Residual self-interference cancellation and data detection in full-duplex communication systems
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Koohian, Abbas
Mehrpouyan, Hani
Nasir, Ali Arshad
Blostein, Steven D.
Durrani, Salman
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Institute of Electrical and Electronics Engineers (IEEE)
Abstract
—Residual self-interference cancellation is an important
practical requirement for realizing the full potential of
full-duplex (FD) communication. Traditionally, the residual selfinterference
is cancelled via digital processing at the baseband,
which requires accurate knowledge of channel estimates of the
desired and self-interference channels. In this work, we consider
point-to-point FD communication and propose a superimposed
signaling technique to cancel the residual self-interference and
detect the data without estimating the unknown channels. We
show that when the channel estimates are not available, data
detection in FD communication results in ambiguity if the
modulation constellation is symmetric around the origin. We
demonstrate that this ambiguity can be resolved by superimposed
signalling, i.e., by shifting the modulation constellation away from
the origin, to create an asymmetric modulation constellation.
We compare the performance of the proposed detection method
to that of the conventional channel estimation-based detection
method, where the unknown channels are first estimated and
then the data signal is detected. Simulations show that for the
same average energy over a transmission block, the bit error
rate performance of the proposed detection method is better than
that of the conventional method. The proposed method does not
require any channel estimates and is bandwidth efficient.
Index Terms—Full-duplex communication, symbol detection,
self-interference cancellation, superimposed signaling.
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