Full duplex communications supporting concurrent transmission and reception in a single time/frequency channel has the potential of improving the attainable spectral efficiency and throughput by a factor of two. However, implementing full duplex communications has not been possible due to the large power difference at the receiver between the self-interference, imposed by the device’s own transmission, and the signal of interest received from a remote peer. In a typical cellular or wireless local area arrangement, this power difference can be as high as 70-80 dB or larger.
The scope of the present emerging technology initiative is to develop self-interference cancellation and mitigation techniques and to develop technology enablers and associated physical layer and medium access control layer algorithms and radio resource management techniques that facilitate full duplex communications in the next generation of wireless systems and, when applicable, in wireline networks.
Chair | Gabor Fodor, Ericsson Research and KTH Royal Institute of Technology, Sweden
Chan-Byoung Chae, Yonsei University, Korea
Risto Wichman, Aalto University, Finland
Taneli Riihonen, Tampere University of Technology, Finland
Melissa Duarte, Huawei Technologies, France
Ashutosh Sabharwal, Rice University, USA
Standardization Chair and Industry Liaison | Raghu M. Rao, GenXComm, USA
Secretary | José Mairton Barros da Silva Júnior, KTH Royal Institute of Technology, Sweden