TY - JOUR
AU1 - Taris, Thierry
AU2 - Ghiotto, Anthony
AU3 - Zhan, Zhaowu
AU4 - Villemaud, Guillaume
AU5 - Hutu, Florin
AU6 - Gorce, Jean-Marie
AB - This paper presents a full-duplex dual-band orthogonal frequency division duplexing (OFDM) radio architecture that enables the radio transceiver to be more flexible and provides a viable radio link capacity gain. A simple but practical I/Q imbalance estimation and compensation method, based on the frequency-flat-fading behavior of the self-interference channel, is proposed. The performance of the proposed I/Q imbalance compensation method is evaluated by link level simulation conducted with Advanced Design System and Matlab. The co-simulation results show that the proposed radio transceiver could potentially increase the physical layer transmission rate by four times compared with the conventional radio link at the cost of tolerable loss of bit error rate performance. The I/Q imbalance compensation method can effectively compensate both high and low I/Q imbalance without the problem of algorithm convergence.
TI - Digital I/Q imbalance correction for full-duplex dual-band OFDM radio transceivers
JF - International Journal of Microwave and Wireless Technologies
DO - 10.1017/S1759078715000811
DA - 2015-07-06
UR - https://www.deepdyve.com/lp/cambridge-university-press/digital-i-q-imbalance-correction-for-full-duplex-dual-band-ofdm-radio-VVMC3f0way
SP - 505
EP - 519
VL - 8
IS - 3
DP - DeepDyve
ER -