ICASSP.2015.7178408
